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156
examples/asphyxia-cs2-823331a79cf867972c517af8e94259fd479e09cf/.clang-format Normal file
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# created by asphyxia for clang-format 15.0.2 version #
# alphabetically aranged (except global options) #
# https://clang.llvm.org/docs/ClangFormatStyleOptions.html #
# global options
DisableFormat: false
BasedOnStyle: Microsoft
Language: Cpp
Standard: c++20
# @todo: remove variables that equal defaults
AccessModifierOffset: -4
AlignAfterOpenBracket: DontAlign # @test: use false # @note: when set to 'DontAlign', dependent on 'ContinuationIndentWidth'
AlignArrayOfStructures: None
AlignConsecutiveAssignments: None
AlignConsecutiveBitFields: None
AlignConsecutiveDeclarations: None
AlignConsecutiveMacros: None
AlignEscapedNewlines: Left
AlignOperands: DontAlign # @test: use false # @note: when set to 'DontAlign', dependent on 'ContinuationIndentWidth'; when set to 'AlignAfterOperator', dependent on 'BreakBeforeBinaryOperators'
AlignTrailingComments: false
AllowAllArgumentsOnNextLine: false # @note: ignores 'BinPackArguments'
AllowAllParametersOfDeclarationOnNextLine: false # @note: ignores 'BinPackArguments'
AllowShortBlocksOnASingleLine: Empty
AllowShortCaseLabelsOnASingleLine: false
AllowShortEnumsOnASingleLine: false
AllowShortFunctionsOnASingleLine: Empty
AllowShortIfStatementsOnASingleLine: Never
AllowShortLambdasOnASingleLine: Inline
AllowShortLoopsOnASingleLine: false
AlwaysBreakAfterReturnType: None # @note: when set to 'None', dependent on 'PenaltyReturnTypeOnItsOwnLine'
AlwaysBreakBeforeMultilineStrings: false # @note: if true, dependent on 'ContinuationIndentWidth'
#AlwaysBreakTemplateDeclarations: Yes # @test: to make it work correctly with 'RequiresClausePosition' leave it unspecified # @note: when set to 'No', dependent on 'PenaltyBreakTemplateDeclaration'
#AttributeMacros: # @todo: tweak
BinPackArguments: true
BinPackParameters: true
BitFieldColonSpacing: Both
BraceWrapping:
AfterCaseLabel: true
AfterControlStatement: Always
AfterEnum: true
AfterFunction: true
AfterNamespace: true
AfterStruct: true
AfterUnion: true
AfterExternBlock: true
BeforeCatch: true
BeforeElse: true
BeforeLambdaBody: true
BeforeWhile: false
IndentBraces: false
SplitEmptyFunction: false # @note: dependent on 'AfterFunction' and 'AllowShortFunctionsOnASingleLine'
SplitEmptyRecord: false # @note: dependent on 'AfterClass'
SplitEmptyNamespace: true # @note: dependent on 'AfterNamespace'
#BreakAfterAttributes: Never # @todo: clan-format 16
#BreakArrays: false # @todo: clang-format 16 # @note: supported only for JSON
BreakBeforeBinaryOperators: None
BreakBeforeBraces: Custom # @note: when set to 'Custom', dependent on 'BraceWrapping'
BreakBeforeConceptDeclarations: Never
BreakBeforeTernaryOperators: false
BreakConstructorInitializers: AfterColon
#BreakInheritanceList: AfterComma # @note: to disable this, only leaving it unspecified works
BreakStringLiterals: false
ColumnLimit: 0
CompactNamespaces: false # @test: what if i gonna use nested namespaces like Foo::Bar?
#ConstructorInitializerIndentWidth: 0 # @test: tweak
ContinuationIndentWidth: 0
Cpp11BracedListStyle: false
DerivePointerAlignment: false # @note: if true, 'PointerAlignment' is only used as a fallback if none can be derived
EmptyLineAfterAccessModifier: Never # @note: when set to 'Leave' or 'Always', dependent on 'MaxEmptyLinesToKeep'
EmptyLineBeforeAccessModifier: LogicalBlock
FixNamespaceComments: false # @note: if true, dependent on 'ShortNamespaceLines'
IncludeBlocks: Regroup # @note: when set to 'Regroup', dependent on 'IncludeCategories'
#IncludeCategories: # @todo: tweak
#IncludeIsMainRegex: # @todo: tweak
IndentAccessModifiers: false # @note: if false, dependent on 'AccessModifierOffset'; if true, ignores 'AccessModifierOffset'
IndentCaseBlocks: false
IndentCaseLabels: false
IndentExternBlock: AfterExternBlock # @note: when set to 'AfterExternBlock', dependent on 'BraceWrapping.AfterExternBlock'
IndentGotoLabels: true
IndentPPDirectives: None
IndentRequiresClause: false # @note: if true, dependent on 'RequiresClausePosition'
IndentWidth: 4
IndentWrappedFunctionNames: true
InsertBraces: false
InsertTrailingCommas: None # @note: when set to 'Wrapped', conflicts with 'BinPackArguments'
KeepEmptyLinesAtTheStartOfBlocks: false
LambdaBodyIndentation: Signature
#LineEnding: LF # @todo: clang-format 16
MaxEmptyLinesToKeep: 1
NamespaceIndentation: All
PPIndentWidth: -1 # @note: when set to '-1', dependent on 'IndentWidth'
PackConstructorInitializers: NextLine # @todo: after clang-format 16 set this to 'NextLineOnly'
# @test: tweak
# ---
PenaltyBreakAssignment: 0
PenaltyBreakBeforeFirstCallParameter: 0
PenaltyBreakComment: 0
PenaltyBreakFirstLessLess: 0
PenaltyBreakOpenParenthesis: 0
PenaltyBreakString: 0
PenaltyBreakTemplateDeclaration: 0
PenaltyExcessCharacter: 0
PenaltyIndentedWhitespace: 0
PenaltyReturnTypeOnItsOwnLine: 0
# ---
PointerAlignment: Left
QualifierAlignment: Custom # @note: when set to 'Custom', dependent on 'QualifierOrder'; warning! setting this option to something other than 'Leave' could lead to incorrect code formatting
QualifierOrder: ['inline', 'static', 'constexpr', 'const', 'volatile', 'type', 'restrict']
ReferenceAlignment: Pointer # @note: when set to 'Pointer', dependent on 'PointerAlignment'
ReflowComments: false
#RemoveSemicolon: false # @todo: clang-format 16 # @note: warning! setting this option to true could lead to incorrect code formatting
RequiresClausePosition: WithPreceding # @test: this doesn't seem to work correctly when 'AlwaysBreakTemplateDeclarations' is set
#RequiresExpressionIndentation: OuterScope # @todo: clang-format 16
SeparateDefinitionBlocks: Always # @todo: use 'Leave'?
ShortNamespaceLines: 0
SortIncludes: Never # @test: CaseInsensitive
SortUsingDeclarations: true # @todo: after clang-format 16 change to 'Lexicographic'
SpaceAfterCStyleCast: false
SpaceAfterLogicalNot: false
SpaceAfterTemplateKeyword: true
SpaceAroundPointerQualifiers: Default # @note: when set to 'Default', dependent on 'PointerAlignment'
SpaceBeforeAssignmentOperators: true
SpaceBeforeCaseColon: false
SpaceBeforeCpp11BracedList: false
SpaceBeforeCtorInitializerColon: true
SpaceBeforeInheritanceColon: true
SpaceBeforeParens: Custom # @note: when set to 'Custom', dependent on 'SpaceBeforeParensOptions'
SpaceBeforeParensOptions:
AfterControlStatements: true
AfterForeachMacros: false
AfterFunctionDeclarationName: false
AfterIfMacros: false
AfterOverloadedOperator: false
AfterRequiresInClause: true
AfterRequiresInExpression: false
BeforeNonEmptyParentheses: false
SpaceBeforeRangeBasedForLoopColon: true
SpaceBeforeSquareBrackets: false
SpaceInEmptyBlock: true # @todo: this doesn't work for braced initilization for some reason
SpaceInEmptyParentheses: false
SpacesBeforeTrailingComments: 1 # @test: tweak
SpacesInAngles: Never
SpacesInCStyleCastParentheses: false
SpacesInConditionalStatement: false
SpacesInContainerLiterals: true
SpacesInLineCommentPrefix: # @note: dependent on 'ReflowComments'
Minimum: 1
Maximum: -1
SpacesInParentheses: false
SpacesInSquareBrackets: false
#TabWidth: # @todo: tweak or leave it as it is
UseCRLF: false # @todo: remove after clang-format 16
UseTab: Always # @todo: tweak
#WhitespaceSensitiveMacros: # @todo: tweak

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root = true
[*]
# Default parameters
indent_style = tab
indent_size = 4
end_of_line = lf
trim_trailing_whitespace = true
insert_final_newline = true
[*.{c,cc,cpp,cppm,cxx,h,hh,hpp,hxx,inl,ipp,ixx,tlh,tli,hlsl,hlsli}]
# Code style parameters Visual C++
cpp_generate_documentation_comments = doxygen_triple_slash
# Formatting parameters Visual C++
cpp_indent_braces = false
cpp_indent_multi_line_relative_to = innermost_parenthesis
cpp_indent_within_parentheses = indent
cpp_indent_preserve_within_parentheses = true
cpp_indent_case_contents = true
cpp_indent_case_labels = false
cpp_indent_case_contents_when_block = false
cpp_indent_lambda_braces_when_parameter = true
cpp_indent_goto_labels = one_left
cpp_indent_preprocessor = leftmost_column
cpp_indent_access_specifiers = false
cpp_indent_namespace_contents = true
cpp_indent_preserve_comments = false
cpp_new_line_before_open_brace_namespace = new_line
cpp_new_line_before_open_brace_type = new_line
cpp_new_line_before_open_brace_function = new_line
cpp_new_line_before_open_brace_block = new_line
cpp_new_line_before_open_brace_lambda = ignore
cpp_new_line_scope_braces_on_separate_lines = true
cpp_new_line_close_brace_same_line_empty_type = true
cpp_new_line_close_brace_same_line_empty_function = true
cpp_new_line_before_catch = true
cpp_new_line_before_else = true
cpp_new_line_before_while_in_do_while = false
cpp_space_before_function_open_parenthesis = remove
cpp_space_within_parameter_list_parentheses = false
cpp_space_between_empty_parameter_list_parentheses = false
cpp_space_after_keywords_in_control_flow_statements = true
cpp_space_within_control_flow_statement_parentheses = false
cpp_space_before_lambda_open_parenthesis = false
cpp_space_within_cast_parentheses = false
cpp_space_after_cast_close_parenthesis = false
cpp_space_within_expression_parentheses = false
cpp_space_before_block_open_brace = true
cpp_space_between_empty_braces = true
cpp_space_before_initializer_list_open_brace = false
cpp_space_within_initializer_list_braces = true
cpp_space_preserve_in_initializer_list = true
cpp_space_before_open_square_bracket = false
cpp_space_within_square_brackets = false
cpp_space_before_empty_square_brackets = false
cpp_space_between_empty_square_brackets = true
cpp_space_group_square_brackets = true
cpp_space_within_lambda_brackets = false
cpp_space_between_empty_lambda_brackets = true
cpp_space_before_comma = false
cpp_space_after_comma = true
cpp_space_remove_around_member_operators = true
cpp_space_before_inheritance_colon = true
cpp_space_before_constructor_colon = true
cpp_space_remove_before_semicolon = true
cpp_space_after_semicolon = true
cpp_space_remove_around_unary_operator = true
cpp_space_around_binary_operator = insert
cpp_space_around_assignment_operator = insert
cpp_space_pointer_reference_alignment = left
cpp_space_around_ternary_operator = insert
cpp_wrap_preserve_blocks = one_liners

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###############################################################################
# Set default behavior to automatically normalize line endings.
###############################################################################
* text=auto
###############################################################################
# Set default behavior for command prompt diff.
#
# This is need for earlier builds of msysgit that does not have it on by
# default for csharp files.
# Note: This is only used by command line
###############################################################################
#*.cs diff=csharp
###############################################################################
# Set the merge driver for project and solution files
#
# Merging from the command prompt will add diff markers to the files if there
# are conflicts (Merging from VS is not affected by the settings below, in VS
# the diff markers are never inserted). Diff markers may cause the following
# file extensions to fail to load in VS. An alternative would be to treat
# these files as binary and thus will always conflict and require user
# intervention with every merge. To do so, just uncomment the entries below
###############################################################################
#*.sln merge=binary
#*.csproj merge=binary
#*.vbproj merge=binary
#*.vcxproj merge=binary
#*.vcproj merge=binary
#*.dbproj merge=binary
#*.fsproj merge=binary
#*.lsproj merge=binary
#*.wixproj merge=binary
#*.modelproj merge=binary
#*.sqlproj merge=binary
#*.wwaproj merge=binary
###############################################################################
# behavior for image files
#
# image files are treated as binary by default.
###############################################################################
#*.jpg binary
#*.png binary
#*.gif binary
###############################################################################
# diff behavior for common document formats
#
# Convert binary document formats to text before diffing them. This feature
# is only available from the command line. Turn it on by uncommenting the
# entries below.
###############################################################################
#*.doc diff=astextplain
#*.DOC diff=astextplain
#*.docx diff=astextplain
#*.DOCX diff=astextplain
#*.dot diff=astextplain
#*.DOT diff=astextplain
#*.pdf diff=astextplain
#*.PDF diff=astextplain
#*.rtf diff=astextplain
#*.RTF diff=astextplain
*.h linguist-language=C++

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ko_fi: maecry22

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examples/asphyxia-cs2-823331a79cf867972c517af8e94259fd479e09cf/.github/ISSUE_TEMPLATE/bug_report.md vendored Normal file
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---
name: Bug report
about: Create a report to help us improve
title: ''
labels: bug
assignees: maecry
---
**Describe the bug**
A clear and concise description of what the bug is.
**To Reproduce**
Steps to reproduce the behavior:
**Expected behavior**
A clear and concise description of what you expected to happen.
**Screenshots**
If applicable, add screenshots to help explain your problem.
**Additional context**
Add any other context about the problem here.

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name: msbuild
on:
push:
branches: [ "master" ]
pull_request:
branches: [ "master" ]
permissions:
contents: read
jobs:
build:
runs-on: windows-2022
strategy:
matrix:
toolset: [v143]
configuration: [Release]
steps:
- name: setup actions
uses: actions/checkout@v3
- name: setup environment
uses: microsoft/setup-msbuild@v1.1
- name: build
shell: cmd
run: msbuild asphyxia.sln /p:Configuration=${{matrix.configuration}} /p:Platform=x64 /p:PlatformToolset=${{ matrix.toolset }}
- name: Upload the output
uses: actions/upload-artifact@main
with:
name: cstrike.dll
path: .\build\Release\*

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## Ignore Visual Studio temporary files, build results, and
## files generated by popular Visual Studio add-ons.
##
## Get latest from https://github.com/github/gitignore/blob/master/VisualStudio.gitignore
# User-specific files
*.rsuser
*.suo
*.user
*.userosscache
*.sln.docstates
# User-specific files (MonoDevelop/Xamarin Studio)
*.userprefs
# Mono auto generated files
mono_crash.*
# Build results
[Dd]ebug/
[Dd]ebugPublic/
[Rr]elease/
[Rr]eleases/
x64/
x86/
[Ww][Ii][Nn]32/
[Aa][Rr][Mm]/
[Aa][Rr][Mm]64/
bld/
[Bb]in/
[Oo]bj/
[Oo]ut/
[Ll]og/
[Ll]ogs/
# Visual Studio 2015/2017 cache/options directory
.vs/
# Uncomment if you have tasks that create the project's static files in wwwroot
#wwwroot/
# Visual Studio 2017 auto generated files
Generated\ Files/
# MSTest test Results
[Tt]est[Rr]esult*/
[Bb]uild[Ll]og.*
# NUnit
*.VisualState.xml
TestResult.xml
nunit-*.xml
# Build Results of an ATL Project
[Dd]ebugPS/
[Rr]eleasePS/
dlldata.c
# Benchmark Results
BenchmarkDotNet.Artifacts/
# .NET Core
project.lock.json
project.fragment.lock.json
artifacts/
# ASP.NET Scaffolding
ScaffoldingReadMe.txt
# StyleCop
StyleCopReport.xml
# Files built by Visual Studio
*_i.c
*_p.c
*_h.h
*.ilk
*.meta
*.obj
*.iobj
*.pch
*.pdb
*.ipdb
*.pgc
*.pgd
*.rsp
*.sbr
*.tlb
*.tli
*.tlh
*.tmp
*.tmp_proj
*_wpftmp.csproj
*.log
*.vspscc
*.vssscc
.builds
*.pidb
*.svclog
*.scc
# Chutzpah Test files
_Chutzpah*
# Visual C++ cache files
ipch/
*.aps
*.ncb
*.opendb
*.opensdf
*.sdf
*.cachefile
*.VC.db
*.VC.VC.opendb
# Visual Studio profiler
*.psess
*.vsp
*.vspx
*.sap
# Visual Studio Trace Files
*.e2e
# TFS 2012 Local Workspace
$tf/
# Guidance Automation Toolkit
*.gpState
# ReSharper is a .NET coding add-in
_ReSharper*/
*.[Rr]e[Ss]harper
*.DotSettings.user
# TeamCity is a build add-in
_TeamCity*
# DotCover is a Code Coverage Tool
*.dotCover
# AxoCover is a Code Coverage Tool
.axoCover/*
!.axoCover/settings.json
# Coverlet is a free, cross platform Code Coverage Tool
coverage*.json
coverage*.xml
coverage*.info
# Visual Studio code coverage results
*.coverage
*.coveragexml
# NCrunch
_NCrunch_*
.*crunch*.local.xml
nCrunchTemp_*
# MightyMoose
*.mm.*
AutoTest.Net/
# Web workbench (sass)
.sass-cache/
# Installshield output folder
[Ee]xpress/
# DocProject is a documentation generator add-in
DocProject/buildhelp/
DocProject/Help/*.HxT
DocProject/Help/*.HxC
DocProject/Help/*.hhc
DocProject/Help/*.hhk
DocProject/Help/*.hhp
DocProject/Help/Html2
DocProject/Help/html
# Click-Once directory
publish/
# Publish Web Output
*.[Pp]ublish.xml
*.azurePubxml
# Note: Comment the next line if you want to checkin your web deploy settings,
# but database connection strings (with potential passwords) will be unencrypted
*.pubxml
*.publishproj
# Microsoft Azure Web App publish settings. Comment the next line if you want to
# checkin your Azure Web App publish settings, but sensitive information contained
# in these scripts will be unencrypted
PublishScripts/
# NuGet Packages
*.nupkg
# NuGet Symbol Packages
*.snupkg
# The packages folder can be ignored because of Package Restore
**/[Pp]ackages/*
# except build/, which is used as an MSBuild target.
!**/[Pp]ackages/build/
# Uncomment if necessary however generally it will be regenerated when needed
#!**/[Pp]ackages/repositories.config
# NuGet v3's project.json files produces more ignorable files
*.nuget.props
*.nuget.targets
# Microsoft Azure Build Output
csx/
*.build.csdef
# Microsoft Azure Emulator
ecf/
rcf/
# Windows Store app package directories and files
AppPackages/
BundleArtifacts/
Package.StoreAssociation.xml
_pkginfo.txt
*.appx
*.appxbundle
*.appxupload
# Visual Studio cache files
# files ending in .cache can be ignored
*.[Cc]ache
# but keep track of directories ending in .cache
!?*.[Cc]ache/
# Others
ClientBin/
~$*
*~
*.dbmdl
*.dbproj.schemaview
*.jfm
*.pfx
*.publishsettings
orleans.codegen.cs
# Including strong name files can present a security risk
# (https://github.com/github/gitignore/pull/2483#issue-259490424)
#*.snk
# Since there are multiple workflows, uncomment next line to ignore bower_components
# (https://github.com/github/gitignore/pull/1529#issuecomment-104372622)
#bower_components/
# RIA/Silverlight projects
Generated_Code/
# Backup & report files from converting an old project file
# to a newer Visual Studio version. Backup files are not needed,
# because we have git ;-)
_UpgradeReport_Files/
Backup*/
UpgradeLog*.XML
UpgradeLog*.htm
ServiceFabricBackup/
*.rptproj.bak
# SQL Server files
*.mdf
*.ldf
*.ndf
# Business Intelligence projects
*.rdl.data
*.bim.layout
*.bim_*.settings
*.rptproj.rsuser
*- [Bb]ackup.rdl
*- [Bb]ackup ([0-9]).rdl
*- [Bb]ackup ([0-9][0-9]).rdl
# Microsoft Fakes
FakesAssemblies/
# GhostDoc plugin setting file
*.GhostDoc.xml
# Node.js Tools for Visual Studio
.ntvs_analysis.dat
node_modules/
# Visual Studio 6 build log
*.plg
# Visual Studio 6 workspace options file
*.opt
# Visual Studio 6 auto-generated workspace file (contains which files were open etc.)
*.vbw
# Visual Studio LightSwitch build output
**/*.HTMLClient/GeneratedArtifacts
**/*.DesktopClient/GeneratedArtifacts
**/*.DesktopClient/ModelManifest.xml
**/*.Server/GeneratedArtifacts
**/*.Server/ModelManifest.xml
_Pvt_Extensions
# Paket dependency manager
.paket/paket.exe
paket-files/
# FAKE - F# Make
.fake/
# CodeRush personal settings
.cr/personal
# Python Tools for Visual Studio (PTVS)
__pycache__/
*.pyc
# Cake - Uncomment if you are using it
# tools/**
# !tools/packages.config
# Tabs Studio
*.tss
# Telerik's JustMock configuration file
*.jmconfig
# BizTalk build output
*.btp.cs
*.btm.cs
*.odx.cs
*.xsd.cs
# OpenCover UI analysis results
OpenCover/
# Azure Stream Analytics local run output
ASALocalRun/
# MSBuild Binary and Structured Log
*.binlog
# NVidia Nsight GPU debugger configuration file
*.nvuser
# MFractors (Xamarin productivity tool) working folder
.mfractor/
# Local History for Visual Studio
.localhistory/
# BeatPulse healthcheck temp database
healthchecksdb
# Backup folder for Package Reference Convert tool in Visual Studio 2017
MigrationBackup/
# Ionide (cross platform F# VS Code tools) working folder
.ionide/
# Fody - auto-generated XML schema
FodyWeavers.xsd

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MIT License
Copyright (c) 2023 maecry
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.

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Microsoft Visual Studio Solution File, Format Version 12.00
# Visual Studio Version 17
Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "cstrike", "cstrike\cstrike.vcxproj", "{DAC639DD-46A6-B878-4FBE-434FBB1C1FDA}"
EndProject
Global
GlobalSection(SolutionConfigurationPlatforms) = preSolution
Debug|x64 = Debug|x64
Release|x64 = Release|x64
EndGlobalSection
GlobalSection(ProjectConfigurationPlatforms) = postSolution
{DAC639DD-46A6-B878-4FBE-434FBB1C1FDA}.Debug|x64.ActiveCfg = Debug|x64
{DAC639DD-46A6-B878-4FBE-434FBB1C1FDA}.Debug|x64.Build.0 = Debug|x64
{DAC639DD-46A6-B878-4FBE-434FBB1C1FDA}.Release|x64.ActiveCfg = Release|x64
{DAC639DD-46A6-B878-4FBE-434FBB1C1FDA}.Release|x64.Build.0 = Release|x64
EndGlobalSection
GlobalSection(SolutionProperties) = preSolution
HideSolutionNode = FALSE
EndGlobalSection
EndGlobal

252
examples/asphyxia-cs2-823331a79cf867972c517af8e94259fd479e09cf/cstrike/common.h Normal file
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#pragma once
/*
* current build of cheat, change this when you made noticeable changes
* - used for automatic adaptation mechanism of configuration files from previous versions
*/
#define CS_VERSION 1000
/*
* current build of CS2
* - used to verify game version
*/
#define CS_PRODUCTSTRINGVERSION CS_XOR("1.40.2.7")
/*
* game's modules
*/
#define CLIENT_DLL CS_XOR(L"client.dll")
#define ENGINE2_DLL CS_XOR(L"engine2.dll")
#define SCHEMASYSTEM_DLL CS_XOR(L"schemasystem.dll")
#define INPUTSYSTEM_DLL CS_XOR(L"inputsystem.dll")
#define SDL3_DLL CS_XOR(L"SDL3.dll")
#define TIER0_DLL CS_XOR(L"tier0.dll")
#define NAVSYSTEM_DLL CS_XOR(L"navsystem.dll")
#define RENDERSYSTEM_DLL CS_XOR(L"rendersystemdx11.dll")
#define LOCALIZE_DLL CS_XOR(L"localize.dll")
#define DBGHELP_DLL CS_XOR(L"dbghelp.dll")
#define GAMEOVERLAYRENDERER_DLL CS_XOR(L"gameoverlayrenderer64.dll")
#define PARTICLES_DLL CS_XOR(L"particles.dll")
#define SCENESYSTEM_DLL CS_XOR(L"scenesystem.dll")
#define MATERIAL_SYSTEM2_DLL CS_XOR(L"materialsystem2.dll")
#define MATCHMAKING_DLL CS_XOR(L"matchmaking.dll")
#define RESOURCESYSTEM_DLL CS_XOR(L"resourcesystem.dll")
/*
* define to specify default string encryption
*/
#ifdef _DEBUG
#define CS_XOR(STRING) STRING
#else
#define JM_XORSTR_DISABLE_AVX_INTRINSICS
// used: string encryption
#include "xorstr.h"
#define CS_XOR(STRING) xorstr_(STRING)
#endif
// define to enable logging output to console
#ifdef _DEBUG
#define CS_LOG_CONSOLE
#endif
// define to enable logging output to file
#define CS_LOG_FILE
// define to enable additional run-time checks
#ifdef _DEBUG
#define CS_PARANOID
#endif
/*
* define to search all possible occurrences for pattern and log if pattern isn't unique
* - useful for keeping patterns up to date and preventing possible inconsistent behavior
*/
#ifdef _DEBUG
#define CS_PARANOID_PATTERN_UNIQUENESS
#endif
/*
* define to overwrite configuration file formatter implementation
*/
#define CS_CONFIGURATION_BINARY
// name of the default configuration file
#define CS_CONFIGURATION_DEFAULT_FILE_NAME L"default"
// define to force disable behavior based on "Run-Time Type Information", even if available
//#define CS_NO_RTTI
// @todo: use #warning instead of static asserts when c++23 comes out
#pragma region common_architecture_specific
#if defined(i386) || defined(__i386__) || defined(__i486__) || defined(__i586__) || defined(__i686__) || defined(__i386) || defined(_M_IX86) || defined(_X86_) || defined(__THW_INTEL__) || defined(__I86__) || defined(__INTEL__)
#define CS_ARCH_X86
#elif defined(__LP64__) || (defined(__x86_64__) && !defined(__ILP32__)) || defined(_M_X64) || defined(__ia64) || defined(_M_IA64) || defined(__aarch64__) || defined(__powerpc64__)
#define CS_ARCH_X64
#else
static_assert(false, "could not determine the target architecture, consider define it manually!");
#endif
#pragma region common_compiler_specific
#ifdef _MSC_VER
#define CS_COMPILER_MSC
#endif
#ifdef __clang__ // @note: clang-cl have defined both 'CS_COMPILER_CLANG' and 'CS_COMPILER_MSC'
#define CS_COMPILER_CLANG
#endif
#ifdef __has_builtin
#define CS_HAS_BUILTIN(BUILTIN) __has_builtin(BUILTIN)
#else
#define CS_HAS_BUILTIN(BUILTIN) 0
#endif
#ifdef CS_COMPILER_MSC
// treat "discarding return value of function with 'nodiscard' attribute" warning as error
#pragma warning(error : 4834)
#endif
#ifdef CS_COMPILER_CLANG
#pragma clang diagnostic ignored "-Wunused-private-field"
#endif
#if defined(CS_COMPILER_MSC) || defined(CS_COMPILER_CLANG)
#define CS_NAKED __declspec(naked)
#endif
// @todo: platform dependent / but currently we shouldn't give fuck on it
#define CS_CDECL __cdecl
#define CS_STDCALL __stdcall
#define CS_FASTCALL __fastcall
#define CS_THISCALL __thiscall
#define CS_VECTORCALL __vectorcall
#pragma endregion
#pragma region common_implementation_specific
#define _CS_INTERNAL_CONCATENATE(LEFT, RIGHT) LEFT##RIGHT
#define _CS_INTERNAL_STRINGIFY(NAME) #NAME
#define _CS_INTERNAL_UNPARENTHESIZE(...) __VA_ARGS__
// convert plain text to string
#define CS_STRINGIFY(NAME) _CS_INTERNAL_STRINGIFY(NAME)
// concatenate plain text
#define CS_CONCATENATE(LEFT, RIGHT) _CS_INTERNAL_CONCATENATE(LEFT, RIGHT)
// unparenthesize variadic arguments
#define CS_UNPARENTHESIZE(...) _CS_INTERNAL_UNPARENTHESIZE(__VA_ARGS__)
// calculate elements count of fixed-size C array
#define CS_ARRAYSIZE(ARRAY) (sizeof(ARRAY) / sizeof(ARRAY[0]))
// calculate the offset of a struct member variable, in bytes
#if defined(_CRT_USE_BUILTIN_OFFSETOF) || CS_HAS_BUILTIN(__builtin_offsetof)
#define CS_OFFSETOF(STRUCT, MEMBER) __builtin_offsetof(STRUCT, MEMBER)
#else
#define CS_OFFSETOF(STRUCT, MEMBER) reinterpret_cast<std::size_t>(std::addressof(static_cast<STRUCT*>(nullptr)->MEMBER))
#endif
#ifndef CS_NO_RTTI
#if defined(CS_COMPILER_MSC) && !defined(_CPPRTTI)
#define CS_NO_RTTI
#elif defined(CS_COMPILER_CLANG)
#if !__has_feature(cxx_rtti)
#define CS_NO_RTTI
#endif
#endif
#endif
#ifndef CS_INLINE
#if defined(CS_COMPILER_MSC)
#define CS_INLINE __forceinline
#else
// referenced to clang documentation, this is enough: https://clang.llvm.org/compatibility.html
#define CS_INLINE inline
#endif
#endif
#ifndef CS_RETURN_ADDRESS
#if defined(CS_COMPILER_MSC)
#define CS_RETURN_ADDRESS() _ReturnAddress()
#elif defined(CS_COMPILER_CLANG)
#define CS_RETURN_ADDRESS() __builtin_return_address(0)
#else
static_assert(false, "it is expected you to define CS_RETURN_ADDRESS() into something that will get the return address off the stack!")
#define CS_RETURN_ADDRESS()
#endif
#endif
#ifndef CS_FRAME_ADDRESS
#if defined(CS_COMPILER_MSC)
#define CS_FRAME_ADDRESS() _AddressOfReturnAddress()
#elif defined(CS_COMPILER_CLANG)
// @note: it isn't always what we're expecting, compiler dependent
#define CS_FRAME_ADDRESS() __builtin_frame_address(0)
#else
static_assert(false, "it is expected you to define CS_FRAME_ADDRESS() into something that will get the address of the method's stack frame!")
#define CS_FRAME_ADDRESS()
#endif
#endif
#ifndef CS_DEBUG_BREAK
#if defined(CS_COMPILER_MSC)
#define CS_DEBUG_BREAK() __debugbreak()
#elif defined(CS_COMPILER_CLANG)
#define CS_DEBUG_BREAK() __builtin_debugtrap()
#else
static_assert(false, "it is expected you to define CS_DEBUG_BREAK() into something that will break in a debugger!");
#define CS_DEBUG_BREAK()
#endif
#endif
#ifndef CS_ASSERT
#ifdef _DEBUG
#define CS_ASSERT(EXPRESSION) static_cast<void>(!!(EXPRESSION) || (CS_DEBUG_BREAK(), 0))
#else
// disable assertion for release builds
#define CS_ASSERT(EXPRESSION) static_cast<void>(0)
#endif
#endif
#if !defined(CS_CONFIGURATION_BINARY) && !defined(CS_CONFIGURATION_JSON) && !defined(CS_CONFIGURATION_TOML)
static_assert(false, "it is expected you to define one of the available configuration file formatters!");
// fallback to binary formatter by default
#define CS_CONFIGURATION_BINARY
#endif
#ifndef CS_CONFIGURATION_FILE_EXTENSION
#if defined(CS_CONFIGURATION_BINARY)
#define CS_CONFIGURATION_FILE_EXTENSION L".bin"
#elif defined(CS_CONFIGURATION_JSON)
#define CS_CONFIGURATION_FILE_EXTENSION L".json"
#elif defined(CS_CONFIGURATION_TOML)
#define CS_CONFIGURATION_FILE_EXTENSION L".toml"
#endif
#endif
#pragma endregion
/*
* explicitly delete the following constructors, to prevent attempts on using them:
* constructor, move-constructor, copy-constructor
*/
#define CS_CLASS_NO_CONSTRUCTOR(CLASS) \
CLASS() = delete; \
CLASS(CLASS&&) = delete; \
CLASS(const CLASS&) = delete;
/*
* explicitly delete the following assignment operators, to prevent attempts on using them:
* move-assignment, copy-assignment
*/
#define CS_CLASS_NO_ASSIGNMENT(CLASS) \
CLASS& operator=(CLASS&&) = delete; \
CLASS& operator=(const CLASS&) = delete;
// explicitly delete any class initializer to prevent attempts on using them
#define CS_CLASS_NO_INITIALIZER(CLASS) \
CS_CLASS_NO_CONSTRUCTOR(CLASS) \
CS_CLASS_NO_ASSIGNMENT(CLASS)
// explicitly delete class heap allocator and deallocator, to prevent attempts on using class at heap memory
#define CS_CLASS_NO_ALLOC() \
void* operator new(const std::size_t nSize) = delete; \
void operator delete(void* pMemory) = delete;

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// used: [win] shgetknownfolderpath
#include <shlobj_core.h>
#include "core.h"
// used: features setup
#include "features.h"
// used: string copy
#include "utilities/crt.h"
// used: mem
#include "utilities/memory.h"
// used: l_print
#include "utilities/log.h"
// used: inputsystem setup/restore
#include "utilities/inputsystem.h"
// used: draw destroy
#include "utilities/draw.h"
// used: interfaces setup/destroy
#include "core/interfaces.h"
// used: sdk setup
#include "core/sdk.h"
// used: config setup & variables
#include "core/variables.h"
// used: hooks setup/destroy
#include "core/hooks.h"
// used: schema setup/dump
#include "core/schema.h"
// used: convar setup
#include "core/convars.h"
// used: menu
#include "core/menu.h"
// used: product version
#include "sdk/interfaces/iengineclient.h"
bool CORE::GetWorkingPath(wchar_t* wszDestination)
{
wchar_t wszAPPDATA[MAX_PATH];
SHGetSpecialFolderPath(0, wszAPPDATA, CSIDL_LOCAL_APPDATA, false);
CRT::StringCopy(wszDestination, wszAPPDATA);
CRT::StringCat(wszDestination, L"\\.asphyxia\\");
// create directory if it doesn't exist
if (!::CreateDirectoryW(wszDestination, nullptr))
{
if (const DWORD dwError = ::GetLastError(); dwError != ERROR_ALREADY_EXISTS)
{
L_PRINT(LOG_ERROR) << CS_XOR("failed to create default working directory, because one or more intermediate directories don't exist");
return false;
}
}
return true;
}
static bool Setup(HMODULE hModule)
{
#ifdef CS_LOG_CONSOLE
if (!L::AttachConsole(CS_XOR(L"asphyxia developer-mode")))
{
CS_ASSERT(false); // failed to attach console
return false;
}
#endif
#ifdef CS_LOG_FILE
if (!L::OpenFile(CS_XOR(L"asphyxia.log")))
{
CS_ASSERT(false); // failed to open file
return false;
}
#endif
L_PRINT(LOG_NONE) << L::SetColor(LOG_COLOR_FORE_GREEN | LOG_COLOR_FORE_INTENSITY) << CS_XOR("logging system initialization completed");
// setup game's exported functions
if (!MEM::Setup())
{
CS_ASSERT(false); // failed to setup memory system
return false;
}
L_PRINT(LOG_NONE) << L::SetColor(LOG_COLOR_FORE_GREEN | LOG_COLOR_FORE_INTENSITY) << CS_XOR("memory system initialization completed");
if (!MATH::Setup())
{
CS_ASSERT(false); // failed to setup math system
return false;
}
L_PRINT(LOG_NONE) << L::SetColor(LOG_COLOR_FORE_GREEN | LOG_COLOR_FORE_INTENSITY) << CS_XOR("math system initialization completed");
// grab game's interfaces
if (!I::Setup())
{
CS_ASSERT(false); // failed to setup interfaces
return false;
}
L_PRINT(LOG_NONE) << L::SetColor(LOG_COLOR_FORE_GREEN | LOG_COLOR_FORE_INTENSITY) << CS_XOR("interfaces initialization completed");
if (!SDK::Setup())
{
CS_ASSERT(false); // failed to setup sdk
return false;
}
L_PRINT(LOG_NONE) << L::SetColor(LOG_COLOR_FORE_GREEN | LOG_COLOR_FORE_INTENSITY) << CS_XOR("sdk initialization completed");
// setup input system and replace game's window messages processor with our
if (!IPT::Setup())
{
CS_ASSERT(false); // failed to setup input system
return false;
}
L_PRINT(LOG_NONE) << L::SetColor(LOG_COLOR_FORE_GREEN | LOG_COLOR_FORE_INTENSITY) << CS_XOR("input system initialization completed");
// @note: sleep to wait finishing font building
D::Setup(IPT::hWindow, I::Device, I::DeviceContext);
MENU::UpdateStyle(nullptr);
while (D::bInitialized == false)
::Sleep(200U);
L_PRINT(LOG_NONE) << L::SetColor(LOG_COLOR_FORE_GREEN | LOG_COLOR_FORE_INTENSITY) << CS_XOR("renderer backend initialization completed");
// initialize feature-related stuff
if (!F::Setup())
{
CS_ASSERT(false); // failed to setup features
return false;
}
L_PRINT(LOG_NONE) << L::SetColor(LOG_COLOR_FORE_GREEN | LOG_COLOR_FORE_INTENSITY) << CS_XOR("features initialization completed");
// iterate all valid modules for schema
std::vector<std::string> vecNeededModules = { CS_XOR("client.dll"), CS_XOR("engine2.dll"), CS_XOR("schemasystem.dll") };
for (auto& szModule : vecNeededModules)
{
if (!SCHEMA::Setup(CS_XOR(L"schema.txt"), szModule.c_str()))
{
CS_ASSERT(false); // failed to setup schema system
return false;
}
}
L_PRINT(LOG_NONE) << L::SetColor(LOG_COLOR_FORE_GREEN | LOG_COLOR_FORE_INTENSITY) << CS_XOR("schema system initialization completed");
if (!CONVAR::Dump(CS_XOR(L"convars.txt")))
{
CS_ASSERT(false); // failed to setup convars system
return false;
}
L_PRINT(LOG_NONE) << L::SetColor(LOG_COLOR_FORE_GREEN | LOG_COLOR_FORE_INTENSITY) << CS_XOR("convars dumped completed, output: \"convars.txt\"");
if (!CONVAR::Setup())
{
CS_ASSERT(false); // failed to setup convars system
return false;
}
L_PRINT(LOG_NONE) << L::SetColor(LOG_COLOR_FORE_GREEN | LOG_COLOR_FORE_INTENSITY) << CS_XOR("convars system initialization completed");
// setup hooks
if (!H::Setup())
{
CS_ASSERT(false); // failed to setup hooks
return false;
}
L_PRINT(LOG_NONE) << CS_XOR("hooks initialization completed");
// setup values to save/load cheat variables into/from files and load default configuration
if (!C::Setup(CS_XOR(CS_CONFIGURATION_DEFAULT_FILE_NAME)))
// this error is not critical, only show that
L_PRINT(LOG_WARNING) << CS_XOR("failed to setup and/or load default configuration");
else
L_PRINT(LOG_NONE) << L::SetColor(LOG_COLOR_FORE_GREEN | LOG_COLOR_FORE_INTENSITY) << CS_XOR("configuration system initialization completed");
// @note: this doesn't affect much, but it's good to know if we're using different version of the game
if (CRT::StringCompare(I::Engine->GetProductVersionString(), CS_PRODUCTSTRINGVERSION) != 0)
L_PRINT(LOG_WARNING) << L::SetColor(LOG_COLOR_FORE_YELLOW | LOG_COLOR_FORE_INTENSITY) << CS_XOR("version mismatch! local CS2 version: ") << CS_PRODUCTSTRINGVERSION << CS_XOR(", current CS2 version: ") << I::Engine->GetProductVersionString() << CS_XOR(". asphyxia might not function as normal.");
L_PRINT(LOG_NONE) << L::SetColor(LOG_COLOR_FORE_CYAN | LOG_COLOR_FORE_INTENSITY) << CS_XOR("asphyxia initialization completed, version: ") << CS_STRINGIFY(CS_VERSION);
return true;
}
// @todo: some of those may crash while closing process, because we dont have any dependencies from the game modules, it means them can be unloaded and destruct interfaces etc before our module | modify ldrlist?
static void Destroy()
{
// restore window messages processor to original
IPT::Destroy();
// restore hooks
H::Destroy();
// destroy renderer backend
D::Destroy();
// destroy chams dependent stuff
F::Destroy();
#ifdef CS_LOG_CONSOLE
L::DetachConsole();
#endif
#ifdef CS_LOG_FILE
L::CloseFile();
#endif
}
DWORD WINAPI PanicThread(LPVOID lpParameter)
{
// don't let proceed unload until user press specified key
while (!IPT::IsKeyReleased(C_GET(unsigned int, Vars.nPanicKey)))
::Sleep(500UL);
// call detach code and exit this thread
::FreeLibraryAndExitThread(static_cast<HMODULE>(lpParameter), EXIT_SUCCESS);
}
extern "C" BOOL WINAPI _CRT_INIT(HMODULE hModule, DWORD dwReason, LPVOID lpReserved);
BOOL APIENTRY CoreEntryPoint(HMODULE hModule, DWORD dwReason, LPVOID lpReserved)
{
// Disables the DLL_THREAD_ATTACH and DLL_THREAD_DETACH notifications for the specified dynamic-link library (DLL). This can reduce the size of the working set for some applications
DisableThreadLibraryCalls(hModule);
// process destroy of the cheat before crt calls atexit table
if (dwReason == DLL_PROCESS_DETACH)
Destroy();
// dispatch reason for c-runtime, initialize/destroy static variables, TLS etc
if (!_CRT_INIT(hModule, dwReason, lpReserved))
return FALSE;
if (dwReason == DLL_PROCESS_ATTACH)
{
CORE::hProcess = MEM::GetModuleBaseHandle(nullptr);
// basic process check
if (CORE::hProcess == nullptr)
return FALSE;
/*
* check did all game modules have been loaded
* @note: navsystem.dll is the last loaded module
*/
if (MEM::GetModuleBaseHandle(NAVSYSTEM_DLL) == nullptr)
return FALSE;
// save our module handle
CORE::hDll = hModule;
// check did we perform main initialization successfully
if (!Setup(hModule))
{
// undo the things we've done
Destroy();
return FALSE;
}
// create panic thread, it isn't critical error if it fails
if (const HANDLE hThread = ::CreateThread(nullptr, 0U, &PanicThread, hModule, 0UL, nullptr); hThread != nullptr)
::CloseHandle(hThread);
}
return TRUE;
}

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#pragma once
namespace CORE
{
/* @section: get */
/// @param[out] wszDestination output for working path where files will be saved (default: "%userprofile%\documents\.crown")
/// @returns: true if successfully got the path, false otherwise
bool GetWorkingPath(wchar_t* wszDestination);
/* @section: values */
// handle of self module
inline void* hDll = nullptr;
// current process handle
inline void* hProcess = nullptr;
}

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// used: [win] winapi
#ifndef WIN32_LEAN_AND_MEAN
#define WIN32_LEAN_AND_MEAN
#endif
#include <windows.h>
#include "config.h"
// used: getworkingpath
#include "../core.h"
// used: l_print
#include "../utilities/log.h"
// used: integertostring
#include "../utilities/crt.h"
// used: heapalloc, heapfree
#include "../utilities/memory.h"
// used: formatter implementation
#if defined(CS_CONFIGURATION_BINARY)
#include "../../extensions/binary.h"
#elif defined(CS_CONFIGURATION_JSON)
#include "../../extensions/json.h"
#elif defined(CS_CONFIGURATION_TOML)
#include "../../extensions/toml.h"
#endif
// default configurations working path
static wchar_t wszConfigurationsPath[MAX_PATH];
#pragma region config_user_data_type
std::size_t C::UserDataType_t::GetSerializationSize() const
{
std::size_t nTotalDataSize = 0U;
for (const UserDataMember_t& member : vecMembers)
nTotalDataSize += sizeof(FNV1A_t[2]) + member.nDataSize;
return nTotalDataSize;
}
#pragma endregion
#pragma region config_variable_object
void C::VariableObject_t::SetStorage(const void* pValue)
{
// check is available to store value in the local storage
if (this->nStorageSize <= sizeof(this->storage.uLocal))
{
CRT::MemorySet(&this->storage.uLocal, 0U, sizeof(this->storage.uLocal));
CRT::MemoryCopy(&this->storage.uLocal, pValue, this->nStorageSize);
}
// otherwise use heap memory to store it
else
{
CS_ASSERT(this->storage.pHeap != nullptr); // tried to access non allocated storage
CRT::MemorySet(this->storage.pHeap, 0U, this->nStorageSize);
CRT::MemoryCopy(this->storage.pHeap, pValue, this->nStorageSize);
}
}
std::size_t C::VariableObject_t::GetSerializationSize() const
{
std::size_t nSerializationSize = this->nStorageSize;
// denote a custom serialization size when it different from the storage size
switch (this->uTypeHash)
{
// lookup for array data type
case FNV1A::HashConst("bool[]"):
case FNV1A::HashConst("int[]"):
case FNV1A::HashConst("unsigned int[]"):
case FNV1A::HashConst("float[]"):
case FNV1A::HashConst("char[][]"):
// arrays also serialize their size
nSerializationSize += sizeof(std::size_t);
break;
// lookup for user-defined data type
default:
{
for (const UserDataType_t& userType : vecUserTypes)
{
if (userType.uTypeHash == this->uTypeHash)
{
nSerializationSize = sizeof(std::size_t) + userType.GetSerializationSize();
break;
}
}
break;
}
}
return nSerializationSize;
}
#pragma endregion
bool C::Setup(const wchar_t* wszDefaultFileName)
{
if (!CORE::GetWorkingPath(wszConfigurationsPath))
return false;
CRT::StringCat(wszConfigurationsPath, CS_XOR(L"settings\\"));
// create directory if it doesn't exist
if (!::CreateDirectoryW(wszConfigurationsPath, nullptr))
{
if (::GetLastError() != ERROR_ALREADY_EXISTS)
{
L_PRINT(LOG_ERROR) << CS_XOR("failed to create configurations directory, because one or more intermediate directories don't exist");
return false;
}
}
// @note: define custom data types we want to serialize
AddUserType(FNV1A::HashConst("KeyBind_t"),
{
UserDataMember_t{ FNV1A::HashConst("uKey"), FNV1A::HashConst("unsigned int"), &KeyBind_t::uKey },
UserDataMember_t{ FNV1A::HashConst("nMode"), FNV1A::HashConst("int"), &KeyBind_t::nMode }
});
AddUserType(FNV1A::HashConst("ColorPickerVar_t"),
{
UserDataMember_t{ FNV1A::HashConst("bRainbow"), FNV1A::HashConst("bool"), &ColorPickerVar_t::bRainbow },
UserDataMember_t{ FNV1A::HashConst("flRainbowSpeed"), FNV1A::HashConst("float"), &ColorPickerVar_t::flRainbowSpeed },
UserDataMember_t{ FNV1A::HashConst("colPrimary"), FNV1A::HashConst("Color_t"), &ColorPickerVar_t::colValue },
});
AddUserType(FNV1A::HashConst("TextOverlayVar_t"),
{
UserDataMember_t{ FNV1A::HashConst("bEnable"), FNV1A::HashConst("bool"), &TextOverlayVar_t::bEnable },
UserDataMember_t{ FNV1A::HashConst("flThickness"), FNV1A::HashConst("float"), &TextOverlayVar_t::flThickness },
UserDataMember_t{ FNV1A::HashConst("colPrimary"), FNV1A::HashConst("Color_t"), &TextOverlayVar_t::colPrimary },
UserDataMember_t{ FNV1A::HashConst("colOutline"), FNV1A::HashConst("Color_t"), &TextOverlayVar_t::colOutline }
});
AddUserType(FNV1A::HashConst("FrameOverlayVar_t"),
{
UserDataMember_t{ FNV1A::HashConst("bEnable"), FNV1A::HashConst("bool"), &FrameOverlayVar_t::bEnable },
UserDataMember_t{ FNV1A::HashConst("flThickness"), FNV1A::HashConst("float"), &FrameOverlayVar_t::flThickness },
UserDataMember_t{ FNV1A::HashConst("flRounding"), FNV1A::HashConst("float"), &FrameOverlayVar_t::flRounding },
UserDataMember_t{ FNV1A::HashConst("colPrimary"), FNV1A::HashConst("Color_t"), &FrameOverlayVar_t::colPrimary },
UserDataMember_t{ FNV1A::HashConst("colOutline"), FNV1A::HashConst("Color_t"), &FrameOverlayVar_t::colOutline }
});
AddUserType(FNV1A::HashConst("BarOverlayVar_t"),
{
UserDataMember_t{ FNV1A::HashConst("bEnable"), FNV1A::HashConst("bool"), &BarOverlayVar_t::bEnable },
UserDataMember_t{ FNV1A::HashConst("bGradient"), FNV1A::HashConst("bool"), &BarOverlayVar_t::bGradient },
UserDataMember_t{ FNV1A::HashConst("bUseFactorColor"), FNV1A::HashConst("bool"), &BarOverlayVar_t::bUseFactorColor },
UserDataMember_t{ FNV1A::HashConst("flThickness"), FNV1A::HashConst("float"), &BarOverlayVar_t::flThickness },
UserDataMember_t{ FNV1A::HashConst("colPrimary"), FNV1A::HashConst("Color_t"), &BarOverlayVar_t::colPrimary },
UserDataMember_t{ FNV1A::HashConst("colSecondary"), FNV1A::HashConst("Color_t"), &BarOverlayVar_t::colSecondary },
UserDataMember_t{ FNV1A::HashConst("colBackground"), FNV1A::HashConst("Color_t"), &BarOverlayVar_t::colBackground },
UserDataMember_t{ FNV1A::HashConst("colOutline"), FNV1A::HashConst("Color_t"), &BarOverlayVar_t::colOutline }
});
// create default configuration
if (!CreateFile(wszDefaultFileName))
return false;
// store existing configurations list
Refresh();
return true;
}
#pragma region config_main
void C::Refresh()
{
// clear and free previous stored file names
vecFileNames.clear();
// make configuration files path filter
wchar_t wszPathFilter[MAX_PATH];
CRT::StringCat(CRT::StringCopy(wszPathFilter, wszConfigurationsPath), CS_XOR(L"*" CS_CONFIGURATION_FILE_EXTENSION));
// iterate through all files with our filter
WIN32_FIND_DATAW findData;
if (const HANDLE hFindFile = ::FindFirstFileW(wszPathFilter, &findData); hFindFile != INVALID_HANDLE_VALUE)
{
do
{
vecFileNames.push_back(new wchar_t[CRT::StringLength(findData.cFileName) + 1U]);
CRT::StringCopy(vecFileNames.back(), findData.cFileName);
L_PRINT(LOG_INFO) << CS_XOR("found configuration file: \"") << findData.cFileName << CS_XOR("\"");
} while (::FindNextFileW(hFindFile, &findData));
::FindClose(hFindFile);
}
}
void C::AddUserType(const FNV1A_t uTypeHash, const std::initializer_list<UserDataMember_t> vecUserMembers)
{
if (vecUserMembers.size() == 0U)
return;
UserDataType_t userDataType;
userDataType.uTypeHash = uTypeHash;
for (const auto& userDataMember : vecUserMembers)
userDataType.vecMembers.push_back(userDataMember);
vecUserTypes.emplace_back(CRT::Move(userDataType));
}
bool C::SaveFileVariable(const std::size_t nFileIndex, const VariableObject_t& variable)
{
const wchar_t* wszFileName = vecFileNames[nFileIndex];
wchar_t wszFilePath[MAX_PATH];
CRT::StringCat(CRT::StringCopy(wszFilePath, wszConfigurationsPath), wszFileName);
#if defined(CS_CONFIGURATION_BINARY)
if (BIN::SaveVariable(wszFilePath, variable))
#elif defined(CS_CONFIGURATION_JSON)
if (JSON::SaveVariable(wszFilePath, variable))
#elif defined(CS_CONFIGURATION_TOML)
if (TOML::SaveVariable(wszFilePath, variable))
#endif
{
return true;
}
return false;
}
bool C::LoadFileVariable(const std::size_t nFileIndex, VariableObject_t& variable)
{
const wchar_t* wszFileName = vecFileNames[nFileIndex];
wchar_t wszFilePath[MAX_PATH];
CRT::StringCat(CRT::StringCopy(wszFilePath, wszConfigurationsPath), wszFileName);
#if defined(CS_CONFIGURATION_BINARY)
if (BIN::LoadVariable(wszFilePath, variable))
#elif defined(CS_CONFIGURATION_JSON)
if (JSON::LoadVariable(wszFilePath, variable))
#elif defined(CS_CONFIGURATION_TOML)
if (TOML::LoadVariable(wszFilePath, variable))
#endif
{
return true;
}
return false;
}
bool C::RemoveFileVariable(const std::size_t nFileIndex, const VariableObject_t& variable)
{
const wchar_t* wszFileName = vecFileNames[nFileIndex];
wchar_t wszFilePath[MAX_PATH];
CRT::StringCat(CRT::StringCopy(wszFilePath, wszConfigurationsPath), wszFileName);
#if defined(CS_CONFIGURATION_BINARY)
if (BIN::RemoveVariable(wszFilePath, variable))
#elif defined(CS_CONFIGURATION_JSON)
if (JSON::RemoveVariable(wszFilePath, variable))
#elif defined(CS_CONFIGURATION_TOML)
if (TOML::RemoveVariable(wszFilePath, variable))
#endif
{
return true;
}
return false;
}
bool C::CreateFile(const wchar_t* wszFileName)
{
const wchar_t* wszFileExtension = CRT::StringCharR(wszFileName, L'.');
// get length of the given filename and strip out extension if there any
const std::size_t nFileNameLength = (wszFileExtension != nullptr ? wszFileExtension - wszFileName : CRT::StringLength(wszFileName));
wchar_t* wszFullFileName = new wchar_t[nFileNameLength + CRT::StringLength(CS_CONFIGURATION_FILE_EXTENSION) + 1U];
// copy filename without extension
wchar_t* wszFullFileNameEnd = CRT::StringCopyN(wszFullFileName, wszFileName, nFileNameLength);
*wszFullFileNameEnd = L'\0';
// append correct extension to the filename
CRT::StringCat(wszFullFileNameEnd, CS_XOR(CS_CONFIGURATION_FILE_EXTENSION));
// add filename to the list
vecFileNames.push_back(wszFullFileName);
// create and save it by the index
if (SaveFile(vecFileNames.size() - 1U))
{
L_PRINT(LOG_INFO) << CS_XOR("created configuration file: \"") << wszFullFileName << CS_XOR("\"");
return true;
}
L_PRINT(LOG_WARNING) << CS_XOR("failed to create configuration file: \"") << wszFullFileName << CS_XOR("\"");
return false;
}
bool C::SaveFile(const std::size_t nFileIndex)
{
const wchar_t* wszFileName = vecFileNames[nFileIndex];
wchar_t wszFilePath[MAX_PATH];
CRT::StringCat(CRT::StringCopy(wszFilePath, wszConfigurationsPath), wszFileName);
#if defined(CS_CONFIGURATION_BINARY)
if (BIN::SaveFile(wszFilePath))
#elif defined(CS_CONFIGURATION_JSON)
if (JSON::SaveFile(wszFilePath))
#elif defined(CS_CONFIGURATION_TOML)
if (TOML::SaveFile(wszFilePath))
#endif
{
L_PRINT(LOG_INFO) << CS_XOR("saved configuration file: \"") << wszFileName << CS_XOR("\"");
return true;
}
L_PRINT(LOG_WARNING) << CS_XOR("failed to save configuration file: \"") << wszFileName << CS_XOR("\"");
return false;
}
bool C::LoadFile(const std::size_t nFileIndex)
{
const wchar_t* wszFileName = vecFileNames[nFileIndex];
wchar_t wszFilePath[MAX_PATH];
CRT::StringCat(CRT::StringCopy(wszFilePath, wszConfigurationsPath), wszFileName);
#if defined(CS_CONFIGURATION_BINARY)
if (BIN::LoadFile(wszFilePath))
#elif defined(CS_CONFIGURATION_JSON)
if (JSON::LoadFile(wszFilePath))
#elif defined(CS_CONFIGURATION_TOML)
if (TOML::LoadFile(wszFilePath))
#endif
{
L_PRINT(LOG_INFO) << CS_XOR("loaded configuration file: \"") << wszFileName << CS_XOR("\"");
return true;
}
L_PRINT(LOG_WARNING) << CS_XOR("failed to load configuration file: \"") << wszFileName << CS_XOR("\"");
return false;
}
void C::RemoveFile(const std::size_t nFileIndex)
{
const wchar_t* wszFileName = vecFileNames[nFileIndex];
// unable to delete default config
if (CRT::StringCompare(wszFileName, CS_XOR(CS_CONFIGURATION_DEFAULT_FILE_NAME CS_CONFIGURATION_FILE_EXTENSION)) == 0)
{
L_PRINT(LOG_WARNING) << CS_XOR("unable to remove default configuration file: \"") << wszFileName << CS_XOR("\"");
return;
}
wchar_t wszFilePath[MAX_PATH];
CRT::StringCat(CRT::StringCopy(wszFilePath, wszConfigurationsPath), wszFileName);
if (::DeleteFileW(wszFilePath))
{
// erase and free filename from the list
vecFileNames.erase(vecFileNames.cbegin() + nFileIndex);
L_PRINT(LOG_INFO) << CS_XOR("removed configuration file: \"") << wszFileName << CS_XOR("\"");
}
}
#pragma endregion
#pragma region config_get
std::size_t C::GetVariableIndex(const FNV1A_t uNameHash)
{
for (std::size_t i = 0U; i < vecVariables.size(); i++)
{
if (vecVariables[i].uNameHash == uNameHash)
return i;
}
return C_INVALID_VARIABLE;
}
#pragma endregion
#pragma region config_user_types
void ColorPickerVar_t::UpdateRainbow()
{
// @todo: improve + optimize this code
// progress rainbow color
if (this->bRainbow)
{
const float flTime = static_cast<float>(ImGui::GetTime());
// create a rainbow color with copied alpha
float arrRainbowColors[] = {
sin(flTime * this->flRainbowSpeed) * 0.5f + 0.5f,
sin(flTime * this->flRainbowSpeed * MATH::_PI / 3) * 0.5f + 0.5f,
sin(flTime * this->flRainbowSpeed * MATH::_PI / 3) * 0.5f + 0.5f,
this->colValue.Base<COLOR_A>()
};
// set the rainbow color
this->colValue = Color_t::FromBase4(arrRainbowColors);
}
}

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#pragma once
// used: [stl] vector
#include <vector>
// used: [stl] type_info
#include <typeinfo>
// used: [win] undname_no_arguments
#include <dbghelp.h>
#include "../common.h"
#include "../sdk/datatypes/color.h"
// used: l_print
#include "../utilities/log.h"
// used: heapalloc, heapfree
#include "../utilities/memory.h"
// used: fnv1a hashing
#include "../utilities/fnv1a.h"
#pragma region config_definitions
#define C_ADD_VARIABLE(TYPE, NAME, DEFAULT) const std::size_t NAME = C::AddVariable<TYPE>(FNV1A::HashConst(#NAME), FNV1A::HashConst(#TYPE), DEFAULT);
#define C_ADD_VARIABLE_ARRAY(TYPE, SIZE, NAME, DEFAULT) const std::size_t NAME = C::AddVariableArray<TYPE[SIZE]>(FNV1A::HashConst(#NAME), FNV1A::HashConst(#TYPE "[]"), DEFAULT);
#define C_ADD_VARIABLE_ARRAY_ARRAY(TYPE, SIZE, SUBSIZE, NAME, DEFAULT) const std::size_t NAME = C::AddVariableArray<TYPE[SIZE][SUBSIZE]>(FNV1A::HashConst(#NAME), FNV1A::HashConst(#TYPE "[][]"), DEFAULT);
#define C_INVALID_VARIABLE static_cast<std::size_t>(-1)
#define C_GET(TYPE, NAME) C::Get<TYPE>(NAME)
#define C_GET_ARRAY(TYPE, SIZE, NAME, INDEX) C::Get<TYPE[SIZE]>(NAME)[INDEX]
#pragma endregion
#pragma region config_user_types
enum class EKeyBindMode : int
{
HOLD = 0,
TOGGLE
};
struct KeyBind_t
{
constexpr KeyBind_t(const char* szName, const unsigned int uKey = 0U, const EKeyBindMode nMode = EKeyBindMode::HOLD) :
szName(szName), uKey(uKey), nMode(nMode) { }
bool bEnable = false;
const char* szName = nullptr;
unsigned int uKey = 0U;
EKeyBindMode nMode = EKeyBindMode::HOLD;
};
struct ColorPickerVar_t
{
// default constructor
constexpr ColorPickerVar_t(const Color_t& colValue = Color_t(255, 255, 255), const bool bRainbow = false, const float flRainbowSpeed = 0.5f) :
colValue(colValue), bRainbow(bRainbow), flRainbowSpeed(flRainbowSpeed) { }
// @note: other contructors will only construct Color_t object and set rainbow to false and speed to 0.5f
// 8-bit color constructor (in: [0 .. 255])
constexpr ColorPickerVar_t(const std::uint8_t r, const std::uint8_t g, const std::uint8_t b, const std::uint8_t a = 255) :
colValue(r, g, b, a), bRainbow(false), flRainbowSpeed(0.5f) { }
// 8-bit color constructor (in: [0 .. 255])
constexpr ColorPickerVar_t(const int r, const int g, const int b, const int a = 255) :
colValue(r, g, b, a), bRainbow(false), flRainbowSpeed(0.5f) { }
// 8-bit array color constructor (in: [0.0 .. 1.0])
explicit constexpr ColorPickerVar_t(const std::uint8_t arrColor[4]) :
colValue(arrColor), bRainbow(false), flRainbowSpeed(0.5f) { }
// 32-bit packed color constructor (in: 0x00000000 - 0xFFFFFFFF)
explicit constexpr ColorPickerVar_t(const ImU32 uPackedColor) :
colValue(uPackedColor), bRainbow(false), flRainbowSpeed(0.5f) { }
// 32-bit color constructor (in: [0.0 .. 1.0])
constexpr ColorPickerVar_t(const float r, const float g, const float b, const float a = 1.0f) :
colValue(r, g, b, a), bRainbow(false), flRainbowSpeed(0.5f) { }
void UpdateRainbow();
Color_t colValue = Color_t(255, 255, 255);
bool bRainbow = false;
float flRainbowSpeed = 0.5f;
};
/// hold config variables for text component overlay
struct TextOverlayVar_t
{
constexpr TextOverlayVar_t(const bool bEnable, const float flThickness = 1.f, const Color_t& colPrimary = Color_t(255, 255, 255), const Color_t& colOutline = Color_t(0, 0, 0)) :
bEnable(bEnable), flThickness(flThickness), colPrimary(colPrimary), colOutline(colOutline) { }
bool bEnable = false;
float flThickness = 1.f;
Color_t colPrimary = Color_t(255, 255, 255);
Color_t colOutline = Color_t(0, 0, 0);
};
/// hold config variables for frame/box component overlay
struct FrameOverlayVar_t
{
constexpr FrameOverlayVar_t(const bool bEnable, const float flThickness = 1.f, const float flRounding = 0.f, const Color_t& colPrimary = Color_t(255, 255, 255), const Color_t& colOutline = Color_t(0, 0, 0)) :
bEnable(bEnable), flThickness(flThickness), flRounding(flRounding), colPrimary(colPrimary), colOutline(colOutline) { }
bool bEnable = false;
float flThickness = 1.f;
float flRounding = 0.f;
Color_t colPrimary = Color_t(255, 255, 255);
Color_t colOutline = Color_t(0, 0, 0);
};
/// hold config variables for bar component overlay
struct BarOverlayVar_t
{
constexpr BarOverlayVar_t(const bool bEnable, const bool bGradient = false, const bool bUseFactorColor = false, const float flThickness = 1.f, const Color_t& colPrimary = Color_t(255, 255, 255), const Color_t& colSecondary = Color_t(255, 255, 255), const Color_t& colBackground = Color_t(), const Color_t& colOutline = Color_t()) :
bEnable(bEnable), bGradient(bGradient), bUseFactorColor(bUseFactorColor), flThickness(flThickness), colPrimary(colPrimary), colSecondary(colSecondary), colBackground(colBackground), colOutline(colOutline) { }
bool bEnable = false;
bool bGradient = false;
bool bUseFactorColor = false;
float flThickness = 1.f;
Color_t colPrimary = Color_t(255, 255, 255);
Color_t colSecondary = Color_t(255, 255, 255);
Color_t colBackground = Color_t{};
Color_t colOutline = Color_t{};
};
#pragma endregion
/*
* CONFIGURATION
* - cheat variables serialization/de-serialization manager
*/
namespace C
{
// member of user-defined custom serialization structure
struct UserDataMember_t
{
// @todo: not sure is it possible and how todo this with projections, so currently done with pointer-to-member thing, probably could be optimized
template <typename T, typename C>
constexpr UserDataMember_t(const FNV1A_t uNameHash, const FNV1A_t uTypeHash, const T C::*pMember) :
uNameHash(uNameHash), uTypeHash(uTypeHash), nDataSize(sizeof(std::remove_pointer_t<T>)), uBaseOffset(reinterpret_cast<std::size_t>(std::addressof(static_cast<C*>(nullptr)->*pMember))) { } // @test: 'CS_OFFSETOF' must expand to the same result but for some reason it doesn't
// hash of custom variable name
FNV1A_t uNameHash = 0U;
// hash of custom variable type
FNV1A_t uTypeHash = 0U;
// data size of custom variable type
std::size_t nDataSize = 0U;
// offset to the custom variable from the base of class
std::size_t uBaseOffset = 0U;
};
// user-defined custom serialization structure
struct UserDataType_t
{
[[nodiscard]] std::size_t GetSerializationSize() const;
FNV1A_t uTypeHash = 0U;
std::vector<UserDataMember_t> vecMembers = {};
};
// variable info and value storage holder
struct VariableObject_t
{
// @test: it's required value to be either trivially copyable or allocated/copied by new/placement-new operators, otherwise it may cause UB
template <typename T> requires (!std::is_void_v<T> && std::is_trivially_copyable_v<T>)
VariableObject_t(const FNV1A_t uNameHash, const FNV1A_t uTypeHash, const T& valueDefault) :
uNameHash(uNameHash), uTypeHash(uTypeHash), nStorageSize(sizeof(T))
{
#ifndef CS_NO_RTTI
// store RTTI address if available
this->pTypeInfo = &typeid(std::remove_cvref_t<T>);
#endif
// @todo: do not call setstorage, instead construct it by placement-new operator
// allocate storage on the heap if it doesnt't fit on the local one
if constexpr (sizeof(T) > sizeof(this->storage.uLocal))
this->storage.pHeap = MEM::HeapAlloc(this->nStorageSize);
SetStorage(&valueDefault);
}
VariableObject_t(VariableObject_t&& other) noexcept :
uNameHash(other.uNameHash), uTypeHash(other.uTypeHash), nStorageSize(other.nStorageSize)
{
#ifndef CS_NO_RTTI
this->pTypeInfo = other.pTypeInfo;
#endif
if (this->nStorageSize <= sizeof(this->storage.uLocal))
CRT::MemoryCopy(&this->storage.uLocal, &other.storage.uLocal, sizeof(this->storage.uLocal));
else
{
this->storage.pHeap = other.storage.pHeap;
// prevent it from being freed when the moved object is destroyed
other.storage.pHeap = nullptr;
}
}
VariableObject_t(const VariableObject_t& other) :
uNameHash(other.uNameHash), uTypeHash(other.uTypeHash), nStorageSize(other.nStorageSize)
{
#ifndef CS_NO_RTTI
this->pTypeInfo = other.pTypeInfo;
#endif
if (this->nStorageSize <= sizeof(this->storage.uLocal))
CRT::MemoryCopy(&this->storage.uLocal, &other.storage.uLocal, sizeof(this->storage.uLocal));
else if (other.storage.pHeap != nullptr)
{
this->storage.pHeap = MEM::HeapAlloc(this->nStorageSize);
CRT::MemoryCopy(this->storage.pHeap, other.storage.pHeap, this->nStorageSize);
}
}
~VariableObject_t()
{
// check if heap memory is in use and allocated
if (this->nStorageSize > sizeof(this->storage.uLocal) && this->storage.pHeap != nullptr)
MEM::HeapFree(this->storage.pHeap);
}
VariableObject_t& operator=(VariableObject_t&& other) noexcept
{
// check if heap memory is in use and allocated
if (this->nStorageSize > sizeof(this->storage.uLocal) && this->storage.pHeap != nullptr)
MEM::HeapFree(this->storage.pHeap);
this->uNameHash = other.uNameHash;
this->uTypeHash = other.uTypeHash;
this->nStorageSize = other.nStorageSize;
#ifndef CS_NO_RTTI
this->pTypeInfo = other.pTypeInfo;
#endif
if (this->nStorageSize <= sizeof(this->storage.uLocal))
CRT::MemoryCopy(&this->storage.uLocal, &other.storage.uLocal, sizeof(this->storage.uLocal));
else
{
this->storage.pHeap = other.storage.pHeap;
// prevent it from being freed when the moved object is destroyed
other.storage.pHeap = nullptr;
}
return *this;
}
VariableObject_t& operator=(const VariableObject_t& other)
{
// check if heap memory is in use and allocated
if (this->nStorageSize > sizeof(this->storage.uLocal) && this->storage.pHeap != nullptr)
MEM::HeapFree(this->storage.pHeap);
this->uNameHash = other.uNameHash;
this->uTypeHash = other.uTypeHash;
this->nStorageSize = other.nStorageSize;
#ifndef CS_NO_RTTI
this->pTypeInfo = other.pTypeInfo;
#endif
if (this->nStorageSize <= sizeof(this->storage.uLocal))
CRT::MemoryCopy(&this->storage.uLocal, &other.storage.uLocal, sizeof(this->storage.uLocal));
else if (other.storage.pHeap != nullptr)
{
this->storage.pHeap = MEM::HeapAlloc(this->nStorageSize);
CRT::MemoryCopy(this->storage.pHeap, other.storage.pHeap, this->nStorageSize);
}
return *this;
}
/// @tparam bTypeSafe if true, activates additional comparison of source and requested type information, requires RTTI
/// @returns: pointer to the value storage, null if @a'bTypeSafe' is active and the access type does not match the variable type
template <typename T, bool bTypeSafe = true> requires (std::is_object_v<T>)
[[nodiscard]] const T* GetStorage() const
{
#ifndef CS_NO_RTTI
// sanity check of stored value type and asked value type
if constexpr (bTypeSafe)
{
if (const std::type_info& currentTypeInfo = typeid(std::remove_cvref_t<T>); this->pTypeInfo != nullptr && CRT::StringCompare(this->pTypeInfo->raw_name(), currentTypeInfo.raw_name()) != 0)
{
if (char szPresentTypeName[64] = {}, szAccessTypeName[64] = {};
MEM::fnUnDecorateSymbolName(this->pTypeInfo->raw_name() + 1U, szPresentTypeName, CS_ARRAYSIZE(szPresentTypeName), UNDNAME_NO_ARGUMENTS) != 0UL &&
MEM::fnUnDecorateSymbolName(currentTypeInfo.raw_name() + 1U, szAccessTypeName, CS_ARRAYSIZE(szAccessTypeName), UNDNAME_NO_ARGUMENTS) != 0UL)
{
L_PRINT(LOG_ERROR) << CS_XOR("accessing variable of type: \"") << szPresentTypeName << CS_XOR("\" with wrong type: \"") << szAccessTypeName << CS_XOR("\"");
}
CS_ASSERT(false); // storage value and asked data type mismatch
return nullptr;
}
}
#endif
// check is value stored in the local storage
if (this->nStorageSize <= sizeof(this->storage.uLocal))
return reinterpret_cast<const std::remove_cvref_t<T>*>(&this->storage.uLocal);
// otherwise it is allocated in the heap memory
CS_ASSERT(this->storage.pHeap != nullptr); // tried to access non allocated storage
return static_cast<const std::remove_cvref_t<T>*>(this->storage.pHeap);
}
template <typename T, bool bTypeSafe = true> requires (std::is_object_v<T>)
[[nodiscard]] T* GetStorage()
{
return const_cast<T*>(static_cast<const VariableObject_t*>(this)->GetStorage<T, bTypeSafe>());
}
// replace variable contained value
void SetStorage(const void* pValue);
/// @returns: the size of the data to be serialized/de-serialized into/from the configuration file
[[nodiscard]] std::size_t GetSerializationSize() const;
// hash of variable name
FNV1A_t uNameHash = 0x0;
// hash of value type
FNV1A_t uTypeHash = 0x0;
#ifndef CS_NO_RTTI
// address of RTTI type data for value type
const std::type_info* pTypeInfo = nullptr;
#endif
// value storage size in bytes
std::size_t nStorageSize = 0U;
// value storage
union
{
void* pHeap;
std::uint8_t uLocal[sizeof(std::uintptr_t)]; // @test: expand local storage size to fit max possible size of trivial type so we can minimize heap allocations count
} storage = { nullptr };
};
// create directories and default configuration file
bool Setup(const wchar_t* wszDefaultFileName);
/* @section: main */
// loop through directory content and store all user configurations filenames
void Refresh();
/// register user-defined data structure type and it's member variables
/// @param[in] vecUserMembers member variables of structure that needs to be serialized/de-serialized
void AddUserType(const FNV1A_t uTypeHash, std::initializer_list<UserDataMember_t> vecUserMembers);
/// write/re-write single variable to existing configuration file
/// @returns: true if variable has been found or created and successfully written, false otherwise
bool SaveFileVariable(const std::size_t nFileIndex, const VariableObject_t& variable);
/// read single variable from existing configuration file
/// @remarks: when the version of cheat is greater than version of the configuration file and @a'variable' wasn't found, this function saves it and updates the version to the current one, note that it doesn't affect to return value
/// @returns: true if variable has been found and successfully read, false otherwise
bool LoadFileVariable(const std::size_t nFileIndex, VariableObject_t& variable);
/// erase single variable from existing configuration file
/// @returns: true if variable did not exist or was successfully removed, false otherwise
bool RemoveFileVariable(const std::size_t nFileIndex, const VariableObject_t& variable);
/// create a new configuration file and save it
/// @param[in] wszFileName file name of configuration file to save and write in
/// @returns: true if file has been successfully created and all variables were written to it, false otherwise
bool CreateFile(const wchar_t* wszFileName);
/// serialize variables into the configuration file
/// @param[in] nFileIndex index of the exist configuration file name
/// @returns: true if all variables were successfully written to the file, false otherwise
bool SaveFile(const std::size_t nFileIndex);
/// de-serialize variables from the configuration file
/// @param[in] nFileIndex index of the exist configuration file name
/// @returns: true if all variables were successfully loaded from the file, false otherwise
bool LoadFile(const std::size_t nFileIndex);
/// remove configuration file
/// @param[in] nFileIndex index of the exist configuration file name
void RemoveFile(const std::size_t nFileIndex);
/* @section: values */
// all user configuration filenames
inline std::vector<wchar_t*> vecFileNames = {};
// custom user-defined serialization data types
inline std::vector<UserDataType_t> vecUserTypes = {};
// configuration variables storage
inline std::vector<VariableObject_t> vecVariables = {};
/* @section: get */
/// @returns: index of variable with given name hash if it exist, 'C_INVALID_VARIABLE' otherwise
[[nodiscard]] std::size_t GetVariableIndex(const FNV1A_t uNameHash);
/// @tparam T type of variable we're going to get, must be exactly the same as when registered
/// @returns: variable value at given index
template <typename T>
[[nodiscard]] T& Get(const std::size_t nIndex)
{
return *vecVariables[nIndex].GetStorage<T>();
}
// @todo: get rid of templates, so it doesn't compile duplicates and we're able to merge things to .cpp
/// add new configuration variable
/// @returns: index of added variable
template <typename T> requires (!std::is_array_v<T>)
std::size_t AddVariable(const FNV1A_t uNameHash, const FNV1A_t uTypeHash, const T& valueDefault)
{
vecVariables.emplace_back(uNameHash, uTypeHash, valueDefault);
return vecVariables.size() - 1U;
}
/// add new configuration array variable initialized by single value
/// @returns: index of added array variable
template <typename T> requires (std::is_array_v<T>)
std::size_t AddVariableArray(const FNV1A_t uNameHash, const FNV1A_t uTypeHash, const std::remove_pointer_t<std::decay_t<T>> valueDefault)
{
using BaseType_t = std::remove_pointer_t<std::decay_t<T>>;
T arrValueDefault;
for (std::size_t i = 0U; i < sizeof(T) / sizeof(BaseType_t); i++)
arrValueDefault[i] = valueDefault;
vecVariables.emplace_back(uNameHash, uTypeHash, arrValueDefault);
return vecVariables.size() - 1U;
}
/// add new configuration array variable with multiple values initialized
/// @returns: index of added array variable
template <typename T> requires (std::is_array_v<T>)
std::size_t AddVariableArray(const FNV1A_t uNameHash, const FNV1A_t uTypeHash, std::initializer_list<std::remove_pointer_t<std::decay_t<T>>> vecValuesDefault)
{
using BaseType_t = std::remove_pointer_t<std::decay_t<T>>;
T arrValueDefault;
CRT::MemorySet(arrValueDefault, 0U, sizeof(T));
CRT::MemoryCopy(arrValueDefault, vecValuesDefault.begin(), vecValuesDefault.size() * sizeof(BaseType_t));
vecVariables.emplace_back(uNameHash, uTypeHash, arrValueDefault);
return vecVariables.size() - 1U;
}
inline void RemoveVariable(const std::size_t nIndex)
{
vecVariables.erase(vecVariables.begin() + nIndex);
}
}

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// used: [stl] vector
#include <vector>
// used: [stl] find_if
#include <algorithm>
#include "convars.h"
// used: convar interface
#include "interfaces.h"
#include "../sdk/interfaces/ienginecvar.h"
// used: l_print
#include "../utilities/log.h"
// used: getworkingpath
#include "../core.h"
inline static void WriteConVarType(HANDLE hFile, const uint32_t nType)
{
switch ((EConVarType)nType)
{
case EConVarType_Bool:
::WriteFile(hFile, CS_XOR("[bool] "), CRT::StringLength(CS_XOR("[bool] ")), nullptr, nullptr);
break;
case EConVarType_Int16:
::WriteFile(hFile, CS_XOR("[int16] "), CRT::StringLength(CS_XOR("[int16] ")), nullptr, nullptr);
break;
case EConVarType_UInt16:
::WriteFile(hFile, CS_XOR("[uint16] "), CRT::StringLength(CS_XOR("[uint16] ")), nullptr, nullptr);
break;
case EConVarType_Int32:
::WriteFile(hFile, CS_XOR("[int32] "), CRT::StringLength(CS_XOR("[int32] ")), nullptr, nullptr);
break;
case EConVarType_UInt32:
::WriteFile(hFile, CS_XOR("[uint32] "), CRT::StringLength(CS_XOR("[uint32] ")), nullptr, nullptr);
break;
case EConVarType_Int64:
::WriteFile(hFile, CS_XOR("[int64] "), CRT::StringLength(CS_XOR("[int64] ")), nullptr, nullptr);
break;
case EConVarType_UInt64:
::WriteFile(hFile, CS_XOR("[uint64] "), CRT::StringLength(CS_XOR("[uint64] ")), nullptr, nullptr);
break;
case EConVarType_Float32:
::WriteFile(hFile, CS_XOR("[float32] "), CRT::StringLength(CS_XOR("[float32] ")), nullptr, nullptr);
break;
case EConVarType_Float64:
::WriteFile(hFile, CS_XOR("[float64] "), CRT::StringLength(CS_XOR("[float64] ")), nullptr, nullptr);
break;
case EConVarType_String:
::WriteFile(hFile, CS_XOR("[string] "), CRT::StringLength(CS_XOR("[string] ")), nullptr, nullptr);
break;
case EConVarType_Color:
::WriteFile(hFile, CS_XOR("[color] "), CRT::StringLength(CS_XOR("[color] ")), nullptr, nullptr);
break;
case EConVarType_Vector2:
::WriteFile(hFile, CS_XOR("[vector2] "), CRT::StringLength(CS_XOR("[vector2] ")), nullptr, nullptr);
break;
case EConVarType_Vector3:
::WriteFile(hFile, CS_XOR("[vector3] "), CRT::StringLength(CS_XOR("[vector3] ")), nullptr, nullptr);
break;
case EConVarType_Vector4:
::WriteFile(hFile, CS_XOR("[vector4] "), CRT::StringLength(CS_XOR("[vector4] ")), nullptr, nullptr);
break;
case EConVarType_Qangle:
::WriteFile(hFile, CS_XOR("[qangle] "), CRT::StringLength(CS_XOR("[qangle] ")), nullptr, nullptr);
break;
default:
::WriteFile(hFile, CS_XOR("[unknown-type] "), CRT::StringLength(CS_XOR("[unknown-type] ")), nullptr, nullptr);
break;
}
}
inline static void WriteConVarFlags(HANDLE hFile, const uint32_t nFlags)
{
if (nFlags & FCVAR_CLIENTDLL)
::WriteFile(hFile, CS_XOR("[client.dll] "), CRT::StringLength(CS_XOR("[client.dll] ")), nullptr, nullptr);
else if (nFlags & FCVAR_GAMEDLL)
::WriteFile(hFile, CS_XOR("[games's dll] "), CRT::StringLength(CS_XOR("[games's dll] ")), nullptr, nullptr);
if (nFlags & FCVAR_PROTECTED)
::WriteFile(hFile, CS_XOR("[protected] "), CRT::StringLength(CS_XOR("[protected] ")), nullptr, nullptr);
if (nFlags & FCVAR_CHEAT)
::WriteFile(hFile, CS_XOR("[cheat] "), CRT::StringLength(CS_XOR("[cheat] ")), nullptr, nullptr);
if (nFlags & FCVAR_HIDDEN)
::WriteFile(hFile, CS_XOR("[hidden] "), CRT::StringLength(CS_XOR("[hidden] ")), nullptr, nullptr);
if (nFlags & FCVAR_DEVELOPMENTONLY)
::WriteFile(hFile, CS_XOR("[devonly] "), CRT::StringLength(CS_XOR("[devonly] ")), nullptr, nullptr);
::WriteFile(hFile, CS_XOR("\n"), CRT::StringLength(CS_XOR("\n")), nullptr, nullptr);
}
bool CONVAR::Dump(const wchar_t* wszFileName)
{
wchar_t wszDumpFilePath[MAX_PATH];
if (!CORE::GetWorkingPath(wszDumpFilePath))
return false;
CRT::StringCat(wszDumpFilePath, wszFileName);
HANDLE hOutFile = ::CreateFileW(wszDumpFilePath, GENERIC_WRITE, FILE_SHARE_READ, nullptr, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, nullptr);
if (hOutFile == INVALID_HANDLE_VALUE)
return false;
// @todo: maybe remove this redundant? and put it inside CRT::String_t c'tor
const std::time_t time = std::time(nullptr);
std::tm timePoint;
localtime_s(&timePoint, &time);
CRT::String_t<64> szTimeBuffer(CS_XOR("[%d-%m-%Y %T] asphyxia | convars dump\n\n"), &timePoint);
// write current date, time and info
::WriteFile(hOutFile, szTimeBuffer.Data(), szTimeBuffer.Length(), nullptr, nullptr);
for (int i = I::Cvar->listConvars.Head(); i != I::Cvar->listConvars.InvalidIndex(); i = I::Cvar->listConvars.Next(i))
{
CConVar* pConVar = I::Cvar->listConvars.Element(i);
if (pConVar != nullptr)
{
// dump to file
WriteConVarType(hOutFile, pConVar->nType);
CRT::String_t<526> szBuffer(CS_XOR("%s : \"%s\" "), pConVar->szName, pConVar->szDescription[0] == '\0' ? CS_XOR("no description") : pConVar->szDescription);
::WriteFile(hOutFile, szBuffer.Data(), szBuffer.Length(), nullptr, nullptr);
// write flags
WriteConVarFlags(hOutFile, pConVar->nFlags);
}
}
::CloseHandle(hOutFile);
return true;
}
bool CONVAR::Setup()
{
bool bSuccess = true;
m_pitch = I::Cvar->Find(FNV1A::HashConst("m_pitch"));
bSuccess &= m_pitch != nullptr;
m_yaw = I::Cvar->Find(FNV1A::HashConst("m_yaw"));
bSuccess &= m_yaw != nullptr;
sensitivity = I::Cvar->Find(FNV1A::HashConst("sensitivity"));
bSuccess &= sensitivity != nullptr;
game_type = I::Cvar->Find(FNV1A::HashConst("game_type"));
bSuccess &= game_type != nullptr;
game_mode = I::Cvar->Find(FNV1A::HashConst("game_mode"));
bSuccess &= game_mode != nullptr;
mp_teammates_are_enemies = I::Cvar->Find(FNV1A::HashConst("mp_teammates_are_enemies"));
bSuccess &= mp_teammates_are_enemies != nullptr;
sv_autobunnyhopping = I::Cvar->Find(FNV1A::HashConst("sv_autobunnyhopping"));
bSuccess &= sv_autobunnyhopping != nullptr;
return bSuccess;
}

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#pragma once
class CConVar;
namespace CONVAR
{
// dump convars to file
bool Dump(const wchar_t* wszFileName);
// setup convars
bool Setup();
inline CConVar* m_pitch = nullptr;
inline CConVar* m_yaw = nullptr;
inline CConVar* sensitivity = nullptr;
inline CConVar* game_type = nullptr;
inline CConVar* game_mode = nullptr;
inline CConVar* mp_teammates_are_enemies = nullptr;
inline CConVar* sv_autobunnyhopping = nullptr;
}

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#include "hooks.h"
// used: variables
#include "variables.h"
// used: game's sdk
#include "../sdk/interfaces/iswapchaindx11.h"
#include "../sdk/interfaces/iviewrender.h"
#include "../sdk/interfaces/cgameentitysystem.h"
#include "../sdk/interfaces/ccsgoinput.h"
#include "../sdk/interfaces/iinputsystem.h"
#include "../sdk/interfaces/iengineclient.h"
#include "../sdk/interfaces/inetworkclientservice.h"
#include "../sdk/interfaces/iglobalvars.h"
#include "../sdk/interfaces/imaterialsystem.h"
#include "../sdk/interfaces/ipvs.h"
// used: viewsetup
#include "../sdk/datatypes/viewsetup.h"
// used: entity
#include "../sdk/entity.h"
// used: get virtual function, find pattern, ...
#include "../utilities/memory.h"
// used: inputsystem
#include "../utilities/inputsystem.h"
// used: draw
#include "../utilities/draw.h"
// used: features callbacks
#include "../features.h"
// used: CRC rebuild
#include "../features/CRC.h"
// used: game's interfaces
#include "interfaces.h"
#include "sdk.h"
// used: menu
#include "menu.h"
bool H::Setup()
{
if (MH_Initialize() != MH_OK)
{
L_PRINT(LOG_ERROR) << CS_XOR("failed to initialize minhook");
return false;
}
L_PRINT(LOG_INFO) << CS_XOR("minhook initialization completed");
if (!hkPresent.Create(MEM::GetVFunc(I::SwapChain->pDXGISwapChain, VTABLE::D3D::PRESENT), reinterpret_cast<void*>(&Present)))
return false;
L_PRINT(LOG_INFO) << CS_XOR("\"Present\" hook has been created");
if (!hkResizeBuffers.Create(MEM::GetVFunc(I::SwapChain->pDXGISwapChain, VTABLE::D3D::RESIZEBUFFERS), reinterpret_cast<void*>(&ResizeBuffers)))
return false;
L_PRINT(LOG_INFO) << CS_XOR("\"ResizeBuffers\" hook has been created");
// creat swap chain hook
IDXGIDevice* pDXGIDevice = NULL;
I::Device->QueryInterface(IID_PPV_ARGS(&pDXGIDevice));
IDXGIAdapter* pDXGIAdapter = NULL;
pDXGIDevice->GetAdapter(&pDXGIAdapter);
IDXGIFactory* pIDXGIFactory = NULL;
pDXGIAdapter->GetParent(IID_PPV_ARGS(&pIDXGIFactory));
if (!hkCreateSwapChain.Create(MEM::GetVFunc(pIDXGIFactory, VTABLE::DXGI::CREATESWAPCHAIN), reinterpret_cast<void*>(&CreateSwapChain)))
return false;
L_PRINT(LOG_INFO) << CS_XOR("\"CreateSwapChain\" hook has been created");
pDXGIDevice->Release();
pDXGIDevice = nullptr;
pDXGIAdapter->Release();
pDXGIAdapter = nullptr;
pIDXGIFactory->Release();
pIDXGIFactory = nullptr;
// @ida: class CViewRender->OnRenderStart call GetMatricesForView
if (!hkGetMatrixForView.Create(MEM::FindPattern(CLIENT_DLL, CS_XOR("40 53 48 81 EC ? ? ? ? 49 8B C1")), reinterpret_cast<void*>(&GetMatrixForView)))
return false;
L_PRINT(LOG_INFO) << CS_XOR("\"GetMatrixForView\" hook has been created");
// @ida: #STR: cl: CreateMove clamped invalid attack history index %d in frame history to -1. Was %d, frame history size %d.\n
// Consider updating I::Input, VTABLE::CLIENT::CREATEMOVE and using that instead.
// For now, we'll use the pattern
// Credit: https://www.unknowncheats.me/forum/4265695-post6331.html
if (!hkCreateMove.Create(MEM::FindPattern(CLIENT_DLL, CS_XOR("48 8B C4 4C 89 40 ? 48 89 48 ? 55 53 56 57 48 8D A8")), reinterpret_cast<void*>(&CreateMove)))
return false;
L_PRINT(LOG_INFO) << CS_XOR("\"CreateMove\" hook has been created");
if (!hkMouseInputEnabled.Create(MEM::GetVFunc(I::Input, VTABLE::CLIENT::MOUSEINPUTENABLED), reinterpret_cast<void*>(&MouseInputEnabled)))
return false;
L_PRINT(LOG_INFO) << CS_XOR("\"MouseInputEnabled\" hook has been created");
if (!hkFrameStageNotify.Create(MEM::GetVFunc(I::Client, VTABLE::CLIENT::FRAMESTAGENOTIFY), reinterpret_cast<void*>(&FrameStageNotify)))
return false;
L_PRINT(LOG_INFO) << CS_XOR("\"FrameStageNotify\" hook has been created");
// in ida it will go in order as
// @ida: #STR: ; "game_newmap"
// @ida: #STR: ; "mapname"
// @ida: #STR: ; "transition"
// and the pattern is in the first one "game_newmap"
if (!hkLevelInit.Create(MEM::FindPattern(CLIENT_DLL, CS_XOR("48 89 5C 24 ? 56 48 83 EC ? 48 8B 0D ? ? ? ? 48 8B F2")), reinterpret_cast<void*>(&LevelInit)))
return false;
L_PRINT(LOG_INFO) << CS_XOR("\"LevelInit\" hook has been created");
// @ida: ClientModeShared -> #STR: "map_shutdown"
if (!hkLevelShutdown.Create(MEM::FindPattern(CLIENT_DLL, CS_XOR("48 83 EC ? 48 8B 0D ? ? ? ? 48 8D 15 ? ? ? ? 45 33 C9 45 33 C0 48 8B 01 FF 50 ? 48 85 C0 74 ? 48 8B 0D ? ? ? ? 48 8B D0 4C 8B 01 41 FF 50 ? 48 83 C4 28 E9 C3 20 01 ?")), reinterpret_cast<void*>(&LevelShutdown)))
return false;
L_PRINT(LOG_INFO) << CS_XOR("\"LevelShutdown\" hook has been created");
// @note: seems to do nothing for now...
// @ida: ClientModeCSNormal->OverrideView idx 15
//v21 = flSomeWidthSize * 0.5;
//v22 = *flSomeHeightSize * 0.5;
//*(float*)(pSetup + 0x49C) = v21; // m_OrthoRight
//*(float*)(pSetup + 0x494) = -v21; // m_OrthoLeft
//*(float*)(pSetup + 0x498) = -v22; // m_OrthoTop
//*(float*)(pSetup + 0x4A0) = v22; // m_OrthoBottom
if (!hkOverrideView.Create(MEM::FindPattern(CLIENT_DLL, CS_XOR("48 89 5C 24 ? 48 89 6C 24 ? 48 89 74 24 ? 57 41 56 41 57 48 83 EC ? 48 8B FA E8 20 1E ED FF")), reinterpret_cast<void*>(&OverrideView)))
return false;
//L_PRINT(LOG_INFO) << CS_XOR("\"OverrideView\" hook has been created");
// Credit: https://www.unknowncheats.me/forum/4253223-post6185.html
if (!hkDrawObject.Create(MEM::FindPattern(SCENESYSTEM_DLL, CS_XOR("48 8B C4 48 89 50 ? 53")), reinterpret_cast<void*>(&DrawObject)))
return false;
L_PRINT(LOG_INFO) << CS_XOR("\"DrawObject\" hook has been created");
if (!hkIsRelativeMouseMode.Create(MEM::GetVFunc(I::InputSystem, VTABLE::INPUTSYSTEM::ISRELATIVEMOUSEMODE), reinterpret_cast<void*>(&IsRelativeMouseMode)))
return false;
L_PRINT(LOG_INFO) << CS_XOR("\"IsRelativeMouseMode\" hook has been created");
return true;
}
void H::Destroy()
{
MH_DisableHook(MH_ALL_HOOKS);
MH_RemoveHook(MH_ALL_HOOKS);
MH_Uninitialize();
}
HRESULT __stdcall H::Present(IDXGISwapChain* pSwapChain, UINT uSyncInterval, UINT uFlags)
{
const auto oPresent = hkPresent.GetOriginal();
// recreate it if it's not valid
if (I::RenderTargetView == nullptr)
I::CreateRenderTarget();
// set our render target
if (I::RenderTargetView != nullptr)
I::DeviceContext->OMSetRenderTargets(1, &I::RenderTargetView, nullptr);
F::OnPresent();
return oPresent(I::SwapChain->pDXGISwapChain, uSyncInterval, uFlags);
}
HRESULT CS_FASTCALL H::ResizeBuffers(IDXGISwapChain* pSwapChain, std::uint32_t nBufferCount, std::uint32_t nWidth, std::uint32_t nHeight, DXGI_FORMAT newFormat, std::uint32_t nFlags)
{
const auto oResizeBuffer = hkResizeBuffers.GetOriginal();
auto hResult = oResizeBuffer(pSwapChain, nBufferCount, nWidth, nHeight, newFormat, nFlags);
if (SUCCEEDED(hResult))
I::CreateRenderTarget();
return hResult;
}
HRESULT __stdcall H::CreateSwapChain(IDXGIFactory* pFactory, IUnknown* pDevice, DXGI_SWAP_CHAIN_DESC* pDesc, IDXGISwapChain** ppSwapChain)
{
const auto oCreateSwapChain = hkCreateSwapChain.GetOriginal();
I::DestroyRenderTarget();
L_PRINT(LOG_INFO) << CS_XOR("render target view has been destroyed");
return oCreateSwapChain(pFactory, pDevice, pDesc, ppSwapChain);
}
long H::WndProc(HWND hWnd, UINT uMsg, WPARAM wParam, LPARAM lParam)
{
if (D::OnWndProc(hWnd, uMsg, wParam, lParam))
return 1L;
return ::CallWindowProcW(IPT::pOldWndProc, hWnd, uMsg, wParam, lParam);
}
ViewMatrix_t* CS_FASTCALL H::GetMatrixForView(CRenderGameSystem* pRenderGameSystem, IViewRender* pViewRender, ViewMatrix_t* pOutWorldToView, ViewMatrix_t* pOutViewToProjection, ViewMatrix_t* pOutWorldToProjection, ViewMatrix_t* pOutWorldToPixels)
{
const auto oGetMatrixForView = hkGetMatrixForView.GetOriginal();
ViewMatrix_t* matResult = oGetMatrixForView(pRenderGameSystem, pViewRender, pOutWorldToView, pOutViewToProjection, pOutWorldToProjection, pOutWorldToPixels);
// get view matrix
SDK::ViewMatrix = *pOutWorldToProjection;
// get camera position
// @note: ida @GetMatrixForView(global_pointer, pRenderGameSystem + 16, ...)
SDK::CameraPosition = pViewRender->vecOrigin;
return matResult;
}
bool CS_FASTCALL H::CreateMove(CCSGOInput* pInput, int nSlot, CUserCmd* cmd)
{
const auto oCreateMove = hkCreateMove.GetOriginal();
const bool bResult = oCreateMove(pInput, nSlot, cmd);
if (!I::Engine->IsConnected() || !I::Engine->IsInGame())
return bResult;
SDK::Cmd = cmd;
if (SDK::Cmd == nullptr)
return bResult;
CBaseUserCmdPB* pBaseCmd = SDK::Cmd->csgoUserCmd.pBaseCmd;
if (pBaseCmd == nullptr)
return bResult;
SDK::LocalController = CCSPlayerController::GetLocalPlayerController();
if (SDK::LocalController == nullptr)
return bResult;
SDK::LocalPawn = I::GameResourceService->pGameEntitySystem->Get<C_CSPlayerPawn>(SDK::LocalController->GetPawnHandle());
if (SDK::LocalPawn == nullptr)
return bResult;
F::OnCreateMove(SDK::Cmd, pBaseCmd, SDK::LocalController);
// TODO : We need to fix CRC saving
//
// There seems to be an issue within CBasePB and the classes that derive it.
// So far, you may be unable to press specific keys such as crouch and automatic shooting.
// A dodgy fix would be to comment it out but it still doesn't fix the bhop etc.
CRC::Save(pBaseCmd);
if (CRC::CalculateCRC(pBaseCmd) == true)
CRC::Apply(SDK::Cmd);
return bResult;
}
bool CS_FASTCALL H::MouseInputEnabled(void* pThisptr)
{
const auto oMouseInputEnabled = hkMouseInputEnabled.GetOriginal();
return MENU::bMainWindowOpened ? false : oMouseInputEnabled(pThisptr);
}
void CS_FASTCALL H::FrameStageNotify(void* rcx, int nFrameStage)
{
const auto oFrameStageNotify = hkFrameStageNotify.GetOriginal();
F::OnFrameStageNotify(nFrameStage);
return oFrameStageNotify(rcx, nFrameStage);
}
__int64* CS_FASTCALL H::LevelInit(void* pClientModeShared, const char* szNewMap)
{
const auto oLevelInit = hkLevelInit.GetOriginal();
// if global variables are not captured during I::Setup or we join a new game, recapture it
if (I::GlobalVars == nullptr)
I::GlobalVars = *reinterpret_cast<IGlobalVars**>(MEM::ResolveRelativeAddress(MEM::FindPattern(CLIENT_DLL, CS_XOR("48 8B 0D 99 C7 0D 01 4C 8D 05 42 CB 0D 01")), 0x3, 0x7));
// disable model occlusion
I::PVS->Set(false);
return oLevelInit(pClientModeShared, szNewMap);
}
__int64 CS_FASTCALL H::LevelShutdown(void* pClientModeShared)
{
const auto oLevelShutdown = hkLevelShutdown.GetOriginal();
// reset global variables since it got discarded by the game
I::GlobalVars = nullptr;
return oLevelShutdown(pClientModeShared);
}
void CS_FASTCALL H::OverrideView(void* pClientModeCSNormal, CViewSetup* pSetup)
{
const auto oOverrideView = hkOverrideView.GetOriginal();
if (!I::Engine->IsConnected() || !I::Engine->IsInGame())
return hkOverrideView.GetOriginal()(pClientModeCSNormal, pSetup);
oOverrideView(pClientModeCSNormal, pSetup);
}
void CS_FASTCALL H::DrawObject(void* pAnimatableSceneObjectDesc, void* pDx11, CMeshData* arrMeshDraw, int nDataCount, void* pSceneView, void* pSceneLayer, void* pUnk, void* pUnk2)
{
const auto oDrawObject = hkDrawObject.GetOriginal();
if (!I::Engine->IsConnected() || !I::Engine->IsInGame())
return oDrawObject(pAnimatableSceneObjectDesc, pDx11, arrMeshDraw, nDataCount, pSceneView, pSceneLayer, pUnk, pUnk2);
if (SDK::LocalController == nullptr || SDK::LocalPawn == nullptr)
return oDrawObject(pAnimatableSceneObjectDesc, pDx11, arrMeshDraw, nDataCount, pSceneView, pSceneLayer, pUnk, pUnk2);
if (!F::OnDrawObject(pAnimatableSceneObjectDesc, pDx11, arrMeshDraw, nDataCount, pSceneView, pSceneLayer, pUnk, pUnk2))
oDrawObject(pAnimatableSceneObjectDesc, pDx11, arrMeshDraw, nDataCount, pSceneView, pSceneLayer, pUnk, pUnk2);
}
void* H::IsRelativeMouseMode(void* pThisptr, bool bActive)
{
const auto oIsRelativeMouseMode = hkIsRelativeMouseMode.GetOriginal();
MENU::bMainActive = bActive;
if (MENU::bMainWindowOpened)
return oIsRelativeMouseMode(pThisptr, false);
return oIsRelativeMouseMode(pThisptr, bActive);
}

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#pragma once
// used: [d3d] api
#include <d3d11.h>
#include <dxgi1_2.h>
// used: chookobject
#include "../utilities/detourhook.h"
// used: viewmatrix_t
#include "../sdk/datatypes/matrix.h"
namespace VTABLE
{
namespace D3D
{
enum
{
PRESENT = 8U,
RESIZEBUFFERS = 13U,
RESIZEBUFFERS_CSTYLE = 39U,
};
}
namespace DXGI
{
enum
{
CREATESWAPCHAIN = 10U,
};
}
namespace CLIENT
{
enum
{
CREATEMOVE = 5U,
MOUSEINPUTENABLED = 16U,
FRAMESTAGENOTIFY = 36U,
};
}
namespace INPUTSYSTEM
{
enum
{
ISRELATIVEMOUSEMODE = 78U,
};
}
}
class CRenderGameSystem;
class IViewRender;
class CCSGOInput;
class CViewSetup;
class CMeshData;
namespace H
{
bool Setup();
void Destroy();
/* @section: handlers */
// d3d11 & wndproc
HRESULT WINAPI Present(IDXGISwapChain* pSwapChain, UINT uSyncInterval, UINT uFlags);
HRESULT CS_FASTCALL ResizeBuffers(IDXGISwapChain* pSwapChain, std::uint32_t nBufferCount, std::uint32_t nWidth, std::uint32_t nHeight, DXGI_FORMAT newFormat, std::uint32_t nFlags);
HRESULT WINAPI CreateSwapChain(IDXGIFactory* pFactory, IUnknown* pDevice, DXGI_SWAP_CHAIN_DESC* pDesc, IDXGISwapChain** ppSwapChain);
long CALLBACK WndProc(HWND hWnd, UINT uMsg, WPARAM wParam, LPARAM lParam);
// game's functions
ViewMatrix_t* CS_FASTCALL GetMatrixForView(CRenderGameSystem* pRenderGameSystem, IViewRender* pViewRender, ViewMatrix_t* pOutWorldToView, ViewMatrix_t* pOutViewToProjection, ViewMatrix_t* pOutWorldToProjection, ViewMatrix_t* pOutWorldToPixels);
bool CS_FASTCALL CreateMove(CCSGOInput* pInput, int nSlot, bool bActive);
bool CS_FASTCALL MouseInputEnabled(void* pThisptr);
void CS_FASTCALL FrameStageNotify(void* rcx, int nFrameStage);
__int64* CS_FASTCALL LevelInit(void* pClientModeShared, const char* szNewMap);
__int64 CS_FASTCALL LevelShutdown(void* pClientModeShared);
void CS_FASTCALL OverrideView(void* pClientModeCSNormal, CViewSetup* pSetup);
void CS_FASTCALL DrawObject(void* pAnimatableSceneObjectDesc, void* pDx11, CMeshData* arrMeshDraw, int nDataCount, void* pSceneView, void* pSceneLayer, void* pUnk, void* pUnk2);
void* IsRelativeMouseMode(void* pThisptr, bool bActive);
/* @section: managers */
inline CBaseHookObject<decltype(&Present)> hkPresent = {};
inline CBaseHookObject<decltype(&ResizeBuffers)> hkResizeBuffers = {};
inline CBaseHookObject<decltype(&CreateSwapChain)> hkCreateSwapChain = {};
inline CBaseHookObject<decltype(&WndProc)> hkWndProc = {};
inline CBaseHookObject<decltype(&GetMatrixForView)> hkGetMatrixForView = {};
inline CBaseHookObject<decltype(&CreateMove)> hkCreateMove = {};
inline CBaseHookObject<decltype(&MouseInputEnabled)> hkMouseInputEnabled = {};
inline CBaseHookObject<decltype(&IsRelativeMouseMode)> hkIsRelativeMouseMode = {};
inline CBaseHookObject<decltype(&FrameStageNotify)> hkFrameStageNotify = {};
inline CBaseHookObject<decltype(&LevelInit)> hkLevelInit = {};
inline CBaseHookObject<decltype(&LevelShutdown)> hkLevelShutdown = {};
inline CBaseHookObject<decltype(&OverrideView)> hkOverrideView = {};
inline CBaseHookObject<decltype(&DrawObject)> hkDrawObject = {};
}

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// used: [d3d] api
#include <d3d11.h>
#include "interfaces.h"
// used: findpattern, callvirtual, getvfunc...
#include "../utilities/memory.h"
// used: l_print
#include "../utilities/log.h"
// used: iswapchaindx11
#include "../sdk/interfaces/iswapchaindx11.h"
#include "../sdk/interfaces/iresourcesystem.h"
#pragma region interfaces_get
using InstantiateInterfaceFn_t = void* (*)();
class CInterfaceRegister
{
public:
InstantiateInterfaceFn_t fnCreate;
const char* szName;
CInterfaceRegister* pNext;
};
static const CInterfaceRegister* GetRegisterList(const wchar_t* wszModuleName)
{
void* hModule = MEM::GetModuleBaseHandle(wszModuleName);
if (hModule == nullptr)
return nullptr;
std::uint8_t* pCreateInterface = reinterpret_cast<std::uint8_t*>(MEM::GetExportAddress(hModule, CS_XOR("CreateInterface")));
if (pCreateInterface == nullptr)
{
L_PRINT(LOG_ERROR) << CS_XOR("failed to get \"CreateInterface\" address");
return nullptr;
}
return *reinterpret_cast<CInterfaceRegister**>(MEM::ResolveRelativeAddress(pCreateInterface, 0x3, 0x7));
}
template <typename T = void*>
T* Capture(const CInterfaceRegister* pModuleRegister, const char* szInterfaceName)
{
for (const CInterfaceRegister* pRegister = pModuleRegister; pRegister != nullptr; pRegister = pRegister->pNext)
{
if (const std::size_t nInterfaceNameLength = CRT::StringLength(szInterfaceName);
// found needed interface
CRT::StringCompareN(szInterfaceName, pRegister->szName, nInterfaceNameLength) == 0 &&
// and we've given full name with hardcoded digits
(CRT::StringLength(pRegister->szName) == nInterfaceNameLength ||
// or it contains digits after name
CRT::StringToInteger<int>(pRegister->szName + nInterfaceNameLength, nullptr, 10) > 0))
{
// capture our interface
void* pInterface = pRegister->fnCreate();
#ifdef _DEBUG
// log interface address
L_PRINT(LOG_INFO) << CS_XOR("captured \"") << pRegister->szName << CS_XOR("\" interface at address: ") << L::AddFlags(LOG_MODE_INT_SHOWBASE | LOG_MODE_INT_FORMAT_HEX) << reinterpret_cast<std::uintptr_t>(pInterface);
#else
L_PRINT(LOG_INFO) << CS_XOR("captured \"") << pRegister->szName << CS_XOR("\" interface");
#endif
return static_cast<T*>(pInterface);
}
}
L_PRINT(LOG_ERROR) << CS_XOR("failed to find interface \"") << szInterfaceName << CS_XOR("\"");
return nullptr;
}
#pragma endregion
bool I::Setup()
{
bool bSuccess = true;
#pragma region interface_game_exported
const auto pTier0Handle = MEM::GetModuleBaseHandle(TIER0_DLL);
if (pTier0Handle == nullptr)
return false;
MemAlloc = *reinterpret_cast<IMemAlloc**>(MEM::GetExportAddress(pTier0Handle, CS_XOR("g_pMemAlloc")));
bSuccess &= (MemAlloc != nullptr);
const auto pSchemaSystemRegisterList = GetRegisterList(SCHEMASYSTEM_DLL);
if (pSchemaSystemRegisterList == nullptr)
return false;
SchemaSystem = Capture<ISchemaSystem>(pSchemaSystemRegisterList, SCHEMA_SYSTEM);
bSuccess &= (SchemaSystem != nullptr);
const auto pInputSystemRegisterList = GetRegisterList(INPUTSYSTEM_DLL);
if (pInputSystemRegisterList == nullptr)
return false;
InputSystem = Capture<IInputSystem>(pInputSystemRegisterList, INPUT_SYSTEM_VERSION);
bSuccess &= (InputSystem != nullptr);
const auto pEngineRegisterList = GetRegisterList(ENGINE2_DLL);
if (pEngineRegisterList == nullptr)
return false;
GameResourceService = Capture<IGameResourceService>(pEngineRegisterList, GAME_RESOURCE_SERVICE_CLIENT);
bSuccess &= (GameResourceService != nullptr);
Engine = Capture<IEngineClient>(pEngineRegisterList, SOURCE2_ENGINE_TO_CLIENT);
bSuccess &= (Engine != nullptr);
NetworkClientService = Capture<INetworkClientService>(pEngineRegisterList, NETWORK_CLIENT_SERVICE);
bSuccess &= (NetworkClientService != nullptr);
const auto pTier0RegisterList = GetRegisterList(TIER0_DLL);
if (pTier0RegisterList == nullptr)
return false;
Cvar = Capture<IEngineCVar>(pTier0RegisterList, ENGINE_CVAR);
bSuccess &= (Cvar != nullptr);
const auto pClientRegister = GetRegisterList(CLIENT_DLL);
if (pClientRegister == nullptr)
return false;
Client = Capture<ISource2Client>(pClientRegister, SOURCE2_CLIENT);
bSuccess &= (Client != nullptr);
const auto pMaterialSystem2Register = GetRegisterList(MATERIAL_SYSTEM2_DLL);
if (pMaterialSystem2Register == nullptr)
return false;
MaterialSystem2 = Capture<IMaterialSystem2>(pMaterialSystem2Register, MATERIAL_SYSTEM2);
bSuccess &= (MaterialSystem2 != nullptr);
const auto pResourceSystemRegisterList = GetRegisterList(RESOURCESYSTEM_DLL);
if (pResourceSystemRegisterList == nullptr)
return false;
ResourceSystem = Capture<IResourceSystem>(pResourceSystemRegisterList, RESOURCE_SYSTEM);
bSuccess &= (ResourceSystem != nullptr);
if (ResourceSystem != nullptr)
{
ResourceHandleUtils = reinterpret_cast<CResourceHandleUtils*>(ResourceSystem->QueryInterface(RESOURCE_HANDLE_UTILS));
bSuccess &= (ResourceHandleUtils != nullptr);
}
#pragma endregion
// @ida: #STR: "r_gpu_mem_stats", "-threads", "CTSListBase: Misaligned list\n", "CTSQueue: Misaligned queue\n", "Display GPU memory usage.", "-r_max_device_threads"
SwapChain = **reinterpret_cast<ISwapChainDx11***>(MEM::ResolveRelativeAddress(MEM::FindPattern(RENDERSYSTEM_DLL, CS_XOR("66 0F 7F 0D ? ? ? ? 66 0F 7F 05 ? ? ? ? 0F 1F 40")), 0x4, 0x8));
bSuccess &= (SwapChain != nullptr);
// grab's d3d11 interfaces for later use
if (SwapChain != nullptr)
{
if (FAILED(SwapChain->pDXGISwapChain->GetDevice(__uuidof(ID3D11Device), (void**)&Device)))
{
L_PRINT(LOG_ERROR) << CS_XOR("failed to get device from swapchain");
CS_ASSERT(false);
return false;
}
else
// we successfully got device, so we can get immediate context
Device->GetImmediateContext(&DeviceContext);
}
bSuccess &= (Device != nullptr && DeviceContext != nullptr);
Input = *reinterpret_cast<CCSGOInput**>(MEM::ResolveRelativeAddress(MEM::FindPattern(CLIENT_DLL, CS_XOR("48 8B 0D ? ? ? ? E8 ? ? ? ? 8B BE 84 12 00 00")), 0x3, 0x7));
bSuccess &= (Input != nullptr);
// @ida: STR '%s: %f tick(%d) curtime(%f) OnSequenceCycleChanged: %s : %d=[%s]'
GlobalVars = *reinterpret_cast<IGlobalVars**>(MEM::ResolveRelativeAddress(MEM::FindPattern(CLIENT_DLL, CS_XOR("48 89 0D ? ? ? ? 48 89 41")), 0x3, 0x7));
bSuccess &= (GlobalVars != nullptr);
PVS = reinterpret_cast<CPVS*>(MEM::ResolveRelativeAddress(MEM::FindPattern(ENGINE2_DLL, CS_XOR("48 8D 0D ? ? ? ? 33 D2 FF 50")), 0x3, 0x7));
bSuccess &= (PVS != nullptr);
GameTraceManager = *reinterpret_cast<CGameTraceManager**>(MEM::GetAbsoluteAddress(MEM::FindPattern(CLIENT_DLL, CS_XOR("4C 8B 3D ? ? ? ? 24 C9 0C 49 66 0F 7F 45")), 0x3, 0x0));
bSuccess &= (GameTraceManager != nullptr);
return bSuccess;
}
void I::CreateRenderTarget()
{
if (FAILED(SwapChain->pDXGISwapChain->GetDevice(__uuidof(ID3D11Device), (void**)&Device)))
{
L_PRINT(LOG_ERROR) << CS_XOR("failed to get device from swapchain");
CS_ASSERT(false);
}
else
// we successfully got device, so we can get immediate context
Device->GetImmediateContext(&DeviceContext);
// @note: i dont use this anywhere else so lambda is fine
static const auto GetCorrectDXGIFormat = [](DXGI_FORMAT eCurrentFormat)
{
switch (eCurrentFormat)
{
case DXGI_FORMAT_R8G8B8A8_UNORM_SRGB:
return DXGI_FORMAT_R8G8B8A8_UNORM;
}
return eCurrentFormat;
};
DXGI_SWAP_CHAIN_DESC sd;
SwapChain->pDXGISwapChain->GetDesc(&sd);
ID3D11Texture2D* pBackBuffer = nullptr;
if (SUCCEEDED(SwapChain->pDXGISwapChain->GetBuffer(0, IID_PPV_ARGS(&pBackBuffer))))
{
if (pBackBuffer)
{
D3D11_RENDER_TARGET_VIEW_DESC desc{};
desc.Format = static_cast<DXGI_FORMAT>(GetCorrectDXGIFormat(sd.BufferDesc.Format));
desc.ViewDimension = D3D11_RTV_DIMENSION_TEXTURE2D;
if (FAILED(Device->CreateRenderTargetView(pBackBuffer, &desc, &RenderTargetView)))
{
L_PRINT(LOG_WARNING) << CS_XOR("failed to create render target view with D3D11_RTV_DIMENSION_TEXTURE2D...");
L_PRINT(LOG_INFO) << CS_XOR("retrying to create render target view with D3D11_RTV_DIMENSION_TEXTURE2DMS...");
desc.ViewDimension = D3D11_RTV_DIMENSION_TEXTURE2DMS;
if (FAILED(Device->CreateRenderTargetView(pBackBuffer, &desc, &RenderTargetView)))
{
L_PRINT(LOG_WARNING) << CS_XOR("failed to create render target view with D3D11_RTV_DIMENSION_TEXTURE2D...");
L_PRINT(LOG_INFO) << CS_XOR("retrying...");
if (FAILED(Device->CreateRenderTargetView(pBackBuffer, NULL, &RenderTargetView)))
{
L_PRINT(LOG_ERROR) << CS_XOR("failed to create render target view");
CS_ASSERT(false);
}
}
}
pBackBuffer->Release();
pBackBuffer = nullptr;
}
}
}
void I::DestroyRenderTarget()
{
if (RenderTargetView != nullptr)
{
RenderTargetView->Release();
RenderTargetView = nullptr;
}
}

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#pragma once
#include "../common.h"
// used: globalvariables
#include "../sdk/interfaces/iglobalvars.h"
#pragma region sdk_definitons
#define GAME_RESOURCE_SERVICE_CLIENT CS_XOR("GameResourceServiceClientV00")
#define SOURCE2_CLIENT CS_XOR("Source2Client00")
#define SCHEMA_SYSTEM CS_XOR("SchemaSystem_00")
#define INPUT_SYSTEM_VERSION CS_XOR("InputSystemVersion00")
#define SOURCE2_ENGINE_TO_CLIENT CS_XOR("Source2EngineToClient00")
#define ENGINE_CVAR CS_XOR("VEngineCvar00")
#define LOCALIZE CS_XOR("Localize_00")
#define NETWORK_CLIENT_SERVICE CS_XOR("NetworkClientService_00")
#define MATERIAL_SYSTEM2 CS_XOR("VMaterialSystem2_00")
#define RESOURCE_SYSTEM CS_XOR("ResourceSystem013")
#define RESOURCE_HANDLE_UTILS CS_XOR("ResourceHandleUtils001")
// @source: master/game/shared/shareddefs.h
#define TICK_INTERVAL 0.015625f
#define TIME_TO_TICKS(TIME) (static_cast<int>(0.5f + static_cast<float>(TIME) / TICK_INTERVAL))
#define TICKS_TO_TIME(TICKS) (TICK_INTERVAL * static_cast<float>(TICKS))
#define ROUND_TO_TICKS(TIME) (TICK_INTERVAL * TIME_TO_TICKS(TIME))
#define TICK_NEVER_THINK (-1)
#pragma endregion
// game interfaces
class ISwapChainDx11;
class IMemAlloc;
class CCSGOInput;
class ISchemaSystem;
class IInputSystem;
class IGameResourceService;
class ISource2Client;
class IEngineClient;
class IEngineCVar;
class INetworkClientService;
class IMaterialSystem2;
class IResourceSystem;
class CResourceHandleUtils;
class CPVS;
class CGameTraceManager;
// [d3d] struct
struct ID3D11Device;
struct ID3D11DeviceContext;
struct ID3D11RenderTargetView;
namespace I
{
bool Setup();
/* @section: helpers */
// create and destroy render target view for handling resize
void CreateRenderTarget();
void DestroyRenderTarget();
inline IMemAlloc* MemAlloc = nullptr;
inline ISwapChainDx11* SwapChain = nullptr;
inline ID3D11Device* Device = nullptr;
inline ID3D11DeviceContext* DeviceContext = nullptr;
inline ID3D11RenderTargetView* RenderTargetView = nullptr;
inline CCSGOInput* Input = nullptr;
inline ISchemaSystem* SchemaSystem = nullptr;
inline IGlobalVars* GlobalVars = nullptr;
inline IInputSystem* InputSystem = nullptr;
inline IGameResourceService* GameResourceService = nullptr;
inline ISource2Client* Client = nullptr;
inline IEngineClient* Engine = nullptr;
inline IEngineCVar* Cvar = nullptr;
inline INetworkClientService* NetworkClientService = nullptr;
inline IMaterialSystem2* MaterialSystem2 = nullptr;
inline IResourceSystem* ResourceSystem = nullptr;
inline CResourceHandleUtils* ResourceHandleUtils = nullptr;
inline CPVS* PVS = nullptr;
inline CGameTraceManager* GameTraceManager = nullptr;
}

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#pragma once
// used: [stl] vector
#include <vector>
#include "../common.h"
// used: [ext] imgui, draw, animation
#include "../utilities/draw.h"
#define MENU_MAX_BACKGROUND_PARTICLES 100
class CTab
{
public:
const char* szName;
void (*pRenderFunction)();
};
namespace MENU
{
void RenderMainWindow();
void RenderOverlayPreviewWindow();
void RenderWatermark();
void UpdateStyle(ImGuiStyle* pStyle = nullptr);
/* @section: particles */
struct ParticleData_t
{
ParticleData_t(const ImVec2& vecPosition, const ImVec2& vecVelocity) :
vecPosition(vecPosition), vecVelocity(vecVelocity) { }
// current particle position
ImVec2 vecPosition = {};
// current particle velocity
ImVec2 vecVelocity = {};
};
struct ParticleContext_t
{
ParticleContext_t(const int nMaxParticles = 100)
{
// allocate memory for particles
this->vecParticles.reserve(nMaxParticles);
// create particles if needed
}
~ParticleContext_t()
{
// since no memory allocated, just clear vector
this->vecParticles.clear();
}
void Render(ImDrawList* pDrawList, const ImVec2& vecScreenSize, const float flAlpha);
// create particle with random velocity/position
void AddParticle(const ImVec2& vecScreenSize);
// current size of particles
const size_t Count() const { return this->vecParticles.size(); }
private:
// draw particle (circle)
void DrawParticle(ImDrawList* pDrawList, ParticleData_t& particle, const Color_t& colPrimary);
// find & draw connection as a line between particles
void FindConnections(ImDrawList* pDrawList, ParticleData_t& particle, const Color_t& colPrimary, float flMaxDistance);
void DrawConnection(ImDrawList* pDrawList, ParticleData_t& particle, ParticleData_t& otherParticle, float flAlpha, const Color_t& colPrimary) const;
// update particle position/velocity
// reversed direction when particle is out of screen
void UpdatePosition(ParticleData_t& particle, const ImVec2& vecScreenSize) const;
void ResolveScreenCollision(ParticleData_t& particle, const ImVec2& vecScreenSize) const;
// all our particles data
std::vector<ParticleData_t> vecParticles;
};
inline bool bMainWindowOpened = false;
inline bool bMainActive = false;
inline int nCurrentMainTab = 0;
inline ParticleContext_t menuParticle = ParticleContext_t(MENU_MAX_BACKGROUND_PARTICLES);
inline AnimationHandler_t animMenuDimBackground;
inline float flDpiScale = 1.f;
}
namespace T
{
/* @section: main */
void Render(const char* szTabBar, const CTab* arrTabs, const unsigned long long nTabsCount, int* nCurrentTab, ImGuiTabBarFlags flags = ImGuiTabBarFlags_NoCloseWithMiddleMouseButton | ImGuiTabBarFlags_NoTooltip);
/* @section: tabs */
void RageBot();
void LegitBot();
void Visuals();
void Miscellaneous();
void SkinsChanger();
/* @section: values */
// user-defined configuration filename in miscellaneous tab
inline char szConfigFile[256U] = {};
// current selected configuration in miscellaneous tab
inline unsigned long long nSelectedConfig = ~1U;
// current sub tab overlay in visuals tab
inline int nCurrentOverlaySubtab = 0;
}
namespace menu
{
using namespace ImGui;
const ImGuiColorEditFlags color_edit4_flags = ImGuiColorEditFlags_NoBorder | ImGuiColorEditFlags_NoTooltip | ImGuiColorEditFlags_NoInputs | ImGuiColorEditFlags_NoLabel | ImGuiColorEditFlags_NoDragDrop | ImGuiColorEditFlags_AlphaPreview;
void render();
}

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#include "schema.h"
// used: [stl] vector
#include <vector>
// used: [stl] find_if
#include <algorithm>
// used: getworkingpath
#include "../core.h"
// used: ischemasystem
#include "interfaces.h"
#include "../sdk/interfaces/ischemasystem.h"
// used: l_print
#include "../utilities/log.h"
struct SchemaData_t
{
FNV1A_t uHashedFieldName = 0x0ULL;
std::uint32_t uOffset = 0x0U;
};
static std::vector<SchemaData_t> vecSchemaData;
bool SCHEMA::Setup(const wchar_t* wszFileName, const char* szModuleName)
{
wchar_t wszDumpFilePath[MAX_PATH];
if (!CORE::GetWorkingPath(wszDumpFilePath))
return false;
CRT::StringCat(wszDumpFilePath, wszFileName);
HANDLE hOutFile = ::CreateFileW(wszDumpFilePath, GENERIC_WRITE, FILE_SHARE_READ, nullptr, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, nullptr);
if (hOutFile == INVALID_HANDLE_VALUE)
return false;
// @todo: maybe remove this redundant? and put it inside CRT::String_t c'tor
const std::time_t time = std::time(nullptr);
std::tm timePoint;
localtime_s(&timePoint, &time);
CRT::String_t<64> szTimeBuffer(CS_XOR("[%d-%m-%Y %T] asphyxia | schema dump\n\n"), &timePoint);
// write current date, time and info
::WriteFile(hOutFile, szTimeBuffer.Data(), szTimeBuffer.Length(), nullptr, nullptr);
CSchemaSystemTypeScope* pTypeScope = I::SchemaSystem->FindTypeScopeForModule(szModuleName);
if (pTypeScope == nullptr)
return false;
const int nTableSize = pTypeScope->hashClasses.Count();
L_PRINT(LOG_INFO) << CS_XOR("found \"") << nTableSize << CS_XOR("\" schema classes in module");
// allocate memory for elements
UtlTSHashHandle_t* pElements = new UtlTSHashHandle_t[nTableSize + 1U];
const auto nElements = pTypeScope->hashClasses.GetElements(0, nTableSize, pElements);
for (int i = 0; i < nElements; i++)
{
const UtlTSHashHandle_t hElement = pElements[i];
if (hElement == 0)
continue;
CSchemaClassBinding* pClassBinding = pTypeScope->hashClasses[hElement];
if (pClassBinding == nullptr)
continue;
SchemaClassInfoData_t* pDeclaredClassInfo;
pTypeScope->FindDeclaredClass(&pDeclaredClassInfo, pClassBinding->szBinaryName);
if (pDeclaredClassInfo == nullptr)
continue;
if (pDeclaredClassInfo->nFieldSize == 0)
continue;
CRT::String_t<MAX_PATH> szClassBuffer(CS_XOR("class %s\n"), pDeclaredClassInfo->szName);
::WriteFile(hOutFile, szClassBuffer.Data(), szClassBuffer.Length(), nullptr, nullptr);
for (auto j = 0; j < pDeclaredClassInfo->nFieldSize; j++)
{
SchemaClassFieldData_t* pFields = pDeclaredClassInfo->pFields;
CRT::String_t<MAX_PATH> szFieldClassBuffer(CS_XOR("%s->%s"), pClassBinding->szBinaryName, pFields[j].szName);
// store field info
vecSchemaData.emplace_back(FNV1A::Hash(szFieldClassBuffer.Data()), pFields[j].nSingleInheritanceOffset);
CRT::String_t<MAX_PATH> szFieldBuffer(CS_XOR(" %s %s = 0x%X\n"), pFields[j].pSchemaType->szName, pFields[j].szName, pFields[j].nSingleInheritanceOffset);
// write field info
::WriteFile(hOutFile, szFieldBuffer.Data(), szFieldBuffer.Length(), nullptr, nullptr);
}
#ifdef _DEBUG
L_PRINT(LOG_INFO) << CS_XOR("dumped \"") << pDeclaredClassInfo->szName << CS_XOR("\" (total: ") << pDeclaredClassInfo->nFieldSize << CS_XOR(" fields)");
#endif
}
// free allocated memory
delete[] pElements;
// close file
::CloseHandle(hOutFile);
return true;
}
std::uint32_t SCHEMA::GetOffset(const FNV1A_t uHashedFieldName)
{
if (const auto it = std::ranges::find_if(vecSchemaData, [uHashedFieldName](const SchemaData_t& data)
{ return data.uHashedFieldName == uHashedFieldName; });
it != vecSchemaData.end())
return it->uOffset;
L_PRINT(LOG_ERROR) << CS_XOR("failed to find offset for field with hash: ") << L::AddFlags(LOG_MODE_INT_FORMAT_HEX | LOG_MODE_INT_SHOWBASE) << uHashedFieldName;
CS_ASSERT(false); // schema field not found
return 0U;
}
// @todo: optimize this, this is really poorly do and can be done much better?
std::uint32_t SCHEMA::GetForeignOffset(const char* szModulenName, const FNV1A_t uHashedClassName, const FNV1A_t uHashedFieldName)
{
CSchemaSystemTypeScope* pTypeScope = I::SchemaSystem->FindTypeScopeForModule(szModulenName);
if (pTypeScope == nullptr)
return false;
const int nTableSize = pTypeScope->hashClasses.Count();
// allocate memory for elements
UtlTSHashHandle_t* pElements = new UtlTSHashHandle_t[nTableSize + 1U];
const auto nElements = pTypeScope->hashClasses.GetElements(0, nTableSize, pElements);
std::uint32_t uOffset = 0x0;
for (int i = 0; i < nElements; i++)
{
const UtlTSHashHandle_t hElement = pElements[i];
if (hElement == 0)
continue;
CSchemaClassBinding* pClassBinding = pTypeScope->hashClasses[hElement];
if (pClassBinding == nullptr)
continue;
SchemaClassInfoData_t* pDeclaredClassInfo;
pTypeScope->FindDeclaredClass(&pDeclaredClassInfo, pClassBinding->szBinaryName);
if (pDeclaredClassInfo == nullptr)
continue;
if (pDeclaredClassInfo->nFieldSize == 0)
continue;
for (auto j = 0; j < pDeclaredClassInfo->nFieldSize; j++)
{
SchemaClassFieldData_t* pFields = pDeclaredClassInfo->pFields;
if (pFields == nullptr)
continue;
SchemaClassFieldData_t field = pFields[j];
if (FNV1A::Hash(pClassBinding->szBinaryName) == uHashedClassName && FNV1A::Hash(field.szName) == uHashedFieldName)
uOffset = field.nSingleInheritanceOffset;
}
}
if (uOffset == 0x0)
L_PRINT(LOG_WARNING) << CS_XOR("failed to find offset for field with hash: ") << L::AddFlags(LOG_MODE_INT_FORMAT_HEX | LOG_MODE_INT_SHOWBASE) << uHashedFieldName;
return uOffset;
}

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#pragma once
#include "../common.h"
// used: fnv-1a hash
#include "../utilities/fnv1a.h"
#define SCHEMA_ADD_OFFSET(TYPE, NAME, OFFSET) \
[[nodiscard]] CS_INLINE std::add_lvalue_reference_t<TYPE> NAME() \
{ \
static const std::uint32_t uOffset = OFFSET; \
return *reinterpret_cast<std::add_pointer_t<TYPE>>(reinterpret_cast<std::uint8_t*>(this) + (uOffset)); \
}
#define SCHEMA_ADD_POFFSET(TYPE, NAME, OFFSET) \
[[nodiscard]] CS_INLINE std::add_pointer_t<TYPE> NAME() \
{ \
const static std::uint32_t uOffset = OFFSET; \
return reinterpret_cast<std::add_pointer_t<TYPE>>(reinterpret_cast<std::uint8_t*>(this) + (uOffset)); \
}
#define SCHEMA_ADD_FIELD_OFFSET(TYPE, NAME, FIELD, ADDITIONAL) SCHEMA_ADD_OFFSET(TYPE, NAME, SCHEMA::GetOffset(FNV1A::HashConst(FIELD)) + ADDITIONAL)
#define SCHEMA_ADD_FIELD(TYPE, NAME, FIELD) SCHEMA_ADD_FIELD_OFFSET(TYPE, NAME, FIELD, 0U)
#define SCHEMA_ADD_PFIELD_OFFSET(TYPE, NAME, FIELD, ADDITIONAL) SCHEMA_ADD_POFFSET(TYPE, NAME, SCHEMA::GetOffset(FNV1A::HashConst(FIELD)) + ADDITIONAL)
#define SCHEMA_ADD_PFIELD(TYPE, NAME, FIELD) SCHEMA_ADD_PFIELD_OFFSET(TYPE, NAME, FIELD, 0U)
// @todo: dump enums?
namespace SCHEMA
{
// store the offset of the field in the class
// dump stored data to file
bool Setup(const wchar_t* wszFileName, const char* szModuleName);
/* @section: get */
// get offset of the field in the class
// @note: only client.dll class & fields
[[nodiscard]] std::uint32_t GetOffset(const FNV1A_t uHashedFieldName);
// get foregin offset from other .dll
[[nodiscard]] std::uint32_t GetForeignOffset(const char* szModulenName, const FNV1A_t uHashedClassName, const FNV1A_t uHashedFieldName);
}

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#include "sdk.h"
// used: getmodulebasehandle
#include "../utilities/memory.h"
bool SDK::Setup()
{
bool bSuccess = true;
const void* hTier0Lib = MEM::GetModuleBaseHandle(TIER0_DLL);
if (hTier0Lib == nullptr)
return false;
fnConColorMsg = reinterpret_cast<decltype(fnConColorMsg)>(MEM::GetExportAddress(hTier0Lib, CS_XOR("?ConColorMsg@@YAXAEBVColor@@PEBDZZ")));
bSuccess &= fnConColorMsg != nullptr;
return bSuccess;
}

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#pragma once
// used: viewmatrix_t
#include "../sdk/datatypes/matrix.h"
// used: color_t
#include "../sdk/datatypes/color.h"
// used: cmd
#include "../sdk/datatypes/usercmd.h"
#pragma region sdk_definitions
// @source: master/public/worldsize.h
// world coordinate bounds
#define MAX_COORD_FLOAT 16'384.f
#define MIN_COORD_FLOAT (-MAX_COORD_FLOAT)
// @source: master/public/vphysics_interface.h
// coordinates are in HL units. 1 unit == 1 inch
#define METERS_PER_INCH 0.0254f
#pragma endregion
class CCSPlayerController;
class C_CSPlayerPawn;
namespace SDK
{
// capture game's exported functions
bool Setup();
inline ViewMatrix_t ViewMatrix = ViewMatrix_t();
inline Vector_t CameraPosition = Vector_t();
inline CCSPlayerController* LocalController = nullptr;
inline C_CSPlayerPawn* LocalPawn = nullptr;
inline CUserCmd* Cmd = nullptr;
inline void(CS_CDECL* fnConColorMsg)(const Color_t&, const char*, ...) = nullptr;
}

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#pragma once
#include "config.h"
#pragma region variables_combo_entries
using VisualOverlayBox_t = int;
enum EVisualOverlayBox : VisualOverlayBox_t
{
VISUAL_OVERLAY_BOX_NONE = 0,
VISUAL_OVERLAY_BOX_FULL,
VISUAL_OVERLAY_BOX_CORNERS,
VISUAL_OVERLAY_BOX_MAX
};
using VisualChamMaterial_t = int;
enum EVisualsChamMaterials : VisualChamMaterial_t
{
VISUAL_MATERIAL_PRIMARY_WHITE = 0,
VISUAL_MATERIAL_ILLUMINATE,
VISUAL_MATERIAL_MAX
};
using MiscDpiScale_t = int;
enum EMiscDpiScale : MiscDpiScale_t
{
MISC_DPISCALE_DEFAULT = 0,
MISC_DPISCALE_125,
MISC_DPISCALE_150,
MISC_DPISCALE_175,
MISC_DPISCALE_200,
MISC_DPISCALE_MAX
};
#pragma endregion
#pragma region variables_multicombo_entries
using MenuAddition_t = unsigned int;
enum EMenuAddition : MenuAddition_t
{
MENU_ADDITION_NONE = 0U,
MENU_ADDITION_DIM_BACKGROUND = 1 << 0,
MENU_ADDITION_BACKGROUND_PARTICLE = 1 << 1,
MENU_ADDITION_GLOW = 1 << 2,
MENU_ADDITION_ALL = MENU_ADDITION_DIM_BACKGROUND | MENU_ADDITION_BACKGROUND_PARTICLE | MENU_ADDITION_GLOW
};
#pragma endregion
struct Variables_t
{
#pragma region variables_visuals
C_ADD_VARIABLE(bool, bVisualOverlay, false);
C_ADD_VARIABLE(FrameOverlayVar_t, overlayBox, FrameOverlayVar_t(false));
C_ADD_VARIABLE(TextOverlayVar_t, overlayName, TextOverlayVar_t(false));
C_ADD_VARIABLE(BarOverlayVar_t, overlayHealthBar, BarOverlayVar_t(false, false, false, 1.f, Color_t(0, 255, 0), Color_t(255, 0, 0)));
C_ADD_VARIABLE(BarOverlayVar_t, overlayArmorBar, BarOverlayVar_t(false, false, false, 1.f, Color_t(0, 255, 255), Color_t(255, 0, 0)));
C_ADD_VARIABLE(bool, bVisualChams, false);
C_ADD_VARIABLE(int, nVisualChamMaterial, VISUAL_MATERIAL_PRIMARY_WHITE);
C_ADD_VARIABLE(bool, bVisualChamsIgnoreZ, true); // invisible chams
C_ADD_VARIABLE(Color_t, colVisualChams, Color_t(0, 255, 0));
C_ADD_VARIABLE(Color_t, colVisualChamsIgnoreZ, Color_t(255, 0, 0));
#pragma endregion
#pragma region variables_misc
C_ADD_VARIABLE(bool, bAntiUntrusted, true);
C_ADD_VARIABLE(bool, bWatermark, true);
C_ADD_VARIABLE(bool, bAntiAim, false);
C_ADD_VARIABLE(bool, bAutoBHop, false);
C_ADD_VARIABLE(int, nAutoBHopChance, 100);
C_ADD_VARIABLE(bool, bAutoStrafe, false);
#pragma endregion
#pragma region variables_menu
C_ADD_VARIABLE(unsigned int, nMenuKey, VK_INSERT);
C_ADD_VARIABLE(unsigned int, nPanicKey, VK_END);
C_ADD_VARIABLE(int, nDpiScale, 0);
/*
* color navigation:
* [definition N][purpose]
* 1. primitive:
* - primtv 0 (text)
* - primtv 1 (background)
* - primtv 2 (disabled)
* - primtv 3 (control bg)
* - primtv 4 (border)
* - primtv 5 (hover)
*
* 2. accents:
* - accent 0 (main)
* - accent 1 (dark)
* - accent 2 (darker)
*/
C_ADD_VARIABLE(unsigned int, bMenuAdditional, MENU_ADDITION_ALL);
C_ADD_VARIABLE(float, flAnimationSpeed, 1.f);
C_ADD_VARIABLE(ColorPickerVar_t, colPrimtv0, ColorPickerVar_t(255, 255, 255)); // (text)
C_ADD_VARIABLE(ColorPickerVar_t, colPrimtv1, ColorPickerVar_t(50, 55, 70)); // (background)
C_ADD_VARIABLE(ColorPickerVar_t, colPrimtv2, ColorPickerVar_t(190, 190, 190)); // (disabled)
C_ADD_VARIABLE(ColorPickerVar_t, colPrimtv3, ColorPickerVar_t(20, 20, 30)); // (control bg)
C_ADD_VARIABLE(ColorPickerVar_t, colPrimtv4, ColorPickerVar_t(0, 0, 0)); // (border)
C_ADD_VARIABLE(ColorPickerVar_t, colAccent0, ColorPickerVar_t(85, 90, 160)); // (main)
C_ADD_VARIABLE(ColorPickerVar_t, colAccent1, ColorPickerVar_t(100, 105, 175)); // (dark)
C_ADD_VARIABLE(ColorPickerVar_t, colAccent2, ColorPickerVar_t(115, 120, 190)); // (darker)
#pragma endregion
#pragma region variables_legitbot
C_ADD_VARIABLE(bool, bLegitbot, false);
C_ADD_VARIABLE(bool, bShowRange, false);
C_ADD_VARIABLE(float, flAimRange, 10.0f);
C_ADD_VARIABLE(float, flSmoothing, 10.0f);
C_ADD_VARIABLE(bool, bSilentbot, false);
C_ADD_VARIABLE(float, flSilentRange, 1.0f);
C_ADD_VARIABLE(bool, bLegitbotAlwaysOn, false);
C_ADD_VARIABLE(unsigned int, nLegitbotActivationKey, VK_HOME);
C_ADD_VARIABLE(bool, bRCS, false);
C_ADD_VARIABLE(float, flRCSPitch, 0.0f);
C_ADD_VARIABLE(float, flRCSYaw, 0.0f);
C_ADD_VARIABLE(float, flRCSSmooth, 5.0f);
C_ADD_VARIABLE(bool, bTriggerbot, false);
C_ADD_VARIABLE(unsigned int, nTriggerbotActivationKey, VK_HOME);
C_ADD_VARIABLE(float, flTriggerbotDelay, 0.1f);
#pragma endregion
};
inline Variables_t Vars = {};

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#include "features.h"
// used: draw callbacks
#include "utilities/draw.h"
// used: notify
#include "utilities/notify.h"
// used: cheat variables
#include "core/variables.h"
// used: menu
#include "core/menu.h"
// used: features callbacks
#include "features/visuals.h"
#include "features/misc.h"
#include "features/legitbot.h"
// used: interfaces
#include "core/interfaces.h"
#include "sdk/interfaces/iengineclient.h"
#include "sdk/interfaces/cgameentitysystem.h"
#include "sdk/datatypes/usercmd.h"
#include "sdk/entity.h"
bool F::Setup()
{
if (!VISUALS::Setup())
{
L_PRINT(LOG_ERROR) << CS_XOR("failed to setup visuals");
return false;
}
return true;
}
void F::Destroy()
{
VISUALS::OnDestroy();
}
void F::OnPresent()
{
if (!D::bInitialized)
return;
D::NewFrame();
{
// render watermark
MENU::RenderWatermark();
// main window
ImGui::PushFont(FONT::pMenu[C_GET(int, Vars.nDpiScale)]);
// @note: here you can draw your stuff
MENU::RenderMainWindow();
//menu::render();
// render notifications
NOTIFY::Render();
ImGui::PopFont();
}
D::Render();
}
void F::OnFrameStageNotify(int nStage)
{
F::VISUALS::OnFrame(nStage);
}
void F::OnCreateMove(CUserCmd* pCmd, CBaseUserCmdPB* pBaseCmd, CCSPlayerController* pLocalController)
{
C_CSPlayerPawn* pLocalPawn = I::GameResourceService->pGameEntitySystem->Get<C_CSPlayerPawn>(pLocalController->GetPawnHandle());
if (pLocalPawn == nullptr)
return;
F::LEGITBOT::OnMove(pCmd, pBaseCmd, pLocalController, pLocalPawn);
F::MISC::OnMove(pCmd, pBaseCmd, pLocalController, pLocalPawn);
}
bool F::OnDrawObject(void* pAnimatableSceneObjectDesc, void* pDx11, CMeshData* arrMeshDraw, int nDataCount, void* pSceneView, void* pSceneLayer, void* pUnk, void* pUnk2)
{
return VISUALS::OnDrawObject(pAnimatableSceneObjectDesc, pDx11, arrMeshDraw, nDataCount, pSceneView, pSceneLayer, pUnk, pUnk2);
}

19
examples/asphyxia-cs2-823331a79cf867972c517af8e94259fd479e09cf/cstrike/features.h Normal file
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#pragma once
#include "common.h"
class CUserCmd;
class CBaseUserCmdPB;
class CCSPlayerController;
class CMeshData;
namespace F
{
bool Setup();
void Destroy();
void OnPresent();
void OnFrameStageNotify(int nStage);
void OnCreateMove(CUserCmd* pCmd, CBaseUserCmdPB* pBaseCmd, CCSPlayerController* pLocalController);
bool OnDrawObject(void* pAnimatableSceneObjectDesc, void* pDx11, CMeshData* arrMeshDraw, int nDataCount, void* pSceneView, void* pSceneLayer, void* pUnk, void* pUnk2);
}

97
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#pragma once
#include <iostream>
// used: MEM_PAD and virtual funcs
#include "../utilities/memory.h"
// used: CUtlBuffer
#include "../sdk/datatypes/utlbuffer.h"
// used: CBaseUserCmdPB
#include "../sdk/datatypes/usercmd.h";
namespace CRC
{
struct CInButtonStateNoVTable
{
public:
std::uint64_t nValue;
std::uint64_t nValueChanged;
std::uint64_t nValueScroll;
};
struct SavedData_t
{
CInButtonStateNoVTable nButtons;
QAngle_t angView;
};
inline SavedData_t savedData;
inline void Save(CBaseUserCmdPB* pBaseCmd)
{
if (pBaseCmd->pViewAngles != nullptr)
savedData.angView = pBaseCmd->pViewAngles->angValue;
savedData.nButtons.nValue = pBaseCmd->pInButtonState->nValue;
savedData.nButtons.nValueChanged = pBaseCmd->pInButtonState->nValueChanged;
savedData.nButtons.nValueScroll = pBaseCmd->pInButtonState->nValueScroll;
}
inline void Apply(CUserCmd* pCmd)
{
CBaseUserCmdPB* pBaseCmd = pCmd->csgoUserCmd.pBaseCmd;
if (pBaseCmd == nullptr)
return;
pCmd->nButtons.nValue = savedData.nButtons.nValue;
pCmd->nButtons.nValueChanged = savedData.nButtons.nValueChanged;
pCmd->nButtons.nValueScroll = savedData.nButtons.nValueScroll;
if (pBaseCmd->pViewAngles != nullptr)
pBaseCmd->pViewAngles->angValue = savedData.angView;
}
inline bool CalculateCRC(CBaseUserCmdPB* pBaseCmd)
{
int nCalcualtedCRCSize = pBaseCmd->CalculateCmdCRCSize();
CUtlBuffer protobufBuffer(0, 0, 0);
protobufBuffer.EnsureCapacity(nCalcualtedCRCSize + 1);
using fnSerializePartialToArray = bool(__fastcall*)(CBaseUserCmdPB*, CUtlBuffer, int);
static const fnSerializePartialToArray oSerializePartialToArray = reinterpret_cast<fnSerializePartialToArray>(MEM::FindPattern(CLIENT_DLL, CS_XOR("48 89 5C 24 18 55 56 57 48 81 EC 90")));
#ifdef CS_PARANOID
CS_ASSERT(oSerializePartialToArray != nullptr);
#endif
if (oSerializePartialToArray(pBaseCmd, protobufBuffer, nCalcualtedCRCSize))
{
std::uintptr_t* pMessage = reinterpret_cast<uintptr_t*>(I::MemAlloc->Alloc(0x18));
pBaseCmd->nCachedBits |= 1;
auto nHasBits = static_cast<uint32_t>(pBaseCmd->nHasBits & 0xFFFFFFFFFFFFFFFC);
if ((pBaseCmd->nHasBits & 1) != 0)
nHasBits = static_cast<uint32_t>(nHasBits);
using fnWriteMessage = void(__fastcall*)(std::uintptr_t*, CUtlBuffer, int);
static const fnWriteMessage oWriteMessage = reinterpret_cast<fnWriteMessage>(MEM::FindPattern(CLIENT_DLL, CS_XOR("48 89 5C 24 10 48 89 6C 24 18 48 89 7C 24 20 41 56 48 83 EC 20 48 BF")));
#ifdef CS_PARANOID
CS_ASSERT(oWriteMessage != nullptr);
#endif
using fnSetMessageData = std::string*(__fastcall*)(void*, std::uintptr_t*, void*);
static const fnSetMessageData oSetMessageData = reinterpret_cast<fnSetMessageData>(MEM::FindPattern(CLIENT_DLL, CS_XOR("48 89 5C 24 20 55 56 57 48 83 EC 30 49")));
#ifdef CS_PARANOID
CS_ASSERT(oSetMessageData != nullptr);
#endif
oWriteMessage(pMessage, protobufBuffer, nCalcualtedCRCSize);
pBaseCmd->strMoveCrc = oSetMessageData(&pBaseCmd->strMoveCrc, pMessage, &nHasBits);
I::MemAlloc->Free(pMessage);
return true;
}
return false;
}
}

9
examples/asphyxia-cs2-823331a79cf867972c517af8e94259fd479e09cf/cstrike/features/legitbot.cpp Normal file
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#include "legitbot.h"
// used: movement callback
#include "legitbot/aim.h"
void F::LEGITBOT::OnMove(CUserCmd* pCmd, CBaseUserCmdPB* pBaseCmd, CCSPlayerController* pLocalController, C_CSPlayerPawn* pLocalPawn)
{
AIM::OnMove(pCmd, pBaseCmd, pLocalController, pLocalPawn);
}

10
examples/asphyxia-cs2-823331a79cf867972c517af8e94259fd479e09cf/cstrike/features/legitbot.h Normal file
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#pragma once
class CUserCmd;
class CBaseUserCmdPB;
class CCSPlayerController;
class C_CSPlayerPawn;
namespace F::LEGITBOT
{
void OnMove(CUserCmd* pCmd, CBaseUserCmdPB* pBaseCmd, CCSPlayerController* pLocalController, C_CSPlayerPawn* pLocalPawn);
}

342
examples/asphyxia-cs2-823331a79cf867972c517af8e94259fd479e09cf/cstrike/features/legitbot/aim.cpp Normal file
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#include "aim.h"
// used: sdk entity
#include "../../sdk/entity.h"
#include "../../sdk/interfaces/cgameentitysystem.h"
#include "../../sdk/interfaces/iengineclient.h"
// used: cusercmd
#include "../../sdk/datatypes/usercmd.h"
// used: activation button
#include "../../utilities/inputsystem.h"
// used: cheat variables
#include "../../core/variables.h"
#include "../../sdk/interfaces/cgametracemanager.h"
#include "../../sdk/interfaces/ccsgoinput.h"
void F::LEGITBOT::AIM::OnMove(CUserCmd* pCmd, CBaseUserCmdPB* pBaseCmd, CCSPlayerController* pLocalController, C_CSPlayerPawn* pLocalPawn)
{
// Check if the legitbot is enabled
if (!pLocalController->IsPawnAlive())
return;
if (!C_GET(bool, Vars.bLegitbot))
return;
AimAssist(pBaseCmd, pLocalPawn, pLocalController);
if (!C_GET(bool, Vars.bSilentbot))
return;
SilentAim(pBaseCmd, pLocalPawn, pLocalController);
if (!C_GET(bool, Vars.bTriggerbot))
return;
Triggerbot(pBaseCmd, pLocalPawn, pLocalController);
}
void F::LEGITBOT::AIM::Triggerbot(CBaseUserCmdPB* pCmd, C_CSPlayerPawn* pLocalPawn, CCSPlayerController* pLocalController)
{
// Check if the activation key is down
if (!IPT::IsKeyDown(C_GET(unsigned int, Vars.nTriggerbotActivationKey)))
return;
int iIDEntIndex = pLocalPawn->m_iIDEntIndex();
if (iIDEntIndex == -1)
return;
/*if ((pLocalPawn->m_holdTargetIDTimer().m_timestamp() - pLocalPawn->m_delayTargetIDTimer().m_timestamp() + 0.3) < C_GET(float, Vars.flTriggerbotDelay))
return;*/
C_CSPlayerPawn* pEntity = (C_CSPlayerPawn*)I::GameResourceService->pGameEntitySystem->Get(iIDEntIndex);
if (pEntity == nullptr)
return;
if (pEntity->GetTeam() == 0 || pEntity->GetHealth() <= 0)
return;
if (!pLocalPawn->IsOtherEnemy(pEntity))
return;
pCmd->pInButtonState->nValue |= IN_ATTACK;
}
QAngle_t GetRecoil(CBaseUserCmdPB* pCmd,C_CSPlayerPawn* pLocal)
{
static QAngle_t OldPunch;//get last tick AimPunch angles
if (pLocal->GetShotsFired() >= 1)//only update aimpunch while shooting
{
QAngle_t viewAngles = pCmd->pViewAngles->angValue;
QAngle_t delta = viewAngles - (viewAngles + (OldPunch - (pLocal->GetAimPunchAngle() * 2.f)));//get current AimPunch angles delta
return pLocal->GetAimPunchAngle() * 2.0f;//return correct aimpunch delta
}
else
{
return QAngle_t{ 0, 0 ,0};//return 0 if is not shooting
}
}
QAngle_t GetAngularDifference(CBaseUserCmdPB* pCmd, Vector_t vecTarget, C_CSPlayerPawn* pLocal)
{
// The current position
Vector_t vecCurrent = pLocal->GetEyePosition();
// The new angle
QAngle_t vNewAngle = (vecTarget - vecCurrent).ToAngles();
vNewAngle.Normalize(); // Normalise it so we don't jitter about
// Store our current angles
QAngle_t vCurAngle = pCmd->pViewAngles->angValue;
// Find the difference between the two angles (later useful when adding smoothing)
vNewAngle -= vCurAngle;
return vNewAngle;
}
float GetAngularDistance(CBaseUserCmdPB* pCmd, Vector_t vecTarget, C_CSPlayerPawn* pLocal)
{
return GetAngularDifference(pCmd, vecTarget, pLocal).Length2D();
}
void F::LEGITBOT::AIM::AimAssist(CBaseUserCmdPB* pUserCmd, C_CSPlayerPawn* pLocalPawn, CCSPlayerController* pLocalController)
{
// Check if the activation key is down
if (!IPT::IsKeyDown(C_GET(unsigned int, Vars.nLegitbotActivationKey)) && !C_GET(bool, Vars.bLegitbotAlwaysOn))
return;
// The current best distance
float flDistance = INFINITY;
// The target we have chosen
CCSPlayerController* pTarget = nullptr;
// Cache'd position
Vector_t vecBestPosition = Vector_t();
// Entity loop
const int iHighestIndex = I::GameResourceService->pGameEntitySystem->GetHighestEntityIndex();
auto aimPunch = GetRecoil(pUserCmd, pLocalPawn); //get AimPunch angles
for (int nIndex = 1; nIndex <= iHighestIndex; nIndex++)
{
// Get the entity
C_BaseEntity* pEntity = I::GameResourceService->pGameEntitySystem->Get(nIndex);
if (pEntity == nullptr)
continue;
// Get the class info
SchemaClassInfoData_t* pClassInfo = nullptr;
pEntity->GetSchemaClassInfo(&pClassInfo);
if (pClassInfo == nullptr)
continue;
// Get the hashed name
const FNV1A_t uHashedName = FNV1A::Hash(pClassInfo->szName);
// Make sure they're a player controller
if (uHashedName != FNV1A::HashConst("CCSPlayerController"))
continue;
// Cast to player controller
CCSPlayerController* pPlayer = reinterpret_cast<CCSPlayerController*>(pEntity);
if (pPlayer == nullptr)
continue;
// Check the entity is not us
if (pPlayer == pLocalController)
continue;
// Get the player pawn
C_CSPlayerPawn* pPawn = I::GameResourceService->pGameEntitySystem->Get<C_CSPlayerPawn>(pPlayer->GetPawnHandle());
if (pPawn == nullptr)
continue;
// Make sure they're alive
if (!pPlayer->IsPawnAlive())
continue;
// Check if they're an enemy
if (!pLocalPawn->IsOtherEnemy(pPawn))
continue;
// Check if they're dormant
CGameSceneNode* pCGameSceneNode = pPawn->GetGameSceneNode();
if (pCGameSceneNode == nullptr || pCGameSceneNode->IsDormant())
continue;
// Get the position
// Firstly, get the skeleton
CSkeletonInstance* pSkeleton = pCGameSceneNode->GetSkeletonInstance();
if (pSkeleton == nullptr)
continue;
// Now the bones
Matrix2x4_t* pBoneCache = pSkeleton->pBoneCache;
if (pBoneCache == nullptr)
continue;
const int iBone = 6; // You may wish to change this dynamically but for now let's target the head.
// Get the bone's position
Vector_t vecPos = pBoneCache->GetOrigin(iBone);
// @note: this is a simple example of how to check if the player is visible
// initialize trace, construct filterr and initialize ray
GameTrace_t trace = GameTrace_t();
TraceFilter_t filter = TraceFilter_t(0x1C3003, pLocalPawn, nullptr, 4);
Ray_t ray = Ray_t();
// cast a ray from local player eye positon -> player head bone
// @note: would recommend checking for nullptrs
I::GameTraceManager->TraceShape(&ray, pLocalPawn->GetEyePosition(), pPawn->GetGameSceneNode()->GetSkeletonInstance()->pBoneCache->GetOrigin(6), &filter, &trace);
// check if the hit entity is the one we wanted to check and if the trace end point is visible
if (trace.m_pHitEntity != pPawn || !trace.IsVisible())// if invisible, skip this entity
continue;
// Get the distance/weight of the move
float flCurrentDistance = GetAngularDistance(pUserCmd, vecPos, pLocalPawn);
if (flCurrentDistance > C_GET(float, Vars.flAimRange))// Skip if this move out of aim range
continue;
if (pTarget && flCurrentDistance > flDistance) // Override if this is the first move or if it is a better move
continue;
// Better move found, override.
pTarget = pPlayer;
flDistance = flCurrentDistance;
vecBestPosition = vecPos;
}
// Check if a target was found
if (pTarget == nullptr)
return;
// Point at them
QAngle_t* pViewAngles = &(pUserCmd->pViewAngles->angValue); // Just for readability sake!
// Find the change in angles
QAngle_t vNewAngles = GetAngularDifference(pUserCmd, vecBestPosition, pLocalPawn);
// Get the smoothing
const float flSmoothing = C_GET(float, Vars.flSmoothing);
// Apply smoothing and set angles
pViewAngles->x += (vNewAngles.x / flSmoothing) - (aimPunch.x / ((flSmoothing + 9) * 0.1)) ; // minus AimPunch angle to counteract recoil
pViewAngles->y += (vNewAngles.y / flSmoothing) - (aimPunch.y / ((flSmoothing + 9) * 0.1));
pViewAngles->Normalize();
}
void F::LEGITBOT::AIM::SilentAim(CBaseUserCmdPB* pUserCmd, C_CSPlayerPawn* pLocalPawn, CCSPlayerController* pLocalController)
{
// Check if the activation key is down
if (!IPT::IsKeyDown(C_GET(unsigned int, Vars.nLegitbotActivationKey)) && !C_GET(bool, Vars.bLegitbotAlwaysOn))
return;
// The current best distance
float flDistance = INFINITY;
// The target we have chosen
CCSPlayerController* pTarget = nullptr;
// Cache'd position
Vector_t vecBestPosition = Vector_t();
// Entity loop
const int iHighestIndex = I::GameResourceService->pGameEntitySystem->GetHighestEntityIndex();
auto aimPunch = GetRecoil(pUserCmd, pLocalPawn); //get AimPunch angles
for (int nIndex = 1; nIndex <= iHighestIndex; nIndex++)
{
// Get the entity
C_BaseEntity* pEntity = I::GameResourceService->pGameEntitySystem->Get(nIndex);
if (pEntity == nullptr)
continue;
// Get the class info
SchemaClassInfoData_t* pClassInfo = nullptr;
pEntity->GetSchemaClassInfo(&pClassInfo);
if (pClassInfo == nullptr)
continue;
// Get the hashed name
const FNV1A_t uHashedName = FNV1A::Hash(pClassInfo->szName);
// Make sure they're a player controller
if (uHashedName != FNV1A::HashConst("CCSPlayerController"))
continue;
// Cast to player controller
CCSPlayerController* pPlayer = reinterpret_cast<CCSPlayerController*>(pEntity);
if (pPlayer == nullptr)
continue;
// Check the entity is not us
if (pPlayer == pLocalController)
continue;
// Get the player pawn
C_CSPlayerPawn* pPawn = I::GameResourceService->pGameEntitySystem->Get<C_CSPlayerPawn>(pPlayer->GetPawnHandle());
if (pPawn == nullptr)
continue;
// Make sure they're alive
if (!pPlayer->IsPawnAlive())
continue;
// Check if they're an enemy
if (!pLocalPawn->IsOtherEnemy(pPawn))
continue;
// Check if they're dormant
CGameSceneNode* pCGameSceneNode = pPawn->GetGameSceneNode();
if (pCGameSceneNode == nullptr || pCGameSceneNode->IsDormant())
continue;
// Get the position
// Firstly, get the skeleton
CSkeletonInstance* pSkeleton = pCGameSceneNode->GetSkeletonInstance();
if (pSkeleton == nullptr)
continue;
// Now the bones
Matrix2x4_t* pBoneCache = pSkeleton->pBoneCache;
if (pBoneCache == nullptr)
continue;
const int iBone = 6; // You may wish to change this dynamically but for now let's target the head.
// Get the bone's position
Vector_t vecPos = pBoneCache->GetOrigin(iBone);
// @note: this is a simple example of how to check if the player is visible
// initialize trace, construct filterr and initialize ray
GameTrace_t trace = GameTrace_t();
TraceFilter_t filter = TraceFilter_t(0x1C3003, pLocalPawn, nullptr, 4);
Ray_t ray = Ray_t();
// cast a ray from local player eye positon -> player head bone
// @note: would recommend checking for nullptrs
I::GameTraceManager->TraceShape(&ray, pLocalPawn->GetEyePosition(), pPawn->GetGameSceneNode()->GetSkeletonInstance()->pBoneCache->GetOrigin(6), &filter, &trace);
// check if the hit entity is the one we wanted to check and if the trace end point is visible
if (trace.m_pHitEntity != pPawn || !trace.IsVisible()) // if invisible, skip this entity
continue;
// Get the distance/weight of the move
float flCurrentDistance = GetAngularDistance(pUserCmd, vecPos, pLocalPawn);
if (flCurrentDistance > C_GET(float, Vars.flSilentRange)) // Skip if this move out of aim range
continue;
if (pTarget && flCurrentDistance > flDistance) // Override if this is the first move or if it is a better move
continue;
// Better move found, override.
pTarget = pPlayer;
flDistance = flCurrentDistance;
vecBestPosition = vecPos;
}
// Check if a target was found
if (pTarget == nullptr)
return;
// Point at them
QAngle_t pViewAngles = pUserCmd->pViewAngles->angValue;
// Find the change in angles
QAngle_t vNewAngles = GetAngularDifference(pUserCmd, vecBestPosition, pLocalPawn);
I::Input->GetUserCmd()->SetSubTickAngle({ pViewAngles.x + vNewAngles.x - aimPunch.x, pViewAngles.y + vNewAngles.y - aimPunch.y });
}

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#pragma once
class CUserCmd;
class CBaseUserCmdPB;
class CCSGOInputHistoryEntryPB;
class CCSPlayerController;
class C_CSPlayerPawn;
struct QAngle_t;
namespace F::LEGITBOT::AIM
{
void OnMove(CUserCmd* pCmd, CBaseUserCmdPB* pBaseCmd, CCSPlayerController* pLocalController, C_CSPlayerPawn* pLocalPawn);
void AimAssist(CBaseUserCmdPB* pUserCmd, C_CSPlayerPawn* pLocalPawn, CCSPlayerController* pLocalController);
void RCS(CBaseUserCmdPB* pUserCmd, C_CSPlayerPawn* pLocalPawn, CCSPlayerController* pLocalController);
void SilentAim(CBaseUserCmdPB* pUserCmd, C_CSPlayerPawn* pLocalPawn, CCSPlayerController* pLocalController);
void Triggerbot(CBaseUserCmdPB* pCmd, C_CSPlayerPawn* pLocalPawn, CCSPlayerController* pLocalController);
}

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examples/asphyxia-cs2-823331a79cf867972c517af8e94259fd479e09cf/cstrike/features/legitbot/aimRangePainter.hpp Normal file
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#pragma once
#include "painter.h"
#include "../../core/variables.h"
#include "../../core/interfaces.h"
#include "../../sdk/interfaces/iswapchaindx11.h"
class AimRangePainter : public Painter
{
public:
virtual void Draw(ImDrawList* pDrawList) override
{
if (C_GET(bool, Vars.bLegitbot))
{
DXGI_SWAP_CHAIN_DESC sd;
I::SwapChain->pDXGISwapChain->GetDesc(&sd);
pDrawList->AddCircle({ sd.BufferDesc.Width / 2.f, sd.BufferDesc.Height / 2.f }, C_GET(float , Vars.flAimRange), IM_COL32(255, 0, 0, 255), 0.3);
}
}
};

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#pragma once
class CUserCmd;
class CBaseUserCmdPB;
class CCSPlayerController;
class C_CSPlayerPawn;
namespace F::LEGITBOT
{
void OnMove(CBaseUserCmdPB* pBaseCmd, CCSPlayerController* pLocalController, C_CSPlayerPawn* pLocalPawn);
}

6
examples/asphyxia-cs2-823331a79cf867972c517af8e94259fd479e09cf/cstrike/features/legitbot/painter.cpp Normal file
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#include "painter.h"
#include "../../core/sdk.h"
#include "../../sdk/interfaces/iengineclient.h"
Painter::Painter()
{
}

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#pragma once
#include "../../utilities/draw.h"
class Painter
{
public:
Painter();
virtual void Draw(ImDrawList* pDrawList) = 0;
virtual ~Painter() = default;
};

10
examples/asphyxia-cs2-823331a79cf867972c517af8e94259fd479e09cf/cstrike/features/misc.cpp Normal file
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#include "misc.h"
// used: movement callback
#include "misc/movement.h"
void F::MISC::OnMove(CUserCmd* pCmd, CBaseUserCmdPB* pBaseCmd, CCSPlayerController* pLocalController, C_CSPlayerPawn* pLocalPawn)
{
// process movement
MOVEMENT::OnMove(pCmd, pBaseCmd, pLocalController, pLocalPawn);
}

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#pragma once
class CUserCmd;
class CBaseUserCmdPB;
class CCSPlayerController;
class C_CSPlayerPawn;
namespace F::MISC
{
void OnMove(CUserCmd* pCmd, CBaseUserCmdPB* pBaseCmd, CCSPlayerController* pLocalController, C_CSPlayerPawn* pLocalPawn);
}

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#include "movement.h"
// used: sdk entity
#include "../../sdk/entity.h"
// used: cusercmd
#include "../../sdk/datatypes/usercmd.h"
// used: convars
#include "../../core/convars.h"
#include "../../sdk/interfaces/ienginecvar.h"
// used: cheat variables
#include "../../core/variables.h"
// movement correction angles
static QAngle_t angCorrectionView = {};
void F::MISC::MOVEMENT::OnMove(CUserCmd* pCmd, CBaseUserCmdPB* pBaseCmd, CCSPlayerController* pLocalController, C_CSPlayerPawn* pLocalPawn)
{
if (!pLocalController->IsPawnAlive())
return;
// check if player is in noclip or on ladder or in water
if (const int32_t nMoveType = pLocalPawn->GetMoveType(); nMoveType == MOVETYPE_NOCLIP || nMoveType == MOVETYPE_LADDER || pLocalPawn->GetWaterLevel() >= WL_WAIST)
return;
BunnyHop(pCmd, pBaseCmd, pLocalPawn);
AutoStrafe(pBaseCmd, pLocalPawn);
// loop through all tick commands
for (int nSubTick = 0; nSubTick < pCmd->csgoUserCmd.inputHistoryField.pRep->nAllocatedSize; nSubTick++)
{
CCSGOInputHistoryEntryPB* pInputEntry = pCmd->GetInputHistoryEntry(nSubTick);
if (pInputEntry == nullptr)
continue;
// save view angles for movement correction
angCorrectionView = pInputEntry->pViewAngles->angValue;
// movement correction & anti-untrusted
ValidateUserCommand(pCmd, pBaseCmd, pInputEntry);
}
}
void F::MISC::MOVEMENT::BunnyHop(CUserCmd* pCmd, CBaseUserCmdPB* pUserCmd, C_CSPlayerPawn* pLocalPawn)
{
if (!C_GET(bool, Vars.bAutoBHop) || CONVAR::sv_autobunnyhopping->value.i1)
return;
// update random seed
//MATH::fnRandomSeed(pUserCmd->nRandomSeed);
//// bypass of possible SMAC/VAC server anticheat detection
//if (static bool bShouldFakeJump = false; bShouldFakeJump)
//{
// pCmd->nButtons.nValue |= IN_JUMP;
// bShouldFakeJump = false;
//}
//// check is player want to jump
//else if (pCmd->nButtons.nValue & IN_JUMP)
//{
// // check is player on the ground
// if (pLocalPawn->GetFlags() & FL_ONGROUND)
// // note to fake jump at the next tick
// bShouldFakeJump = true;
// // check did random jump chance passed
// else if (MATH::fnRandomInt(0, 100) <= C_GET(int, Vars.nAutoBHopChance))
// pCmd->nButtons.nValue &= ~IN_JUMP;
//}
// im lazy so yea :D
if (pLocalPawn->GetFlags() & FL_ONGROUND)
{
pUserCmd->pInButtonState->SetBits(EButtonStatePBBits::BUTTON_STATE_PB_BITS_BUTTONSTATE1);
pUserCmd->pInButtonState->nValue &= ~IN_JUMP;
}
}
void F::MISC::MOVEMENT::AutoStrafe(CBaseUserCmdPB* pUserCmd, C_CSPlayerPawn* pLocalPawn)
{
if (!C_GET(bool, Vars.bAutoStrafe) || pLocalPawn->GetFlags() & FL_ONGROUND)
return;
pUserCmd->SetBits(EBaseCmdBits::BASE_BITS_LEFTMOVE);
pUserCmd->flSideMove = pUserCmd->nMousedX > 0 ? -1.0f : 1.0f; // a bit yanky, but works
}
void F::MISC::MOVEMENT::ValidateUserCommand(CUserCmd* pCmd, CBaseUserCmdPB* pUserCmd, CCSGOInputHistoryEntryPB* pInputEntry)
{
if (pUserCmd == nullptr)
return;
// clamp angle to avoid untrusted angle
if (C_GET(bool, Vars.bAntiUntrusted))
{
pInputEntry->SetBits(EInputHistoryBits::INPUT_HISTORY_BITS_VIEWANGLES);
if (pInputEntry->pViewAngles->angValue.IsValid())
{
pInputEntry->pViewAngles->angValue.Clamp();
pInputEntry->pViewAngles->angValue.z = 0.f;
}
else
{
pInputEntry->pViewAngles->angValue = {};
L_PRINT(LOG_WARNING) << CS_XOR("view angles have a NaN component, the value is reset");
}
}
MovementCorrection(pUserCmd, pInputEntry, angCorrectionView);
// correct movement buttons while player move have different to buttons values
// clear all of the move buttons states
pUserCmd->pInButtonState->SetBits(EButtonStatePBBits::BUTTON_STATE_PB_BITS_BUTTONSTATE1);
pUserCmd->pInButtonState->nValue &= (~IN_FORWARD | ~IN_BACK | ~IN_LEFT | ~IN_RIGHT);
// re-store buttons by active forward/side moves
if (pUserCmd->flForwardMove > 0.0f)
pUserCmd->pInButtonState->nValue |= IN_FORWARD;
else if (pUserCmd->flForwardMove < 0.0f)
pUserCmd->pInButtonState->nValue |= IN_BACK;
if (pUserCmd->flSideMove > 0.0f)
pUserCmd->pInButtonState->nValue |= IN_RIGHT;
else if (pUserCmd->flSideMove < 0.0f)
pUserCmd->pInButtonState->nValue |= IN_LEFT;
if (!pInputEntry->pViewAngles->angValue.IsZero())
{
const float flDeltaX = std::remainderf(pInputEntry->pViewAngles->angValue.x - angCorrectionView.x, 360.f);
const float flDeltaY = std::remainderf(pInputEntry->pViewAngles->angValue.y - angCorrectionView.y, 360.f);
float flPitch = CONVAR::m_pitch->value.fl;
float flYaw = CONVAR::m_yaw->value.fl;
float flSensitivity = CONVAR::sensitivity->value.fl;
if (flSensitivity == 0.0f)
flSensitivity = 1.0f;
pUserCmd->SetBits(EBaseCmdBits::BASE_BITS_MOUSEDX);
pUserCmd->nMousedX = static_cast<short>(flDeltaX / (flSensitivity * flPitch));
pUserCmd->SetBits(EBaseCmdBits::BASE_BITS_MOUSEDY);
pUserCmd->nMousedY = static_cast<short>(-flDeltaY / (flSensitivity * flYaw));
}
}
void F::MISC::MOVEMENT::MovementCorrection(CBaseUserCmdPB* pUserCmd, CCSGOInputHistoryEntryPB* pInputEntry, const QAngle_t& angDesiredViewPoint)
{
if (pUserCmd == nullptr)
return;
Vector_t vecForward = {}, vecRight = {}, vecUp = {};
angDesiredViewPoint.ToDirections(&vecForward, &vecRight, &vecUp);
// we don't attempt on forward/right roll, and on up pitch/yaw
vecForward.z = vecRight.z = vecUp.x = vecUp.y = 0.0f;
vecForward.NormalizeInPlace();
vecRight.NormalizeInPlace();
vecUp.NormalizeInPlace();
Vector_t vecOldForward = {}, vecOldRight = {}, vecOldUp = {};
pInputEntry->pViewAngles->angValue.ToDirections(&vecOldForward, &vecOldRight, &vecOldUp);
// we don't attempt on forward/right roll, and on up pitch/yaw
vecOldForward.z = vecOldRight.z = vecOldUp.x = vecOldUp.y = 0.0f;
vecOldForward.NormalizeInPlace();
vecOldRight.NormalizeInPlace();
vecOldUp.NormalizeInPlace();
const float flPitchForward = vecForward.x * pUserCmd->flForwardMove;
const float flYawForward = vecForward.y * pUserCmd->flForwardMove;
const float flPitchSide = vecRight.x * pUserCmd->flSideMove;
const float flYawSide = vecRight.y * pUserCmd->flSideMove;
const float flRollUp = vecUp.z * pUserCmd->flUpMove;
// solve corrected movement speed
pUserCmd->SetBits(EBaseCmdBits::BASE_BITS_FORWARDMOVE);
pUserCmd->flForwardMove = vecOldForward.x * flPitchSide + vecOldForward.y * flYawSide + vecOldForward.x * flPitchForward + vecOldForward.y * flYawForward + vecOldForward.z * flRollUp;
pUserCmd->SetBits(EBaseCmdBits::BASE_BITS_LEFTMOVE);
pUserCmd->flSideMove = vecOldRight.x * flPitchSide + vecOldRight.y * flYawSide + vecOldRight.x * flPitchForward + vecOldRight.y * flYawForward + vecOldRight.z * flRollUp;
pUserCmd->SetBits(EBaseCmdBits::BASE_BITS_UPMOVE);
pUserCmd->flUpMove = vecOldUp.x * flYawSide + vecOldUp.y * flPitchSide + vecOldUp.x * flYawForward + vecOldUp.y * flPitchForward + vecOldUp.z * flRollUp;
}

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#pragma once
class CUserCmd;
class CBaseUserCmdPB;
class CCSGOInputHistoryEntryPB;
class CCSPlayerController;
class C_CSPlayerPawn;
struct QAngle_t;
namespace F::MISC::MOVEMENT
{
void OnMove(CUserCmd* pCmd, CBaseUserCmdPB* pBaseCmd, CCSPlayerController* pLocalController, C_CSPlayerPawn* pLocalPawn);
void BunnyHop(CUserCmd* pCmd, CBaseUserCmdPB* pUserCmd, C_CSPlayerPawn* pLocalPawn);
void AutoStrafe(CBaseUserCmdPB* pUserCmd, C_CSPlayerPawn* pLocalPawn);
void MovementCorrection(CBaseUserCmdPB* pUserCmd, CCSGOInputHistoryEntryPB* pInputHistory, const QAngle_t& angDesiredViewPoint);
// will call MovementCorrection && validate user's angView to avoid untrusted ban
void ValidateUserCommand(CUserCmd* pCmd, CBaseUserCmdPB* pUserCmd, CCSGOInputHistoryEntryPB* pInputHistory);
}

60
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#include "visuals.h"
// used: source sdk
#include "../sdk/interfaces/iengineclient.h"
#include "../sdk/entity.h"
// used: overlay
#include "visuals/overlay.h"
#include "visuals/chams.h"
#include "../core/sdk.h"
#include "../core/variables.h"
#include "legitbot/aimRangePainter.hpp"
using namespace F;
bool F::VISUALS::Setup()
{
if (!CHAMS::Initialize())
{
L_PRINT(LOG_ERROR) << CS_XOR("failed to initialize chams");
return false;
}
return true;
}
void F::VISUALS::OnDestroy()
{
CHAMS::Destroy();
}
void VISUALS::OnFrame(const int nStage)
{
if (nStage == FRAME_RENDER_END)
{
// check is render initialized
if (!D::bInitialized)
return;
/*
* game and our gui are based on immediate render mode principe
* this means that we should always reset draw data from previous frame and re-store it again
*/
D::ResetDrawData();
AimRangePainter aimRangePainter;
if (C_GET(bool, Vars.bShowRange))
aimRangePainter.Draw(D::pDrawListActive);
if (CCSPlayerController* pLocal = CCSPlayerController::GetLocalPlayerController(); pLocal != nullptr)
{
OVERLAY::OnFrameStageNotify(pLocal);
}
D::SwapDrawData();
}
}
bool F::VISUALS::OnDrawObject(void* pAnimatableSceneObjectDesc, void* pDx11, CMeshData* arrMeshDraw, int nDataCount, void* pSceneView, void* pSceneLayer, void* pUnk, void* pUnk2)
{
return CHAMS::OnDrawObject(pAnimatableSceneObjectDesc, pDx11, arrMeshDraw, nDataCount, pSceneView, pSceneLayer, pUnk, pUnk2);
}

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#pragma once
class CMeshData;
namespace F::VISUALS
{
bool Setup();
void OnDestroy();
void OnFrame(const int nStage);
bool OnDrawObject(void* pAnimatableSceneObjectDesc, void* pDx11, CMeshData* arrMeshDraw, int nDataCount, void* pSceneView, void* pSceneLayer, void* pUnk, void* pUnk2);
}

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#include "chams.h"
// used: game's interfaces
#include "../../core/interfaces.h"
#include "../../sdk/interfaces/imaterialsystem.h"
#include "../../sdk/interfaces/igameresourceservice.h"
#include "../../sdk/interfaces/cgameentitysystem.h"
#include "../../sdk/interfaces/iresourcesystem.h"
#include "../../core/sdk.h"
#include "../../sdk/entity.h"
// used: original call in hooked function
#include "../../core/hooks.h"
// used: cheat variables
#include "../../core/variables.h"
CStrongHandle<CMaterial2> F::VISUALS::CHAMS::CreateMaterial(const char* szMaterialName, const char szVmatBuffer[])
{
CKeyValues3* pKeyValues3 = CKeyValues3::CreateMaterialResource();
pKeyValues3->LoadFromBuffer(szVmatBuffer);
CStrongHandle<CMaterial2> pCustomMaterial = {};
MEM::fnCreateMaterial(nullptr, &pCustomMaterial, szMaterialName, pKeyValues3, 0, 1);
return pCustomMaterial;
}
struct CustomMaterial_t
{
CStrongHandle<CMaterial2> pMaterial;
CStrongHandle<CMaterial2> pMaterialInvisible;
};
static CustomMaterial_t arrMaterials[VISUAL_MATERIAL_MAX];
bool F::VISUALS::CHAMS::Initialize()
{
// check if we already initialized materials
if (bInitialized)
return bInitialized;
arrMaterials[VISUAL_MATERIAL_PRIMARY_WHITE] = CustomMaterial_t{
.pMaterial = CreateMaterial(CS_XOR("materials/dev/primary_white.vmat"), szVMatBufferWhiteVisible),
.pMaterialInvisible = CreateMaterial(CS_XOR("materials/dev/primary_white.vmat"), szVMatBufferWhiteInvisible)
};
arrMaterials[VISUAL_MATERIAL_ILLUMINATE] = CustomMaterial_t{
.pMaterial = CreateMaterial(CS_XOR("materials/dev/primary_white.vmat"), szVMatBufferIlluminateVisible),
.pMaterialInvisible = CreateMaterial(CS_XOR("materials/dev/primary_white.vmat"), szVMatBufferIlluminateInvisible)
};
bInitialized = true;
for (auto& [pMaterial, pMaterialInvisible] : arrMaterials)
{
if (pMaterial == nullptr || pMaterialInvisible == nullptr)
bInitialized = false;
}
return bInitialized;
}
void F::VISUALS::CHAMS::Destroy()
{
for (auto& [pVisible, pInvisible] : arrMaterials)
{
if (pVisible)
I::ResourceHandleUtils->DeleteResource(pVisible.pBinding);
if (pInvisible)
I::ResourceHandleUtils->DeleteResource(pInvisible.pBinding);
}
}
bool F::VISUALS::CHAMS::OnDrawObject(void* pAnimatableSceneObjectDesc, void* pDx11, CMeshData* arrMeshDraw, int nDataCount, void* pSceneView, void* pSceneLayer, void* pUnk, void* pUnk2)
{
if (!bInitialized)
return false;
if (!C_GET(bool, Vars.bVisualChams))
return false;
if (arrMeshDraw == nullptr)
return false;
if (arrMeshDraw->pSceneAnimatableObject == nullptr)
return false;
CBaseHandle hOwner = arrMeshDraw->pSceneAnimatableObject->hOwner;
auto pEntity = I::GameResourceService->pGameEntitySystem->Get<C_BaseEntity>(hOwner);
if (pEntity == nullptr)
return false;
SchemaClassInfoData_t* pClassInfo;
pEntity->GetSchemaClassInfo(&pClassInfo);
if (pClassInfo == nullptr)
return false;
if (CRT::StringCompare(pClassInfo->szName, CS_XOR("C_CSPlayerPawn")) != 0)
return false;
auto pPlayerPawn = I::GameResourceService->pGameEntitySystem->Get<C_CSPlayerPawn>(hOwner);
if (pPlayerPawn == nullptr)
return false;
if (!pPlayerPawn->IsOtherEnemy(SDK::LocalPawn))
return false;
// alive state
if (pPlayerPawn->GetHealth() <= 0)
return false;
return OverrideMaterial(pAnimatableSceneObjectDesc, pDx11, arrMeshDraw, nDataCount, pSceneView, pSceneLayer, pUnk, pUnk2);
}
bool F::VISUALS::CHAMS::OverrideMaterial(void* pAnimatableSceneObjectDesc, void* pDx11, CMeshData* arrMeshDraw, int nDataCount, void* pSceneView, void* pSceneLayer, void* pUnk, void* pUnk2)
{
const auto oDrawObject = H::hkDrawObject.GetOriginal();
const CustomMaterial_t customMaterial = arrMaterials[C_GET(int, Vars.nVisualChamMaterial)];
if (C_GET(bool, Vars.bVisualChamsIgnoreZ))
{
arrMeshDraw->pMaterial = customMaterial.pMaterialInvisible;
arrMeshDraw->colValue = C_GET(Color_t, Vars.colVisualChamsIgnoreZ);
oDrawObject(pAnimatableSceneObjectDesc, pDx11, arrMeshDraw, nDataCount, pSceneView, pSceneLayer, pUnk, pUnk2);
}
arrMeshDraw->pMaterial = customMaterial.pMaterial;
arrMeshDraw->colValue = C_GET(Color_t, Vars.colVisualChams);
oDrawObject(pAnimatableSceneObjectDesc, pDx11, arrMeshDraw, nDataCount, pSceneView, pSceneLayer, pUnk, pUnk2);
return true;
}

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#pragma once
// used: stronghandle
#include "../../sdk/datatypes/stronghandle.h"
static constexpr char szVMatBufferWhiteVisible[] =
R"(<!-- kv3 encoding:text:version{e21c7f3c-8a33-41c5-9977-a76d3a32aa0d} format:generic:version{7412167c-06e9-4698-aff2-e63eb59037e7} -->
{
shader = "csgo_unlitgeneric.vfx"
F_PAINT_VERTEX_COLORS = 1
F_TRANSLUCENT = 1
F_BLEND_MODE = 1
g_vColorTint = [1, 1, 1, 1]
TextureAmbientOcclusion = resource:"materials/default/default_mask_tga_fde710a5.vtex"
g_tAmbientOcclusion = resource:"materials/default/default_mask_tga_fde710a5.vtex"
g_tColor = resource:"materials/default/default_mask_tga_fde710a5.vtex"
g_tNormal = resource:"materials/default/default_mask_tga_fde710a5.vtex"
g_tTintMask = resource:"materials/default/default_mask_tga_fde710a5.vtex"
})";
static constexpr char szVMatBufferWhiteInvisible[] =
R"(<!-- kv3 encoding:text:version{e21c7f3c-8a33-41c5-9977-a76d3a32aa0d} format:generic:version{7412167c-06e9-4698-aff2-e63eb59037e7} -->
{
shader = "csgo_unlitgeneric.vfx"
F_PAINT_VERTEX_COLORS = 1
F_TRANSLUCENT = 1
F_BLEND_MODE = 1
F_DISABLE_Z_BUFFERING = 1
g_vColorTint = [1, 1, 1, 1]
TextureAmbientOcclusion = resource:"materials/default/default_mask_tga_fde710a5.vtex"
g_tAmbientOcclusion = resource:"materials/default/default_mask_tga_fde710a5.vtex"
g_tColor = resource:"materials/default/default_mask_tga_fde710a5.vtex"
g_tNormal = resource:"materials/default/default_mask_tga_fde710a5.vtex"
g_tTintMask = resource:"materials/default/default_mask_tga_fde710a5.vtex"
})";
static constexpr char szVMatBufferIlluminateVisible[] =
R"(<!-- kv3 encoding:text:version{e21c7f3c-8a33-41c5-9977-a76d3a32aa0d} format:generic:version{7412167c-06e9-4698-aff2-e63eb59037e7} -->
{
shader = "csgo_complex.vfx"
F_SELF_ILLUM = 1
F_PAINT_VERTEX_COLORS = 1
F_TRANSLUCENT = 1
g_vColorTint = [ 1.000000, 1.000000, 1.000000, 1.000000 ]
g_flSelfIllumScale = [ 3.000000, 3.000000, 3.000000, 3.000000 ]
g_flSelfIllumBrightness = [ 3.000000, 3.000000, 3.000000, 3.000000 ]
g_vSelfIllumTint = [ 10.000000, 10.000000, 10.000000, 10.000000 ]
g_tColor = resource:"materials/default/default_mask_tga_fde710a5.vtex"
g_tNormal = resource:"materials/default/default_mask_tga_fde710a5.vtex"
g_tSelfIllumMask = resource:"materials/default/default_mask_tga_fde710a5.vtex"
TextureAmbientOcclusion = resource:"materials/debug/particleerror.vtex"
g_tAmbientOcclusion = resource:"materials/debug/particleerror.vtex"
})";
static constexpr char szVMatBufferIlluminateInvisible[] =
R"(<!-- kv3 encoding:text:version{e21c7f3c-8a33-41c5-9977-a76d3a32aa0d} format:generic:version{7412167c-06e9-4698-aff2-e63eb59037e7} -->
{
shader = "csgo_complex.vfx"
F_SELF_ILLUM = 1
F_PAINT_VERTEX_COLORS = 1
F_TRANSLUCENT = 1
F_DISABLE_Z_BUFFERING = 1
g_vColorTint = [ 1.000000, 1.000000, 1.000000, 1.000000 ]
g_flSelfIllumScale = [ 3.000000, 3.000000, 3.000000, 3.000000 ]
g_flSelfIllumBrightness = [ 3.000000, 3.000000, 3.000000, 3.000000 ]
g_vSelfIllumTint = [ 10.000000, 10.000000, 10.000000, 10.000000 ]
g_tColor = resource:"materials/default/default_mask_tga_fde710a5.vtex"
g_tNormal = resource:"materials/default/default_mask_tga_fde710a5.vtex"
g_tSelfIllumMask = resource:"materials/default/default_mask_tga_fde710a5.vtex"
TextureAmbientOcclusion = resource:"materials/debug/particleerror.vtex"
g_tAmbientOcclusion = resource:"materials/debug/particleerror.vtex"
})";
class CMaterial2;
class CMeshData;
namespace F::VISUALS::CHAMS
{
bool Initialize();
void Destroy();
bool OnDrawObject(void* pAnimatableSceneObjectDesc, void* pDx11, CMeshData* arrMeshDraw, int nDataCount, void* pSceneView, void* pSceneLayer, void* pUnk, void* pUnk2);
// @note: bDisableZBuffering == true to create invisible material
CStrongHandle<CMaterial2> CreateMaterial(const char* szMaterialName, const char szVmatBuffer[]);
bool OverrideMaterial(void* pAnimatableSceneObjectDesc, void* pDx11, CMeshData* arrMeshDraw, int nDataCount, void* pSceneView, void* pSceneLayer, void* pUnk, void* pUnk2);
inline bool bInitialized = false;
}

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// used: [stl] vector
#include <vector>
// used: [stl] sort
#include <algorithm>
#include "overlay.h"
// used: cheat variables
#include "../../core/variables.h"
// used: entity
#include "../../sdk/entity.h"
#include "../../sdk/interfaces/cgameentitysystem.h"
#include "../../sdk/interfaces/iengineclient.h"
#include "../../sdk/interfaces/cgametracemanager.h"
// used: sdk variables
#include "../../core/sdk.h"
// used: l_print
#include "../../utilities/log.h"
// used: inputsystem
#include "../../utilities/inputsystem.h"
// used: draw system
#include "../../utilities/draw.h"
// used: mainwindowopened
#include "../../core/menu.h"
using namespace F::VISUALS;
#pragma region visual_overlay_components
ImVec2 OVERLAY::CBaseComponent::GetBasePosition(const ImVec4& box) const
{
return { box[this->nSide == SIDE_RIGHT ? SIDE_RIGHT : SIDE_LEFT], box[this->nSide == SIDE_BOTTOM ? SIDE_BOTTOM : SIDE_TOP] };
}
ImVec2 OVERLAY::CBaseDirectionalComponent::GetBasePosition(const ImVec4& box) const
{
ImVec2 vecBasePosition = {};
if (this->nSide == SIDE_TOP || this->nSide == SIDE_BOTTOM)
{
CS_ASSERT(this->nDirection != (this->nSide ^ SIDE_BOTTOM) + 1); // this direction isn't supported for this side
vecBasePosition = { (box[SIDE_LEFT] + box[SIDE_RIGHT]) * 0.5f, box[this->nSide] };
}
else if (this->nSide == SIDE_LEFT || this->nSide == SIDE_RIGHT)
{
CS_ASSERT(this->nDirection != (this->nSide ^ SIDE_RIGHT)); // this direction isn't supported for this side
vecBasePosition = { box[this->nSide], box[this->nDirection == DIR_TOP ? SIDE_BOTTOM : SIDE_TOP] };
}
else
{
L_PRINT(LOG_ERROR) << CS_XOR("CBaseDirectionalComponent::GetBasePosition: invalid side: ") << this->nSide;
CS_ASSERT(false); // this side isn't supported for this component
return vecBasePosition;
}
if (this->nSide != SIDE_RIGHT && this->nDirection != DIR_RIGHT)
vecBasePosition.x -= this->vecSize.x * ((static_cast<std::uint8_t>(this->nDirection) == static_cast<std::uint8_t>(this->nSide) && (this->nSide & 1U) == 1U) ? 0.5f : 1.0f);
if (this->nSide == SIDE_TOP || this->nDirection == DIR_TOP)
vecBasePosition.y -= this->vecSize.y;
return vecBasePosition;
}
OVERLAY::CBarComponent::CBarComponent(const bool bIsMenuItem, const EAlignSide nAlignSide, const ImVec4& vecBox, const float flProgressFactor, const std::size_t uOverlayVarIndex) :
bIsMenuItem(bIsMenuItem), uOverlayVarIndex(uOverlayVarIndex), flProgressFactor(MATH::Clamp(flProgressFactor, 0.f, 1.f))
{
this->nSide = nAlignSide;
const bool bIsHorizontal = ((nAlignSide & 1U) == 1U);
const BarOverlayVar_t& overlayConfig = C_GET(BarOverlayVar_t, uOverlayVarIndex);
this->vecSize = { (bIsHorizontal ? vecBox[SIDE_RIGHT] - vecBox[SIDE_LEFT] : overlayConfig.flThickness), (bIsHorizontal ? overlayConfig.flThickness : vecBox[SIDE_BOTTOM] - vecBox[SIDE_TOP]) };
}
void OVERLAY::CBarComponent::Render(ImDrawList* pDrawList, const ImVec2& vecPosition)
{
BarOverlayVar_t& overlayConfig = C_GET(BarOverlayVar_t, uOverlayVarIndex);
const ImVec2 vecThicknessOffset = { overlayConfig.flThickness, overlayConfig.flThickness };
ImVec2 vecMin = vecPosition, vecMax = vecPosition + this->vecSize;
// background glow
pDrawList->AddShadowRect(vecMin, vecMax, overlayConfig.colBackground.GetU32(), 1.f, ImVec2(0, 0));
// outline
pDrawList->AddRect(vecMin, vecMax, overlayConfig.colOutline.GetU32(), 0.f, ImDrawFlags_None, overlayConfig.flThickness);
// account outline offset
vecMin += vecThicknessOffset;
vecMax -= vecThicknessOffset;
const ImVec2 vecLineSize = vecMax - vecMin;
// modify active side axis by factor
if ((this->nSide & 1U) == 0U)
vecMin.y += vecLineSize.y * (1.0f - this->flProgressFactor);
else
vecMax.x -= vecLineSize.x * (1.0f - this->flProgressFactor);
// bar
if (overlayConfig.bGradient && !overlayConfig.bUseFactorColor)
{
if (this->nSide == SIDE_LEFT || this->nSide == SIDE_RIGHT)
pDrawList->AddRectFilledMultiColor(vecMin, vecMax, overlayConfig.colPrimary.GetU32(), overlayConfig.colPrimary.GetU32(), overlayConfig.colSecondary.GetU32(), overlayConfig.colSecondary.GetU32());
else
pDrawList->AddRectFilledMultiColor(vecMin, vecMax, overlayConfig.colSecondary.GetU32(), overlayConfig.colPrimary.GetU32(), overlayConfig.colPrimary.GetU32(), overlayConfig.colSecondary.GetU32());
}
else
{
const ImU32 u32Color = overlayConfig.bUseFactorColor ? Color_t::FromHSB((flProgressFactor * 120.f) / 360.f, 1.0f, 1.0f).GetU32() : overlayConfig.colPrimary.GetU32();
pDrawList->AddRectFilled(vecMin, vecMax, u32Color, 0.f, ImDrawFlags_None);
}
// only open menu item if menu is opened and overlay is enabled
bIsMenuItem &= (MENU::bMainWindowOpened && overlayConfig.bEnable);
if (bIsMenuItem)
{
// @note: padding 2.f incase the thickness is too small
this->bIsHovered = ImRect(vecPosition - ImVec2(2.f, 2.f), vecPosition + this->vecSize + ImVec2(2.f, 2.f)).Contains(ImGui::GetIO().MousePos);
// if component is hovered + right clicked
if (this->bIsHovered && ImGui::IsMouseClicked(ImGuiMouseButton_Right))
ImGui::OpenPopup(CS_XOR("context##component.bar"));
if (ImGui::BeginPopup(CS_XOR("context##component.bar"), ImGuiWindowFlags_NoResize | ImGuiWindowFlags_AlwaysAutoResize | ImGuiWindowFlags_NoMove))
{
ImGui::PushStyleVar(ImGuiStyleVar_FramePadding, ImVec2(ImGui::GetStyle().FramePadding.x, -1));
ImGui::Checkbox(CS_XOR("use factor color##component.bar"), &overlayConfig.bUseFactorColor);
if (!overlayConfig.bUseFactorColor)
ImGui::Checkbox(CS_XOR("use gradient##component.bar"), &overlayConfig.bGradient);
ImGui::ColorEdit3(CS_XOR("primary color##component.bar"), &overlayConfig.colPrimary);
if (overlayConfig.bGradient && !overlayConfig.bUseFactorColor)
ImGui::ColorEdit3(CS_XOR("secondary color##component.bar"), &overlayConfig.colSecondary);
ImGui::ColorEdit4(CS_XOR("outline color##component.bar"), &overlayConfig.colOutline);
ImGui::ColorEdit4(CS_XOR("background color##component.bar"), &overlayConfig.colBackground);
ImGui::SetNextItemWidth(ImGui::GetWindowWidth() * 0.75f);
ImGui::SliderFloat(CS_XOR("thickness##component.bar"), &overlayConfig.flThickness, 1.0f, 10.0f, CS_XOR("%.1f"), ImGuiSliderFlags_NoInput);
ImGui::PopStyleVar();
ImGui::EndPopup();
}
}
else
// dont process hovered on menu close...
this->bIsHovered = false;
}
OVERLAY::CTextComponent::CTextComponent(const bool bIsMenuItem, const EAlignSide nAlignSide, const EAlignDirection nAlignDirection, const ImFont* pFont, const char* szText, const std::size_t uOverlayVarIndex) :
bIsMenuItem(bIsMenuItem), pFont(pFont), uOverlayVarIndex(uOverlayVarIndex)
{
// allocate own buffer to safely store a copy of the string
this->szText = new char[CRT::StringLength(szText) + 1U];
CRT::StringCopy(this->szText, szText);
this->nSide = nAlignSide;
this->nDirection = nAlignDirection;
this->vecSize = pFont->CalcTextSizeA(pFont->FontSize, FLT_MAX, 0.0f, szText) + C_GET(TextOverlayVar_t, uOverlayVarIndex).flThickness;
}
OVERLAY::CTextComponent::~CTextComponent()
{
// deallocate buffer of the copied string
delete[] this->szText;
}
void OVERLAY::CTextComponent::Render(ImDrawList* pDrawList, const ImVec2& vecPosition)
{
TextOverlayVar_t& overlayConfig = C_GET(TextOverlayVar_t, this->uOverlayVarIndex);
const ImVec2 vecOutlineOffset = { overlayConfig.flThickness, overlayConfig.flThickness };
// @test: used for spacing debugging
//pDrawList->AddRect(vecPosition, vecPosition + this->vecSize, IM_COL32(255, 255, 255, 255));
// @todo: fix this cringe shit after gui merge
if (overlayConfig.flThickness >= 1.0f)
{
pDrawList->AddText(this->pFont, this->pFont->FontSize, vecPosition, overlayConfig.colOutline.GetU32(), this->szText);
pDrawList->AddText(this->pFont, this->pFont->FontSize, vecPosition + vecOutlineOffset * 2.0f, overlayConfig.colOutline.GetU32(), this->szText);
}
pDrawList->AddText(this->pFont, this->pFont->FontSize, vecPosition + vecOutlineOffset, overlayConfig.colPrimary.GetU32(), this->szText);
// only open menu item if menu is opened and overlay is enabled
bIsMenuItem &= MENU::bMainWindowOpened && overlayConfig.bEnable;
if (bIsMenuItem)
{
this->bIsHovered = ImRect(vecPosition, vecPosition + this->vecSize).Contains(ImGui::GetIO().MousePos);
//pDrawList->AddRect(vecPosition, vecPosition + this->vecSize, IM_COL32(this->bIsHovered ? 0 : 255, this->bIsHovered ? 255 : 0, 0, 255));
// if component is hovered + right clicked
if (this->bIsHovered && ImGui::IsMouseClicked(ImGuiMouseButton_Right))
ImGui::OpenPopup(CS_XOR("context##component.text"));
if (ImGui::BeginPopup(CS_XOR("context##component.text")))
{
ImGui::PushStyleVar(ImGuiStyleVar_FramePadding, ImVec2(ImGui::GetStyle().FramePadding.x, -1));
ImGui::ColorEdit3(CS_XOR("primary color##component.bar"), &overlayConfig.colPrimary);
ImGui::ColorEdit4(CS_XOR("outline color##component.bar"), &overlayConfig.colOutline);
ImGui::SetNextItemWidth(ImGui::GetWindowWidth() * 0.75f);
ImGui::SliderFloat(CS_XOR("outline thickness##component.bar"), &overlayConfig.flThickness, 1.0f, 10.0f, CS_XOR("%.1f"), ImGuiSliderFlags_NoInput);
ImGui::PopStyleVar();
ImGui::EndPopup();
}
}
}
#pragma endregion
#pragma region visual_overlay_context
bool OVERLAY::Context_t::AddBoxComponent(ImDrawList* pDrawList, const ImVec4& vecBox, const int nType, float flThickness, float flRounding, const Color_t& colPrimary, const Color_t& colOutline)
{
flThickness = std::floorf(flThickness);
const ImVec2 vecThicknessOffset = { flThickness, flThickness };
switch (nType)
{
case VISUAL_OVERLAY_BOX_FULL:
{
const ImVec2 vecBoxMin = { vecBox[SIDE_LEFT], vecBox[SIDE_TOP] };
const ImVec2 vecBoxMax = { vecBox[SIDE_RIGHT], vecBox[SIDE_BOTTOM] };
// inner outline
pDrawList->AddRect(vecBoxMin + vecThicknessOffset * 2.0f, vecBoxMax - vecThicknessOffset * 2.0f, colOutline.GetU32(), flRounding, ImDrawFlags_RoundCornersAll, flThickness);
// primary box
pDrawList->AddRect(vecBoxMin + vecThicknessOffset, vecBoxMax - vecThicknessOffset, colPrimary.GetU32(), flRounding, ImDrawFlags_RoundCornersAll, flThickness);
// outer outline
pDrawList->AddRect(vecBoxMin, vecBoxMax, colOutline.GetU32(), flRounding, ImDrawFlags_RoundCornersAll, flThickness);
break;
}
case VISUAL_OVERLAY_BOX_CORNERS:
{
// corner part of the whole line
constexpr float flPartRatio = 0.25f;
const float flCornerWidth = ((vecBox[SIDE_RIGHT] - vecBox[SIDE_LEFT]) * flPartRatio);
const float flCornerHeight = ((vecBox[SIDE_BOTTOM] - vecBox[SIDE_TOP]) * flPartRatio);
const ImVec2 arrCornerPoints[4][3] = {
// top-left
{ ImVec2(vecBox[SIDE_LEFT], vecBox[SIDE_TOP] + flCornerHeight) + vecThicknessOffset, ImVec2(vecBox[SIDE_LEFT], vecBox[SIDE_TOP]) + vecThicknessOffset, ImVec2(vecBox[SIDE_LEFT] + flCornerWidth, vecBox[SIDE_TOP]) + vecThicknessOffset },
// top-right
{ ImVec2(vecBox[SIDE_RIGHT] - flCornerWidth - vecThicknessOffset.x, vecBox[SIDE_TOP] + vecThicknessOffset.y * 2.0f), ImVec2(vecBox[SIDE_RIGHT] - vecThicknessOffset.x, vecBox[SIDE_TOP] + vecThicknessOffset.y * 2.0f), ImVec2(vecBox[SIDE_RIGHT] - vecThicknessOffset.x, vecBox[SIDE_TOP] + flCornerHeight + vecThicknessOffset.y * 2.0f) },
// bottom-left
{ ImVec2(vecBox[SIDE_LEFT] + flCornerWidth + vecThicknessOffset.x, vecBox[SIDE_BOTTOM] - vecThicknessOffset.y * 2.0f), ImVec2(vecBox[SIDE_LEFT] + vecThicknessOffset.x, vecBox[SIDE_BOTTOM] - vecThicknessOffset.y * 2.0f), ImVec2(vecBox[SIDE_LEFT] + vecThicknessOffset.x, vecBox[SIDE_BOTTOM] - flCornerHeight - vecThicknessOffset.y * 2.0f) },
// bottom-right
{ ImVec2(vecBox[SIDE_RIGHT], vecBox[SIDE_BOTTOM] - flCornerHeight) - vecThicknessOffset, ImVec2(vecBox[SIDE_RIGHT], vecBox[SIDE_BOTTOM]) - vecThicknessOffset, ImVec2(vecBox[SIDE_RIGHT] - flCornerWidth, vecBox[SIDE_BOTTOM]) - vecThicknessOffset }
};
for (std::size_t i = 0U; i < CS_ARRAYSIZE(arrCornerPoints); i++)
{
const auto& arrLinePoints = arrCornerPoints[i];
const ImVec2 vecHalfPixelOffset = ((i & 1U) == 1U ? ImVec2(-0.5f, -0.5f) : ImVec2(0.5f, 0.5f));
// @todo: we can even do not clear path and reuse it
pDrawList->PathLineTo(arrLinePoints[0] + vecHalfPixelOffset);
pDrawList->PathLineTo(arrLinePoints[1] + vecHalfPixelOffset);
pDrawList->PathLineTo(arrLinePoints[2] + vecHalfPixelOffset);
pDrawList->PathStroke(colOutline.GetU32(), false, flThickness + 1.0f);
pDrawList->PathLineTo(arrLinePoints[0] + vecHalfPixelOffset);
pDrawList->PathLineTo(arrLinePoints[1] + vecHalfPixelOffset);
pDrawList->PathLineTo(arrLinePoints[2] + vecHalfPixelOffset);
pDrawList->PathStroke(colPrimary.GetU32(), false, flThickness);
}
break;
}
default:
break;
}
// accumulate spacing for next side/directional components
for (float& flSidePadding : this->arrSidePaddings)
flSidePadding += this->flComponentSpacing;
return ImRect(vecBox).Contains(ImGui::GetIO().MousePos);
}
ImVec4 OVERLAY::Context_t::AddFrameComponent(ImDrawList* pDrawList, const ImVec2& vecScreen, const EAlignSide nSide, const Color_t& colBackground, const float flRounding, const ImDrawFlags nRoundingCorners)
{
// calculate frame size by previously added components on active side
const ImVec2 vecFrameSize = this->GetTotalDirectionalSize(nSide);
ImVec2 vecFrameMin = { vecScreen.x - vecFrameSize.x * 0.5f, vecScreen.y - vecFrameSize.y };
ImVec2 vecFrameMax = { vecScreen.x + vecFrameSize.x * 0.5f, vecScreen.y };
pDrawList->AddRectFilled(vecFrameMin - this->flComponentSpacing, vecFrameMax + this->flComponentSpacing, colBackground.GetU32(), flRounding, nRoundingCorners);
// accumulate spacing for next side/directional components
for (float& flSidePadding : this->arrSidePaddings)
flSidePadding += this->flComponentSpacing;
return { vecFrameMin.x, vecFrameMin.y, vecFrameMax.x, vecFrameMax.y };
}
/*
* @todo: currently not well designed, make it more flexible for use cases where we need e.g. previous frame bar factor etc
* also to optimize this, allocate components at stack instead of heap + make all context units static and do not realloc components storage every frame, but reset (like memset idk) it at the end of frame
*/
void OVERLAY::Context_t::AddComponent(CBaseComponent* pComponent)
{
// guarantee that first directional component on each side is in the primary direction
if (pComponent->IsDirectional())
{
CBaseDirectionalComponent* pDirectionalComponent = static_cast<CBaseDirectionalComponent*>(pComponent);
// check if it's not an exception direction and there are no components in the primary direction
if (((pDirectionalComponent->nSide & 1U) == 1U || pDirectionalComponent->nDirection != DIR_TOP) && this->arrSideDirectionPaddings[pDirectionalComponent->nSide][pDirectionalComponent->nSide] == 0.0f)
pDirectionalComponent->nDirection = static_cast<EAlignDirection>(pDirectionalComponent->nSide);
}
float& flSidePadding = this->arrSidePaddings[pComponent->nSide];
if (pComponent->IsDirectional())
{
CBaseDirectionalComponent* pDirectionalComponent = static_cast<CBaseDirectionalComponent*>(pComponent);
float(&arrDirectionPaddings)[DIR_MAX] = this->arrSideDirectionPaddings[pDirectionalComponent->nSide];
// directional components don't change side paddings, but take them into account
pComponent->vecOffset[pDirectionalComponent->nSide & 1U] += ((pDirectionalComponent->nSide < 2U) ? -flSidePadding : flSidePadding);
// check if the component is in the same direction as the side and it's the first component in this direction
if (static_cast<std::uint8_t>(pDirectionalComponent->nDirection) == static_cast<std::uint8_t>(pDirectionalComponent->nSide) && arrDirectionPaddings[pDirectionalComponent->nDirection] == 0.0f)
{
// accumulate paddings for sub-directions
for (std::uint8_t nSubDirection = DIR_LEFT; nSubDirection < DIR_MAX; nSubDirection++)
{
/*
* exclude conflicting sub-directions
*
* SIDE_LEFT[0]: DIR_LEFT[0], DIR_BOTTOM[3] | ~2 & ~1
* SIDE_TOP[1]: DIR_LEFT[0], DIR_TOP[1], DIR_RIGHT[2] | ~3
* SIDE_RIGHT[2]: DIR_RIGHT[2], DIR_BOTTOM[3] | ~0 & ~1
* SIDE_BOTTOM[3]: DIR_LEFT[0], DIR_RIGHT[2], DIR_BOTTOM[3] | ~1
*/
if (nSubDirection == pDirectionalComponent->nSide || nSubDirection == ((pDirectionalComponent->nSide + 2U) & 3U) || (nSubDirection == DIR_TOP && (pDirectionalComponent->nSide & 1U) == 0U))
continue;
arrDirectionPaddings[nSubDirection] += (pDirectionalComponent->vecSize[nSubDirection == DIR_BOTTOM ? SIDE_TOP : SIDE_LEFT] * (((pDirectionalComponent->nSide & 1U) == 1U) ? 0.5f : 1.0f) + this->flComponentSpacing);
}
}
float& flSideDirectionPadding = arrDirectionPaddings[pDirectionalComponent->nDirection];
// append direction padding to offset
pComponent->vecOffset[pDirectionalComponent->nDirection & 1U] += ((pDirectionalComponent->nDirection < 2U) ? -flSideDirectionPadding : flSideDirectionPadding);
// accumulate direction padding for next component
flSideDirectionPadding += pDirectionalComponent->vecSize[pDirectionalComponent->nDirection & 1U];
// accumulate spacing for next directional components
flSideDirectionPadding += this->flComponentSpacing;
}
else
{
// append side padding to offset
pComponent->vecOffset[pComponent->nSide & 1U] += ((pComponent->nSide < 2U) ? -(flSidePadding + pComponent->vecSize[pComponent->nSide]) : flSidePadding);
// accumulate side padding for next component
flSidePadding += pComponent->vecSize[pComponent->nSide & 1U];
// accumulate spacing for next components
flSidePadding += this->flComponentSpacing;
}
this->vecComponents.push_back(pComponent);
}
ImVec2 OVERLAY::Context_t::GetTotalDirectionalSize(const EAlignSide nSide) const
{
ImVec2 vecSideSize = {};
// @todo: we should peek max of bottom + side or top directions at horizontal sides
const float(&arrDirectionPaddings)[DIR_MAX] = this->arrSideDirectionPaddings[nSide];
for (std::uint8_t nSubDirection = DIR_LEFT; nSubDirection < DIR_MAX; nSubDirection++)
vecSideSize[nSubDirection & 1U] += arrDirectionPaddings[nSubDirection];
return vecSideSize;
}
void OVERLAY::Context_t::Render(ImDrawList* pDrawList, const ImVec4& vecBox) const
{
bool bCenteredFirstSideDirectional[SIDE_MAX] = {};
for (CBaseComponent* const pComponent : this->vecComponents)
{
ImVec2 vecPosition = pComponent->GetBasePosition(vecBox);
// check if the component is in the side that supports multi-component centering
if (pComponent->nSide == SIDE_TOP || pComponent->nSide == SIDE_BOTTOM)
{
// check if the component is directional
if (CBaseDirectionalComponent* const pDirectionalComponent = static_cast<CBaseDirectionalComponent*>(pComponent); pDirectionalComponent->IsDirectional())
{
const float(&arrDirectionPaddings)[DIR_MAX] = this->arrSideDirectionPaddings[pComponent->nSide];
// check if the component has horizontal direction
if (static_cast<std::uint8_t>(pDirectionalComponent->nDirection) != static_cast<std::uint8_t>(pDirectionalComponent->nSide))
// add centering offset to the component's offset
pDirectionalComponent->vecOffset.x += (arrDirectionPaddings[DIR_LEFT] - arrDirectionPaddings[DIR_RIGHT]) * 0.5f;
// otherwise check if it's the first component in direction as side
else if (!bCenteredFirstSideDirectional[pDirectionalComponent->nSide])
{
// add centering offset to the component's offset
pDirectionalComponent->vecOffset.x += (arrDirectionPaddings[DIR_LEFT] - arrDirectionPaddings[DIR_RIGHT]) * 0.5f;
bCenteredFirstSideDirectional[pDirectionalComponent->nSide] = true;
}
}
}
// add final component offset to the base position
vecPosition += pComponent->vecOffset;
pComponent->Render(pDrawList, vecPosition);
}
}
#pragma endregion
void OVERLAY::OnFrameStageNotify(CCSPlayerController* pLocalController)
{
// only render when in-game
if (!I::Engine->IsConnected() || !I::Engine->IsInGame())
return;
if (!C_GET(bool, Vars.bVisualOverlay))
return;
enum ESortEntityType : int
{
SORT_ENTITY_NONE = -1,
SORT_ENTITY_PLAYER = 0,
};
struct SortEntityObject_t
{
SortEntityObject_t(C_BaseEntity* pEntity, CBaseHandle hEntity, float flDistance, ESortEntityType nSortType) :
pEntity(pEntity), hEntity(hEntity), flDistance(flDistance), nSortType(nSortType) { }
C_BaseEntity* pEntity;
CBaseHandle hEntity;
float flDistance;
ESortEntityType nSortType;
};
const int nHighestIndex = I::GameResourceService->pGameEntitySystem->GetHighestEntityIndex();
std::vector<SortEntityObject_t> vecSortedEntities = {};
vecSortedEntities.reserve(nHighestIndex);
// @note: 0 is resved for world entity 'CWorld'
for (int nIndex = 1; nIndex <= nHighestIndex; nIndex++)
{
C_BaseEntity* pEntity = I::GameResourceService->pGameEntitySystem->Get(nIndex);
if (pEntity == nullptr)
continue;
SchemaClassInfoData_t* pClassInfo = nullptr;
pEntity->GetSchemaClassInfo(&pClassInfo);
if (pClassInfo == nullptr)
continue;
const FNV1A_t uHashedName = FNV1A::Hash(pClassInfo->szName);
ESortEntityType nEntityType = SORT_ENTITY_NONE;
Vector_t vecOrigin = Vector_t();
if (uHashedName == FNV1A::HashConst("CCSPlayerController"))
{
nEntityType = SORT_ENTITY_PLAYER;
CCSPlayerController* pPlayer = reinterpret_cast<CCSPlayerController*>(pEntity);
if (pPlayer == nullptr)
continue;
vecOrigin = pPlayer->GetPawnOrigin();
}
// only add sortable entities
if (nEntityType != SORT_ENTITY_NONE)
vecSortedEntities.emplace_back(pEntity, pEntity->GetRefEHandle(), SDK::CameraPosition.DistTo(vecOrigin), nEntityType);
}
// sort entities by distance to draw them from the farthest to the nearest
std::ranges::sort(vecSortedEntities.begin(), vecSortedEntities.end(), std::ranges::greater{}, &SortEntityObject_t::flDistance);
for (auto& [pEntity, hEntity, flDistance, nSortType] : vecSortedEntities)
{
// if the handle is invalid, skip this entity
if (!hEntity.IsValid())
continue;
switch (nSortType)
{
case SORT_ENTITY_PLAYER:
{
CCSPlayerController* pPlayer = I::GameResourceService->pGameEntitySystem->Get<CCSPlayerController>(hEntity);
if (pPlayer == nullptr)
break;
if (!pPlayer->IsPawnAlive())
break;
Player(pLocalController, pPlayer, flDistance);
break;
}
default:
break;
}
}
}
bool OVERLAY::GetEntityBoundingBox(C_CSPlayerPawn* pEntity, ImVec4* pVecOut)
{
CCollisionProperty* pCollision = pEntity->GetCollision();
if (pCollision == nullptr)
return false;
CGameSceneNode* pGameSceneNode = pEntity->GetGameSceneNode();
if (pGameSceneNode == nullptr)
return false;
CTransform nodeToWorldTransform = pGameSceneNode->GetNodeToWorld();
const Matrix3x4_t matTransform = nodeToWorldTransform.quatOrientation.ToMatrix(nodeToWorldTransform.vecPosition);
const Vector_t vecMins = pCollision->GetMins();
const Vector_t vecMaxs = pCollision->GetMaxs();
pVecOut->x = pVecOut->y = std::numeric_limits<float>::max();
pVecOut->z = pVecOut->w = -std::numeric_limits<float>::max();
for (int i = 0; i < 8; ++i)
{
const Vector_t vecPoint{
i & 1 ? vecMaxs.x : vecMins.x,
i & 2 ? vecMaxs.y : vecMins.y,
i & 4 ? vecMaxs.z : vecMins.z
};
ImVec2 vecScreen;
if (!D::WorldToScreen(vecPoint.Transform(matTransform), &vecScreen))
return false;
pVecOut->x = MATH::Min(pVecOut->x, vecScreen.x);
pVecOut->y = MATH::Min(pVecOut->y, vecScreen.y);
pVecOut->z = MATH::Max(pVecOut->z, vecScreen.x);
pVecOut->w = MATH::Max(pVecOut->w, vecScreen.y);
}
return true;
}
void OVERLAY::Player(CCSPlayerController* pLocal, CCSPlayerController* pPlayer, const float flDistance)
{
C_CSPlayerPawn* pLocalPawn = I::GameResourceService->pGameEntitySystem->Get<C_CSPlayerPawn>(pLocal->GetPawnHandle());
C_CSPlayerPawn* pPlayerPawn = I::GameResourceService->pGameEntitySystem->Get<C_CSPlayerPawn>(pPlayer->GetPawnHandle());
if (pLocalPawn == nullptr || pPlayerPawn == nullptr)
return;
// @note: this is a simple example of how to check if the player is visible
// initialize trace, construct filterr and initialize ray
//GameTrace_t trace = GameTrace_t();
//TraceFilter_t filter = TraceFilter_t(0x1C3003, pLocalPawn, nullptr, 4);
//Ray_t ray = Ray_t();
// cast a ray from local player eye positon -> player head bone
// @note: would recommend checking for nullptrs
//I::GameTraceManager->TraceShape(&ray, pLocalPawn->GetEyePosition(), pPlayerPawn->GetGameSceneNode()->GetSkeletonInstance()->pBoneCache->GetOrigin(6), &filter, &trace);
// check if the hit entity is the one we wanted to check and if the trace end point is visible
//if (trace.m_pHitEntity != pPlayerPawn || !trace.IsVisible( ))
// return;
bool bIsEnemy = (pLocalPawn->IsOtherEnemy(pPlayerPawn));
// @note: only enemy overlay for now
if (!bIsEnemy)
return;
ImVec4 vecBox = {};
if (!GetEntityBoundingBox(pPlayerPawn, &vecBox))
return;
Context_t context;
if (const auto& frameOverlayConfig = C_GET(FrameOverlayVar_t, Vars.overlayBox); frameOverlayConfig.bEnable)
context.AddBoxComponent(D::pDrawListActive, vecBox, 1, frameOverlayConfig.flThickness, frameOverlayConfig.flRounding, frameOverlayConfig.colPrimary, frameOverlayConfig.colOutline);
if (const auto& nameOverlayConfig = C_GET(TextOverlayVar_t, Vars.overlayName); nameOverlayConfig.bEnable)
{
const char* szPlayerName = pPlayer->GetPlayerName();
context.AddComponent(new CTextComponent(false, SIDE_TOP, DIR_TOP, FONT::pVisual, szPlayerName, Vars.overlayName));
}
if (const auto& healthOverlayConfig = C_GET(BarOverlayVar_t, Vars.overlayHealthBar); healthOverlayConfig.bEnable)
{
// @note: pPlayerPawn->GetMaxHealth() sometime return 0.f
const float flHealthFactor = pPlayerPawn->GetHealth() / 100.f;
context.AddComponent(new CBarComponent(false, SIDE_LEFT, vecBox, flHealthFactor, Vars.overlayHealthBar));
}
if (const auto& armorOverlayConfig = C_GET(BarOverlayVar_t, Vars.overlayArmorBar); armorOverlayConfig.bEnable)
{
const float flArmorFactor = pPlayerPawn->GetArmorValue() / 100.f;
context.AddComponent(new CBarComponent(false, SIDE_BOTTOM, vecBox, flArmorFactor, Vars.overlayArmorBar));
}
// render all the context
context.Render(D::pDrawListActive, vecBox);
}

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#pragma once
#include "../../common.h"
// used: draw system
#include "../../utilities/draw.h"
class CCSPlayerController;
class C_BaseEntity;
class C_CSPlayerPawn;
namespace F::VISUALS::OVERLAY
{
enum EAlignSide : std::uint8_t
{
SIDE_LEFT = 0U,
SIDE_TOP,
SIDE_RIGHT,
SIDE_BOTTOM,
SIDE_MAX
};
enum EAlignDirection : std::uint8_t
{
DIR_LEFT = 0U,
DIR_TOP,
DIR_RIGHT,
DIR_BOTTOM,
DIR_MAX = 4U // @todo: rework stuff based on this cuz one component can have only 3 possible directions at same time. vertical side: left & right + top | bottom, horizontal side: top & bottom + left | right
};
class CBaseComponent
{
public:
[[nodiscard]] virtual ImVec2 GetBasePosition(const ImVec4& box) const;
[[nodiscard]] virtual bool IsDirectional() const
{
return false;
}
virtual void Render(ImDrawList* pDrawList, const ImVec2& vecPosition) = 0;
EAlignSide nSide = SIDE_TOP;
ImVec2 vecOffset = {};
ImVec2 vecSize = {};
};
class CBaseDirectionalComponent : public CBaseComponent
{
public:
[[nodiscard]] ImVec2 GetBasePosition(const ImVec4& box) const final;
[[nodiscard]] bool IsDirectional() const final
{
return true;
}
EAlignDirection nDirection = DIR_TOP;
};
class CBarComponent : public CBaseComponent
{
public:
CBarComponent(const bool bIsMenuItem, const EAlignSide nAlignSide, const ImVec4& vecBox, const float flProgressFactor, const std::size_t uOverlayVarIndex);
void Render(ImDrawList* pDrawList, const ImVec2& vecPosition) final;
private:
bool bIsMenuItem = false;
// bar progress
float flProgressFactor = 0.0f;
// hovered state for context menu
bool bIsHovered = false;
// config variables
std::size_t uOverlayVarIndex = 0ULL;
};
class CTextComponent : public CBaseDirectionalComponent
{
public:
CTextComponent(const bool bIsMenuItem, const EAlignSide nAlignSide, const EAlignDirection nAlignDirection, const ImFont* pFont, const char* szText, const std::size_t uOverlayVarIndex);
~CTextComponent();
void Render(ImDrawList* pDrawList, const ImVec2& vecPosition) final;
private:
bool bIsMenuItem = false;
// font & text for displaying
const ImFont* pFont = nullptr;
char* szText = nullptr;
// hovered state for context menu
bool bIsHovered = false;
// config variables
std::size_t uOverlayVarIndex = 0ULL;
};
/*
* overlay component auto-positioning system
* @note: was designed to support the reordering of components that can be implemented with minimal effort
*
* currently supported next sides and sub-directions:
*
* DIR_TOP
* ^
* |
* DIR_LEFT <-o-> DIR_RIGHT
* DIR_LEFT <-o *---------* o-> DIR_RIGHT
* | | | |
* v | | v
* DIR_BOTTOM | | DIR_BOTTOM
* | |
* DIR_TOP | | DIR_TOP
* ^ | | ^
* | | | |
* o *---------* o
* DIR_LEFT <-o-> DIR_RIGHT
* |
* v
* DIR_BOTTOM
*/
struct Context_t
{
/* @section: special case components */
/// add the box component to overlay
/// @remarks: current implementation expects this to be first component, it's an immediate rendering component
/// @return: if the box component is hovered
bool AddBoxComponent(ImDrawList* pDrawList, const ImVec4& vecBox, const int nType, float flThickness, float flRounding, const Color_t& colPrimary, const Color_t& colOutline);
/// add the frame component to overlay
/// @remarks: current implementation expects this to be added after components that should be inside it, it's an immediate rendering component
/// @returns: size constraints of the added frame
ImVec4 AddFrameComponent(ImDrawList* pDrawList, const ImVec2& vecScreen, const EAlignSide nSide, const Color_t& colBackground, const float flRounding, const ImDrawFlags nRoundingCorners);
/* @section: common components */
/// add new component to overlay
/// @param[in] pComponent pointer to the one of supported component types
void AddComponent(CBaseComponent* pComponent);
/* @section: get */
/// @returns: size of the all directional components currently assigned to @a'nSide'
[[nodiscard]] ImVec2 GetTotalDirectionalSize(const EAlignSide nSide) const;
// calculate final position of components and render them
void Render(ImDrawList* pDrawList, const ImVec4& vecBox) const;
private:
// storage of all components
std::vector<CBaseComponent*> vecComponents = {};
// additional spacing between components
float flComponentSpacing = 1.0f;
// summary padding of all align sides
float arrSidePaddings[SIDE_MAX] = {};
// summary padding for all align directions of all align sides
float arrSideDirectionPaddings[SIDE_MAX][DIR_MAX] = {};
};
/* @section: callbacks */
void OnFrameStageNotify(CCSPlayerController* pLocalController);
/* @section: get */
/// get bounding box of entity
/// @returns: true if entity has collision and all points of box are visible on screen, false otherwise
bool GetEntityBoundingBox(C_CSPlayerPawn* pEntity, ImVec4* pVecOut);
/* @section: main */
// draw box, bars, text infos, etc at player position
void Player(CCSPlayerController* pLocal, CCSPlayerController* pPlayer, const float flDistance);
}

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#pragma once
// @source: master/game/shared/cstrike15/gametypes.h
#pragma region valve_gametypes
enum EGameType : int
{
GAMETYPE_UNKNOWN = -1,
GAMETYPE_CLASSIC,
GAMETYPE_GUNGAME,
GAMETYPE_TRAINING,
GAMETYPE_CUSTOM,
GAMETYPE_COOPERATIVE,
GAMETYPE_SKIRMISH,
GAMETYPE_FREEFORALL
};
enum EGameMode : int
{
GAMEMODE_UNKNOWN = -1,
// GAMETYPE_CLASSIC
GAMEMODE_CLASSIC_CASUAL = 0,
GAMEMODE_CLASSIC_COMPETITIVE,
GAMEMODE_CLASSIC_SCRIM_COMPETITIVE2V2,
GAMEMODE_CLASSIC_SCRIM_COMPETITIVE5V5,
// GAMETYPE_GUNGAME
GAMEMODE_GUNGAME_PROGRESSIVE = 0,
GAMEMODE_GUNGAME_BOMB,
GAMEMODE_GUNGAME_DEATHMATCH,
// GAMETYPE_TRAINING
GAMEMODE_TRAINING_DEFAULT = 0,
// GAMETYPE_CUSTOM
GAMEMODE_CUSTOM_DEFAULT = 0,
// GAMETYPE_COOPERATIVE
GAMEMODE_COOPERATIVE_DEFAULT = 0,
GAMEMODE_COOPERATIVE_MISSION,
// GAMETYPE_SKIRMISH
GAMEMODE_SKIRMISH_DEFAULT = 0,
// GAMETYPE_FREEFORALL
GAMEMODE_FREEFORALL_SURVIVAL = 0
};
#pragma endregion
enum ELifeState : int
{
LIFE_ALIVE = 0,
LIFE_DYING,
LIFE_DEAD,
LIFE_RESPAWNABLE,
LIFE_DISCARDBODY
};
enum EFlags : int
{
FL_ONGROUND = (1 << 0), // entity is at rest / on the ground
FL_DUCKING = (1 << 1), // player is fully crouched/uncrouched
FL_ANIMDUCKING = (1 << 2), // player is in the process of crouching or uncrouching but could be in transition
FL_WATERJUMP = (1 << 3), // player is jumping out of water
FL_ONTRAIN = (1 << 4), // player is controlling a train, so movement commands should be ignored on client during prediction
FL_INRAIN = (1 << 5), // entity is standing in rain
FL_FROZEN = (1 << 6), // player is frozen for 3rd-person camera
FL_ATCONTROLS = (1 << 7), // player can't move, but keeps key inputs for controlling another entity
FL_CLIENT = (1 << 8), // entity is a client (player)
FL_FAKECLIENT = (1 << 9), // entity is a fake client, simulated server side; don't send network messages to them
FL_INWATER = (1 << 10), // entity is in water
FL_FLY = (1 << 11),
FL_SWIM = (1 << 12),
FL_CONVEYOR = (1 << 13),
FL_NPC = (1 << 14),
FL_GODMODE = (1 << 15),
FL_NOTARGET = (1 << 16),
FL_AIMTARGET = (1 << 17),
FL_PARTIALGROUND = (1 << 18), // entity is standing on a place where not all corners are valid
FL_STATICPROP = (1 << 19), // entity is a static property
FL_GRAPHED = (1 << 20),
FL_GRENADE = (1 << 21),
FL_STEPMOVEMENT = (1 << 22),
FL_DONTTOUCH = (1 << 23),
FL_BASEVELOCITY = (1 << 24), // entity have applied base velocity this frame
FL_WORLDBRUSH = (1 << 25), // entity is not moveable/removeable brush (part of the world, but represented as an entity for transparency or something)
FL_OBJECT = (1 << 26),
FL_KILLME = (1 << 27), // entity is marked for death and will be freed by the game
FL_ONFIRE = (1 << 28),
FL_DISSOLVING = (1 << 29),
FL_TRANSRAGDOLL = (1 << 30), // entity is turning into client-side ragdoll
FL_UNBLOCKABLE_BY_PLAYER = (1 << 31)
};
enum EEFlags : int
{
EFL_KILLME = (1 << 0),
EFL_DORMANT = (1 << 1),
EFL_NOCLIP_ACTIVE = (1 << 2),
EFL_SETTING_UP_BONES = (1 << 3),
EFL_KEEP_ON_RECREATE_ENTITIES = (1 << 4),
EFL_DIRTY_SHADOWUPDATE = (1 << 5),
EFL_NOTIFY = (1 << 6),
EFL_FORCE_CHECK_TRANSMIT = (1 << 7),
EFL_BOT_FROZEN = (1 << 8),
EFL_SERVER_ONLY = (1 << 9),
EFL_NO_AUTO_EDICT_ATTACH = (1 << 10),
EFL_DIRTY_ABSTRANSFORM = (1 << 11),
EFL_DIRTY_ABSVELOCITY = (1 << 12),
EFL_DIRTY_ABSANGVELOCITY = (1 << 13),
EFL_DIRTY_SURROUNDING_COLLISION_BOUNDS = (1 << 14),
EFL_DIRTY_SPATIAL_PARTITION = (1 << 15),
EFL_HAS_PLAYER_CHILD = (1 << 16),
EFL_IN_SKYBOX = (1 << 17),
EFL_USE_PARTITION_WHEN_NOT_SOLID = (1 << 18),
EFL_TOUCHING_FLUID = (1 << 19),
EFL_IS_BEING_LIFTED_BY_BARNACLE = (1 << 20),
EFL_NO_ROTORWASH_PUSH = (1 << 21),
EFL_NO_THINK_FUNCTION = (1 << 22),
EFL_NO_GAME_PHYSICS_SIMULATION = (1 << 23),
EFL_CHECK_UNTOUCH = (1 << 24),
EFL_DONTBLOCKLOS = (1 << 25),
EFL_DONTWALKON = (1 << 26),
EFL_NO_DISSOLVE = (1 << 27),
EFL_NO_MEGAPHYSCANNON_RAGDOLL = (1 << 28),
EFL_NO_WATER_VELOCITY_CHANGE = (1 << 29),
EFL_NO_PHYSCANNON_INTERACTION = (1 << 30),
EFL_NO_DAMAGE_FORCES = (1 << 31)
};
enum EMoveType : std::uint8_t
{
MOVETYPE_NONE = 0,
MOVETYPE_OBSOLETE,
MOVETYPE_WALK,
MOVETYPE_FLY,
MOVETYPE_FLYGRAVITY,
MOVETYPE_VPHYSICS,
MOVETYPE_PUSH,
MOVETYPE_NOCLIP,
MOVETYPE_OBSERVER,
MOVETYPE_LADDER,
MOVETYPE_CUSTOM,
MOVETYPE_LAST,
MOVETYPE_INVALID,
MOVETYPE_MAX_BITS = 5
};
// identifies how submerged in water a player is
enum : int
{
WL_NOTINWATER = 0,
WL_FEET,
WL_WAIST,
WL_EYES
};
enum ETeamID : int
{
TEAM_UNK,
TEAM_SPECTATOR,
TEAM_TT,
TEAM_CT
};
using ItemDefinitionIndex_t = std::uint16_t;
enum EItemDefinitionIndexes : ItemDefinitionIndex_t
{
WEAPON_NONE,
WEAPON_DESERT_EAGLE,
WEAPON_DUAL_BERETTAS,
WEAPON_FIVE_SEVEN,
WEAPON_GLOCK_18,
WEAPON_AK_47 = 7,
WEAPON_AUG,
WEAPON_AWP,
WEAPON_FAMAS,
WEAPON_G3SG1,
WEAPON_GALIL_AR = 13,
WEAPON_M249,
WEAPON_M4A4 = 16,
WEAPON_MAC_10,
WEAPON_P90 = 19,
WEAPON_REPULSOR_DEVICE,
WEAPON_MP5_SD = 23,
WEAPON_UMP_45,
WEAPON_XM1014,
WEAPON_PP_BIZON,
WEAPON_MAG_7,
WEAPON_NEGEV,
WEAPON_SAWED_OFF,
WEAPON_TEC_9,
WEAPON_ZEUS_X27,
WEAPON_P2000,
WEAPON_MP7,
WEAPON_MP9,
WEAPON_NOVA,
WEAPON_P250,
WEAPON_RIOT_SHIELD,
WEAPON_SCAR_20,
WEAPON_SG_553,
WEAPON_SSG_08,
WEAPON_KNIFE0,
WEAPON_KNIFE1,
WEAPON_FLASHBANG,
WEAPON_HIGH_EXPLOSIVE_GRENADE,
WEAPON_SMOKE_GRENADE,
WEAPON_MOLOTOV,
WEAPON_DECOY_GRENADE,
WEAPON_INCENDIARY_GRENADE,
WEAPON_C4_EXPLOSIVE,
WEAPON_KEVLAR_VEST,
WEAPON_KEVLAR_and_HELMET,
WEAPON_HEAVY_ASSAULT_SUIT,
WEAPON_NO_LOCALIZED_NAME0 = 54,
WEAPON_DEFUSE_KIT,
WEAPON_RESCUE_KIT,
WEAPON_MEDI_SHOT,
WEAPON_MUSIC_KIT,
WEAPON_KNIFE2,
WEAPON_M4A1_S,
WEAPON_USP_S,
WEAPON_TRADE_UP_CONTRACT,
WEAPON_CZ75_AUTO,
WEAPON_R8_REVOLVER,
WEAPON_TACTICAL_AWARENESS_GRENADE = 68,
WEAPON_BARE_HANDS,
WEAPON_BREACH_CHARGE,
WEAPON_TABLET = 72,
WEAPON_KNIFE3 = 74,
WEAPON_AXE,
WEAPON_HAMMER,
WEAPON_WRENCH = 78,
WEAPON_SPECTRAL_SHIV = 80,
WEAPON_FIRE_BOMB,
WEAPON_DIVERSION_DEVICE,
WEAPON_FRAG_GRENADE,
WEAPON_SNOWBALL,
WEAPON_BUMP_MINE,
WEAPON_BAYONET = 500,
WEAPON_CLASSIC_KNIFE = 503,
WEAPON_FLIP_KNIFE = 505,
WEAPON_GUT_KNIFE,
WEAPON_KARAMBIT,
WEAPON_M9_BAYONET,
WEAPON_HUNTSMAN_KNIFE,
WEAPON_FALCHION_KNIFE = 512,
WEAPON_BOWIE_KNIFE = 514,
WEAPON_BUTTERFLY_KNIFE,
WEAPON_SHADOW_DAGGERS,
WEAPON_PARACORD_KNIFE,
WEAPON_SURVIVAL_KNIFE,
WEAPON_URSUS_KNIFE,
WEAPON_NAVAJA_KNIFE,
WEAPON_NOMAD_KNIFE,
WEAPON_STILETTO_KNIFE,
WEAPON_TALON_KNIFE,
WEAPON_SKELETON_KNIFE = 525,
};
enum EWeaponType : std::uint32_t
{
WEAPONTYPE_KNIFE = 0,
WEAPONTYPE_PISTOL = 1,
WEAPONTYPE_SUBMACHINEGUN = 2,
WEAPONTYPE_RIFLE = 3,
WEAPONTYPE_SHOTGUN = 4,
WEAPONTYPE_SNIPER_RIFLE = 5,
WEAPONTYPE_MACHINEGUN = 6,
WEAPONTYPE_C4 = 7,
WEAPONTYPE_TASER = 8,
WEAPONTYPE_GRENADE = 9,
WEAPONTYPE_EQUIPMENT = 10,
WEAPONTYPE_STACKABLEITEM = 11,
WEAPONTYPE_FISTS = 12,
WEAPONTYPE_BREACHCHARGE = 13,
WEAPONTYPE_BUMPMINE = 14,
WEAPONTYPE_TABLET = 15,
WEAPONTYPE_MELEE = 16,
WEAPONTYPE_SHIELD = 17,
WEAPONTYPE_ZONE_REPULSOR = 18,
WEAPONTYPE_UNKNOWN = 19
};

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#pragma once
// used: [crt] fmodf
#include <cmath>
// used: bit_cast
#include <bit>
#include "../../common.h"
// used: swap
#include "../../utilities/crt.h"
// used: [ext] imu32
#include "../../../dependencies/imgui/imgui.h"
enum
{
COLOR_R = 0,
COLOR_G = 1,
COLOR_B = 2,
COLOR_A = 3
};
struct ColorRGBExp32
{
std::uint8_t r, g, b;
std::int8_t iExponent;
};
static_assert(sizeof(ColorRGBExp32) == 0x4);
struct Color_t
{
Color_t() = default;
// 8-bit color constructor (in: [0 .. 255])
constexpr Color_t(const std::uint8_t r, const std::uint8_t g, const std::uint8_t b, const std::uint8_t a = 255) :
r(r), g(g), b(b), a(a) { }
// 8-bit color constructor (in: [0 .. 255])
constexpr Color_t(const int r, const int g, const int b, const int a = 255) :
r(static_cast<std::uint8_t>(r)), g(static_cast<std::uint8_t>(g)), b(static_cast<std::uint8_t>(b)), a(static_cast<std::uint8_t>(a)) { }
// 8-bit array color constructor (in: [0.0 .. 1.0])
explicit constexpr Color_t(const std::uint8_t arrColor[4]) :
r(arrColor[COLOR_R]), g(arrColor[COLOR_G]), b(arrColor[COLOR_B]), a(arrColor[COLOR_A]) { }
// 32-bit packed color constructor (in: 0x00000000 - 0xFFFFFFFF)
explicit constexpr Color_t(const ImU32 uPackedColor) :
r(static_cast<std::uint8_t>((uPackedColor >> IM_COL32_R_SHIFT) & 0xFF)), g(static_cast<std::uint8_t>((uPackedColor >> IM_COL32_G_SHIFT) & 0xFF)), b(static_cast<std::uint8_t>((uPackedColor >> IM_COL32_B_SHIFT) & 0xFF)), a(static_cast<std::uint8_t>((uPackedColor >> IM_COL32_A_SHIFT) & 0xFF)) { }
// 32-bit color constructor (in: [0.0 .. 1.0])
constexpr Color_t(const float r, const float g, const float b, const float a = 1.0f) :
r(static_cast<std::uint8_t>(r * 255.f)), g(static_cast<std::uint8_t>(g * 255.f)), b(static_cast<std::uint8_t>(b * 255.f)), a(static_cast<std::uint8_t>(a * 255.f)) { }
/// @returns: 32-bit packed integer representation of color
[[nodiscard]] constexpr ImU32 GetU32(const float flAlphaMultiplier = 1.0f) const
{
return IM_COL32(r, g, b, a * flAlphaMultiplier);
}
/// @return: converted color to imgui vector
[[nodiscard]] ImVec4 GetVec4(const float flAlphaMultiplier = 1.0f) const
{
return ImVec4(this->Base<COLOR_R>(), this->Base<COLOR_G>(), this->Base<COLOR_B>(), this->Base<COLOR_A>() * flAlphaMultiplier);
}
std::uint8_t& operator[](const std::uint8_t nIndex)
{
CS_ASSERT(nIndex <= COLOR_A); // given index is out of range
return reinterpret_cast<std::uint8_t*>(this)[nIndex];
}
const std::uint8_t& operator[](const std::uint8_t nIndex) const
{
CS_ASSERT(nIndex <= COLOR_A); // given index is out of range
return reinterpret_cast<const std::uint8_t*>(this)[nIndex];
}
bool operator==(const Color_t& colSecond) const
{
return (std::bit_cast<std::uint32_t>(*this) == std::bit_cast<std::uint32_t>(colSecond));
}
bool operator!=(const Color_t& colSecond) const
{
return (std::bit_cast<std::uint32_t>(*this) != std::bit_cast<std::uint32_t>(colSecond));
}
/// @returns: copy of color with certain R/G/B/A component changed to given value
template <std::size_t N>
[[nodiscard]] Color_t Set(const std::uint8_t nValue) const
{
static_assert(N >= COLOR_R && N <= COLOR_A, "color component index is out of range");
Color_t colCopy = *this;
colCopy[N] = nValue;
return colCopy;
}
/// @returns: copy of color with certain R/G/B/A component multiplied by given value
template <std::size_t N>
[[nodiscard]] Color_t Multiplier(const float flValue) const
{
static_assert(N >= COLOR_R && N <= COLOR_A, "color component index is out of range");
Color_t colCopy = *this;
colCopy[N] = static_cast<std::uint8_t>(static_cast<float>(colCopy[N]) * flValue);
return colCopy;
}
/// @returns: copy of color with certain R/G/B/A component divided by given value
template <std::size_t N>
[[nodiscard]] Color_t Divider(const int iValue) const
{
static_assert(N >= COLOR_R && N <= COLOR_A, "color component index is out of range");
Color_t colCopy = *this;
colCopy[N] /= iValue;
return colCopy;
}
/// @returns: certain R/G/B/A float value (in: [0 .. 255], out: [0.0 .. 1.0])
template <std::size_t N>
[[nodiscard]] float Base() const
{
static_assert(N >= COLOR_R && N <= COLOR_A, "color component index is out of range");
return reinterpret_cast<const std::uint8_t*>(this)[N] / 255.f;
}
/// @param[out] arrBase output array of R/G/B color components converted to float (in: [0 .. 255], out: [0.0 .. 1.0])
constexpr void Base(float (&arrBase)[3]) const
{
arrBase[COLOR_R] = static_cast<float>(r) / 255.f;
arrBase[COLOR_G] = static_cast<float>(g) / 255.f;
arrBase[COLOR_B] = static_cast<float>(b) / 255.f;
}
/// @returns: color created from float[3] array (in: [0.0 .. 1.0], out: [0 .. 255])
static Color_t FromBase3(const float arrBase[3])
{
return { arrBase[0], arrBase[1], arrBase[2] };
}
/// @param[out] arrBase output array of R/G/B/A color components converted to float (in: [0 .. 255], out: [0.0 .. 1.0])
constexpr void BaseAlpha(float (&arrBase)[4]) const
{
arrBase[COLOR_R] = static_cast<float>(r) / 255.f;
arrBase[COLOR_G] = static_cast<float>(g) / 255.f;
arrBase[COLOR_B] = static_cast<float>(b) / 255.f;
arrBase[COLOR_A] = static_cast<float>(a) / 255.f;
}
/// @returns : color created from float[3] array (in: [0.0 .. 1.0], out: [0 .. 255])
static Color_t FromBase4(const float arrBase[4])
{
return { arrBase[COLOR_R], arrBase[COLOR_G], arrBase[COLOR_B], arrBase[COLOR_A] };
}
/// @param[out] arrHSB output array of HSB/HSV color converted from RGB color
void ToHSB(float (&arrHSB)[3]) const
{
float arrBase[3] = {};
Base(arrBase);
float flKernel = 0.0f;
if (arrBase[COLOR_G] < arrBase[COLOR_B])
{
CRT::Swap(arrBase[COLOR_G], arrBase[COLOR_B]);
flKernel = -1.0f;
}
if (arrBase[COLOR_R] < arrBase[COLOR_G])
{
CRT::Swap(arrBase[COLOR_R], arrBase[COLOR_G]);
flKernel = -2.0f / 6.0f - flKernel;
}
const float flChroma = arrBase[COLOR_R] - MATH::Min(arrBase[COLOR_G], arrBase[COLOR_B]);
arrHSB[COLOR_R] = std::fabsf(flKernel + (arrBase[COLOR_G] - arrBase[COLOR_B]) / (6.0f * flChroma + std::numeric_limits<float>::epsilon()));
arrHSB[COLOR_G] = flChroma / (arrBase[COLOR_R] + std::numeric_limits<float>::epsilon());
arrHSB[COLOR_G] = arrBase[COLOR_R];
}
/// @returns: RGB color converted from HSB/HSV color
static Color_t FromHSB(const float flHue, const float flSaturation, const float flBrightness, const float flAlpha = 1.0f)
{
constexpr float flHueRange = (60.0f / 360.0f);
const float flHuePrime = std::fmodf(flHue, 1.0f) / flHueRange;
const int iRoundHuePrime = static_cast<int>(flHuePrime);
const float flDelta = flHuePrime - static_cast<float>(iRoundHuePrime);
const float p = flBrightness * (1.0f - flSaturation);
const float q = flBrightness * (1.0f - flSaturation * flDelta);
const float t = flBrightness * (1.0f - flSaturation * (1.0f - flDelta));
float flRed, flGreen, flBlue;
switch (iRoundHuePrime)
{
case 0:
flRed = flBrightness;
flGreen = t;
flBlue = p;
break;
case 1:
flRed = q;
flGreen = flBrightness;
flBlue = p;
break;
case 2:
flRed = p;
flGreen = flBrightness;
flBlue = t;
break;
case 3:
flRed = p;
flGreen = q;
flBlue = flBrightness;
break;
case 4:
flRed = t;
flGreen = p;
flBlue = flBrightness;
break;
default:
flRed = flBrightness;
flGreen = p;
flBlue = q;
break;
}
return { flRed, flGreen, flBlue, flAlpha };
}
std::uint8_t r = 0U, g = 0U, b = 0U, a = 0U;
};

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#pragma once
// used: MEM_PAD, FindPattern
#include "../../utilities/memory.h"
struct KV3ID_t
{
const char* szName;
std::uint64_t unk0;
std::uint64_t unk1;
};
class CKeyValues3
{
public:
MEM_PAD(0x100);
std::uint64_t uKey;
void* pValue;
MEM_PAD(0x8);
void LoadFromBuffer(const char* szString);
bool LoadKV3(CUtlBuffer* buffer);
static CKeyValues3* CreateMaterialResource()
{
using fnSetTypeKV3 = CKeyValues3*(CS_FASTCALL*)(CKeyValues3*, unsigned int, unsigned int);
static const fnSetTypeKV3 oSetTypeKV3 = reinterpret_cast<fnSetTypeKV3>(MEM::FindPattern(CLIENT_DLL, CS_XOR("40 53 48 83 EC 20 48 8B 01 48 8B D9 44")));
#ifdef CS_PARANOID
CS_ASSERT(oSetTypeKV3 != nullptr);
#endif
CKeyValues3* pKeyValue = new CKeyValues3[0x10];
return oSetTypeKV3(pKeyValue, 1U, 6U);
}
};

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#include "keyvalue3.h"
// used: CRT
#include "../../utilities/crt.h"
// used: utlbuffer
#include "utlbuffer.h"
void CKeyValues3::LoadFromBuffer(const char* szString)
{
CUtlBuffer buffer(0, (CRT::StringLength(szString) + 10), 1);
buffer.PutString(szString);
LoadKV3(&buffer);
}
bool CKeyValues3::LoadKV3(CUtlBuffer* buffer)
{
using fnLoadKeyValues = bool(CS_FASTCALL*)(CKeyValues3*, void*, CUtlBuffer*, KV3ID_t*, void*, void*, void*, void*, const char*);
static const fnLoadKeyValues oLoadKeyValues = reinterpret_cast<fnLoadKeyValues>(MEM::GetAbsoluteAddress(MEM::FindPattern(TIER0_DLL, CS_XOR("E8 ? ? ? ? EB 36 8B 43 10")), 0x1, 0x0));
#ifdef CS_PARANOID
CS_ASSERT(oLoadKeyValues != nullptr);
#endif
const char* szName = CS_XOR("");
KV3ID_t kv3ID = KV3ID_t(CS_XOR("generic"), 0x41B818518343427E, 0xB5F447C23C0CDF8C);
return oLoadKeyValues(this, nullptr, buffer, &kv3ID, nullptr, nullptr, nullptr, nullptr, CS_XOR(""));
}

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#include "matrix.h"
#include "qangle.h"
// used: m_rad2deg
#include "../../utilities/math.h"
[[nodiscard]] QAngle_t Matrix3x4_t::ToAngles() const
{
// extract the basis vectors from the matrix. since we only need the z component of the up vector, we don't get x and y
const Vector_t vecForward = this->GetForward();
const Vector_t vecLeft = this->GetLeft();
const float flUpZ = this->arrData[2][2];
const float flLength2D = vecForward.Length2D();
const float flPitch = M_RAD2DEG(std::atan2f(-vecForward.z, flLength2D));
// check is enough here to get angles
if (flLength2D > 0.001f)
return { flPitch, M_RAD2DEG(std::atan2f(vecForward.y, vecForward.x)), M_RAD2DEG(std::atan2f(vecLeft.z, flUpZ)) };
// forward is mostly Z, gimbal lock
// assume no roll in this case as one degree of freedom has been lost (i.e. yaw equals roll)
return { flPitch, M_RAD2DEG(std::atan2f(-vecLeft.x, vecLeft.y)), 0.0f };
}

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#pragma once
// used: sse2 intrinsics
#include <xmmintrin.h>
// used: bit_cast
#include <bit>
#include "../../common.h"
#include "vector.h"
// forward declarations
struct QAngle_t;
#pragma pack(push, 4)
using Matrix3x3_t = float[3][3];
struct Matrix3x4_t
{
Matrix3x4_t() = default;
constexpr Matrix3x4_t(
const float m00, const float m01, const float m02, const float m03,
const float m10, const float m11, const float m12, const float m13,
const float m20, const float m21, const float m22, const float m23)
{
arrData[0][0] = m00;
arrData[0][1] = m01;
arrData[0][2] = m02;
arrData[0][3] = m03;
arrData[1][0] = m10;
arrData[1][1] = m11;
arrData[1][2] = m12;
arrData[1][3] = m13;
arrData[2][0] = m20;
arrData[2][1] = m21;
arrData[2][2] = m22;
arrData[2][3] = m23;
}
constexpr Matrix3x4_t(const Vector_t& vecForward, const Vector_t& vecLeft, const Vector_t& vecUp, const Vector_t& vecOrigin)
{
SetForward(vecForward);
SetLeft(vecLeft);
SetUp(vecUp);
SetOrigin(vecOrigin);
}
[[nodiscard]] float* operator[](const int nIndex)
{
return arrData[nIndex];
}
[[nodiscard]] const float* operator[](const int nIndex) const
{
return arrData[nIndex];
}
constexpr void SetForward(const Vector_t& vecForward)
{
arrData[0][0] = vecForward.x;
arrData[1][0] = vecForward.y;
arrData[2][0] = vecForward.z;
}
constexpr void SetLeft(const Vector_t& vecLeft)
{
arrData[0][1] = vecLeft.x;
arrData[1][1] = vecLeft.y;
arrData[2][1] = vecLeft.z;
}
constexpr void SetUp(const Vector_t& vecUp)
{
arrData[0][2] = vecUp.x;
arrData[1][2] = vecUp.y;
arrData[2][2] = vecUp.z;
}
constexpr void SetOrigin(const Vector_t& vecOrigin)
{
arrData[0][3] = vecOrigin.x;
arrData[1][3] = vecOrigin.y;
arrData[2][3] = vecOrigin.z;
}
[[nodiscard]] constexpr Vector_t GetForward() const
{
return { arrData[0][0], arrData[1][0], arrData[2][0] };
}
[[nodiscard]] constexpr Vector_t GetLeft() const
{
return { arrData[0][1], arrData[1][1], arrData[2][1] };
}
[[nodiscard]] constexpr Vector_t GetUp() const
{
return { arrData[0][2], arrData[1][2], arrData[2][2] };
}
[[nodiscard]] constexpr Vector_t GetOrigin() const
{
return { arrData[0][3], arrData[1][3], arrData[2][3] };
}
constexpr void Invalidate()
{
for (auto& arrSubData : arrData)
{
for (auto& flData : arrSubData)
flData = std::numeric_limits<float>::infinity();
}
}
/// concatenate transformations of two matrices into one
/// @returns: matrix with concatenated transformations
[[nodiscard]] constexpr Matrix3x4_t ConcatTransforms(const Matrix3x4_t& matOther) const
{
return {
arrData[0][0] * matOther.arrData[0][0] + arrData[0][1] * matOther.arrData[1][0] + arrData[0][2] * matOther.arrData[2][0],
arrData[0][0] * matOther.arrData[0][1] + arrData[0][1] * matOther.arrData[1][1] + arrData[0][2] * matOther.arrData[2][1],
arrData[0][0] * matOther.arrData[0][2] + arrData[0][1] * matOther.arrData[1][2] + arrData[0][2] * matOther.arrData[2][2],
arrData[0][0] * matOther.arrData[0][3] + arrData[0][1] * matOther.arrData[1][3] + arrData[0][2] * matOther.arrData[2][3] + arrData[0][3],
arrData[1][0] * matOther.arrData[0][0] + arrData[1][1] * matOther.arrData[1][0] + arrData[1][2] * matOther.arrData[2][0],
arrData[1][0] * matOther.arrData[0][1] + arrData[1][1] * matOther.arrData[1][1] + arrData[1][2] * matOther.arrData[2][1],
arrData[1][0] * matOther.arrData[0][2] + arrData[1][1] * matOther.arrData[1][2] + arrData[1][2] * matOther.arrData[2][2],
arrData[1][0] * matOther.arrData[0][3] + arrData[1][1] * matOther.arrData[1][3] + arrData[1][2] * matOther.arrData[2][3] + arrData[1][3],
arrData[2][0] * matOther.arrData[0][0] + arrData[2][1] * matOther.arrData[1][0] + arrData[2][2] * matOther.arrData[2][0],
arrData[2][0] * matOther.arrData[0][1] + arrData[2][1] * matOther.arrData[1][1] + arrData[2][2] * matOther.arrData[2][1],
arrData[2][0] * matOther.arrData[0][2] + arrData[2][1] * matOther.arrData[1][2] + arrData[2][2] * matOther.arrData[2][2],
arrData[2][0] * matOther.arrData[0][3] + arrData[2][1] * matOther.arrData[1][3] + arrData[2][2] * matOther.arrData[2][3] + arrData[2][3]
};
}
/// @returns: angles converted from this matrix
[[nodiscard]] QAngle_t ToAngles() const;
float arrData[3][4] = {};
};
#pragma pack(pop)
class alignas(16) Matrix3x4a_t : public Matrix3x4_t
{
public:
Matrix3x4a_t() = default;
constexpr Matrix3x4a_t(
const float m00, const float m01, const float m02, const float m03,
const float m10, const float m11, const float m12, const float m13,
const float m20, const float m21, const float m22, const float m23)
{
arrData[0][0] = m00;
arrData[0][1] = m01;
arrData[0][2] = m02;
arrData[0][3] = m03;
arrData[1][0] = m10;
arrData[1][1] = m11;
arrData[1][2] = m12;
arrData[1][3] = m13;
arrData[2][0] = m20;
arrData[2][1] = m21;
arrData[2][2] = m22;
arrData[2][3] = m23;
}
constexpr Matrix3x4a_t(const Matrix3x4_t& matSource)
{
*this = matSource;
}
constexpr Matrix3x4a_t& operator=(const Matrix3x4_t& matSource)
{
arrData[0][0] = matSource.arrData[0][0];
arrData[0][1] = matSource.arrData[0][1];
arrData[0][2] = matSource.arrData[0][2];
arrData[0][3] = matSource.arrData[0][3];
arrData[1][0] = matSource.arrData[1][0];
arrData[1][1] = matSource.arrData[1][1];
arrData[1][2] = matSource.arrData[1][2];
arrData[1][3] = matSource.arrData[1][3];
arrData[2][0] = matSource.arrData[2][0];
arrData[2][1] = matSource.arrData[2][1];
arrData[2][2] = matSource.arrData[2][2];
arrData[2][3] = matSource.arrData[2][3];
return *this;
}
/// concatenate transformations of two aligned matrices into one
/// @returns: aligned matrix with concatenated transformations
[[nodiscard]] Matrix3x4a_t ConcatTransforms(const Matrix3x4a_t& matOther) const
{
Matrix3x4a_t matOutput;
CS_ASSERT((reinterpret_cast<std::uintptr_t>(this) & 15U) == 0 && (reinterpret_cast<std::uintptr_t>(&matOther) & 15U) == 0 && (reinterpret_cast<std::uintptr_t>(&matOutput) & 15U) == 0); // matrices aren't aligned
__m128 thisRow0 = _mm_load_ps(this->arrData[0]);
__m128 thisRow1 = _mm_load_ps(this->arrData[1]);
__m128 thisRow2 = _mm_load_ps(this->arrData[2]);
__m128 otherRow0 = _mm_load_ps(matOther.arrData[0]);
__m128 otherRow1 = _mm_load_ps(matOther.arrData[1]);
__m128 otherRow2 = _mm_load_ps(matOther.arrData[2]);
__m128 outRow0 = _mm_add_ps(_mm_mul_ps(_mm_shuffle_ps(thisRow0, thisRow0, _MM_SHUFFLE(0, 0, 0, 0)), otherRow0), _mm_add_ps(_mm_mul_ps(_mm_shuffle_ps(thisRow0, thisRow0, _MM_SHUFFLE(1, 1, 1, 1)), otherRow1), _mm_mul_ps(_mm_shuffle_ps(thisRow0, thisRow0, _MM_SHUFFLE(2, 2, 2, 2)), otherRow2)));
__m128 outRow1 = _mm_add_ps(_mm_mul_ps(_mm_shuffle_ps(thisRow1, thisRow1, _MM_SHUFFLE(0, 0, 0, 0)), otherRow0), _mm_add_ps(_mm_mul_ps(_mm_shuffle_ps(thisRow1, thisRow1, _MM_SHUFFLE(1, 1, 1, 1)), otherRow1), _mm_mul_ps(_mm_shuffle_ps(thisRow1, thisRow1, _MM_SHUFFLE(2, 2, 2, 2)), otherRow2)));
__m128 outRow2 = _mm_add_ps(_mm_mul_ps(_mm_shuffle_ps(thisRow2, thisRow2, _MM_SHUFFLE(0, 0, 0, 0)), otherRow0), _mm_add_ps(_mm_mul_ps(_mm_shuffle_ps(thisRow2, thisRow2, _MM_SHUFFLE(1, 1, 1, 1)), otherRow1), _mm_mul_ps(_mm_shuffle_ps(thisRow2, thisRow2, _MM_SHUFFLE(2, 2, 2, 2)), otherRow2)));
// add in translation vector
constexpr std::uint32_t arrComponentMask[4] = { 0x0, 0x0, 0x0, 0xFFFFFFFF };
outRow0 = _mm_add_ps(outRow0, _mm_and_ps(thisRow0, std::bit_cast<__m128>(arrComponentMask)));
outRow1 = _mm_add_ps(outRow1, _mm_and_ps(thisRow1, std::bit_cast<__m128>(arrComponentMask)));
outRow2 = _mm_add_ps(outRow2, _mm_and_ps(thisRow2, std::bit_cast<__m128>(arrComponentMask)));
_mm_store_ps(matOutput.arrData[0], outRow0);
_mm_store_ps(matOutput.arrData[1], outRow1);
_mm_store_ps(matOutput.arrData[2], outRow2);
return matOutput;
}
};
static_assert(alignof(Matrix3x4a_t) == 16);
#pragma pack(push, 4)
struct ViewMatrix_t
{
ViewMatrix_t() = default;
constexpr ViewMatrix_t(
const float m00, const float m01, const float m02, const float m03,
const float m10, const float m11, const float m12, const float m13,
const float m20, const float m21, const float m22, const float m23,
const float m30, const float m31, const float m32, const float m33)
{
arrData[0][0] = m00;
arrData[0][1] = m01;
arrData[0][2] = m02;
arrData[0][3] = m03;
arrData[1][0] = m10;
arrData[1][1] = m11;
arrData[1][2] = m12;
arrData[1][3] = m13;
arrData[2][0] = m20;
arrData[2][1] = m21;
arrData[2][2] = m22;
arrData[2][3] = m23;
arrData[3][0] = m30;
arrData[3][1] = m31;
arrData[3][2] = m32;
arrData[3][3] = m33;
}
constexpr ViewMatrix_t(const Matrix3x4_t& matFrom, const Vector4D_t& vecAdditionalRow = {})
{
arrData[0][0] = matFrom.arrData[0][0];
arrData[0][1] = matFrom.arrData[0][1];
arrData[0][2] = matFrom.arrData[0][2];
arrData[0][3] = matFrom.arrData[0][3];
arrData[1][0] = matFrom.arrData[1][0];
arrData[1][1] = matFrom.arrData[1][1];
arrData[1][2] = matFrom.arrData[1][2];
arrData[1][3] = matFrom.arrData[1][3];
arrData[2][0] = matFrom.arrData[2][0];
arrData[2][1] = matFrom.arrData[2][1];
arrData[2][2] = matFrom.arrData[2][2];
arrData[2][3] = matFrom.arrData[2][3];
arrData[3][0] = vecAdditionalRow.x;
arrData[3][1] = vecAdditionalRow.y;
arrData[3][2] = vecAdditionalRow.z;
arrData[3][3] = vecAdditionalRow.w;
}
[[nodiscard]] float* operator[](const int nIndex)
{
return arrData[nIndex];
}
[[nodiscard]] const float* operator[](const int nIndex) const
{
return arrData[nIndex];
}
[[nodiscard]] const bool operator==(const ViewMatrix_t& viewOther) const
{
return (
arrData[0][0] == viewOther.arrData[0][0] && arrData[0][1] == viewOther.arrData[0][1] && arrData[0][2] == viewOther.arrData[0][2] && arrData[0][3] == viewOther.arrData[0][3] &&
arrData[1][0] == viewOther.arrData[1][0] && arrData[1][1] == viewOther.arrData[1][1] && arrData[1][2] == viewOther.arrData[1][2] && arrData[1][3] == viewOther.arrData[1][3] &&
arrData[2][0] == viewOther.arrData[2][0] && arrData[2][1] == viewOther.arrData[2][1] && arrData[2][2] == viewOther.arrData[2][2] && arrData[2][3] == viewOther.arrData[2][3] &&
arrData[3][0] == viewOther.arrData[3][0] && arrData[3][1] == viewOther.arrData[3][1] && arrData[3][2] == viewOther.arrData[3][2] && arrData[3][3] == viewOther.arrData[3][3]);
}
[[nodiscard]] const Matrix3x4_t& As3x4() const
{
return *reinterpret_cast<const Matrix3x4_t*>(this);
}
[[nodiscard]] Matrix3x4_t& As3x4()
{
return *reinterpret_cast<Matrix3x4_t*>(this);
}
constexpr ViewMatrix_t& operator+=(const ViewMatrix_t& matAdd)
{
for (std::uint8_t c = 0U; c < 4U; c++)
{
for (std::uint8_t r = 0U; r < 4U; r++)
arrData[c][r] += matAdd[c][r];
}
return *this;
}
constexpr ViewMatrix_t& operator-=(const ViewMatrix_t& matSubtract)
{
for (std::uint8_t c = 0U; c < 4U; c++)
{
for (std::uint8_t r = 0U; r < 4U; r++)
arrData[c][r] -= matSubtract[c][r];
}
return *this;
}
[[nodiscard]] constexpr Vector4D_t GetRow(const int nIndex) const
{
return { arrData[nIndex][0], arrData[nIndex][1], arrData[nIndex][2], arrData[nIndex][3] };
}
[[nodiscard]] constexpr Vector4D_t GetColumn(const int nIndex) const
{
return { arrData[0][nIndex], arrData[1][nIndex], arrData[2][nIndex], arrData[3][nIndex] };
}
constexpr void Identity()
{
for (std::uint8_t c = 0U; c < 4U; c++)
{
for (std::uint8_t r = 0U; r < 4U; r++)
arrData[c][r] = (c == r) ? 1.0f : 0.0f;
}
}
/// concatenate transformations of two matrices into one
/// @returns: matrix with concatenated transformations
[[nodiscard]] constexpr ViewMatrix_t ConcatTransforms(const ViewMatrix_t& matOther) const
{
return {
arrData[0][0] * matOther.arrData[0][0] + arrData[0][1] * matOther.arrData[1][0] + arrData[0][2] * matOther.arrData[2][0] + arrData[0][3] * matOther.arrData[3][0],
arrData[0][0] * matOther.arrData[0][1] + arrData[0][1] * matOther.arrData[1][1] + arrData[0][2] * matOther.arrData[2][1] + arrData[0][3] * matOther.arrData[3][1],
arrData[0][0] * matOther.arrData[0][2] + arrData[0][1] * matOther.arrData[1][2] + arrData[0][2] * matOther.arrData[2][2] + arrData[0][3] * matOther.arrData[3][2],
arrData[0][0] * matOther.arrData[0][3] + arrData[0][1] * matOther.arrData[1][3] + arrData[0][2] * matOther.arrData[2][3] + arrData[0][3] * matOther.arrData[3][3],
arrData[1][0] * matOther.arrData[0][0] + arrData[1][1] * matOther.arrData[1][0] + arrData[1][2] * matOther.arrData[2][0] + arrData[1][3] * matOther.arrData[3][0],
arrData[1][0] * matOther.arrData[0][1] + arrData[1][1] * matOther.arrData[1][1] + arrData[1][2] * matOther.arrData[2][1] + arrData[1][3] * matOther.arrData[3][1],
arrData[1][0] * matOther.arrData[0][2] + arrData[1][1] * matOther.arrData[1][2] + arrData[1][2] * matOther.arrData[2][2] + arrData[1][3] * matOther.arrData[3][2],
arrData[1][0] * matOther.arrData[0][3] + arrData[1][1] * matOther.arrData[1][3] + arrData[1][2] * matOther.arrData[2][3] + arrData[1][3] * matOther.arrData[3][3],
arrData[2][0] * matOther.arrData[0][0] + arrData[2][1] * matOther.arrData[1][0] + arrData[2][2] * matOther.arrData[2][0] + arrData[2][3] * matOther.arrData[3][0],
arrData[2][0] * matOther.arrData[0][1] + arrData[2][1] * matOther.arrData[1][1] + arrData[2][2] * matOther.arrData[2][1] + arrData[2][3] * matOther.arrData[3][1],
arrData[2][0] * matOther.arrData[0][2] + arrData[2][1] * matOther.arrData[1][2] + arrData[2][2] * matOther.arrData[2][2] + arrData[2][3] * matOther.arrData[3][2],
arrData[2][0] * matOther.arrData[0][3] + arrData[2][1] * matOther.arrData[1][3] + arrData[2][2] * matOther.arrData[2][3] + arrData[2][3] * matOther.arrData[3][3],
arrData[3][0] * matOther.arrData[0][0] + arrData[3][1] * matOther.arrData[1][0] + arrData[3][2] * matOther.arrData[2][0] + arrData[3][3] * matOther.arrData[3][0],
arrData[3][0] * matOther.arrData[0][1] + arrData[3][1] * matOther.arrData[1][1] + arrData[3][2] * matOther.arrData[2][1] + arrData[3][3] * matOther.arrData[3][1],
arrData[3][0] * matOther.arrData[0][2] + arrData[3][1] * matOther.arrData[1][2] + arrData[3][2] * matOther.arrData[2][2] + arrData[3][3] * matOther.arrData[3][2],
arrData[3][0] * matOther.arrData[0][3] + arrData[3][1] * matOther.arrData[1][3] + arrData[3][2] * matOther.arrData[2][3] + arrData[3][3] * matOther.arrData[3][3]
};
}
float arrData[4][4] = {};
};
#pragma pack(pop)
struct Matrix2x4_t
{
public:
Matrix3x4_t TranslateToMatrix3x4()
{
Matrix3x4_t matrix = Matrix3x4_t();
Vector4D_t vecRotation = Vector4D_t();
Vector_t vecPosition = Vector_t();
vecRotation.x = this->_21; //rot.x
vecRotation.y = this->_22; //rot.y
vecRotation.z = this->_23; //rot.z
vecRotation.w = this->_24; //rot.w
vecPosition.x = this->_11; //bonepos.x
vecPosition.y = this->_12; //bonepos.y
vecPosition.z = this->_13; //bonepos.z
matrix[0][0] = 1.0f - 2.0f * vecRotation.y * vecRotation.y - 2.0f * vecRotation.z * vecRotation.z;
matrix[1][0] = 2.0f * vecRotation.x * vecRotation.y + 2.0f * vecRotation.w * vecRotation.z;
matrix[2][0] = 2.0f * vecRotation.x * vecRotation.z - 2.0f * vecRotation.w * vecRotation.y;
matrix[0][1] = 2.0f * vecRotation.x * vecRotation.y - 2.0f * vecRotation.w * vecRotation.z;
matrix[1][1] = 1.0f - 2.0f * vecRotation.x * vecRotation.x - 2.0f * vecRotation.z * vecRotation.z;
matrix[2][1] = 2.0f * vecRotation.y * vecRotation.z + 2.0f * vecRotation.w * vecRotation.x;
matrix[0][2] = 2.0f * vecRotation.x * vecRotation.z + 2.0f * vecRotation.w * vecRotation.y;
matrix[1][2] = 2.0f * vecRotation.y * vecRotation.z - 2.0f * vecRotation.w * vecRotation.x;
matrix[2][2] = 1.0f - 2.0f * vecRotation.x * vecRotation.x - 2.0f * vecRotation.y * vecRotation.y;
matrix[0][3] = vecPosition.x;
matrix[1][3] = vecPosition.y;
matrix[2][3] = vecPosition.z;
return matrix;
}
[[nodiscard]] const Vector_t GetOrigin(int nIndex)
{
return Vector_t(this[nIndex]._11, this[nIndex]._12, this[nIndex]._13);
}
const void SetOrigin(int nIndex, Vector_t vecValue)
{
this[nIndex]._11 = vecValue.x;
this[nIndex]._12 = vecValue.y;
this[nIndex]._13 = vecValue.z;
}
[[nodiscard]] const Vector4D_t GetRotation(int nIndex)
{
return Vector4D_t(this[nIndex]._21, this[nIndex]._22, this[nIndex]._23, this[nIndex]._24);
}
union
{
struct
{
float _11, _12, _13, _14;
float _21, _22, _23, _24;
};
};
};

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#include "qangle.h"
// used: [d3d] xmscalarsincos
#include <directxmath.h>
#include "matrix.h"
// used: m_deg2rad
#include "../../utilities/math.h"
void QAngle_t::ToDirections(Vector_t* pvecForward, Vector_t* pvecRight, Vector_t* pvecUp) const
{
float flPitchSin, flPitchCos, flYawSin, flYawCos, flRollSin, flRollCos;
DirectX::XMScalarSinCos(&flPitchSin, &flPitchCos, M_DEG2RAD(this->x));
DirectX::XMScalarSinCos(&flYawSin, &flYawCos, M_DEG2RAD(this->y));
DirectX::XMScalarSinCos(&flRollSin, &flRollCos, M_DEG2RAD(this->z));
if (pvecForward != nullptr)
{
pvecForward->x = flPitchCos * flYawCos;
pvecForward->y = flPitchCos * flYawSin;
pvecForward->z = -flPitchSin;
}
if (pvecRight != nullptr)
{
pvecRight->x = (-flRollSin * flPitchSin * flYawCos) + (-flRollCos * -flYawSin);
pvecRight->y = (-flRollSin * flPitchSin * flYawSin) + (-flRollCos * flYawCos);
pvecRight->z = (-flRollSin * flPitchCos);
}
if (pvecUp != nullptr)
{
pvecUp->x = (flRollCos * flPitchSin * flYawCos) + (-flRollSin * -flYawSin);
pvecUp->y = (flRollCos * flPitchSin * flYawSin) + (-flRollSin * flYawCos);
pvecUp->z = (flRollCos * flPitchCos);
}
}
Matrix3x4_t QAngle_t::ToMatrix(const Vector_t& vecOrigin) const
{
float flPitchSin, flPitchCos, flYawSin, flYawCos, flRollSin, flRollCos;
DirectX::XMScalarSinCos(&flPitchSin, &flPitchCos, M_DEG2RAD(this->x));
DirectX::XMScalarSinCos(&flYawSin, &flYawCos, M_DEG2RAD(this->y));
DirectX::XMScalarSinCos(&flRollSin, &flRollCos, M_DEG2RAD(this->z));
return {
(flPitchCos * flYawCos), (flRollSin * flPitchSin * flYawCos + flRollCos * -flYawSin), (flRollCos * flPitchSin * flYawCos + -flRollSin * -flYawSin), vecOrigin.x,
(flPitchCos * flYawSin), (flRollSin * flPitchSin * flYawSin + flRollCos * flYawCos), (flRollCos * flPitchSin * flYawSin + -flRollSin * flYawCos), vecOrigin.y,
(-flPitchSin), (flRollSin * flPitchCos), (flRollCos * flPitchCos), vecOrigin.z
};
}

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#pragma once
// used: [crt] isfinite, fmodf, remainderf
#include <cmath>
#include "vector.h"
// used: clamp
#include "../../utilities/crt.h"
// forward declarations
struct Matrix3x4_t;
struct QAngle_t
{
constexpr QAngle_t(float x = 0.f, float y = 0.f, float z = 0.f) :
x(x), y(y), z(z) { }
constexpr QAngle_t(const float* arrAngles) :
x(arrAngles[0]), y(arrAngles[1]), z(arrAngles[2]) { }
#pragma region qangle_array_operators
[[nodiscard]] float& operator[](const int nIndex)
{
return reinterpret_cast<float*>(this)[nIndex];
}
[[nodiscard]] const float& operator[](const int nIndex) const
{
return reinterpret_cast<const float*>(this)[nIndex];
}
#pragma endregion
#pragma region qangle_relational_operators
bool operator==(const QAngle_t& angBase) const
{
return this->IsEqual(angBase);
}
bool operator!=(const QAngle_t& angBase) const
{
return !this->IsEqual(angBase);
}
#pragma endregion
#pragma region qangle_assignment_operators
constexpr QAngle_t& operator=(const QAngle_t& angBase)
{
this->x = angBase.x;
this->y = angBase.y;
this->z = angBase.z;
return *this;
}
#pragma endregion
#pragma region qangle_arithmetic_assignment_operators
constexpr QAngle_t& operator+=(const QAngle_t& angBase)
{
this->x += angBase.x;
this->y += angBase.y;
this->z += angBase.z;
return *this;
}
constexpr QAngle_t& operator-=(const QAngle_t& angBase)
{
this->x -= angBase.x;
this->y -= angBase.y;
this->z -= angBase.z;
return *this;
}
constexpr QAngle_t& operator*=(const QAngle_t& angBase)
{
this->x *= angBase.x;
this->y *= angBase.y;
this->z *= angBase.z;
return *this;
}
constexpr QAngle_t& operator/=(const QAngle_t& angBase)
{
this->x /= angBase.x;
this->y /= angBase.y;
this->z /= angBase.z;
return *this;
}
constexpr QAngle_t& operator+=(const float flAdd)
{
this->x += flAdd;
this->y += flAdd;
this->z += flAdd;
return *this;
}
constexpr QAngle_t& operator-=(const float flSubtract)
{
this->x -= flSubtract;
this->y -= flSubtract;
this->z -= flSubtract;
return *this;
}
constexpr QAngle_t& operator*=(const float flMultiply)
{
this->x *= flMultiply;
this->y *= flMultiply;
this->z *= flMultiply;
return *this;
}
constexpr QAngle_t& operator/=(const float flDivide)
{
this->x /= flDivide;
this->y /= flDivide;
this->z /= flDivide;
return *this;
}
#pragma endregion
#pragma region qangle_arithmetic_unary_operators
constexpr QAngle_t& operator-()
{
this->x = -this->x;
this->y = -this->y;
this->z = -this->z;
return *this;
}
constexpr QAngle_t operator-() const
{
return { -this->x, -this->y, -this->z };
}
#pragma endregion
#pragma region qangle_arithmetic_ternary_operators
constexpr QAngle_t operator+(const QAngle_t& angAdd) const
{
return { this->x + angAdd.x, this->y + angAdd.y, this->z + angAdd.z };
}
constexpr QAngle_t operator-(const QAngle_t& angSubtract) const
{
return { this->x - angSubtract.x, this->y - angSubtract.y, this->z - angSubtract.z };
}
constexpr QAngle_t operator*(const QAngle_t& angMultiply) const
{
return { this->x * angMultiply.x, this->y * angMultiply.y, this->z * angMultiply.z };
}
constexpr QAngle_t operator/(const QAngle_t& angDivide) const
{
return { this->x / angDivide.x, this->y / angDivide.y, this->z / angDivide.z };
}
constexpr QAngle_t operator+(const float flAdd) const
{
return { this->x + flAdd, this->y + flAdd, this->z + flAdd };
}
constexpr QAngle_t operator-(const float flSubtract) const
{
return { this->x - flSubtract, this->y - flSubtract, this->z - flSubtract };
}
constexpr QAngle_t operator*(const float flMultiply) const
{
return { this->x * flMultiply, this->y * flMultiply, this->z * flMultiply };
}
constexpr QAngle_t operator/(const float flDivide) const
{
return { this->x / flDivide, this->y / flDivide, this->z / flDivide };
}
#pragma endregion
// @returns : true if each component of angle is finite, false otherwise
[[nodiscard]] bool IsValid() const
{
return (std::isfinite(this->x) && std::isfinite(this->y) && std::isfinite(this->z));
}
/// @returns: true if each component of angle equals to another, false otherwise
[[nodiscard]] bool IsEqual(const QAngle_t& angEqual, const float flErrorMargin = std::numeric_limits<float>::epsilon()) const
{
return (std::fabsf(this->x - angEqual.x) < flErrorMargin && std::fabsf(this->y - angEqual.y) < flErrorMargin && std::fabsf(this->z - angEqual.z) < flErrorMargin);
}
/// @returns: true if each component of angle equals zero, false otherwise
[[nodiscard]] bool IsZero() const
{
// @test: to make this implementation right, we should use fpclassify here, but game aren't doing same, probably it's better to keep this same, just ensure that it will be compiled same
return (this->x == 0.0f && this->y == 0.0f && this->z == 0.0f);
}
/// @returns: length of hypotenuse
[[nodiscard]] float Length2D() const
{
return std::sqrtf(x * x + y * y);
}
/// clamp each angle component by minimal/maximal allowed value for source sdk games
/// @returns: clamped angle
constexpr QAngle_t& Clamp()
{
this->x = MATH::Clamp(this->x, -89.f, 89.f);
this->y = MATH::Clamp(this->y, -180.f, 180.f);
this->z = MATH::Clamp(this->z, -45.f, 45.f);
return *this;
}
/// map polar angles to the range of [-180, 180] degrees
/// @returns: normalized angle
QAngle_t& Normalize()
{
this->x = std::remainderf(this->x, 360.f);
this->y = std::remainderf(this->y, 360.f);
this->z = std::remainderf(this->z, 360.f);
return *this;
}
/// convert angle to direction vectors
/// @param[out] pvecForward [optional] output for converted forward vector
/// @param[out] pvecRight [optional] output for converted right vector
/// @param[out] pvecUp [optional] output for converted up vector
void ToDirections(Vector_t* pvecForward, Vector_t* pvecRight = nullptr, Vector_t* pvecUp = nullptr) const;
/// @param[in] vecOrigin [optional] origin for converted matrix
/// @returns: matrix converted from angle
[[nodiscard]] Matrix3x4_t ToMatrix(const Vector_t& vecOrigin = {}) const;
public:
float x = 0.0f, y = 0.0f, z = 0.0f;
};

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#pragma once
struct Quaternion_t
{
constexpr Quaternion_t(const float x = 0.0f, const float y = 0.0f, const float z = 0.0f, const float w = 0.0f) :
x(x), y(y), z(z), w(w) { }
[[nodiscard]] bool IsValid() const
{
return (std::isfinite(x) && std::isfinite(y) && std::isfinite(z) && std::isfinite(w));
}
/// @param[in] vecOrigin [optional] translation for converted matrix
/// @returns: matrix converted from quaternion
[[nodiscard]] Matrix3x4_t ToMatrix(const Vector_t& vecOrigin = {}) const
{
CS_ASSERT(this->IsValid());
Matrix3x4_t matOut;
#ifdef _DEBUG // precalculate common multiplications
const float x2 = this->x + this->x, y2 = this->y + this->y, z2 = this->z + this->z;
const float xx = this->x * x2, xy = this->x * y2, xz = this->x * z2;
const float yy = this->y * y2, yz = this->y * z2;
const float zz = this->z * z2;
const float wx = this->w * x2, wy = this->w * y2, wz = this->w * z2;
matOut[0][0] = 1.0f - (yy + zz);
matOut[1][0] = xy + wz;
matOut[2][0] = xz - wy;
matOut[0][1] = xy - wz;
matOut[1][1] = 1.0f - (xx + zz);
matOut[2][1] = yz + wx;
matOut[0][2] = xz + wy;
matOut[1][2] = yz - wx;
matOut[2][2] = 1.0f - (xx + yy);
#else // let the compiler optimize calculations itself
matOut[0][0] = 1.0f - 2.0f * this->y * this->y - 2.0f * this->z * this->z;
matOut[1][0] = 2.0f * this->x * this->y + 2.0f * this->w * this->z;
matOut[2][0] = 2.0f * this->x * this->z - 2.0f * this->w * this->y;
matOut[0][1] = 2.0f * this->x * this->y - 2.0f * this->w * this->z;
matOut[1][1] = 1.0f - 2.0f * this->x * this->x - 2.0f * this->z * this->z;
matOut[2][1] = 2.0f * this->y * this->z + 2.0f * this->w * this->x;
matOut[0][2] = 2.0f * this->x * this->z + 2.0f * this->w * this->y;
matOut[1][2] = 2.0f * this->y * this->z - 2.0f * this->w * this->x;
matOut[2][2] = 1.0f - 2.0f * this->x * this->x - 2.0f * this->y * this->y;
#endif
matOut[0][3] = vecOrigin.x;
matOut[1][3] = vecOrigin.y;
matOut[2][3] = vecOrigin.z;
return matOut;
}
float x, y, z, w;
};
struct alignas(16) QuaternionAligned_t : Quaternion_t
{
QuaternionAligned_t& operator=(const Quaternion_t& quatOther)
{
this->x = quatOther.x;
this->y = quatOther.y;
this->z = quatOther.z;
this->w = quatOther.w;
return *this;
}
};
static_assert(alignof(QuaternionAligned_t) == 16);

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#pragma once
struct ResourceBinding_t
{
void* pData;
};
template <typename T>
class CStrongHandle
{
public:
operator T* () const
{
if (pBinding == nullptr)
return nullptr;
return static_cast<T*>(pBinding->pData);
}
T* operator->() const
{
if (pBinding == nullptr)
return nullptr;
return static_cast<T*>(pBinding->pData);
}
const ResourceBinding_t* pBinding;
};

15
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#pragma once
// used: matResult
#include "matrix.h"
// used: quaternion
#include "quaternion.h"
class CTransform
{
public:
VectorAligned_t vecPosition;
QuaternionAligned_t quatOrientation;
};
static_assert(alignof(CTransform) == 16);

288
examples/asphyxia-cs2-823331a79cf867972c517af8e94259fd479e09cf/cstrike/sdk/datatypes/usercmd.h Normal file
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#pragma once
// used: QAngle_t
#include "qangle.h"
// used: MEM_PAD
#include "../../utilities/memory.h"
// used: memalloc
#include "../../core/interfaces.h"
#include "../interfaces/imemalloc.h"
// @source: server.dll
enum ECommandButtons : std::uint64_t
{
IN_ATTACK = 1 << 0,
IN_JUMP = 1 << 1,
IN_DUCK = 1 << 2,
IN_FORWARD = 1 << 3,
IN_BACK = 1 << 4,
IN_USE = 1 << 5,
IN_LEFT = 1 << 7,
IN_RIGHT = 1 << 8,
IN_MOVELEFT = 1 << 9,
IN_MOVERIGHT = 1 << 10,
IN_SECOND_ATTACK = 1 << 11,
IN_RELOAD = 1 << 13,
IN_SPRINT = 1 << 16,
IN_JOYAUTOSPRINT = 1 << 17,
IN_SHOWSCORES = 1ULL << 33,
IN_ZOOM = 1ULL << 34,
IN_LOOKATWEAPON = 1ULL << 35
};
// compiled protobuf messages and looked at what bits are used in them
enum ESubtickMoveStepBits : std::uint32_t
{
MOVESTEP_BITS_BUTTON = 0x1U,
MOVESTEP_BITS_PRESSED = 0x2U,
MOVESTEP_BITS_WHEN = 0x4U,
MOVESTEP_BITS_ANALOG_FORWARD_DELTA = 0x8U,
MOVESTEP_BITS_ANALOG_LEFT_DELTA = 0x10U
};
enum EInputHistoryBits : std::uint32_t
{
INPUT_HISTORY_BITS_VIEWANGLES = 0x1U,
INPUT_HISTORY_BITS_SHOOTPOSITION = 0x2U,
INPUT_HISTORY_BITS_TARGETHEADPOSITIONCHECK = 0x4U,
INPUT_HISTORY_BITS_TARGETABSPOSITIONCHECK = 0x8U,
INPUT_HISTORY_BITS_TARGETANGCHECK = 0x10U,
INPUT_HISTORY_BITS_CL_INTERP = 0x20U,
INPUT_HISTORY_BITS_SV_INTERP0 = 0x40U,
INPUT_HISTORY_BITS_SV_INTERP1 = 0x80U,
INPUT_HISTORY_BITS_PLAYER_INTERP = 0x100U,
INPUT_HISTORY_BITS_RENDERTICKCOUNT = 0x200U,
INPUT_HISTORY_BITS_RENDERTICKFRACTION = 0x400U,
INPUT_HISTORY_BITS_PLAYERTICKCOUNT = 0x800U,
INPUT_HISTORY_BITS_PLAYERTICKFRACTION = 0x1000U,
INPUT_HISTORY_BITS_FRAMENUMBER = 0x2000U,
INPUT_HISTORY_BITS_TARGETENTINDEX = 0x4000U
};
enum EButtonStatePBBits : uint32_t
{
BUTTON_STATE_PB_BITS_BUTTONSTATE1 = 0x1U,
BUTTON_STATE_PB_BITS_BUTTONSTATE2 = 0x2U,
BUTTON_STATE_PB_BITS_BUTTONSTATE3 = 0x4U
};
enum EBaseCmdBits : std::uint32_t
{
BASE_BITS_MOVE_CRC = 0x1U,
BASE_BITS_BUTTONPB = 0x2U,
BASE_BITS_VIEWANGLES = 0x4U,
BASE_BITS_COMMAND_NUMBER = 0x8U,
BASE_BITS_CLIENT_TICK = 0x10U,
BASE_BITS_FORWARDMOVE = 0x20U,
BASE_BITS_LEFTMOVE = 0x40U,
BASE_BITS_UPMOVE = 0x80U,
BASE_BITS_IMPULSE = 0x100U,
BASE_BITS_WEAPON_SELECT = 0x200U,
BASE_BITS_RANDOM_SEED = 0x400U,
BASE_BITS_MOUSEDX = 0x800U,
BASE_BITS_MOUSEDY = 0x1000U,
BASE_BITS_CONSUMED_SERVER_ANGLE = 0x2000U,
BASE_BITS_CMD_FLAGS = 0x4000U,
BASE_BITS_ENTITY_HANDLE = 0x8000U
};
enum ECSGOUserCmdBits : std::uint32_t
{
CSGOUSERCMD_BITS_BASECMD = 0x1U,
CSGOUSERCMD_BITS_LEFTHAND = 0x2U,
CSGOUSERCMD_BITS_ATTACK3START = 0x4U,
CSGOUSERCMD_BITS_ATTACK1START = 0x8U,
CSGOUSERCMD_BITS_ATTACK2START = 0x10U
};
template <typename T>
struct RepeatedPtrField_t
{
struct Rep_t
{
int nAllocatedSize;
T* tElements[(std::numeric_limits<int>::max() - 2 * sizeof(int)) / sizeof(void*)];
};
void* pArena;
int nCurrentSize;
int nTotalSize;
Rep_t* pRep;
};
class CBasePB
{
public:
MEM_PAD(0x8) // 0x0 VTABLE
std::uint32_t nHasBits; // 0x8
std::uint64_t nCachedBits; // 0xC
void SetBits(std::uint64_t nBits)
{
// @note: you don't need to check if the bits are already set as bitwise OR will not change the value if the bit is already set
nCachedBits |= nBits;
}
};
static_assert(sizeof(CBasePB) == 0x18);
class CMsgQAngle : public CBasePB
{
public:
QAngle_t angValue; // 0x18
};
static_assert(sizeof(CMsgQAngle) == 0x28);
class CMsgVector : public CBasePB
{
public:
Vector4D_t vecValue; // 0x18
};
static_assert(sizeof(CMsgVector) == 0x28);
class CCSGOInterpolationInfoPB : public CBasePB
{
public:
float flFraction; // 0x18
int nSrcTick; // 0x1C
int nDstTick; // 0x20
};
static_assert(sizeof(CCSGOInterpolationInfoPB) == 0x28);
class CCSGOInputHistoryEntryPB : public CBasePB
{
public:
CMsgQAngle* pViewAngles; // 0x18
CMsgVector* pShootPosition; // 0x20
CMsgVector* pTargetHeadPositionCheck; // 0x28
CMsgVector* pTargetAbsPositionCheck; // 0x30
CMsgQAngle* pTargetAngPositionCheck; // 0x38
CCSGOInterpolationInfoPB* cl_interp; // 0x40
CCSGOInterpolationInfoPB* sv_interp0; // 0x48
CCSGOInterpolationInfoPB* sv_interp1; // 0x50
CCSGOInterpolationInfoPB* player_interp; // 0x58
int nRenderTickCount; // 0x60
float flRenderTickFraction; // 0x64
int nPlayerTickCount; // 0x68
float flPlayerTickFraction; // 0x6C
int nFrameNumber; // 0x70
int nTargetEntIndex; // 0x74
};
static_assert(sizeof(CCSGOInputHistoryEntryPB) == 0x78);
struct CInButtonStatePB : CBasePB
{
std::uint64_t nValue;
std::uint64_t nValueChanged;
std::uint64_t nValueScroll;
};
static_assert(sizeof(CInButtonStatePB) == 0x30);
struct CSubtickMoveStep : CBasePB
{
public:
std::uint64_t nButton;
bool bPressed;
float flWhen;
float flAnalogForwardDelta;
float flAnalogLeftDelta;
};
static_assert(sizeof(CSubtickMoveStep) == 0x30);
class CBaseUserCmdPB : public CBasePB
{
public:
RepeatedPtrField_t<CSubtickMoveStep> subtickMovesField;
std::string* strMoveCrc;
CInButtonStatePB* pInButtonState;
CMsgQAngle* pViewAngles;
std::int32_t nLegacyCommandNumber;
std::int32_t nClientTick;
float flForwardMove;
float flSideMove;
float flUpMove;
std::int32_t nImpulse;
std::int32_t nWeaponSelect;
std::int32_t nRandomSeed;
std::int32_t nMousedX;
std::int32_t nMousedY;
std::uint32_t nConsumedServerAngleChanges;
std::int32_t nCmdFlags;
std::uint32_t nPawnEntityHandle;
int CalculateCmdCRCSize()
{
return MEM::CallVFunc<int, 7U>(this);
}
};
static_assert(sizeof(CBaseUserCmdPB) == 0x80);
class CCSGOUserCmdPB
{
public:
std::uint32_t nHasBits;
std::uint64_t nCachedSize;
RepeatedPtrField_t<CCSGOInputHistoryEntryPB> inputHistoryField;
CBaseUserCmdPB* pBaseCmd;
bool bLeftHandDesired;
std::int32_t nAttack3StartHistoryIndex;
std::int32_t nAttack1StartHistoryIndex;
std::int32_t nAttack2StartHistoryIndex;
// @note: this function is used to check if the bits are set and set them if they are not
void CheckAndSetBits(std::uint32_t nBits)
{
if (!(nHasBits & nBits))
nHasBits |= nBits;
}
};
static_assert(sizeof(CCSGOUserCmdPB) == 0x40);
struct CInButtonState
{
public:
MEM_PAD(0x8) // 0x0 VTABLE
std::uint64_t nValue; // 0x8
std::uint64_t nValueChanged; // 0x10
std::uint64_t nValueScroll; // 0x18
};
static_assert(sizeof(CInButtonState) == 0x20);
class CUserCmd
{
public:
MEM_PAD(0x8); // 0x0 VTABLE
MEM_PAD(0x10); // TODO: find out what this is, added 14.08.2024
CCSGOUserCmdPB csgoUserCmd; // 0x18
CInButtonState nButtons; // 0x58
MEM_PAD(0x20); // 0x78
CCSGOInputHistoryEntryPB* GetInputHistoryEntry(int nIndex)
{
if (nIndex >= csgoUserCmd.inputHistoryField.pRep->nAllocatedSize || nIndex >= csgoUserCmd.inputHistoryField.nCurrentSize)
return nullptr;
return csgoUserCmd.inputHistoryField.pRep->tElements[nIndex];
}
void SetSubTickAngle(const QAngle_t& angView)
{
for (int i = 0; i < this->csgoUserCmd.inputHistoryField.pRep->nAllocatedSize; i++)
{
CCSGOInputHistoryEntryPB* pInputEntry = this->GetInputHistoryEntry(i);
if (!pInputEntry || !pInputEntry->pViewAngles)
continue;
pInputEntry->pViewAngles->angValue = angView;
pInputEntry->SetBits(EInputHistoryBits::INPUT_HISTORY_BITS_VIEWANGLES);
}
}
};
static_assert(sizeof(CUserCmd) == 0x98);

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#pragma once
// used: MEM_PAD
#include "../../utilities/memory.h"
class CUtlBuffer
{
public:
MEM_PAD(0x80);
CUtlBuffer(int a1, int nSize, int a3)
{
#ifdef CS_PARANOID
CS_ASSERT(MEM::fnUtlBufferInit != nullptr);
#endif
MEM::fnUtlBufferInit(this, a1, nSize, a3);
}
void PutString(const char* szString)
{
#ifdef CS_PARANOID
CS_ASSERT(MEM::fnUtlBufferPutString != nullptr);
#endif
MEM::fnUtlBufferPutString(this, szString);
}
void EnsureCapacity(int nSize)
{
#ifdef CS_PARANOID
CS_ASSERT(MEM::fnUtlBufferEnsureCapacity != nullptr);
#endif
MEM::fnUtlBufferEnsureCapacity(this, nSize);
}
};

234
examples/asphyxia-cs2-823331a79cf867972c517af8e94259fd479e09cf/cstrike/sdk/datatypes/utlfixedmemory.h Normal file
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#pragma once
#include "../../common.h"
// @test: using interfaces in the header | not critical but could blow up someday with thousands of errors or affect to compilation time etc
// used: interface handles
#include "../../core/interfaces.h"
// used: interface declarations
#include "../interfaces/imemalloc.h"
// @source: master/public/tier1/utlfixedmemory.h
template <class T>
class CUtlFixedMemory
{
protected:
struct BlockHeader_t
{
BlockHeader_t* pNext;
std::intptr_t nBlockSize;
};
public:
class Iterator_t
{
public:
Iterator_t(BlockHeader_t* pBlockHeader, const std::intptr_t nIndex) :
pBlockHeader(pBlockHeader), nIndex(nIndex) { }
bool operator==(const Iterator_t it) const
{
return pBlockHeader == it.pBlockHeader && nIndex == it.nIndex;
}
bool operator!=(const Iterator_t it) const
{
return pBlockHeader != it.pBlockHeader || nIndex != it.nIndex;
}
BlockHeader_t* pBlockHeader;
std::intptr_t nIndex;
};
CUtlFixedMemory(const int nGrowSize = 0, const int nInitAllocationCount = 0) :
pBlocks(nullptr), nAllocationCount(0), nGrowSize(nGrowSize)
{
Purge();
Grow(nInitAllocationCount);
}
~CUtlFixedMemory()
{
Purge();
}
CS_CLASS_NO_ASSIGNMENT(CUtlFixedMemory)
[[nodiscard]] T* Base()
{
return nullptr;
}
[[nodiscard]] const T* Base() const
{
return nullptr;
}
T& operator[](std::intptr_t nIndex)
{
CS_ASSERT(IsValidIndex(nIndex));
return *reinterpret_cast<T*>(nIndex);
}
const T& operator[](std::intptr_t nIndex) const
{
CS_ASSERT(IsValidIndex(nIndex));
return *reinterpret_cast<T*>(nIndex);
}
[[nodiscard]] T& Element(const std::intptr_t nIndex)
{
CS_ASSERT(IsValidIndex(nIndex));
return *reinterpret_cast<T*>(nIndex);
}
[[nodiscard]] const T& Element(const std::intptr_t nIndex) const
{
CS_ASSERT(IsValidIndex(nIndex));
return *reinterpret_cast<T*>(nIndex);
}
[[nodiscard]] Iterator_t First() const
{
return (pBlocks != nullptr ? Iterator_t(pBlocks, InvalidIndex()) : InvalidIterator());
}
[[nodiscard]] Iterator_t Next(const Iterator_t& it) const
{
if (!IsValidIterator(it))
return InvalidIterator();
BlockHeader_t* pHeader = it.pBlockHeader;
if (it.nIndex + 1 < pHeader->nBlockSize)
return Iterator_t(pHeader, it.nIndex + 1);
return (pHeader->pNext != nullptr ? Iterator_t(pHeader->pNext, InvalidIndex()) : InvalidIterator());
}
[[nodiscard]] std::intptr_t GetIndex(const Iterator_t& it) const
{
if (!IsValidIterator(it))
return InvalidIndex();
return reinterpret_cast<std::intptr_t>(HeaderToBlock(it.pBlockHeader) + it.nIndex);
}
[[nodiscard]] bool IsIndexAfter(std::intptr_t nIndex, const Iterator_t& it) const
{
if (!IsValidIterator(it))
return false;
if (IsInBlock(nIndex, it.pBlockHeader))
return nIndex > GetIndex(it);
for (BlockHeader_t* pBlockHeader = it.pBlockHeader->pNext; pBlockHeader != nullptr; pBlockHeader = pBlockHeader->pNext)
{
if (IsInBlock(nIndex, pBlockHeader))
return true;
}
return false;
}
[[nodiscard]] bool IsValidIterator(const Iterator_t& it) const
{
return it.pBlockHeader != nullptr && it.nIndex >= 0 && it.nIndex < it.pBlockHeader->nBlockSize;
}
[[nodiscard]] Iterator_t InvalidIterator() const
{
return Iterator_t(nullptr, InvalidIndex());
}
[[nodiscard]] bool IsValidIndex(const std::intptr_t nIndex) const
{
return nIndex != InvalidIndex();
}
[[nodiscard]] static std::intptr_t InvalidIndex()
{
return 0;
}
[[nodiscard]] int Count() const
{
return nAllocationCount;
}
void EnsureCapacity(const int nCapacity)
{
Grow(nCapacity - Count());
}
void Grow(const int nCount = 1)
{
if (nCount <= 0)
return;
int nBlockSize = (nGrowSize == 0 ? (nAllocationCount > 0 ? nAllocationCount : (31 + sizeof(T)) / sizeof(T)) : nGrowSize);
if (nBlockSize < nCount)
nBlockSize *= (nCount + nBlockSize - 1) / nBlockSize;
nAllocationCount += nBlockSize;
BlockHeader_t* pNewBlockHeader = static_cast<BlockHeader_t*>(I::MemAlloc->Alloc(sizeof(BlockHeader_t) + nBlockSize * sizeof(T)));
CS_ASSERT(pNewBlockHeader != nullptr); // container overflow
pNewBlockHeader->pNext = nullptr;
pNewBlockHeader->nBlockSize = nBlockSize;
if (pBlocks == nullptr)
pBlocks = pNewBlockHeader;
else
{
BlockHeader_t* pBlockHeader = pBlocks;
while (pBlockHeader->pNext != nullptr)
pBlockHeader = pBlockHeader->pNext;
pBlockHeader->pNext = pNewBlockHeader;
}
}
void Purge()
{
if (pBlocks == nullptr)
return;
for (BlockHeader_t* pBlockHeader = pBlocks; pBlockHeader != nullptr;)
{
BlockHeader_t* pFree = pBlockHeader;
pBlockHeader = pBlockHeader->pNext;
I::MemAlloc->Free(pFree);
}
pBlocks = nullptr;
nAllocationCount = 0;
}
protected:
[[nodiscard]] bool IsInBlock(std::intptr_t nIndex, BlockHeader_t* pBlockHeader) const
{
T* pCurrent = reinterpret_cast<T*>(nIndex);
const T* pStart = HeaderToBlock(pBlockHeader);
const T* pEnd = pStart + pBlockHeader->nBlockSize;
return (pCurrent >= pStart && pCurrent < pEnd);
}
[[nodiscard]] const T* HeaderToBlock(const BlockHeader_t* pHeader) const
{
return reinterpret_cast<const T*>(pHeader + 1);
}
[[nodiscard]] const BlockHeader_t* BlockToHeader(const T* pBlock) const
{
return reinterpret_cast<const BlockHeader_t*>(pBlock) - 1;
}
BlockHeader_t* pBlocks;
int nAllocationCount;
int nGrowSize;
};

347
examples/asphyxia-cs2-823331a79cf867972c517af8e94259fd479e09cf/cstrike/sdk/datatypes/utllinkedlist.h Normal file
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#pragma once
#include "utlmemory.h"
#include "utlfixedmemory.h"
// @source: master/public/tier1/utllinkedlist.h
template <class T, class I>
struct UtlLinkedListElement_t
{
UtlLinkedListElement_t(const UtlLinkedListElement_t&) = delete;
T element;
I iPrevious;
I iNext;
};
template <class T, class S = unsigned short, bool ML = false, class I = S, class M = CUtlMemory<UtlLinkedListElement_t<T, S>, I>>
class CUtlLinkedList
{
public:
using ElemType_t = T;
using IndexType_t = S;
using IndexLocalType_t = I;
using MemoryAllocator_t = M;
template <typename List_t>
class ConstIterator_t
{
public:
typedef typename List_t::ElemType_t ElemType_t;
typedef typename List_t::IndexType_t IndexType_t;
ConstIterator_t() :
pList(nullptr), nIndex(List_t::InvalidIndex()) { }
ConstIterator_t(const List_t& list, IndexType_t nIndex) :
pList(&list), nIndex(nIndex) { }
ConstIterator_t& operator++()
{
nIndex = pList->Next(nIndex);
return *this;
}
ConstIterator_t operator++(int)
{
ConstIterator_t pCopy = *this;
++(*this);
return pCopy;
}
ConstIterator_t& operator--()
{
CS_ASSERT(nIndex != pList->Head());
nIndex = (nIndex == pList->InvalidIndex() ? pList->Tail() : pList->Previous(nIndex));
return *this;
}
ConstIterator_t operator--(int)
{
ConstIterator_t pCopy = *this;
--(*this);
return pCopy;
}
bool operator==(const ConstIterator_t& other) const
{
CS_ASSERT(pList == other.pList);
return nIndex == other.nIndex;
}
bool operator!=(const ConstIterator_t& other) const
{
CS_ASSERT(pList == other.pList);
return nIndex != other.nIndex;
}
const ElemType_t& operator*() const
{
return pList->Element(nIndex);
}
const ElemType_t* operator->() const
{
return (&**this);
}
protected:
const List_t* pList;
IndexType_t nIndex;
};
template <typename List_t>
class Iterator_t : public ConstIterator_t<List_t>
{
public:
using ElemType_t = typename List_t::ElemType_t;
using IndexType_t = typename List_t::IndexType_t;
using Base_t = ConstIterator_t<List_t>;
Iterator_t() { }
Iterator_t(const List_t& list, IndexType_t nIndex) :
ConstIterator_t<List_t>(list, nIndex) { }
Iterator_t& operator++()
{
Base_t::nIndex = Base_t::pList->Next(Base_t::nIndex);
return *this;
}
Iterator_t operator++(int)
{
Iterator_t pCopy = *this;
++(*this);
return pCopy;
}
Iterator_t& operator--()
{
Base_t::nIndex = (Base_t::nIndex == Base_t::pList->InvalidIndex() ? Base_t::pList->Tail() : Base_t::pList->Previous(Base_t::nIndex));
return *this;
}
Iterator_t operator--(int)
{
Iterator_t pCopy = *this;
--(*this);
return pCopy;
}
ElemType_t& operator*() const
{
List_t* pMutableList = const_cast<List_t*>(Base_t::pList);
return pMutableList->Element(Base_t::nIndex);
}
ElemType_t* operator->() const
{
return (&**this);
}
};
CUtlLinkedList(int nGrowSize = 0, int nSize = 0) :
memory(nGrowSize, nSize), iHead(InvalidIndex()), iTail(InvalidIndex()), iFirstFree(InvalidIndex()), nElementCount(0), nAllocated(0), itLastAlloc(memory.InvalidIterator()), pElements(memory.Base()) { }
~CUtlLinkedList()
{
RemoveAll();
}
CUtlLinkedList(const CUtlLinkedList&) = delete;
CUtlLinkedList& operator=(const CUtlLinkedList&) = delete;
T& operator[](const I nIndex)
{
CS_ASSERT(IsValidIndex(nIndex));
return memory[nIndex].element;
}
const T& operator[](const I nIndex) const
{
CS_ASSERT(IsValidIndex(nIndex));
return memory[nIndex].element;
}
[[nodiscard]] T& Element(const I nIndex)
{
CS_ASSERT(IsValidIndex(nIndex));
return memory[nIndex].element;
}
[[nodiscard]] const T& Element(const I nIndex) const
{
CS_ASSERT(IsValidIndex(nIndex));
return memory[nIndex].element;
}
[[nodiscard]] I Head() const
{
return iHead;
}
[[nodiscard]] I Tail() const
{
return iTail;
}
[[nodiscard]] I Previous(const I nIndex) const
{
CS_ASSERT(IsValidIndex(nIndex));
return InternalElement(nIndex).iPrevious;
}
[[nodiscard]] I Next(const I nIndex) const
{
CS_ASSERT(IsValidIndex(nIndex));
return InternalElement(nIndex).iNext;
}
[[nodiscard]] static S InvalidIndex()
{
return static_cast<S>(M::InvalidIndex());
}
[[nodiscard]] bool IsValidIndex(const I nIndex) const
{
if (!memory.IsValidIndex(nIndex))
return false;
if (memory.IsIndexAfter(nIndex, itLastAlloc))
return false; // don't read values that have been allocated, but not constructed
return (memory[nIndex].iPrevious != nIndex) || (memory[nIndex].iNext == nIndex);
}
[[nodiscard]] static bool IsIndexInRange(I nIndex)
{
static_assert(sizeof(I) >= sizeof(S));
static_assert(sizeof(S) > 2 || static_cast<S>(-1) > 0);
static_assert(M::InvalidIndex() == -1 || M::InvalidIndex() == static_cast<S>(M::InvalidIndex()));
return (static_cast<S>(nIndex) == nIndex && static_cast<S>(nIndex) != InvalidIndex());
}
[[nodiscard]] I Find(const T& source) const
{
for (I i = iHead; i != InvalidIndex(); i = Next(i))
{
if (Element(i) == source)
return i;
}
return InvalidIndex();
}
void RemoveAll()
{
if (itLastAlloc == memory.InvalidIterator())
{
CS_ASSERT(iHead == InvalidIndex() && iTail == InvalidIndex() && iFirstFree == InvalidIndex() && nElementCount == 0);
return;
}
if constexpr (ML)
{
for (typename M::Iterator_t it = memory.First(); it != memory.InvalidIterator(); it = memory.Next(it))
{
I i = memory.GetIndex(it);
// skip elements already in the free list
if (IsValidIndex(i))
{
ListElement_t& internalElement = InternalElement(i);
(&internalElement.element)->~T();
internalElement.iPrevious = i;
internalElement.iNext = iFirstFree;
iFirstFree = i;
}
// don't destruct elements that haven't ever been constructed
if (it == itLastAlloc)
break;
}
}
else
{
I i = iHead, iNext;
while (i != InvalidIndex())
{
ListElement_t& internalElement = InternalElement(i);
(&internalElement.element)->~T();
internalElement.iPrevious = i;
iNext = Next(i);
internalElement.iNext = iNext == InvalidIndex() ? iFirstFree : iNext;
i = iNext;
}
if (iHead != InvalidIndex())
iFirstFree = iHead;
}
// clear everything else out
iHead = InvalidIndex();
iTail = InvalidIndex();
nElementCount = 0;
}
[[nodiscard]] auto begin() const
{
return ConstIterator_t<CUtlLinkedList<T, S, ML, I, M>>(*this, Head());
}
[[nodiscard]] auto begin()
{
return Iterator_t<CUtlLinkedList<T, S, ML, I, M>>(*this, Head());
}
[[nodiscard]] auto end() const
{
return ConstIterator_t<CUtlLinkedList<T, S, ML, I, M>>(*this, InvalidIndex());
}
[[nodiscard]] auto end()
{
return Iterator_t<CUtlLinkedList<T, S, ML, I, M>>(*this, InvalidIndex());
}
protected:
using ListElement_t = UtlLinkedListElement_t<T, S>;
[[nodiscard]] ListElement_t& InternalElement(const I nIndex)
{
return memory[nIndex];
}
[[nodiscard]] const ListElement_t& InternalElement(const I nIndex) const
{
return memory[nIndex];
}
M memory;
I iHead;
I iTail;
I iFirstFree;
I nElementCount;
I nAllocated;
typename M::Iterator_t itLastAlloc;
ListElement_t* pElements;
};
template <class T>
class CUtlFixedLinkedList : public CUtlLinkedList<T, std::intptr_t, true, std::intptr_t, CUtlFixedMemory<UtlLinkedListElement_t<T, std::intptr_t>>>
{
public:
CUtlFixedLinkedList(int nGrowSize = 0, int nInitAllocationCount = 0) :
CUtlLinkedList<T, std::intptr_t, true, std::intptr_t, CUtlFixedMemory<UtlLinkedListElement_t<T, std::intptr_t>>>(nGrowSize, nInitAllocationCount) { }
[[nodiscard]] bool IsValidIndex(std::intptr_t nIndex) const
{
if (!this->memory.IsIndexValid(nIndex))
return false;
return (this->memory[nIndex].iPrevious != nIndex) || (this->memory[nIndex].iNext == nIndex);
}
};

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#pragma once
#include "utlrbtree.h"
// @source: master/public/tier1/utlmap.h
template <typename K, typename T, typename I = unsigned short, typename LessCallbackFn_t = bool(CS_CDECL*)(const K&, const K&)>
class CUtlMap
{
public:
using KeyType_t = K;
using ElementType_t = T;
using IndexType_t = I;
CUtlMap(int nGrowSize = 0, int nInitialSize = 0, const LessCallbackFn_t& fnLessCallback = nullptr) :
tree(nGrowSize, nInitialSize, CKeyLess(fnLessCallback)) { }
CUtlMap(LessCallbackFn_t fnLessCallback) :
tree(CKeyLess(fnLessCallback)) { }
[[nodiscard]] ElementType_t& operator[](IndexType_t nIndex)
{
return tree.Element(nIndex).nElement;
}
[[nodiscard]] const ElementType_t& operator[](IndexType_t nIndex) const
{
return tree.Element(nIndex).nElement;
}
[[nodiscard]] ElementType_t& Element(IndexType_t nIndex)
{
return tree.Element(nIndex).nElement;
}
[[nodiscard]] const ElementType_t& Element(IndexType_t nIndex) const
{
return tree.Element(nIndex).nElement;
}
[[nodiscard]] KeyType_t& Key(IndexType_t nIndex)
{
return tree.Element(nIndex).key;
}
[[nodiscard]] const KeyType_t& Key(IndexType_t nIndex) const
{
return tree.Element(nIndex).key;
}
[[nodiscard]] unsigned int Count() const
{
return tree.Count();
}
[[nodiscard]] IndexType_t MaxElement() const
{
return tree.MaxElement();
}
[[nodiscard]] bool IsValidIndex(IndexType_t nIndex) const
{
return tree.IsValidIndex(nIndex);
}
[[nodiscard]] bool IsValid() const
{
return tree.IsValid();
}
[[nodiscard]] static IndexType_t InvalidIndex()
{
return CUtlRBTree<Node_t, I, CKeyLess>::InvalidIndex();
}
void EnsureCapacity(const int nCapacity)
{
tree.EnsureCapacity(nCapacity);
}
[[nodiscard]] IndexType_t Find(const KeyType_t& key) const
{
Node_t dummyNode;
dummyNode.key = key;
return tree.Find(dummyNode);
}
void RemoveAt(IndexType_t nIndex)
{
tree.RemoveAt(nIndex);
}
bool Remove(const KeyType_t& key)
{
Node_t dummyNode = { key };
return tree.Remove(dummyNode);
}
void RemoveAll()
{
tree.RemoveAll();
}
void Purge()
{
tree.Purge();
}
struct Node_t
{
KeyType_t key;
ElementType_t nElement;
};
class CKeyLess
{
public:
CKeyLess(const LessCallbackFn_t& fnLessCallback) :
fnLessCallback(fnLessCallback) { }
bool operator!() const
{
return !fnLessCallback;
}
bool operator()(const Node_t& left, const Node_t& right) const
{
return fnLessCallback(left.key, right.key);
}
LessCallbackFn_t fnLessCallback;
};
protected:
CUtlRBTree<Node_t, I, CKeyLess> tree; // 0x00
};

516
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#pragma once
// used: memorycopy
#include "../../utilities/crt.h"
// @test: using interfaces in the header | not critical but could blow up someday with thousands of errors or affect to compilation time etc
// used: interface handles
#include "../../core/interfaces.h"
// used: interface declarations
#include "../interfaces/imemalloc.h"
// @source: master/public/tier1/utlmemory.h
template <class T, class N = int>
class CUtlMemory
{
enum
{
EXTERNAL_BUFFER_MARKER = -1,
EXTERNAL_CONST_BUFFER_MARKER = -2,
};
public:
class Iterator_t
{
public:
Iterator_t(const N nIndex) :
nIndex(nIndex) { }
bool operator==(const Iterator_t it) const
{
return nIndex == it.nIndex;
}
bool operator!=(const Iterator_t it) const
{
return nIndex != it.nIndex;
}
N nIndex;
};
CUtlMemory(const int nInitialGrowSize, const int nAllocationCount) :
pMemory(nullptr), nAllocationCount(nAllocationCount), nGrowSize(nInitialGrowSize)
{
CS_ASSERT(nInitialGrowSize >= 0);
if (nAllocationCount > 0)
pMemory = static_cast<T*>(I::MemAlloc->Alloc(nAllocationCount * sizeof(T)));
}
CUtlMemory(T* pMemory, const int nElements) :
pMemory(pMemory), nAllocationCount(nElements), nGrowSize(EXTERNAL_BUFFER_MARKER) { }
CUtlMemory(const T* pMemory, const int nElements) :
pMemory(pMemory), nAllocationCount(nElements), nGrowSize(EXTERNAL_CONST_BUFFER_MARKER) { }
~CUtlMemory()
{
Purge();
}
CUtlMemory(const CUtlMemory&) = delete;
CUtlMemory(CUtlMemory&& moveFrom) noexcept :
pMemory(moveFrom.pMemory), nAllocationCount(moveFrom.nAllocationCount), nGrowSize(moveFrom.nGrowSize)
{
moveFrom.pMemory = nullptr;
moveFrom.nAllocationCount = 0;
moveFrom.nGrowSize = 0;
}
void* operator new(const std::size_t nSize)
{
return I::MemAlloc->Alloc(nSize);
}
void operator delete(void* pMemory)
{
I::MemAlloc->Free(pMemory);
}
CUtlMemory& operator=(const CUtlMemory&) = delete;
CUtlMemory& operator=(CUtlMemory&& moveFrom) noexcept
{
// copy member variables to locals before purge to handle self-assignment
T* pMemoryTemp = moveFrom.pMemory;
const int nAllocationCountTemp = moveFrom.nAllocationCount;
const int nGrowSizeTemp = moveFrom.nGrowSize;
moveFrom.pMemory = nullptr;
moveFrom.nAllocationCount = 0;
moveFrom.nGrowSize = 0;
// if this is a self-assignment, Purge() is a no-op here
Purge();
pMemory = pMemoryTemp;
nAllocationCount = nAllocationCountTemp;
nGrowSize = nGrowSizeTemp;
return *this;
}
[[nodiscard]] T& operator[](const N nIndex)
{
CS_ASSERT(IsValidIndex(nIndex));
return pMemory[nIndex];
}
[[nodiscard]] const T& operator[](const N nIndex) const
{
CS_ASSERT(IsValidIndex(nIndex));
return pMemory[nIndex];
}
[[nodiscard]] T& Element(const N nIndex)
{
CS_ASSERT(IsValidIndex(nIndex));
return pMemory[nIndex];
}
[[nodiscard]] const T& Element(const N nIndex) const
{
CS_ASSERT(IsValidIndex(nIndex));
return pMemory[nIndex];
}
[[nodiscard]] T* Base()
{
return pMemory;
}
[[nodiscard]] const T* Base() const
{
return pMemory;
}
[[nodiscard]] int AllocationCount() const
{
return nAllocationCount;
}
[[nodiscard]] bool IsExternallyAllocated() const
{
return nGrowSize <= EXTERNAL_BUFFER_MARKER;
}
[[nodiscard]] static N InvalidIndex()
{
return static_cast<N>(-1);
}
[[nodiscard]] bool IsValidIndex(N nIndex) const
{
return (nIndex >= 0) && (nIndex < nAllocationCount);
}
[[nodiscard]] Iterator_t First() const
{
return Iterator_t(IsValidIndex(0) ? 0 : InvalidIndex());
}
[[nodiscard]] Iterator_t Next(const Iterator_t& it) const
{
return Iterator_t(IsValidIndex(it.nIndex + 1) ? it.nIndex + 1 : InvalidIndex());
}
[[nodiscard]] N GetIndex(const Iterator_t& it) const
{
return it.nIndex;
}
[[nodiscard]] bool IsIndexAfter(N nIndex, const Iterator_t& it) const
{
return nIndex > it.nIndex;
}
[[nodiscard]] bool IsValidIterator(const Iterator_t& it) const
{
return IsValidIndex(it.index);
}
[[nodiscard]] Iterator_t InvalidIterator() const
{
return Iterator_t(InvalidIndex());
}
void Grow(const int nCount = 1)
{
if (IsExternallyAllocated())
return;
int nAllocationRequested = nAllocationCount + nCount;
int nNewAllocationCount = 0;
if (nGrowSize)
nAllocationCount = ((1 + ((nAllocationRequested - 1) / nGrowSize)) * nGrowSize);
else
{
if (nAllocationCount == 0)
nAllocationCount = (31 + sizeof(T)) / sizeof(T);
while (nAllocationCount < nAllocationRequested)
nAllocationCount <<= 1;
}
if (static_cast<int>(static_cast<N>(nNewAllocationCount)) < nAllocationRequested)
{
if (static_cast<int>(static_cast<N>(nNewAllocationCount)) == 0 && static_cast<int>(static_cast<N>(nNewAllocationCount - 1)) >= nAllocationRequested)
--nNewAllocationCount;
else
{
if (static_cast<int>(static_cast<N>(nAllocationRequested)) != nAllocationRequested)
return;
while (static_cast<int>(static_cast<N>(nNewAllocationCount)) < nAllocationRequested)
nNewAllocationCount = (nNewAllocationCount + nAllocationRequested) / 2;
}
}
nAllocationCount = nNewAllocationCount;
// @test: we can always call realloc, since it must allocate instead when passed null ptr
if (pMemory != nullptr)
pMemory = static_cast<T*>(I::MemAlloc->ReAlloc(pMemory, nAllocationCount * sizeof(T)));
else
pMemory = static_cast<T*>(I::MemAlloc->Alloc(nAllocationCount * sizeof(T)));
}
void EnsureCapacity(const int nCapacity)
{
if (nAllocationCount >= nCapacity)
return;
if (IsExternallyAllocated())
{
// can't grow a buffer whose memory was externally allocated
CS_ASSERT(false);
return;
}
nAllocationCount = nCapacity;
// @test: we can always call realloc, since it must allocate instead when passed null ptr
if (pMemory != nullptr)
pMemory = static_cast<T*>(I::MemAlloc->ReAlloc(pMemory, nAllocationCount * sizeof(T)));
else
pMemory = static_cast<T*>(I::MemAlloc->Alloc(nAllocationCount * sizeof(T)));
}
void ConvertToGrowableMemory(int nInitialGrowSize)
{
if (!IsExternallyAllocated())
return;
nGrowSize = nInitialGrowSize;
if (nAllocationCount > 0)
{
const int nByteCount = nAllocationCount * sizeof(T);
T* pGrowableMemory = static_cast<T*>(I::MemAlloc->Alloc(nByteCount));
CRT::MemoryCopy(pGrowableMemory, pMemory, nByteCount);
pMemory = pGrowableMemory;
}
else
pMemory = nullptr;
}
void Purge()
{
if (IsExternallyAllocated())
return;
if (pMemory != nullptr)
{
I::MemAlloc->Free(static_cast<void*>(pMemory));
pMemory = nullptr;
}
nAllocationCount = 0;
}
void Purge(const int nElements)
{
CS_ASSERT(nElements >= 0);
if (nElements > nAllocationCount)
{
// ensure this isn't a grow request in disguise
CS_ASSERT(nElements <= nAllocationCount);
return;
}
if (nElements == 0)
{
Purge();
return;
}
if (IsExternallyAllocated() || nElements == nAllocationCount)
return;
if (pMemory == nullptr)
{
// allocation count is non zero, but memory is null
CS_ASSERT(false);
return;
}
nAllocationCount = nElements;
pMemory = static_cast<T*>(I::MemAlloc->ReAlloc(pMemory, nAllocationCount * sizeof(T)));
}
protected:
T* pMemory; // 0x00
int nAllocationCount; // 0x04
int nGrowSize; // 0x08
};
template <class T, int nAlignment>
class CUtlMemoryAligned : public CUtlMemory<T>
{
public:
// @note: not implemented
CS_CLASS_NO_INITIALIZER(CUtlMemoryAligned);
};
template <class T, std::size_t SIZE, class I = int>
class CUtlMemoryFixedGrowable : public CUtlMemory<T, I>
{
typedef CUtlMemory<T, I> BaseClass;
public:
CUtlMemoryFixedGrowable(int nInitialGrowSize = 0, int nInitialSize = SIZE) :
BaseClass(arrFixedMemory, SIZE)
{
CS_ASSERT(nInitialSize == 0 || nInitialSize == SIZE);
nMallocGrowSize = nInitialGrowSize;
}
void Grow(int nCount = 1)
{
if (this->IsExternallyAllocated())
this->ConvertToGrowableMemory(nMallocGrowSize);
BaseClass::Grow(nCount);
}
void EnsureCapacity(int nCapacity)
{
if (CUtlMemory<T>::nAllocationCount >= nCapacity)
return;
if (this->IsExternallyAllocated())
// can't grow a buffer whose memory was externally allocated
this->ConvertToGrowableMemory(nMallocGrowSize);
BaseClass::EnsureCapacity(nCapacity);
}
private:
int nMallocGrowSize;
T arrFixedMemory[SIZE];
};
template <typename T, std::size_t SIZE, int nAlignment = 0>
class CUtlMemoryFixed
{
public:
CUtlMemoryFixed(const int nGrowSize = 0, const int nInitialCapacity = 0)
{
CS_ASSERT(nInitialCapacity == 0 || nInitialCapacity == SIZE);
}
CUtlMemoryFixed(const T* pMemory, const int nElements)
{
CS_ASSERT(false);
}
[[nodiscard]] static constexpr bool IsValidIndex(const int nIndex)
{
return (nIndex >= 0) && (nIndex < SIZE);
}
// specify the invalid ('null') index that we'll only return on failure
static constexpr int INVALID_INDEX = -1;
[[nodiscard]] static constexpr int InvalidIndex()
{
return INVALID_INDEX;
}
[[nodiscard]] T* Base()
{
if (nAlignment == 0)
return reinterpret_cast<T*>(&pMemory[0]);
return reinterpret_cast<T*>((reinterpret_cast<std::uintptr_t>(&pMemory[0]) + nAlignment - 1) & ~(nAlignment - 1));
}
[[nodiscard]] const T* Base() const
{
if (nAlignment == 0)
return reinterpret_cast<T*>(&pMemory[0]);
return reinterpret_cast<T*>((reinterpret_cast<std::uintptr_t>(&pMemory[0]) + nAlignment - 1) & ~(nAlignment - 1));
}
[[nodiscard]] T& operator[](int nIndex)
{
CS_ASSERT(IsValidIndex(nIndex));
return Base()[nIndex];
}
[[nodiscard]] const T& operator[](int nIndex) const
{
CS_ASSERT(IsValidIndex(nIndex));
return Base()[nIndex];
}
[[nodiscard]] T& Element(int nIndex)
{
CS_ASSERT(IsValidIndex(nIndex));
return Base()[nIndex];
}
[[nodiscard]] const T& Element(int nIndex) const
{
CS_ASSERT(IsValidIndex(nIndex));
return Base()[nIndex];
}
[[nodiscard]] int AllocationCount() const
{
return SIZE;
}
[[nodiscard]] int Count() const
{
return SIZE;
}
void Grow(int nCount = 1)
{
CS_ASSERT(false);
}
void EnsureCapacity(const int nCapacity)
{
CS_ASSERT(nCapacity <= SIZE);
}
void Purge() { }
void Purge(const int nElements)
{
CS_ASSERT(false);
}
[[nodiscard]] bool IsExternallyAllocated() const
{
return false;
}
class Iterator_t
{
public:
Iterator_t(const int nIndex) :
nIndex(nIndex) { }
bool operator==(const Iterator_t it) const
{
return nIndex == it.nIndex;
}
bool operator!=(const Iterator_t it) const
{
return nIndex != it.nIndex;
}
int nIndex;
};
[[nodiscard]] Iterator_t First() const
{
return Iterator_t(IsValidIndex(0) ? 0 : InvalidIndex());
}
[[nodiscard]] Iterator_t Next(const Iterator_t& it) const
{
return Iterator_t(IsValidIndex(it.nIndex + 1) ? it.nIndex + 1 : InvalidIndex());
}
[[nodiscard]] int GetIndex(const Iterator_t& it) const
{
return it.nIndex;
}
[[nodiscard]] bool IsIndexAfter(int i, const Iterator_t& it) const
{
return i > it.nIndex;
}
[[nodiscard]] bool IsValidIterator(const Iterator_t& it) const
{
return IsValidIndex(it.nIndex);
}
[[nodiscard]] Iterator_t InvalidIterator() const
{
return Iterator_t(InvalidIndex());
}
private:
char pMemory[SIZE * sizeof(T) + nAlignment];
};

244
examples/asphyxia-cs2-823331a79cf867972c517af8e94259fd479e09cf/cstrike/sdk/datatypes/utlrbtree.h Normal file
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#pragma once
#include "utlmemory.h"
// @source: master/public/tier1/utlrbtree.h
template <typename T>
class CDefLess
{
public:
CDefLess() { }
CDefLess(int) { }
CS_INLINE bool operator()(const T& left, const T& right) const
{
return (left < right);
}
CS_INLINE bool operator!() const
{
return false;
}
};
template <class I>
struct UtlRBTreeLinks_t
{
I iLeft;
I iRight;
I iParent;
I iTag;
};
template <class T, class I>
struct UtlRBTreeNode_t : public UtlRBTreeLinks_t<I>
{
T data;
};
template <class T, class I = unsigned short, typename L = bool(CS_CDECL*)(const T&, const T&), class M = CUtlMemory<UtlRBTreeNode_t<T, I>, I>>
class CUtlRBTree
{
public:
using KeyType_t = T;
using ElementType_t = T;
using IndexType_t = I;
using LessCallbackFn_t = L;
enum NodeColor_t
{
RED = 0,
BLACK
};
explicit CUtlRBTree(int nGrowSize = 0, int nInitialSize = 0, const LessCallbackFn_t& fnLessCallback = nullptr) :
fnLessCallback(fnLessCallback), memory(nGrowSize, nInitialSize), iRoot(InvalidIndex()), nElements(0), iFirstFree(InvalidIndex()), itLastAlloc(memory.InvalidIterator()), pElements(memory.Base()) { }
explicit CUtlRBTree(const LessCallbackFn_t& fnLessCallback) :
fnLessCallback(fnLessCallback), memory(0, 0), iRoot(InvalidIndex()), nElements(0), iFirstFree(InvalidIndex()), itLastAlloc(memory.InvalidIterator()), pElements(memory.Base()) { }
~CUtlRBTree()
{
Purge();
}
[[nodiscard]] T& operator[](I nIndex)
{
CS_ASSERT(IsValidIndex(nIndex));
return memory[nIndex].data;
}
[[nodiscard]] const T& operator[](I nIndex) const
{
CS_ASSERT(IsValidIndex(nIndex));
return memory[nIndex].data;
}
[[nodiscard]] T& Element(I nIndex)
{
CS_ASSERT(IsValidIndex(nIndex));
return memory[nIndex].data;
}
[[nodiscard]] const T& Element(I nIndex) const
{
CS_ASSERT(IsValidIndex(nIndex));
return memory[nIndex].data;
}
[[nodiscard]] const UtlRBTreeLinks_t<I>& Links(I nIndex) const
{
constexpr UtlRBTreeLinks_t<I> linksSentinel = {
M::INVALID_INDEX, M::INVALID_INDEX, M::INVALID_INDEX, BLACK
};
return (nIndex != InvalidIndex()) ? memory[nIndex] : linksSentinel;
}
[[nodiscard]] UtlRBTreeLinks_t<I>& Links(I nIndex)
{
CS_ASSERT(nIndex != InvalidIndex());
return memory[nIndex];
}
[[nodiscard]] I Parent(I nIndex) const
{
return (nIndex != InvalidIndex() ? memory[nIndex].iParent : InvalidIndex());
}
[[nodiscard]] I LeftChild(I nIndex) const
{
return (nIndex != InvalidIndex() ? memory[nIndex].iLeft : InvalidIndex());
}
[[nodiscard]] I RightChild(I nIndex) const
{
return (nIndex != InvalidIndex() ? memory[nIndex].iRight : InvalidIndex());
}
void SetParent(I nIndex, I iParent)
{
Links(nIndex).iParent = iParent;
}
void SetLeftChild(I nIndex, I iChild)
{
Links(nIndex).iLeft = iChild;
}
void SetRightChild(I nIndex, I iChild)
{
Links(nIndex).iRight = iChild;
}
[[nodiscard]] bool IsRoot(I nIndex) const
{
return nIndex == iRoot;
}
[[nodiscard]] bool IsLeaf(I nIndex) const
{
return (LeftChild(nIndex) == InvalidIndex()) && (RightChild(nIndex) == InvalidIndex());
}
[[nodiscard]] unsigned int Count() const
{
return nElements;
}
[[nodiscard]] I MaxElement() const
{
return static_cast<I>(memory.NumAllocated());
}
[[nodiscard]] bool IsValidIndex(I nIndex) const
{
if (!memory.IsValidIndex(nIndex))
return false;
// don't read values that have been allocated, but not constructed
if (memory.IsIndexAfter(nIndex, itLastAlloc))
return false;
return LeftChild(nIndex) != nIndex;
}
[[nodiscard]] static I InvalidIndex()
{
return static_cast<I>(M::InvalidIndex());
}
void EnsureCapacity(const int nCapacity)
{
memory.EnsureCapacity(nCapacity);
}
[[nodiscard]] I Find(const T& search) const
{
CS_ASSERT(!!fnLessCallback);
I iCurrent = iRoot;
while (iCurrent != InvalidIndex())
{
if (fnLessCallback(search, Element(iCurrent)))
iCurrent = LeftChild(iCurrent);
else if (fnLessCallback(Element(iCurrent), search))
iCurrent = RightChild(iCurrent);
else
break;
}
return iCurrent;
}
void RemoveAll()
{
if (itLastAlloc == memory.InvalidIterator())
{
CS_ASSERT(iRoot == InvalidIndex());
CS_ASSERT(iFirstFree == InvalidIndex());
CS_ASSERT(nElements == 0);
return;
}
for (typename M::Iterator_t it = memory.First(); it != memory.InvalidIterator(); it = memory.Next(it))
{
// skip elements in the free list
if (I nIndex = memory.GetIndex(it); IsValidIndex(nIndex))
{
(&Element(nIndex))->~T();
SetRightChild(nIndex, iFirstFree);
SetLeftChild(nIndex, nIndex);
iFirstFree = nIndex;
}
// don't destruct elements that haven't ever been constucted
if (it == itLastAlloc)
break;
}
// clear everything else out
iRoot = InvalidIndex();
nElements = 0;
//CS_ASSERT(IsValid());
}
void Purge()
{
RemoveAll();
iFirstFree = InvalidIndex();
memory.Purge();
itLastAlloc = memory.InvalidIterator();
}
public:
LessCallbackFn_t fnLessCallback; // 0x00
M memory; // 0x04
I iRoot; // 0x10
I nElements;
I iFirstFree;
typename M::Iterator_t itLastAlloc;
UtlRBTreeNode_t<T, I>* pElements;
};

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#pragma once
#include "utlmemory.h"
class CUtlBinaryBlock
{
public:
CUtlBinaryBlock(const int nInitialGrowSize = 0, const int nInitialSize = 0) :
memory(nInitialGrowSize, nInitialSize), nLength(0) { }
CUtlMemory<unsigned char> memory;
int nLength;
};
class CUtlString
{
public:
CUtlString() { }
[[nodiscard]] const char* Get() const
{
if (storage.nLength == 0)
return "";
return reinterpret_cast<const char*>(storage.memory.Base());
}
[[nodiscard]] int Length() const
{
return storage.nLength;
}
private:
CUtlBinaryBlock storage;
};
template <typename T = char>
class CUtlConstStringBase
{
public:
CUtlConstStringBase() :
pString(nullptr) { }
[[nodiscard]] const T* Get() const
{
return (pString != nullptr ? pString : static_cast<T*>(""));
}
[[nodiscard]] operator const T*() const
{
return (pString != nullptr ? pString : static_cast<T*>(""));
}
[[nodiscard]] bool Empty() const
{
return (pString == nullptr);
}
protected:
const T* pString;
};
using CUtlConstString = CUtlConstStringBase<char>;
using CUtlConstWideString = CUtlConstStringBase<wchar_t>;

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#pragma once
#include <cstdint>
#include <limits>
#include <cstdint>
class CUtlMemoryPool
{
public:
int Count() const
{
return nBlocksAllocated;
}
int PeakCount() const
{
return nPeakAlloc;
}
int BlockSize() const
{
return nBlockSize;
}
protected:
class CBlob
{
public:
CBlob* pPrev;
CBlob* pNext;
int nNumBytes;
char Data[1];
char Padding[3];
};
int nBlockSize;
int nBlocksPerBlob;
int nGrowMode;
int nBlocksAllocated;
int nPeakAlloc;
unsigned short nAlignment;
unsigned short nNumBlobs;
void* pHeadOfFreeList;
void* pAllocOwner;
CBlob BlobHead;
};
using UtlTSHashHandle_t = std::uintptr_t;
inline unsigned HashIntConventional(const int n)
{
unsigned hash = 0xAAAAAAAA + (n & 0xFF);
hash = (hash << 5) + hash + ((n >> 8) & 0xFF);
hash = (hash << 5) + hash + ((n >> 16) & 0xFF);
hash = (hash << 5) + hash + ((n >> 24) & 0xFF);
return hash;
}
template <int nBucketCount, class tKey = std::uintptr_t>
class CUtlTSHashGenericHash
{
public:
static int Hash(const tKey& Key, int nBucketMask)
{
int nHash = HashIntConventional(std::uintptr_t(Key));
if (nBucketCount <= UINT16_MAX)
{
nHash ^= (nHash >> 16);
}
if (nBucketCount <= UINT8_MAX)
{
nHash ^= (nHash >> 8);
}
return (nHash & nBucketMask);
}
static bool Compare(const tKey& lhs, const tKey& rhs)
{
return lhs == rhs;
}
};
template <class tElement, int nBucketCount, class tKey = std::uintptr_t, class tHashFuncs = CUtlTSHashGenericHash<nBucketCount, tKey>, int nAlignment = 0>
class CUtlTSHash
{
static constexpr int nBucketMask = nBucketCount - 1;
public:
static constexpr UtlTSHashHandle_t InvalidHandle()
{
return static_cast<UtlTSHashHandle_t>(0);
}
UtlTSHashHandle_t Find(tKey uiKey)
{
int iBucket = tHashFuncs::Hash(uiKey, nBucketCount);
const HashBucket_t& hashBucket = aBuckets[iBucket];
const UtlTSHashHandle_t hHash = Find(uiKey, hashBucket.pFirst, nullptr);
return hHash ? hHash : Find(uiKey, hashBucket.pFirstUncommited, hashBucket.pFirst);
}
int Count() const
{
return EntryMemory.Count();
}
int GetElements(int nFirstElement, int nCount, UtlTSHashHandle_t* pHandles) const
{
int nIndex = 0;
for (int nBucketIndex = 0; nBucketIndex < nBucketCount; nBucketIndex++)
{
const HashBucket_t& hashBucket = aBuckets[nBucketIndex];
HashFixedData_t* pElement = hashBucket.pFirstUncommited;
for (; pElement; pElement = pElement->pNext)
{
if (--nFirstElement >= 0)
continue;
pHandles[nIndex++] = reinterpret_cast<UtlTSHashHandle_t>(pElement);
if (nIndex >= nCount)
return nIndex;
}
}
return nIndex;
}
tElement Element(UtlTSHashHandle_t hHash)
{
return ((HashFixedData_t*)(hHash))->Data;
}
const tElement& Element(UtlTSHashHandle_t hHash) const
{
return reinterpret_cast<HashFixedData_t*>(hHash)->Data;
}
tElement& operator[](UtlTSHashHandle_t hHash)
{
return reinterpret_cast<HashFixedData_t*>(hHash)->Data;
}
const tElement& operator[](UtlTSHashHandle_t hHash) const
{
return reinterpret_cast<HashFixedData_t*>(hHash)->Data;
}
tKey GetID(UtlTSHashHandle_t hHash) const
{
return reinterpret_cast<HashFixedData_t*>(hHash)->uiKey;
}
private:
template <typename tData>
struct HashFixedDataInternal_t
{
tKey uiKey;
HashFixedDataInternal_t<tData>* pNext;
tData Data;
};
using HashFixedData_t = HashFixedDataInternal_t<tElement>;
struct HashBucket_t
{
private:
[[maybe_unused]] std::byte pad0[0x18];
public:
HashFixedData_t* pFirst;
HashFixedData_t* pFirstUncommited;
};
UtlTSHashHandle_t Find(tKey uiKey, HashFixedData_t* pFirstElement, HashFixedData_t* pLastElement)
{
for (HashFixedData_t* pElement = pFirstElement; pElement != pLastElement; pElement = pElement->pNext)
{
if (tHashFuncs::Compare(pElement->uiKey, uiKey))
return reinterpret_cast<UtlTSHashHandle_t>(pElement);
}
return InvalidHandle();
}
CUtlMemoryPool EntryMemory;
MEM_PAD(0x40);
HashBucket_t aBuckets[nBucketCount];
bool bNeedsCommit;
};

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#pragma once
#include "utlmemory.h"
// used: memorymove
#include "../../utilities/crt.h"
// @source: master/public/tier1/utlvector.h
/*
* a growable array class which doubles in size by default.
* it will always keep all elements consecutive in memory, and may move the
* elements around in memory (via a realloc) when elements are inserted or removed.
* clients should therefore refer to the elements of the vector by index and not pointers
*
* @note: if variable that uses it intend to call any method that needs to allocate/deallocate should have overloaded constructor/destructor and/or new/delete operators respectively
*/
template <class T, class A = CUtlMemory<T>>
class CUtlVector
{
using CAllocator = A;
public:
explicit CUtlVector(const int nGrowSize = 0, const int nInitialCapacity = 0) :
memory(nGrowSize, nInitialCapacity), nSize(0), pElements(memory.Base()) { }
CUtlVector(T* pMemory, const int nInitialCapacity, const int nInitialCount = 0) :
memory(pMemory, nInitialCapacity), nSize(nInitialCount), pElements(memory.Base()) { }
CUtlVector(const CUtlVector&) = delete;
~CUtlVector()
{
Purge();
}
CUtlVector& operator=(const CUtlVector& vecOther)
{
CS_ASSERT(&vecOther != this); // self-assignment isn't allowed
const int nSourceCount = vecOther.Count();
SetCount(nSourceCount);
for (int i = 0; i < nSourceCount; i++)
(*this)[i] = vecOther[i];
return *this;
}
[[nodiscard]] T& operator[](const int nIndex)
{
CS_ASSERT(IsValidIndex(nIndex)); // given index is out of range
return memory[nIndex];
}
[[nodiscard]] const T& operator[](const int nIndex) const
{
CS_ASSERT(IsValidIndex(nIndex)); // given index is out of range
return memory[nIndex];
}
[[nodiscard]] T& Element(const int nIndex)
{
CS_ASSERT(IsValidIndex(nIndex)); // given index is out of range
return memory[nIndex];
}
[[nodiscard]] const T& Element(const int nIndex) const
{
CS_ASSERT(IsValidIndex(nIndex)); // given index is out of range
return memory[nIndex];
}
[[nodiscard]] T* Base()
{
return memory.Base();
}
[[nodiscard]] const T* Base() const
{
return memory.Base();
}
[[nodiscard]] int Count() const
{
return nSize;
}
[[nodiscard]] int& Size()
{
return nSize;
}
[[nodiscard]] bool IsValidIndex(const int nIndex) const
{
return (nIndex >= 0) && (nIndex < nSize);
}
void CopyFromArray(const T* pArraySource, int nArraySize)
{
// can't insert something that's in the list. reallocation may hose us
CS_ASSERT(memory.Base() == nullptr || pArraySource == nullptr || begin() >= (pArraySource + nArraySize) || pArraySource >= end());
// resize to accommodate array
SetCount(nArraySize);
for (int i = 0; i < nArraySize; i++)
(*this)[i] = pArraySource[i];
}
void GrowVector(const int nCount = 1)
{
if (nSize + nCount > memory.AllocationCount())
memory.Grow(nSize + nCount - memory.AllocationCount());
nSize += nCount;
pElements = memory.Base();
}
void EnsureCapacity(int nCapacity)
{
memory.EnsureCapacity(nCapacity);
pElements = memory.Base();
}
void Purge()
{
RemoveAll();
memory.Purge();
pElements = memory.Base();
}
void ShiftElementsRight(const int nElement, const int nShift = 1)
{
CS_ASSERT(IsValidIndex(nElement) || nSize == 0 || nShift == 0);
if (const int nToMove = nSize - nElement - nShift; nToMove > 0 && nShift > 0)
CRT::MemoryMove(&Element(nElement + nShift), &Element(nElement), nToMove * sizeof(T));
}
void ShiftElementsLeft(const int nElement, const int nShift = 1)
{
CS_ASSERT(IsValidIndex(nElement) || nSize == 0 || nShift == 0);
if (const int nToMove = nSize - nElement - nShift; nToMove > 0 && nShift > 0)
CRT::MemoryMove(&Element(nElement), &Element(nElement + nShift), nToMove * sizeof(T));
}
int AddToHead()
{
return InsertBefore(0);
}
int AddToHead(const T& source)
{
// can't insert something that's in the list. reallocation may hose us
CS_ASSERT(memory.Base() == nullptr || &source < begin() || &source >= end());
return InsertBefore(0, source);
}
int AddMultipleToHead(const int nCount)
{
return InsertMultipleBefore(0, nCount);
}
int AddToTail()
{
return InsertBefore(nSize);
}
int AddToTail(const T& source)
{
// can't insert something that's in the list. reallocation may hose us
CS_ASSERT(memory.Base() == nullptr || &source < begin() || &source >= end());
return InsertBefore(nSize, source);
}
int AddMultipleToTail(const int nCount)
{
return InsertMultipleBefore(nSize, nCount);
}
void SetCount(const int nCount)
{
RemoveAll();
AddMultipleToTail(nCount);
}
int InsertBefore(const int nElement)
{
// can insert at the end
CS_ASSERT(nElement == nSize || IsValidIndex(nElement));
GrowVector();
ShiftElementsRight(nElement);
new (&Element(nElement)) T; // @todo: all functions of game classes that using this should be wrapped with constraints 'requires (std::is_pointer_v<T> || have_constructor_overload<T> || have_new_overload<T>)'
return nElement;
}
int InsertMultipleBefore(const int nElement, const int nCount)
{
if (nCount == 0)
return nElement;
// can insert at the end
CS_ASSERT(nElement == nSize || IsValidIndex(nElement));
GrowVector(nCount);
ShiftElementsRight(nElement, nCount);
// invoke default constructors
for (int i = 0; i < nElement; ++i)
new (&Element(nElement + i)) T;
return nElement;
}
int InsertBefore(const int nElement, const T& source)
{
// can't insert something that's in the list. reallocation may hose us
CS_ASSERT(memory.Base() == nullptr || &source < begin() || &source >= end());
// can insert at the end
CS_ASSERT(nElement == nSize || IsValidIndex(nElement));
// reallocate if can't insert something that's in the list
GrowVector();
ShiftElementsRight(nElement);
new (&Element(nElement)) T(source);
return nElement;
}
int InsertMultipleBefore(const int nElement, const int nCount, const T* pSource)
{
if (nCount == 0)
return nElement;
// can insert at the end
CS_ASSERT(nElement == nSize || IsValidIndex(nElement));
GrowVector(nCount);
ShiftElementsRight(nElement, nCount);
// invoke default constructors
if (pSource == nullptr)
{
for (int i = 0; i < nCount; ++i)
new (&Element(nElement + i)) T;
}
else
{
for (int i = 0; i < nCount; i++)
new (&Element(nElement)) T(pSource[i]);
}
return nElement;
}
[[nodiscard]] int Find(const T& source) const
{
for (int i = 0; i < nSize; ++i)
{
if (Element(i) == source)
return i;
}
return -1;
}
bool FindAndRemove(const T& source)
{
if (const int nElement = Find(source); nElement != -1)
{
Remove(nElement);
return true;
}
return false;
}
void Remove(const int nElement)
{
(&Element(nElement))->~T();
ShiftElementsLeft(nElement);
--nSize;
}
void RemoveAll()
{
for (int i = nSize; --i >= 0;)
(&Element(i))->~T();
nSize = 0;
}
[[nodiscard]] auto begin() noexcept
{
return memory.Base();
}
[[nodiscard]] auto end() noexcept
{
return memory.Base() + nSize;
}
[[nodiscard]] auto begin() const noexcept
{
return memory.Base();
}
[[nodiscard]] auto end() const noexcept
{
return memory.Base() + nSize;
}
protected:
int nSize;
CAllocator memory;
T* pElements;
};
template <class T>
class CUtlVectorAligned : public CUtlVector<T, CUtlMemoryAligned<T, alignof(T)>>
{
};
//a array class with a fixed allocation scheme
template <class T, std::size_t MAX_SIZE>
class CUtlVectorFixed : public CUtlVector<T, CUtlMemoryFixed<T, MAX_SIZE>>
{
using CBaseClass = CUtlVector<T, CUtlMemoryFixed<T, MAX_SIZE>>;
public:
explicit CUtlVectorFixed(int nGrowSize = 0, int nInitialCapacity = 0) :
CBaseClass(nGrowSize, nInitialCapacity) { }
CUtlVectorFixed(T* pMemory, int nElements) :
CBaseClass(pMemory, nElements) { }
};
template <typename T>
class C_NetworkUtlVectorBase
{
public:
std::uint32_t nSize;
T* pElements;
};

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#include "vector.h"
#include "matrix.h"
#include "qangle.h"
// used: m_rad2deg
#include "../../utilities/math.h"
[[nodiscard]] Vector_t Vector_t::Transform(const Matrix3x4_t& matTransform) const
{
return {
this->DotProduct(matTransform[0]) + matTransform[0][3],
this->DotProduct(matTransform[1]) + matTransform[1][3],
this->DotProduct(matTransform[2]) + matTransform[2][3]
};
}
[[nodiscard]] QAngle_t Vector_t::ToAngles() const
{
float flPitch, flYaw;
if (this->x == 0.0f && this->y == 0.0f)
{
flPitch = (this->z > 0.0f) ? 270.f : 90.f;
flYaw = 0.0f;
}
else
{
flPitch = M_RAD2DEG(std::atan2f(-this->z, this->Length2D()));
if (flPitch < 0.f)
flPitch += 360.f;
flYaw = M_RAD2DEG(std::atan2f(this->y, this->x));
if (flYaw < 0.f)
flYaw += 360.f;
}
return { flPitch, flYaw, 0.0f };
}
[[nodiscard]] Matrix3x4_t Vector_t::ToMatrix() const
{
Vector_t vecRight = {}, vecUp = {};
this->ToDirections(&vecRight, &vecUp);
Matrix3x4a_t matOutput = {};
matOutput.SetForward(*this);
matOutput.SetLeft(-vecRight);
matOutput.SetUp(vecUp);
return matOutput;
}

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#pragma once
// used: [stl] numeric_limits
#include <limits>
// used: [crt] isfinite, fmodf, sqrtf
#include <cmath>
// forward declarations
struct QAngle_t;
struct Matrix3x4_t;
// @source: master/public/mathlib/vector.h
struct Vector2D_t
{
constexpr Vector2D_t(const float x = 0.0f, const float y = 0.0f) :
x(x), y(y) { }
[[nodiscard]] bool IsZero() const
{
// @note: to make this implementation right, we should use fpclassify here, but game aren't doing same, probably it's better to keep this same, just ensure that it will be compiled same
return (this->x == 0.0f && this->y == 0.0f);
}
float x = 0.0f, y = 0.0f;
};
struct Vector_t
{
constexpr Vector_t(const float x = 0.0f, const float y = 0.0f, const float z = 0.0f) :
x(x), y(y), z(z) { }
constexpr Vector_t(const float* arrVector) :
x(arrVector[0]), y(arrVector[1]), z(arrVector[2]) { }
constexpr Vector_t(const Vector2D_t& vecBase2D) :
x(vecBase2D.x), y(vecBase2D.y) { }
#pragma region vector_array_operators
[[nodiscard]] float& operator[](const int nIndex)
{
return reinterpret_cast<float*>(this)[nIndex];
}
[[nodiscard]] const float& operator[](const int nIndex) const
{
return reinterpret_cast<const float*>(this)[nIndex];
}
#pragma endregion
#pragma region vector_relational_operators
bool operator==(const Vector_t& vecBase) const
{
return this->IsEqual(vecBase);
}
bool operator!=(const Vector_t& vecBase) const
{
return !this->IsEqual(vecBase);
}
#pragma endregion
#pragma region vector_assignment_operators
constexpr Vector_t& operator=(const Vector_t& vecBase)
{
this->x = vecBase.x;
this->y = vecBase.y;
this->z = vecBase.z;
return *this;
}
constexpr Vector_t& operator=(const Vector2D_t& vecBase2D)
{
this->x = vecBase2D.x;
this->y = vecBase2D.y;
this->z = 0.0f;
return *this;
}
#pragma endregion
#pragma region vector_arithmetic_assignment_operators
constexpr Vector_t& operator+=(const Vector_t& vecBase)
{
this->x += vecBase.x;
this->y += vecBase.y;
this->z += vecBase.z;
return *this;
}
constexpr Vector_t& operator-=(const Vector_t& vecBase)
{
this->x -= vecBase.x;
this->y -= vecBase.y;
this->z -= vecBase.z;
return *this;
}
constexpr Vector_t& operator*=(const Vector_t& vecBase)
{
this->x *= vecBase.x;
this->y *= vecBase.y;
this->z *= vecBase.z;
return *this;
}
constexpr Vector_t& operator/=(const Vector_t& vecBase)
{
this->x /= vecBase.x;
this->y /= vecBase.y;
this->z /= vecBase.z;
return *this;
}
constexpr Vector_t& operator+=(const float flAdd)
{
this->x += flAdd;
this->y += flAdd;
this->z += flAdd;
return *this;
}
constexpr Vector_t& operator-=(const float flSubtract)
{
this->x -= flSubtract;
this->y -= flSubtract;
this->z -= flSubtract;
return *this;
}
constexpr Vector_t& operator*=(const float flMultiply)
{
this->x *= flMultiply;
this->y *= flMultiply;
this->z *= flMultiply;
return *this;
}
constexpr Vector_t& operator/=(const float flDivide)
{
this->x /= flDivide;
this->y /= flDivide;
this->z /= flDivide;
return *this;
}
#pragma endregion
#pragma region vector_arithmetic_unary_operators
constexpr Vector_t& operator-()
{
this->x = -this->x;
this->y = -this->y;
this->z = -this->z;
return *this;
}
constexpr Vector_t operator-() const
{
return { -this->x, -this->y, -this->z };
}
#pragma endregion
#pragma region vector_arithmetic_ternary_operators
Vector_t operator+(const Vector_t& vecAdd) const
{
return { this->x + vecAdd.x, this->y + vecAdd.y, this->z + vecAdd.z };
}
Vector_t operator-(const Vector_t& vecSubtract) const
{
return { this->x - vecSubtract.x, this->y - vecSubtract.y, this->z - vecSubtract.z };
}
Vector_t operator*(const Vector_t& vecMultiply) const
{
return { this->x * vecMultiply.x, this->y * vecMultiply.y, this->z * vecMultiply.z };
}
Vector_t operator/(const Vector_t& vecDivide) const
{
return { this->x / vecDivide.x, this->y / vecDivide.y, this->z / vecDivide.z };
}
Vector_t operator+(const float flAdd) const
{
return { this->x + flAdd, this->y + flAdd, this->z + flAdd };
}
Vector_t operator-(const float flSubtract) const
{
return { this->x - flSubtract, this->y - flSubtract, this->z - flSubtract };
}
Vector_t operator*(const float flMultiply) const
{
return { this->x * flMultiply, this->y * flMultiply, this->z * flMultiply };
}
Vector_t operator/(const float flDivide) const
{
return { this->x / flDivide, this->y / flDivide, this->z / flDivide };
}
#pragma endregion
/// @returns: true if each component of the vector is finite, false otherwise
[[nodiscard]] bool IsValid() const
{
return std::isfinite(this->x) && std::isfinite(this->y) && std::isfinite(this->z);
}
constexpr void Invalidate()
{
this->x = this->y = this->z = std::numeric_limits<float>::infinity();
}
/// @returns: true if each component of the vector equals to another, false otherwise
[[nodiscard]] bool IsEqual(const Vector_t& vecEqual, const float flErrorMargin = std::numeric_limits<float>::epsilon()) const
{
return (std::fabsf(this->x - vecEqual.x) < flErrorMargin && std::fabsf(this->y - vecEqual.y) < flErrorMargin && std::fabsf(this->z - vecEqual.z) < flErrorMargin);
}
/// @returns: true if each component of the vector equals to zero, false otherwise
[[nodiscard]] bool IsZero() const
{
// @note: to make this implementation right, we should use fpclassify here, but game aren't doing same, probably it's better to keep this same, just ensure that it will be compiled same
return (this->x == 0.0f && this->y == 0.0f && this->z == 0.0f);
}
[[nodiscard]] float Length() const
{
return std::sqrtf(this->LengthSqr());
}
[[nodiscard]] constexpr float LengthSqr() const
{
return DotProduct(*this);
}
[[nodiscard]] float Length2D() const
{
return std::sqrtf(this->Length2DSqr());
}
[[nodiscard]] constexpr float Length2DSqr() const
{
return (this->x * this->x + this->y * this->y);
}
[[nodiscard]] float DistTo(const Vector_t& vecEnd) const
{
return (*this - vecEnd).Length();
}
[[nodiscard]] constexpr float DistToSqr(const Vector_t& vecEnd) const
{
return (*this - vecEnd).LengthSqr();
}
/// normalize magnitude of each component of the vector
/// @returns: length of the vector
float NormalizeInPlace()
{
const float flLength = this->Length();
const float flRadius = 1.0f / (flLength + std::numeric_limits<float>::epsilon());
this->x *= flRadius;
this->y *= flRadius;
this->z *= flRadius;
return flLength;
}
/// normalize magnitude of each component of the vector
/// @returns: copy of the vector with normalized components
[[nodiscard]] Vector_t Normalized() const
{
Vector_t vecOut = *this;
vecOut.NormalizeInPlace();
return vecOut;
}
[[nodiscard]] constexpr float DotProduct(const Vector_t& vecDot) const
{
return (this->x * vecDot.x + this->y * vecDot.y + this->z * vecDot.z);
}
[[nodiscard]] constexpr Vector_t CrossProduct(const Vector_t& vecCross) const
{
return { this->y * vecCross.z - this->z * vecCross.y, this->z * vecCross.x - this->x * vecCross.z, this->x * vecCross.y - this->y * vecCross.x };
}
/// @returns: transformed vector by given transformation matrix
[[nodiscard]] Vector_t Transform(const Matrix3x4_t& matTransform) const;
[[nodiscard]] Vector2D_t ToVector2D() const
{
return { this->x, this->y };
}
/// convert forward direction vector to other direction vectors
/// @param[out] pvecRight [optional] output for converted right vector
/// @param[out] pvecUp [optional] output for converted up vector
void ToDirections(Vector_t* pvecRight, Vector_t* pvecUp) const
{
if (std::fabsf(this->x) < 1e-6f && std::fabsf(this->y) < 1e-6f)
{
// pitch 90 degrees up/down from identity
if (pvecRight != nullptr)
{
pvecRight->x = 0.0f;
pvecRight->y = -1.0f;
pvecRight->z = 0.0f;
}
if (pvecUp != nullptr)
{
pvecUp->x = -this->z;
pvecUp->y = 0.0f;
pvecUp->z = 0.0f;
}
}
else
{
if (pvecRight != nullptr)
{
pvecRight->x = this->y;
pvecRight->y = -this->x;
pvecRight->z = 0.0f;
pvecRight->NormalizeInPlace();
}
if (pvecUp != nullptr)
{
pvecUp->x = (-this->x) * this->z;
pvecUp->y = -(this->y * this->z);
pvecUp->z = this->y * this->y - (-this->x) * this->x;
pvecUp->NormalizeInPlace();
}
}
}
/// @returns: 2D angles converted from direction vector
[[nodiscard]] QAngle_t ToAngles() const;
/// @returns: matrix converted from forward direction vector
[[nodiscard]] Matrix3x4_t ToMatrix() const;
float x = 0.0f, y = 0.0f, z = 0.0f;
};
struct Vector4D_t
{
constexpr Vector4D_t(const float x = 0.0f, const float y = 0.0f, const float z = 0.0f, const float w = 0.0f) :
x(x), y(y), z(z), w(w) { }
float x = 0.0f, y = 0.0f, z = 0.0f, w = 0.0f;
};
struct alignas(16) VectorAligned_t : Vector_t
{
VectorAligned_t() = default;
explicit VectorAligned_t(const Vector_t& vecBase)
{
this->x = vecBase.x;
this->y = vecBase.y;
this->z = vecBase.z;
this->w = 0.0f;
}
constexpr VectorAligned_t& operator=(const Vector_t& vecBase)
{
this->x = vecBase.x;
this->y = vecBase.y;
this->z = vecBase.z;
this->w = 0.0f;
return *this;
}
float w = 0.0f;
};
static_assert(alignof(VectorAligned_t) == 16);

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#pragma once
// used: mem_pad
#include "../../utilities/memory.h"
// used: vector_t
#include "vector.h"
// used: qangle_t
#include "qangle.h"
class CViewSetup
{
public:
MEM_PAD(0x490);
float flOrthoLeft; // 0x0494
float flOrthoTop; // 0x0498
float flOrthoRight; // 0x049C
float flOrthoBottom; // 0x04A0
MEM_PAD(0x38);
float flFov; // 0x04D8
float flFovViewmodel; // 0x04DC
Vector_t vecOrigin; // 0x04E0
MEM_PAD(0xC); // 0x04EC
QAngle_t angView; // 0x04F8
MEM_PAD(0x14); // 0x0504
float flAspectRatio; // 0x0518
};

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#include "entity.h"
// used: convars
#include "../core/convars.h"
#include "interfaces/cgameentitysystem.h"
#include "interfaces/ienginecvar.h"
#include "interfaces/iengineclient.h"
// used: game's definitions, enums
#include "const.h"
// global empty vector for when we can't get the origin
static Vector_t vecEmpty = Vector_t(0, 0, 0);
CCSPlayerController* CCSPlayerController::GetLocalPlayerController()
{
const int nIndex = I::Engine->GetLocalPlayer();
return I::GameResourceService->pGameEntitySystem->Get<CCSPlayerController>(nIndex);
}
const Vector_t& CCSPlayerController::GetPawnOrigin()
{
CBaseHandle hPawnHandle = this->GetPawnHandle();
if (!hPawnHandle.IsValid())
return vecEmpty;
C_CSPlayerPawn* pPlayerPawn = I::GameResourceService->pGameEntitySystem->Get<C_CSPlayerPawn>(hPawnHandle);
if (pPlayerPawn == nullptr)
return vecEmpty;
return pPlayerPawn->GetSceneOrigin();
}
C_BaseEntity* C_BaseEntity::GetLocalPlayer()
{
const int nIndex = I::Engine->GetLocalPlayer();
return I::GameResourceService->pGameEntitySystem->Get(nIndex);
}
const Vector_t& C_BaseEntity::GetSceneOrigin()
{
if (this->GetGameSceneNode())
return GetGameSceneNode()->GetAbsOrigin();
return vecEmpty;
}
bool C_CSPlayerPawn::IsOtherEnemy(C_CSPlayerPawn* pOther)
{
// check are other player is invalid or we're comparing against ourselves
if (pOther == nullptr || this == pOther)
return false;
if (CONVAR::game_type->value.i32 == GAMETYPE_FREEFORALL && CONVAR::game_mode->value.i32 == GAMEMODE_FREEFORALL_SURVIVAL)
// check is not teammate
return (this->GetSurvivalTeam() != pOther->GetSurvivalTeam());
// @todo: check is deathmatch
if (CONVAR::mp_teammates_are_enemies->value.i1)
return true;
return this->GetAssociatedTeam() != pOther->GetAssociatedTeam();
}
int C_CSPlayerPawn::GetAssociatedTeam()
{
const int nTeam = this->GetTeam();
// @todo: check is coaching, currently cs2 doesnt have sv_coaching_enabled, so just let it be for now...
//if (CONVAR::sv_coaching_enabled->GetBool() && nTeam == TEAM_SPECTATOR)
// return this->GetCoachingTeam();
return nTeam;
}
bool C_CSPlayerPawn::CanAttack(const float flServerTime)
{
// check is player ready to attack
if (CCSPlayer_WeaponServices* pWeaponServices = this->GetWeaponServices(); pWeaponServices != nullptr)
if (this->IsWaitForNoAttack() || pWeaponServices->GetNextAttack() > flServerTime)
return false;
return true;
}
std::uint32_t C_CSPlayerPawn::GetOwnerHandleIndex()
{
std::uint32_t Result = -1;
if (this && GetCollision() && !(GetCollision()->GetSolidFlags() & 4))
Result = this->GetOwnerHandle().GetEntryIndex();
return Result;
}
std::uint16_t C_CSPlayerPawn::GetCollisionMask()
{
if (this && GetCollision())
return GetCollision()->CollisionMask(); // Collision + 0x38
return 0;
}
bool C_CSWeaponBaseGun::CanPrimaryAttack(const int nWeaponType, const float flServerTime)
{
// check are weapon support burst mode and it's ready to attack
if (this->IsBurstMode())
{
// check is it ready to attack
if (this->GetBurstShotsRemaining() > 0 /*&& this->GetNextBurstShotTime() <= flServerTime*/)
return true;
}
// check is weapon ready to attack
if (this->GetNextPrimaryAttackTick() > TIME_TO_TICKS(flServerTime))
return false;
// we doesn't need additional checks for knives
if (nWeaponType == WEAPONTYPE_KNIFE)
return true;
// check do weapon have ammo
if (this->GetClip1() <= 0)
return false;
const ItemDefinitionIndex_t nDefinitionIndex = this->GetAttributeManager()->GetItem()->GetItemDefinitionIndex();
// check for revolver cocking ready
if (nDefinitionIndex == WEAPON_R8_REVOLVER && this->GetPostponeFireReadyFrac() > flServerTime)
return false;
return true;
}
bool C_CSWeaponBaseGun::CanSecondaryAttack(const int nWeaponType, const float flServerTime)
{
// check is weapon ready to attack
if (this->GetNextSecondaryAttackTick() > TIME_TO_TICKS(flServerTime))
return false;
// we doesn't need additional checks for knives
if (nWeaponType == WEAPONTYPE_KNIFE)
return true;
// check do weapon have ammo
if (this->GetClip1() <= 0)
return false;
// only revolver is allowed weapon for secondary attack
if (this->GetAttributeManager()->GetItem()->GetItemDefinitionIndex() != WEAPON_R8_REVOLVER)
return false;
return true;
}

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#pragma once
// @test: using interfaces in the header | not critical but could blow up someday with thousands of errors or affect to compilation time etc
// used: cgameentitysystem, ischemasystem
#include "../core/interfaces.h"
#include "interfaces/igameresourceservice.h"
#include "interfaces/ischemasystem.h"
// used: schema field
#include "../core/schema.h"
// used: l_print
#include "../utilities/log.h"
// used: vector_t
#include "datatypes/vector.h"
// used: qangle_t
#include "datatypes/qangle.h"
// used: ctransform
#include "datatypes/transform.h"
// used: cbasehandle
#include "entity_handle.h"
// used: game's definitions
#include "const.h"
// used: entity vdata
#include "vdata.h"
using GameTime_t = std::float_t;
using GameTick_t = std::int32_t;
class CEntityInstance;
class CEntityIdentity
{
public:
CS_CLASS_NO_INITIALIZER(CEntityIdentity);
// @note: handle index is not entity index
SCHEMA_ADD_OFFSET(std::uint32_t, GetIndex, 0x10);
SCHEMA_ADD_FIELD(const char*, GetDesignerName, "CEntityIdentity->m_designerName");
SCHEMA_ADD_FIELD(std::uint32_t, GetFlags, "CEntityIdentity->m_flags");
[[nodiscard]] bool IsValid()
{
return GetIndex() != INVALID_EHANDLE_INDEX;
}
[[nodiscard]] int GetEntryIndex()
{
if (!IsValid())
return ENT_ENTRY_MASK;
return GetIndex() & ENT_ENTRY_MASK;
}
[[nodiscard]] int GetSerialNumber()
{
return GetIndex() >> NUM_SERIAL_NUM_SHIFT_BITS;
}
CEntityInstance* pInstance; // 0x00
};
class CEntityInstance
{
public:
CS_CLASS_NO_INITIALIZER(CEntityInstance);
void GetSchemaClassInfo(SchemaClassInfoData_t** pReturn)
{
return MEM::CallVFunc<void, 38U>(this, pReturn);
}
[[nodiscard]] CBaseHandle GetRefEHandle()
{
CEntityIdentity* pIdentity = GetIdentity();
if (pIdentity == nullptr)
return CBaseHandle();
return CBaseHandle(pIdentity->GetEntryIndex(), pIdentity->GetSerialNumber() - (pIdentity->GetFlags() & 1));
}
SCHEMA_ADD_FIELD(CEntityIdentity*, GetIdentity, "CEntityInstance->m_pEntity");
};
class CCollisionProperty
{
public:
std::uint16_t CollisionMask()
{
return *reinterpret_cast<std::uint16_t*>(reinterpret_cast<std::uintptr_t>(this) + 0x38);
}
CS_CLASS_NO_INITIALIZER(CCollisionProperty);
SCHEMA_ADD_FIELD(Vector_t, GetMins, "CCollisionProperty->m_vecMins");
SCHEMA_ADD_FIELD(Vector_t, GetMaxs, "CCollisionProperty->m_vecMaxs");
SCHEMA_ADD_FIELD(std::uint8_t, GetSolidFlags, "CCollisionProperty->m_usSolidFlags");
SCHEMA_ADD_FIELD(std::uint8_t, GetCollisionGroup, "CCollisionProperty->m_CollisionGroup");
};
class CSkeletonInstance;
class CGameSceneNode
{
public:
CS_CLASS_NO_INITIALIZER(CGameSceneNode);
SCHEMA_ADD_FIELD(CTransform, GetNodeToWorld, "CGameSceneNode->m_nodeToWorld");
SCHEMA_ADD_FIELD(CEntityInstance*, GetOwner, "CGameSceneNode->m_pOwner");
SCHEMA_ADD_FIELD(Vector_t, GetAbsOrigin, "CGameSceneNode->m_vecAbsOrigin");
SCHEMA_ADD_FIELD(Vector_t, GetRenderOrigin, "CGameSceneNode->m_vRenderOrigin");
SCHEMA_ADD_FIELD(QAngle_t, GetAngleRotation, "CGameSceneNode->m_angRotation");
SCHEMA_ADD_FIELD(QAngle_t, GetAbsAngleRotation, "CGameSceneNode->m_angAbsRotation");
SCHEMA_ADD_FIELD(bool, IsDormant, "CGameSceneNode->m_bDormant");
CSkeletonInstance* GetSkeletonInstance()
{
return MEM::CallVFunc<CSkeletonInstance*, 8U>(this);
}
};
class C_BaseEntity : public CEntityInstance
{
public:
CS_CLASS_NO_INITIALIZER(C_BaseEntity);
[[nodiscard]] bool IsBasePlayerController()
{
SchemaClassInfoData_t* pClassInfo;
GetSchemaClassInfo(&pClassInfo);
if (pClassInfo == nullptr)
return false;
return FNV1A::Hash(pClassInfo->szName) == FNV1A::HashConst("C_CSPlayerController");
}
[[nodiscard]] bool IsWeapon()
{
static SchemaClassInfoData_t* pWeaponBaseClass = nullptr;
if (pWeaponBaseClass == nullptr)
I::SchemaSystem->FindTypeScopeForModule(CS_XOR("client.dll"))->FindDeclaredClass(&pWeaponBaseClass, CS_XOR("C_CSWeaponBase"));
SchemaClassInfoData_t* pClassInfo;
GetSchemaClassInfo(&pClassInfo);
if (pClassInfo == nullptr)
return false;
return (pClassInfo->InheritsFrom(pWeaponBaseClass));
}
static C_BaseEntity* GetLocalPlayer();
// get entity origin on scene
[[nodiscard]] const Vector_t& GetSceneOrigin();
SCHEMA_ADD_FIELD(CGameSceneNode*, GetGameSceneNode, "C_BaseEntity->m_pGameSceneNode");
SCHEMA_ADD_FIELD(CCollisionProperty*, GetCollision, "C_BaseEntity->m_pCollision");
SCHEMA_ADD_FIELD(std::uint8_t, GetTeam, "C_BaseEntity->m_iTeamNum");
SCHEMA_ADD_FIELD(CBaseHandle, GetOwnerHandle, "C_BaseEntity->m_hOwnerEntity");
SCHEMA_ADD_FIELD(Vector_t, GetBaseVelocity, "C_BaseEntity->m_vecBaseVelocity");
SCHEMA_ADD_FIELD(Vector_t, GetAbsVelocity, "C_BaseEntity->m_vecAbsVelocity");
SCHEMA_ADD_FIELD(bool, IsTakingDamage, "C_BaseEntity->m_bTakesDamage");
SCHEMA_ADD_FIELD(std::uint32_t, GetFlags, "C_BaseEntity->m_fFlags");
SCHEMA_ADD_FIELD(std::int32_t, GetEflags, "C_BaseEntity->m_iEFlags");
SCHEMA_ADD_FIELD(std::uint8_t, GetMoveType, "C_BaseEntity->m_nActualMoveType"); // m_nActualMoveType returns CSGO style movetype, m_nMoveType returns bitwise shifted move type
SCHEMA_ADD_FIELD(std::uint8_t, GetLifeState, "C_BaseEntity->m_lifeState");
SCHEMA_ADD_FIELD(std::int32_t, GetHealth, "C_BaseEntity->m_iHealth");
SCHEMA_ADD_FIELD(std::int32_t, GetMaxHealth, "C_BaseEntity->m_iMaxHealth");
SCHEMA_ADD_FIELD(float, GetWaterLevel, "C_BaseEntity->m_flWaterLevel");
SCHEMA_ADD_FIELD_OFFSET(void*, GetVData, "C_BaseEntity->m_nSubclassID", 0x8);
};
class CGlowProperty;
class C_BaseModelEntity : public C_BaseEntity
{
public:
CS_CLASS_NO_INITIALIZER(C_BaseModelEntity);
SCHEMA_ADD_FIELD(CCollisionProperty, GetCollisionInstance, "C_BaseModelEntity->m_Collision");
SCHEMA_ADD_FIELD(CGlowProperty, GetGlowProperty, "C_BaseModelEntity->m_Glow");
SCHEMA_ADD_FIELD(Vector_t, GetViewOffset, "C_BaseModelEntity->m_vecViewOffset");
SCHEMA_ADD_FIELD(GameTime_t, GetCreationTime, "C_BaseModelEntity->m_flCreateTime");
SCHEMA_ADD_FIELD(GameTick_t, GetCreationTick, "C_BaseModelEntity->m_nCreationTick");
SCHEMA_ADD_FIELD(CBaseHandle, GetMoveParent, "C_BaseModelEntity->m_hOldMoveParent");
SCHEMA_ADD_FIELD(std::float_t, GetAnimTime, "C_BaseModelEntity->m_flAnimTime");
SCHEMA_ADD_FIELD(std::float_t, GetSimulationTime, "C_BaseModelEntity->m_flSimulationTime");
};
class CPlayer_ItemServices;
class CPlayer_CameraServices;
class CPlayer_WeaponServices
{
public:
SCHEMA_ADD_FIELD(CBaseHandle, GetActiveWeapon, "CPlayer_WeaponServices->m_hActiveWeapon");
};
class CCSPlayer_WeaponServices : public CPlayer_WeaponServices
{
public:
SCHEMA_ADD_FIELD(GameTime_t, GetNextAttack, "CCSPlayer_WeaponServices->m_flNextAttack");
};
class C_BasePlayerPawn : public C_BaseModelEntity
{
public:
CS_CLASS_NO_INITIALIZER(C_BasePlayerPawn);
SCHEMA_ADD_FIELD(CBaseHandle, GetControllerHandle, "C_BasePlayerPawn->m_hController");
SCHEMA_ADD_FIELD(CCSPlayer_WeaponServices*, GetWeaponServices, "C_BasePlayerPawn->m_pWeaponServices");
SCHEMA_ADD_FIELD(CPlayer_ItemServices*, GetItemServices, "C_BasePlayerPawn->m_pItemServices");
SCHEMA_ADD_FIELD(CPlayer_CameraServices*, GetCameraServices, "C_BasePlayerPawn->m_pCameraServices");
[[nodiscard]] Vector_t GetEyePosition()
{
Vector_t vecEyePosition = Vector_t(0.0f, 0.0f, 0.0f);
// Credit: https://www.unknowncheats.me/forum/4258133-post6228.html
MEM::CallVFunc<void, 169U>(this, &vecEyePosition);
return vecEyePosition;
}
};
class CCSPlayer_ViewModelServices;
class C_CSPlayerPawnBase : public C_BasePlayerPawn
{
public:
CS_CLASS_NO_INITIALIZER(C_CSPlayerPawnBase);
SCHEMA_ADD_FIELD(CCSPlayer_ViewModelServices*, GetViewModelServices, "C_CSPlayerPawnBase->m_pViewModelServices");
SCHEMA_ADD_FIELD(float, GetLowerBodyYawTarget, "C_CSPlayerPawnBase->m_flLowerBodyYawTarget");
SCHEMA_ADD_FIELD(float, GetFlashMaxAlpha, "C_CSPlayerPawnBase->m_flFlashMaxAlpha");
SCHEMA_ADD_FIELD(float, GetFlashDuration, "C_CSPlayerPawnBase->m_flFlashDuration");
SCHEMA_ADD_FIELD(Vector_t, GetLastSmokeOverlayColor, "C_CSPlayerPawnBase->m_vLastSmokeOverlayColor");
SCHEMA_ADD_FIELD(int, GetSurvivalTeam, "C_CSPlayerPawnBase->m_nSurvivalTeam"); // danger zone
};
class C_CSPlayerPawn : public C_CSPlayerPawnBase
{
public:
CS_CLASS_NO_INITIALIZER(C_CSPlayerPawn);
[[nodiscard]] bool IsOtherEnemy(C_CSPlayerPawn* pOther);
[[nodiscard]] int GetAssociatedTeam();
[[nodiscard]] bool CanAttack(const float flServerTime);
[[nodiscard]] std::uint32_t GetOwnerHandleIndex();
[[nodiscard]] std::uint16_t GetCollisionMask();
SCHEMA_ADD_FIELD(bool, IsScoped, "C_CSPlayerPawn->m_bIsScoped");
SCHEMA_ADD_FIELD(bool, IsDefusing, "C_CSPlayerPawn->m_bIsDefusing");
SCHEMA_ADD_FIELD(bool, IsGrabbingHostage, "C_CSPlayerPawn->m_bIsGrabbingHostage");
SCHEMA_ADD_FIELD(bool, IsWaitForNoAttack, "C_CSPlayerPawn->m_bWaitForNoAttack");
SCHEMA_ADD_FIELD(int, GetShotsFired, "C_CSPlayerPawn->m_iShotsFired");
SCHEMA_ADD_FIELD(std::int32_t, GetArmorValue, "C_CSPlayerPawn->m_ArmorValue");
SCHEMA_ADD_FIELD(QAngle_t, GetAimPuchAngle, "C_CSPlayerPawn->m_aimPunchAngle");
};
class CBasePlayerController : public C_BaseModelEntity
{
public:
CS_CLASS_NO_INITIALIZER(CBasePlayerController);
SCHEMA_ADD_FIELD(std::uint64_t, GetSteamId, "CBasePlayerController->m_steamID");
SCHEMA_ADD_FIELD(std::uint32_t, GetTickBase, "CBasePlayerController->m_nTickBase");
SCHEMA_ADD_FIELD(CBaseHandle, GetPawnHandle, "CBasePlayerController->m_hPawn");
SCHEMA_ADD_FIELD(bool, IsLocalPlayerController, "CBasePlayerController->m_bIsLocalPlayerController");
};
// forward decleration
class C_CSWeaponBaseGun;
class C_BasePlayerWeapon;
class CCSPlayerController : public CBasePlayerController
{
public:
CS_CLASS_NO_INITIALIZER(CCSPlayerController);
[[nodiscard]] static CCSPlayerController* GetLocalPlayerController();
// @note: always get origin from pawn not controller
[[nodiscard]] const Vector_t& GetPawnOrigin();
SCHEMA_ADD_FIELD(std::uint32_t, GetPing, "CCSPlayerController->m_iPing");
SCHEMA_ADD_FIELD(const char*, GetPlayerName, "CCSPlayerController->m_sSanitizedPlayerName");
SCHEMA_ADD_FIELD(std::int32_t, GetPawnHealth, "CCSPlayerController->m_iPawnHealth");
SCHEMA_ADD_FIELD(std::int32_t, GetPawnArmor, "CCSPlayerController->m_iPawnArmor");
SCHEMA_ADD_FIELD(bool, IsPawnHasDefuser, "CCSPlayerController->m_bPawnHasDefuser");
SCHEMA_ADD_FIELD(bool, IsPawnHasHelmet, "CCSPlayerController->m_bPawnHasHelmet");
SCHEMA_ADD_FIELD(bool, IsPawnAlive, "CCSPlayerController->m_bPawnIsAlive");
SCHEMA_ADD_FIELD(CBaseHandle, GetPlayerPawnHandle, "CCSPlayerController->m_hPlayerPawn");
};
class CBaseAnimGraph : public C_BaseModelEntity
{
public:
CS_CLASS_NO_INITIALIZER(CBaseAnimGraph);
SCHEMA_ADD_FIELD(bool, IsClientRagdoll, "CBaseAnimGraph->m_bClientRagdoll");
};
class C_BaseFlex : public CBaseAnimGraph
{
public:
CS_CLASS_NO_INITIALIZER(C_BaseFlex);
/* not implemented */
};
class C_EconItemView
{
public:
CS_CLASS_NO_INITIALIZER(C_EconItemView);
SCHEMA_ADD_FIELD(std::uint16_t, GetItemDefinitionIndex, "C_EconItemView->m_iItemDefinitionIndex");
SCHEMA_ADD_FIELD(std::uint64_t, GetItemID, "C_EconItemView->m_iItemID");
SCHEMA_ADD_FIELD(std::uint32_t, GetItemIDHigh, "C_EconItemView->m_iItemIDHigh");
SCHEMA_ADD_FIELD(std::uint32_t, GetItemIDLow, "C_EconItemView->m_iItemIDLow");
SCHEMA_ADD_FIELD(std::uint32_t, GetAccountID, "C_EconItemView->m_iAccountID");
SCHEMA_ADD_FIELD(char[161], GetCustomName, "C_EconItemView->m_szCustomName");
SCHEMA_ADD_FIELD(char[161], GetCustomNameOverride, "C_EconItemView->m_szCustomNameOverride");
};
class CAttributeManager
{
public:
CS_CLASS_NO_INITIALIZER(CAttributeManager);
virtual ~CAttributeManager() = 0;
};
static_assert(sizeof(CAttributeManager) == 0x8);
class C_AttributeContainer : public CAttributeManager
{
public:
CS_CLASS_NO_INITIALIZER(C_AttributeContainer);
SCHEMA_ADD_PFIELD(C_EconItemView, GetItem, "C_AttributeContainer->m_Item");
};
class C_EconEntity : public C_BaseFlex
{
public:
CS_CLASS_NO_INITIALIZER(C_EconEntity);
SCHEMA_ADD_PFIELD(C_AttributeContainer, GetAttributeManager, "C_EconEntity->m_AttributeManager");
SCHEMA_ADD_FIELD(std::uint32_t, GetOriginalOwnerXuidLow, "C_EconEntity->m_OriginalOwnerXuidLow");
SCHEMA_ADD_FIELD(std::uint32_t, GetOriginalOwnerXuidHigh, "C_EconEntity->m_OriginalOwnerXuidHigh");
SCHEMA_ADD_FIELD(std::int32_t, GetFallbackPaintKit, "C_EconEntity->m_nFallbackPaintKit");
SCHEMA_ADD_FIELD(std::int32_t, GetFallbackSeed, "C_EconEntity->m_nFallbackSeed");
SCHEMA_ADD_FIELD(std::int32_t, GetFallbackWear, "C_EconEntity->m_flFallbackWear");
SCHEMA_ADD_FIELD(std::int32_t, GetFallbackStatTrak, "C_EconEntity->m_nFallbackStatTrak");
SCHEMA_ADD_FIELD(CBaseHandle, GetViewModelAttachmentHandle, "C_EconEntity->m_hViewmodelAttachment");
};
class C_EconWearable : public C_EconEntity
{
public:
CS_CLASS_NO_INITIALIZER(C_EconWearable);
SCHEMA_ADD_FIELD(std::int32_t, GetForceSkin, "C_EconWearable->m_nForceSkin");
SCHEMA_ADD_FIELD(bool, IsAlwaysAllow, "C_EconWearable->m_bAlwaysAllow");
};
class C_BasePlayerWeapon : public C_EconEntity
{
public:
CS_CLASS_NO_INITIALIZER(C_BasePlayerWeapon);
SCHEMA_ADD_FIELD(GameTick_t, GetNextPrimaryAttackTick, "C_BasePlayerWeapon->m_nNextPrimaryAttackTick");
SCHEMA_ADD_FIELD(float, GetNextPrimaryAttackTickRatio, "C_BasePlayerWeapon->m_flNextPrimaryAttackTickRatio");
SCHEMA_ADD_FIELD(GameTick_t, GetNextSecondaryAttackTick, "C_BasePlayerWeapon->m_nNextSecondaryAttackTick");
SCHEMA_ADD_FIELD(float, GetNextSecondaryAttackTickRatio, "C_BasePlayerWeapon->m_flNextSecondaryAttackTickRatio");
SCHEMA_ADD_FIELD(std::int32_t, GetClip1, "C_BasePlayerWeapon->m_iClip1");
SCHEMA_ADD_FIELD(std::int32_t, GetClip2, "C_BasePlayerWeapon->m_iClip2");
SCHEMA_ADD_FIELD(std::int32_t[2], GetReserveAmmo, "C_BasePlayerWeapon->m_pReserveAmmo");
};
class C_CSWeaponBase : public C_BasePlayerWeapon
{
public:
CS_CLASS_NO_INITIALIZER(C_CSWeaponBase);
SCHEMA_ADD_FIELD(bool, IsInReload, "C_CSWeaponBase->m_bInReload");
CCSWeaponBaseVData* GetWeaponVData()
{
return static_cast<CCSWeaponBaseVData*>(GetVData());
}
};
class C_CSWeaponBaseGun : public C_CSWeaponBase
{
public:
CS_CLASS_NO_INITIALIZER(C_CSWeaponBaseGun);
SCHEMA_ADD_FIELD(std::int32_t, GetZoomLevel, "C_CSWeaponBaseGun->m_zoomLevel");
SCHEMA_ADD_FIELD(std::int32_t, GetBurstShotsRemaining, "C_CSWeaponBaseGun->m_iBurstShotsRemaining");
SCHEMA_ADD_FIELD(bool, IsBurstMode, "C_CSWeaponBase->m_bBurstMode");
SCHEMA_ADD_FIELD(float, GetPostponeFireReadyFrac, "C_CSWeaponBase->m_flPostponeFireReadyFrac");
[[nodiscard]] bool CanPrimaryAttack(const int nWeaponType, const float flServerTime);
[[nodiscard]] bool CanSecondaryAttack(const int nWeaponType, const float flServerTime);
};
class C_BaseCSGrenade : public C_CSWeaponBase
{
public:
SCHEMA_ADD_FIELD(bool, IsHeldByPlayer, "C_BaseCSGrenade->m_bIsHeldByPlayer");
SCHEMA_ADD_FIELD(bool, IsPinPulled, "C_BaseCSGrenade->m_bPinPulled");
SCHEMA_ADD_FIELD(GameTime_t, GetThrowTime, "C_BaseCSGrenade->m_fThrowTime");
SCHEMA_ADD_FIELD(float, GetThrowStrength, "C_BaseCSGrenade->m_flThrowStrength");
};
class C_BaseGrenade : public C_BaseFlex
{
public:
CS_CLASS_NO_INITIALIZER(C_BaseGrenade);
};
class CSkeletonInstance : public CGameSceneNode
{
public:
MEM_PAD(0x1CC); //0x0000
int nBoneCount; //0x01CC
MEM_PAD(0x18); //0x01D0
int nMask; //0x01E8
MEM_PAD(0x4); //0x01EC
Matrix2x4_t* pBoneCache; //0x01F0
};

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#pragma once
#include "../common.h"
#define INVALID_EHANDLE_INDEX 0xFFFFFFFF
#define ENT_ENTRY_MASK 0x7FFF
#define NUM_SERIAL_NUM_SHIFT_BITS 15
// @source: https://developer.valvesoftware.com/wiki/Entity_limit#Source_2_limits
#define ENT_MAX_NETWORKED_ENTRY 16384
class CBaseHandle
{
public:
CBaseHandle() noexcept :
nIndex(INVALID_EHANDLE_INDEX) { }
CBaseHandle(const int nEntry, const int nSerial) noexcept
{
CS_ASSERT(nEntry >= 0 && (nEntry & ENT_ENTRY_MASK) == nEntry);
CS_ASSERT(nSerial >= 0 && nSerial < (1 << NUM_SERIAL_NUM_SHIFT_BITS));
nIndex = nEntry | (nSerial << NUM_SERIAL_NUM_SHIFT_BITS);
}
bool operator!=(const CBaseHandle& other) const noexcept
{
return nIndex != other.nIndex;
}
bool operator==(const CBaseHandle& other) const noexcept
{
return nIndex == other.nIndex;
}
bool operator<(const CBaseHandle& other) const noexcept
{
return nIndex < other.nIndex;
}
[[nodiscard]] bool IsValid() const noexcept
{
return nIndex != INVALID_EHANDLE_INDEX;
}
[[nodiscard]] int GetEntryIndex() const noexcept
{
return static_cast<int>(nIndex & ENT_ENTRY_MASK);
}
[[nodiscard]] int GetSerialNumber() const noexcept
{
return static_cast<int>(nIndex >> NUM_SERIAL_NUM_SHIFT_BITS);
}
private:
std::uint32_t nIndex;
};

95
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#pragma once
// used: mem_pad
#include "../../utilities/memory.h"
// used: cusercmd
#include "../datatypes/usercmd.h"
#define MULTIPLAYER_BACKUP 150
class CTinyMoveStepData
{
public:
float flWhen; //0x0000
MEM_PAD(0x4); //0x0004
std::uint64_t nButton; //0x0008
bool bPressed; //0x0010
MEM_PAD(0x7); //0x0011
}; //Size: 0x0018
class CMoveStepButtons
{
public:
std::uint64_t nKeyboardPressed; //0x0000
std::uint64_t nMouseWheelheelPressed; //0x0008
std::uint64_t nUnPressed; //0x0010
std::uint64_t nKeyboardCopy; //0x0018
}; //Size: 0x0020
// @credits: www.unknowncheats.me/forum/members/2943409.html
class CExtendedMoveData : public CMoveStepButtons
{
public:
float flForwardMove; //0x0020
float flSideMove; //0x0024
float flUpMove; //0x0028
std::int32_t nMouseDeltaX; //0x002C
std::int32_t nMouseDeltaY; //0x0030
std::int32_t nAdditionalStepMovesCount; //0x0034
CTinyMoveStepData tinyMoveStepData[12]; //0x0038
Vector_t vecViewAngle; //0x0158
std::int32_t nTargetHandle; //0x0164
}; //Size:0x0168
class CCSGOInput
{
public:
MEM_PAD(0x250);
CUserCmd arrCommands[MULTIPLAYER_BACKUP];
MEM_PAD(0x99)
bool bInThirdPerson;
MEM_PAD(0x6);
QAngle_t angThirdPersonAngles;
MEM_PAD(0xE);
std::int32_t nSequenceNumber;
double dbSomeTimer;
CExtendedMoveData currentMoveData;
std::int32_t nWeaponSwitchTick;
MEM_PAD(0x1C4);
CExtendedMoveData* pExtendedMoveData;
MEM_PAD(0x48);
int32_t nAttackStartHistoryIndex1;
int32_t nAttackStartHistoryIndex2;
int32_t nAttackStartHistoryIndex3;
CUserCmd* GetUserCmd()
{
return &arrCommands[nSequenceNumber % MULTIPLAYER_BACKUP];
}
void SetViewAngle(QAngle_t& angView)
{
// @ida: this got called before GetMatricesForView
using fnSetViewAngle = std::int64_t(CS_FASTCALL*)(void*, std::int32_t, QAngle_t&);
static auto oSetViewAngle = reinterpret_cast<fnSetViewAngle>(MEM::FindPattern(CLIENT_DLL, CS_XOR("85 D2 75 3F 48")));
#ifdef CS_PARANOID
CS_ASSERT(oSetViewAngle != nullptr);
#endif
oSetViewAngle(this, 0, std::ref(angView));
}
QAngle_t GetViewAngles()
{
using fnGetViewAngles = std::int64_t(CS_FASTCALL*)(CCSGOInput*, std::int32_t);
static auto oGetViewAngles = reinterpret_cast<fnGetViewAngles>(MEM::FindPattern(CLIENT_DLL, CS_XOR("4C 8B C1 85 D2 74 08 48 8D 05 ? ? ? ? C3")));
#ifdef CS_PARANOID
CS_ASSERT(oGetViewAngles != nullptr);
#endif
return *reinterpret_cast<QAngle_t*>(oGetViewAngles(this, 0));
}
};

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#pragma once
// used: schema field
#include "../../utilities/memory.h"
#include "../entity_handle.h"
#define MAX_ENTITIES_IN_LIST 512
#define MAX_ENTITY_LISTS 64 // 0x3F
#define MAX_TOTAL_ENTITIES MAX_ENTITIES_IN_LIST* MAX_ENTITY_LISTS
class C_BaseEntity;
class CGameEntitySystem
{
public:
/// GetClientEntity
template <typename T = C_BaseEntity>
T* Get(int nIndex)
{
return reinterpret_cast<T*>(this->GetEntityByIndex(nIndex));
}
/// GetClientEntityFromHandle
template <typename T = C_BaseEntity>
T* Get(const CBaseHandle hHandle)
{
if (!hHandle.IsValid())
return nullptr;
return reinterpret_cast<T*>(this->GetEntityByIndex(hHandle.GetEntryIndex()));
}
int GetHighestEntityIndex()
{
return *reinterpret_cast<int*>(reinterpret_cast<std::uintptr_t>(this) + 0x1510);
}
private:
void* GetEntityByIndex(int nIndex)
{
//@ida: #STR: "(missing),", "(missing)", "Ent %3d: %s class %s name %s\n" | or find "cl_showents" cvar -> look for callback
// do { pEntity = GetBaseEntityByIndex(g_pGameEntitySystem, nCurrentIndex); ... }
using fnGetBaseEntity = void*(CS_THISCALL*)(void*, int);
static auto GetBaseEntity = reinterpret_cast<fnGetBaseEntity>(MEM::FindPattern(CLIENT_DLL, CS_XOR("81 FA ? ? ? ? 77 ? 8B C2 C1 F8 ? 83 F8 ? 77 ? 48 98 48 8B 4C C1 ? 48 85 C9 74 ? 8B C2 25 ? ? ? ? 48 6B C0 ? 48 03 C8 74 ? 8B 41 ? 25 ? ? ? ? 3B C2 75 ? 48 8B 01")));
return GetBaseEntity(this, nIndex);
}
};

59
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// used: game trace manager
#include "cgametracemanager.h"
// used: c_csplayerpawn
#include "../../sdk/entity.h"
SurfaceData_t* GameTrace_t::GetSurfaceData()
{
using fnGetSurfaceData = std::uint64_t(__fastcall*)(void*);
static fnGetSurfaceData oGetSurfaceData = reinterpret_cast<fnGetSurfaceData>(MEM::GetAbsoluteAddress(MEM::FindPattern(CLIENT_DLL, CS_XOR("E8 ? ? ? ? 48 85 C0 74 ? 44 38 60")), 0x1, 0x0));
#ifdef CS_PARANOID
CS_ASSERT(oGetSurfaceData != nullptr);
#endif
return reinterpret_cast<SurfaceData_t*>(oGetSurfaceData(m_pSurface));
}
int GameTrace_t::GetHitboxId()
{
if (m_pHitboxData)
return m_pHitboxData->m_nHitboxId;
return 0;
}
int GameTrace_t::GetHitgroup()
{
if (m_pHitboxData)
return m_pHitboxData->m_nHitGroup;
return 0;
}
bool GameTrace_t::IsVisible() const
{
return (m_flFraction > 0.97f);
}
TraceFilter_t::TraceFilter_t(std::uint64_t uMask, C_CSPlayerPawn* pSkip1, C_CSPlayerPawn* pSkip2, int nLayer)
{
m_uTraceMask = uMask;
m_v1[0] = m_v1[1] = 0;
m_v2 = 7;
m_v3 = nLayer;
m_v4 = 0x49;
m_v5 = 0;
if (pSkip1 != nullptr)
{
m_arrSkipHandles[0] = pSkip1->GetRefEHandle().GetEntryIndex();
m_arrSkipHandles[2] = pSkip1->GetOwnerHandleIndex();
m_arrCollisions[0] = pSkip1->GetCollisionMask();
}
if (pSkip2 != nullptr)
{
m_arrSkipHandles[0] = pSkip2->GetRefEHandle().GetEntryIndex();
m_arrSkipHandles[2] = pSkip2->GetOwnerHandleIndex();
m_arrCollisions[0] = pSkip2->GetCollisionMask();
}
}

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#pragma once
// used: pad and findpattern
#include "../../utilities/memory.h"
// used: vector
#include "../../sdk/datatypes/vector.h"
// used: array
#include <array>
struct Ray_t
{
public:
Vector_t m_vecStart;
Vector_t m_vecEnd;
Vector_t m_vecMins;
Vector_t m_vecMaxs;
MEM_PAD(0x4);
std::uint8_t UnkType;
};
static_assert(sizeof(Ray_t) == 0x38);
struct SurfaceData_t
{
public:
MEM_PAD(0x8)
float m_flPenetrationModifier;
float m_flDamageModifier;
MEM_PAD(0x4)
int m_iMaterial;
};
static_assert(sizeof(SurfaceData_t) == 0x18);
struct TraceHitboxData_t
{
public:
MEM_PAD(0x38);
int m_nHitGroup;
MEM_PAD(0x4);
int m_nHitboxId;
};
static_assert(sizeof(TraceHitboxData_t) == 0x44);
class C_CSPlayerPawn;
struct GameTrace_t
{
public:
GameTrace_t() = default;
SurfaceData_t* GetSurfaceData();
int GetHitboxId();
int GetHitgroup();
bool IsVisible() const;
void* m_pSurface;
C_CSPlayerPawn* m_pHitEntity;
TraceHitboxData_t* m_pHitboxData;
MEM_PAD(0x38);
std::uint32_t m_uContents;
MEM_PAD(0x24);
Vector_t m_vecStartPos;
Vector_t m_vecEndPos;
Vector_t m_vecNormal;
Vector_t m_vecPosition;
MEM_PAD(0x4);
float m_flFraction;
MEM_PAD(0x6);
bool m_bAllSolid;
MEM_PAD(0x4D)
}; // Size: 0x108
static_assert(sizeof(GameTrace_t) == 0x108);
struct TraceFilter_t
{
public:
MEM_PAD(0x8);
std::int64_t m_uTraceMask;
std::array<std::int64_t, 2> m_v1;
std::array<std::int32_t, 4> m_arrSkipHandles;
std::array<std::int16_t, 2> m_arrCollisions;
std::int16_t m_v2;
std::uint8_t m_v3;
std::uint8_t m_v4;
std::uint8_t m_v5;
TraceFilter_t() = default;
TraceFilter_t(std::uint64_t uMask, C_CSPlayerPawn* pSkip1, C_CSPlayerPawn* pSkip2, int nLayer);
};
static_assert(sizeof(TraceFilter_t) == 0x40);
class CGameTraceManager
{
public:
bool TraceShape(Ray_t* pRay, Vector_t vecStart, Vector_t vecEnd, TraceFilter_t* pFilter, GameTrace_t* pGameTrace)
{
using fnTraceShape = bool(__fastcall*)(CGameTraceManager*, Ray_t*, Vector_t*, Vector_t*, TraceFilter_t*, GameTrace_t*);
// Credit: https://www.unknowncheats.me/forum/4265752-post6333.html
static fnTraceShape oTraceShape = reinterpret_cast<fnTraceShape>(MEM::FindPattern(CLIENT_DLL, CS_XOR("48 89 5C 24 20 48 89 4C 24 08 55 56 41")));
#ifdef CS_PARANOID
CS_ASSERT(oTraceShape != nullptr);
#endif
return oTraceShape(this, pRay, &vecStart, &vecEnd, pFilter, pGameTrace);
}
bool ClipRayToEntity(Ray_t* pRay, Vector_t vecStart, Vector_t vecEnd, C_CSPlayerPawn* pPawn, TraceFilter_t* pFilter, GameTrace_t* pGameTrace)
{
using fnClipRayToEntity = bool(__fastcall*)(CGameTraceManager*, Ray_t*, Vector_t*, Vector_t*, C_CSPlayerPawn*, TraceFilter_t*, GameTrace_t*);
static fnClipRayToEntity oClipRayToEntity = reinterpret_cast<fnClipRayToEntity>(MEM::FindPattern(CLIENT_DLL, CS_XOR("48 89 5C 24 08 48 89 6C 24 10 48 89 74 24 18 48 89 7C 24 20 41 54 41 56 41 57 48 81 EC C0 00 00 00 48 8B 9C")));
#ifdef CS_PARANOID
CS_ASSERT(oClipRayToEntity != nullptr);
#endif
return oClipRayToEntity(this, pRay, &vecStart, &vecEnd, pPawn, pFilter, pGameTrace);
}
};

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#pragma once
// used: find pattern, call virtual function
#include "../../utilities/memory.h"
// used: vertor_t
#include "../datatypes/vector.h"
// used: color_t
#include "../datatypes/color.h"
class IDebugOverlayGameSystem
{
public:
// @todo: reverse this
};

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#pragma once
// used: callvfunc
#include "../../utilities/memory.h"
enum EClientFrameStage : int
{
FRAME_UNDEFINED = -1,
FRAME_START,
// a network packet is being received
FRAME_NET_UPDATE_START,
// data has been received and we are going to start calling postdataupdate
FRAME_NET_UPDATE_POSTDATAUPDATE_START,
// data has been received and called postdataupdate on all data recipients
FRAME_NET_UPDATE_POSTDATAUPDATE_END,
// received all packets, we can now do interpolation, prediction, etc
FRAME_NET_UPDATE_END,
// start rendering the scene
FRAME_RENDER_START,
// finished rendering the scene
FRAME_RENDER_END,
FRAME_NET_FULL_FRAME_UPDATE_ON_REMOVE
};
class IEngineClient
{
public:
int GetMaxClients()
{
return MEM::CallVFunc<int, 34U>(this);
}
bool IsInGame()
{
return MEM::CallVFunc<bool, 35U>(this);
}
bool IsConnected()
{
return MEM::CallVFunc<bool, 36U>(this);
}
// return CBaseHandle index
int GetLocalPlayer()
{
int nIndex = -1;
MEM::CallVFunc<void, 47U>(this, std::ref(nIndex), 0);
return nIndex + 1;
}
[[nodiscard]] const char* GetLevelName()
{
return MEM::CallVFunc<const char*, 56U>(this);
}
[[nodiscard]] const char* GetLevelNameShort()
{
return MEM::CallVFunc<const char*, 57U>(this);
}
[[nodiscard]] const char* GetProductVersionString()
{
return MEM::CallVFunc<const char*, 82U>(this);
}
};

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#pragma once
// used: cutllinkedlist
#include "../datatypes/utllinkedlist.h"
// used: fnv1a hashing
#include "../../utilities/fnv1a.h"
// used: sdk datatypes
#include "../datatypes/color.h"
#include "../datatypes/vector.h"
#include "../datatypes/qangle.h"
#pragma region convar_enumerations
// command to convars and concommands
enum EConVarFlag : int
{
// convar systems
FCVAR_NONE = 0,
FCVAR_UNREGISTERED = (1 << 0), // if this is set, don't add to linked list, etc
FCVAR_DEVELOPMENTONLY = (1 << 1), // hidden in released products. flag is removed automatically if allow_development_cvars is defined
FCVAR_GAMEDLL = (1 << 2), // defined by the game dll
FCVAR_CLIENTDLL = (1 << 3), // defined by the client dll
FCVAR_HIDDEN = (1 << 4), // hidden. doesn't appear in find or autocomplete. like developmentonly, but can't be compiled out
// convar only
FCVAR_PROTECTED = (1 << 5), // it's a server cvar, but we don't send the data since it's a password, etc. sends 1 if it's not bland/zero, 0 otherwise as value
FCVAR_SPONLY = (1 << 6), // this cvar cannot be changed by clients connected to a multiplayer server
FCVAR_ARCHIVE = (1 << 7), // set to cause it to be saved to vars.rc
FCVAR_NOTIFY = (1 << 8), // notifies players when changed
FCVAR_USERINFO = (1 << 9), // changes the client's info string
FCVAR_CHEAT = (1 << 14), // only useable in singleplayer/debug/multiplayer & sv_cheats
FCVAR_PRINTABLEONLY = (1 << 10), // this cvar's string cannot contain unprintable characters (e.g., used for player name etc)
FCVAR_UNLOGGED = (1 << 11), // if this is a fcvar_server, don't log changes to the log file / console if we are creating a log
FCVAR_NEVER_AS_STRING = (1 << 12), // never try to print that cvar
// it's a convar that's shared between the client and the server.
// at signon, the values of all such convars are sent from the server to the client (skipped for local client, ofc)
// if a change is requested it must come from the console (i.e., no remote client changes)
// if a value is changed while a server is active, it's replicated to all connected clients
FCVAR_REPLICATED = (1 << 13), // server setting enforced on clients, replicated
// @todo: (1 << 14) used by the game, probably used as modification detection
FCVAR_DEMO = (1 << 16), // record this cvar when starting a demo file
FCVAR_DONTRECORD = (1 << 17), // don't record these command in demofiles
FCVAR_RELOAD_MATERIALS = (1 << 20), // if this cvar changes, it forces a material reload
FCVAR_RELOAD_TEXTURES = (1 << 21), // if this cvar changes, if forces a texture reload
FCVAR_NOT_CONNECTED = (1 << 22), // cvar cannot be changed by a client that is connected to a server
FCVAR_MATERIAL_SYSTEM_THREAD = (1 << 23), // indicates this cvar is read from the material system thread
FCVAR_ARCHIVE_XBOX = (1 << 24), // cvar written to config.cfg on the xbox
FCVAR_ACCESSIBLE_FROM_THREADS = (1 << 25), // used as a debugging tool necessary to check material system thread convars
FCVAR_SERVER_CAN_EXECUTE = (1 << 28), // the server is allowed to execute this command on clients via clientcommand/net_stringcmd/cbaseclientstate::processstringcmd
FCVAR_SERVER_CANNOT_QUERY = (1 << 29), // if this is set, then the server is not allowed to query this cvar's value (via iserverpluginhelpers::startquerycvarvalue)
FCVAR_CLIENTCMD_CAN_EXECUTE = (1 << 30), // ivengineclient::clientcmd is allowed to execute this command
FCVAR_MATERIAL_THREAD_MASK = (FCVAR_RELOAD_MATERIALS | FCVAR_RELOAD_TEXTURES | FCVAR_MATERIAL_SYSTEM_THREAD)
};
enum EConVarType : short
{
EConVarType_Invalid = -1,
EConVarType_Bool,
EConVarType_Int16,
EConVarType_UInt16,
EConVarType_Int32,
EConVarType_UInt32,
EConVarType_Int64,
EConVarType_UInt64,
EConVarType_Float32,
EConVarType_Float64,
EConVarType_String,
EConVarType_Color,
EConVarType_Vector2,
EConVarType_Vector3,
EConVarType_Vector4,
EConVarType_Qangle,
EConVarType_MAX
};
#pragma endregion
union CVValue_t
{
bool i1;
short i16;
uint16_t u16;
int i32;
uint32_t u32;
int64_t i64;
uint64_t u64;
float fl;
double db;
const char* sz;
Color_t clr;
Vector2D_t vec2;
Vector_t vec3;
Vector4D_t vec4;
QAngle_t ang;
};
class CConVar
{
public:
const char* szName; // 0x0000
CConVar* m_pNext; // 0x0008
MEM_PAD(0x10); // 0x0010
const char* szDescription; // 0x0020
uint32_t nType; // 0x28
uint32_t nRegistered; // 0x2C
uint32_t nFlags; // 0x30
MEM_PAD(0x8); // 0x34
// @note: read-only, mofify with caution
CVValue_t value; // 0x40
};
class IEngineCVar
{
public:
MEM_PAD(0x40);
CUtlLinkedList<CConVar*> listConvars;
CConVar* Find(FNV1A_t uHashedName)
{
for (int i = I::Cvar->listConvars.Head(); i != I::Cvar->listConvars.InvalidIndex(); i = I::Cvar->listConvars.Next(i))
{
CConVar* pConVar = I::Cvar->listConvars.Element(i);
if (pConVar == nullptr)
continue;
if (FNV1A::Hash(pConVar->szName) == uHashedName)
return pConVar;
}
CS_ASSERT(false); // invalid convar name
return nullptr;
}
void UnlockHiddenCVars()
{
for (int i = I::Cvar->listConvars.Head(); i != I::Cvar->listConvars.InvalidIndex(); i = I::Cvar->listConvars.Next(i))
{
CConVar* pConVar = I::Cvar->listConvars.Element(i);
if (pConVar == nullptr)
continue;
if (pConVar->nFlags & FCVAR_HIDDEN)
pConVar->nFlags &= ~FCVAR_HIDDEN;
if (pConVar->nFlags & FCVAR_DEVELOPMENTONLY)
pConVar->nFlags &= ~FCVAR_DEVELOPMENTONLY;
}
}
};

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#pragma once
// used: mem_pad
#include "../../utilities/memory.h"
class CGameEntitySystem;
class IGameResourceService
{
public:
MEM_PAD(0x58);
CGameEntitySystem* pGameEntitySystem;
};

20
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#pragma once
// used: mem_pad
#include "../../utilities/memory.h"
class IGlobalVars
{
public:
float flRealTime; //0x0000
int32_t nFrameCount; //0x0004
float flFrameTime; //0x0008
float flFrameTime2; //0x000C
int32_t nMaxClients; //0x0010
MEM_PAD(0x1C);
float flFrameTime3; //0x0030
float flCurrentTime; //0x0034
float flCurrentTime2; //0x0038
MEM_PAD(0xC);
int32_t nTickCount; //0x0048
};

20
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#pragma once
// used: getexportaddress
#include "../../utilities/memory.h"
class IInputSystem
{
public:
bool IsRelativeMouseMode()
{
// @ida: 'IInputSystem::SetRelativeMouseMode'.
return *reinterpret_cast<bool*>(reinterpret_cast<std::uintptr_t>(this) + 0x4D);
}
void* GetSDLWindow()
{
// @ida: IInputSystem::DebugSpew -> #STR: "Current coordinate bias %s: %g,%g scale %g,%g\n"
return *reinterpret_cast<void**>(reinterpret_cast<std::uintptr_t>(this) + 0x26A8);
}
};

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#pragma once
// used: call virtual function
#include "../../utilities/memory.h"
// used: color_t
#include "../datatypes/color.h"
// used: stronghandle
#include "../datatypes/stronghandle.h"
// used: keyvalue3
#include "../datatypes/keyvalue3.h"
// used vector4d_t
#include "../datatypes/vector.h"
// used: cbasehandle
#include "../entity_handle.h"
class CMaterial2
{
public:
virtual const char* GetName() = 0;
virtual const char* GetShareName() = 0;
};
// idk
struct MaterialKeyVar_t
{
std::uint64_t uKey;
const char* szName;
MaterialKeyVar_t(std::uint64_t uKey, const char* szName) :
uKey(uKey), szName(szName) { }
MaterialKeyVar_t(const char* szName, bool bShouldFindKey = false) :
szName(szName)
{
uKey = bShouldFindKey ? FindKey(szName) : 0x0;
}
std::uint64_t FindKey(const char* szName)
{
using fnFindKeyVar = std::uint64_t(CS_FASTCALL*)(const char*, unsigned int, int);
static auto oFindKeyVar = reinterpret_cast<fnFindKeyVar>(MEM::FindPattern(PARTICLES_DLL, CS_XOR("48 89 5C 24 ? 57 48 81 EC ? ? ? ? 33 C0 8B DA")));
#ifdef CS_PARANOID
CS_ASSERT(oFindKeyVar != nullptr);
#endif
// idk those enum flags, just saw it called like that soooo yea
return oFindKeyVar(szName, 0x12, 0x31415926);
}
};
class CObjectInfo
{
MEM_PAD(0xB0);
int nId;
};
class CSceneAnimatableObject
{
MEM_PAD(0xB8);
CBaseHandle hOwner;
};
// the naming is incorrect but i dont care atm
class CMeshData
{
public:
void SetShaderType(const char* szShaderName)
{
// @ida: #STR: shader, spritecard.vfx
using fnSetMaterialShaderType = void(CS_FASTCALL*)(void*, MaterialKeyVar_t, const char*, int);
static auto oSetMaterialShaderType = reinterpret_cast<fnSetMaterialShaderType>(MEM::FindPattern(PARTICLES_DLL, CS_XOR("48 89 5C 24 ? 48 89 6C 24 ? 56 57 41 54 41 56 41 57 48 83 EC ? 0F B6 01 45 0F B6 F9 8B 2A 4D 8B E0 4C 8B 72 ? 48 8B F9 C0 E8 ? 24 ? 3C ? 74 ? 41 B0 ? B2 ? E8 ? ? ? ? 0F B6 07 33 DB C0 E8 ? 24 ? 3C ? 75 ? 48 8B 77 ? EB ? 48 8B F3 4C 8D 44 24 ? C7 44 24 ? ? ? ? ? 48 8D 54 24 ? 89 6C 24 ? 48 8B CE 4C 89 74 24 ? E8 ? ? ? ? 8B D0 83 F8 ? 75 ? 45 33 C9 89 6C 24 ? 4C 8D 44 24 ? 4C 89 74 24 ? 48 8B D7 48 8B CE E8 ? ? ? ? 8B D0 0F B6 0F C0 E9 ? 80 E1 ? 80 F9 ? 75 ? 48 8B 4F ? EB ? 48 8B CB 8B 41 ? 85 C0 74 ? 48 8D 59 ? 83 F8 ? 76 ? 48 8B 1B 48 63 C2 4D 85 E4")));
#ifdef CS_PARANOID
CS_ASSERT(oSetMaterialShaderType != nullptr);
#endif
MaterialKeyVar_t shaderVar(0x162C1777, CS_XOR("shader"));
oSetMaterialShaderType(this, shaderVar, szShaderName, 0x18);
}
void SetMaterialFunction(const char* szFunctionName, int nValue)
{
using fnSetMaterialFunction = void(__fastcall*)(void*, MaterialKeyVar_t, int, int);
static auto oSetMaterialFunction = reinterpret_cast<fnSetMaterialFunction>(MEM::FindPattern(PARTICLES_DLL, CS_XOR("48 89 5C 24 ? 48 89 6C 24 ? 56 57 41 54 41 56 41 57 48 83 EC ? 0F B6 01 45 0F B6 F9 8B 2A 48 8B F9")));
#ifdef CS_PARANOID
CS_ASSERT(oSetMaterialFunction != nullptr);
#endif
MaterialKeyVar_t functionVar(szFunctionName, true);
oSetMaterialFunction(this, functionVar, nValue, 0x18);
}
// Credit: https://www.unknowncheats.me/forum/4270816-post6392.html
MEM_PAD(0x18); // 0x0
CSceneAnimatableObject* pSceneAnimatableObject; // 0x18
CMaterial2* pMaterial; // 0x20
CMaterial2* pMaterialCpy; // 0x28
MEM_PAD(0x10);
CObjectInfo* pObjectInfo;
MEM_PAD(0x8);
Color_t colValue;
};
class IMaterialSystem2
{
public:
CMaterial2*** FindOrCreateFromResource(CMaterial2*** pOutMaterial, const char* szMaterialName)
{
return MEM::CallVFunc<CMaterial2***, 14U>(this, pOutMaterial, szMaterialName);
}
CMaterial2** CreateMaterial(CMaterial2*** pOutMaterial, const char* szMaterialName, CMeshData* pData)
{
return MEM::CallVFunc<CMaterial2**, 29U>(this, pOutMaterial, szMaterialName, pData, 0, 0, 0, 0, 0, 1);
}
void SetCreateDataByMaterial(const void* pData, CMaterial2*** const pInMaterial)
{
return MEM::CallVFunc<void, 37U>(this, pInMaterial, pData);
}
};

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#pragma once
// used: mem::CallVFunc
#include "../../utilities/memory.h"
#pragma warning(push)
#pragma warning(disable : 4191)
class IMemAlloc
{
public:
void* Alloc(std::size_t nSize)
{
return MEM::CallVFunc<void*, 1>(this, nSize);
}
void* ReAlloc(const void* pMemory, std::size_t nSize)
{
return MEM::CallVFunc<void*, 2>(this, pMemory, nSize);
}
void Free(const void* pMemory)
{
return MEM::CallVFunc<void, 3>(this, pMemory);
}
std::size_t GetSize(const void* pMemory)
{
return MEM::CallVFunc<std::size_t, 21>(this, pMemory);
}
};
#pragma warning(pop)

34
examples/asphyxia-cs2-823331a79cf867972c517af8e94259fd479e09cf/cstrike/sdk/interfaces/inetworkclientservice.h Normal file
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#pragma once
#include "../../utilities/memory.h"
class CNetworkGameClient
{
public:
bool IsConnected()
{
return MEM::CallVFunc<bool, 12U>(this);
}
// force game to clear cache and reset delta tick
void FullUpdate()
{
// @ida: #STR: "Requesting full game update (%s)...\n"
MEM::CallVFunc<void, 28U>(this, CS_XOR("unk"));
}
int GetDeltaTick()
{
// @ida: offset in FullUpdate();
// (nDeltaTick = -1) == FullUpdate() called
return *reinterpret_cast<int*>(reinterpret_cast<std::uintptr_t>(this) + 0x25C);
}
};
class INetworkClientService
{
public:
[[nodiscard]] CNetworkGameClient* GetNetworkGameClient()
{
return MEM::CallVFunc<CNetworkGameClient*, 23U>(this);
}
};

13
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#pragma once
// used: MEM::CallVFunc
#include "../../utilities/memory.h"
class CPVS
{
public:
void Set(bool bState)
{
MEM::CallVFunc<void*, 7U>(this, bState);
}
};

24
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#pragma once
// used: callvfunc
#include "../../utilities/memory.h"
struct ResourceBinding_t;
class IResourceSystem
{
public:
void* QueryInterface(const char* szInterfaceName)
{
return MEM::CallVFunc<void*, 2U>(this, szInterfaceName);
}
};
class CResourceHandleUtils
{
public:
void DeleteResource(const ResourceBinding_t* pBinding)
{
MEM::CallVFunc<void, 2U>(this, pBinding);
}
};

208
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#pragma once
// used: utlthash
#include "../datatypes/utlthash.h"
// used: utlvector
#include "../datatypes/utlvector.h"
// used: callvfunc
#include "../../utilities/memory.h"
#define SCHEMASYSTEM_TYPE_SCOPES_OFFSET 0x188
#define SCHEMASYSTEMTYPESCOPE_OFF1 0x3F8
#define SCHEMASYSTEMTYPESCOPE_OFF2 0x8
using SchemaString_t = const char*;
struct SchemaMetadataEntryData_t;
class CSchemaSystemTypeScope;
class CSchemaType;
struct CSchemaClassBinding
{
CSchemaClassBinding* pParent;
const char* szBinaryName; // ex: C_World
const char* szModuleName; // ex: libclient.so
const char* szClassName; // ex: client
void* pClassInfoOldSynthesized;
void* pClassInfo;
void* pThisModuleBindingPointer;
CSchemaType* pSchemaType;
};
class CSchemaType
{
public:
bool GetSizes(int* pOutSize, uint8_t* unkPtr)
{
return MEM::CallVFunc<bool, 3U>(this, pOutSize, unkPtr);
}
public:
bool GetSize(int* out_size)
{
uint8_t smh = 0;
return GetSizes(out_size, &smh);
}
public:
void* pVtable; // 0x0000
const char* szName; // 0x0008
CSchemaSystemTypeScope* pSystemTypeScope; // 0x0010
uint8_t nTypeCategory; // ETypeCategory 0x0018
uint8_t nAatomicCategory; // EAtomicCategory 0x0019
};
struct SchemaClassFieldData_t
{
SchemaString_t szName; // 0x0000
CSchemaType* pSchemaType; // 0x0008
std::uint32_t nSingleInheritanceOffset; // 0x0010
std::int32_t nMetadataSize; // 0x0014
SchemaMetadataEntryData_t* pMetaData; // 0x0018
};
struct SchemaClassInfoData_t;
struct SchemaBaseClassInfoData_t
{
int32_t nOffset;
SchemaClassInfoData_t* pClass;
};
struct SchemaClassInfoData_t
{
private:
void* pVtable; // 0x0000
public:
const char* szName; // 0x0008
char* szDescription; // 0x0010
int m_nSize; // 0x0018
std::int16_t nFieldSize; // 0x001C
std::int16_t nStaticSize; // 0x001E
std::int16_t nMetadataSize; // 0x0020
std::uint8_t nAlignOf; // 0x0022
std::uint8_t nBaseClassesCount; // 0x0023
char pad2[0x4]; // 0x0024
SchemaClassFieldData_t* pFields; // 0x0028
char pad3[0x8]; // 0x0030
SchemaBaseClassInfoData_t* pBaseClasses; // 0x0038
char pad4[0x28]; // 0x0040
//public:
//SchemaClassFieldData_t* pFields; // 0x0028
bool InheritsFrom(SchemaClassInfoData_t* pClassInfo)
{
if (pClassInfo == this && pClassInfo != nullptr)
return true;
else if (pBaseClasses == nullptr || pClassInfo == nullptr)
return false;
for (int i = 0; i < nBaseClassesCount; i++)
{
auto& baseClass = pBaseClasses[i];
if (baseClass.pClass->InheritsFrom(pClassInfo))
return true;
}
return false;
}
};
struct SchemaEnumeratorInfoData_t
{
SchemaString_t szName;
union
{
unsigned char value_char;
unsigned short value_short;
unsigned int value_int;
unsigned long long value;
};
MEM_PAD(0x10); // 0x0010
};
class CSchemaEnumInfo
{
public:
SchemaEnumeratorInfoData_t enumInfoData;
};
class CSchemaEnumBinding
{
public:
virtual const char* GetBindingName() = 0;
virtual CSchemaClassBinding* AsClassBinding() = 0;
virtual CSchemaEnumBinding* AsEnumBinding() = 0;
virtual const char* GetBinaryName() = 0;
virtual const char* GetProjectName() = 0;
public:
char* szBindingName_; // 0x0008
char* szDllName_; // 0x0010
std::int8_t nAlign_; // 0x0018
MEM_PAD(0x3); // 0x0019
std::int16_t nSize_; // 0x001C
std::int16_t nFlags_; // 0x001E
SchemaEnumeratorInfoData_t* pEnumInfo_;
MEM_PAD(0x8); // 0x0028
CSchemaSystemTypeScope* pTypeScope_; // 0x0030
MEM_PAD(0x8); // 0x0038
std::int32_t unk1_; // 0x0040
};
class CSchemaSystemTypeScope
{
public:
void FindDeclaredClass(SchemaClassInfoData_t** pReturnClass, const char* szClassName)
{
return MEM::CallVFunc<void, 2U>(this, pReturnClass, szClassName);
}
CSchemaType* FindSchemaTypeByName(const char* szName, std::uintptr_t* pSchema)
{
return MEM::CallVFunc<CSchemaType*, 4U>(this, szName, pSchema);
}
CSchemaType* FindTypeDeclaredClass(const char* szName)
{
return MEM::CallVFunc<CSchemaType*, 5U>(this, szName);
}
CSchemaType* FindTypeDeclaredEnum(const char* szName)
{
return MEM::CallVFunc<CSchemaType*, 6U>(this, szName);
}
CSchemaClassBinding* FindRawClassBinding(const char* szName)
{
return MEM::CallVFunc<CSchemaClassBinding*, 7U>(this, szName);
}
void* pVtable; // 0x0000
char szName[256U]; // 0x0008
MEM_PAD(SCHEMASYSTEMTYPESCOPE_OFF1); // 0x0108
CUtlTSHash<CSchemaClassBinding*, 256, unsigned int> hashClasses; // 0x0588
MEM_PAD(SCHEMASYSTEMTYPESCOPE_OFF2); // 0x05C8
CUtlTSHash<CSchemaEnumBinding*, 256, unsigned int> hashEnumes; // 0x2DD0
};
class ISchemaSystem
{
public:
CSchemaSystemTypeScope* FindTypeScopeForModule(const char* m_module_name)
{
return MEM::CallVFunc<CSchemaSystemTypeScope*, 13U>(this, m_module_name, nullptr);
}
private:
MEM_PAD(SCHEMASYSTEM_TYPE_SCOPES_OFFSET); // 0x0000
public:
// table of type scopes
CUtlVector<CSchemaSystemTypeScope*> vecTypeScopes; // SCHEMASYSTEM_TYPE_SCOPES_OFFSET
};

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examples/asphyxia-cs2-823331a79cf867972c517af8e94259fd479e09cf/cstrike/sdk/interfaces/iswapchaindx11.h Normal file
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#pragma once
// used: call virtual function
#include "../../utilities/memory.h"
// forward declarations
struct IDXGISwapChain;
class ISwapChainDx11
{
MEM_PAD(0x170);
IDXGISwapChain* pDXGISwapChain;
};

19
examples/asphyxia-cs2-823331a79cf867972c517af8e94259fd479e09cf/cstrike/sdk/interfaces/iviewrender.h Normal file
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#pragma once
#include "../datatypes/qangle.h"
#include "../datatypes/matrix.h"
class IViewRender
{
public:
Vector_t vecOrigin; // 0x0000
QAngle_t vecAngles; // 0x000C
float flFov; // 0x0018
char pad_0x001C[0x14]; // 0x001C
ViewMatrix_t matUNK1; // 0x0030
char pad_0x0070[0x30]; // 0x0070
ViewMatrix_t matUNK2; // 0x00A0
char pad_0x00E0[0xC8]; // 0x00E0
ViewMatrix_t matUNK3; // 0x01A8
char pad_0x01E8[0x28]; // 0x01E8
};

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#pragma once
// used: schema field
#include "../core/schema.h"
// used: rop
#include "../utilities/memory.h"
using CFiringModeFloat = std::float_t[2];
using CSkillFloat = std::float_t[4];
class CBasePlayerVData
{
public:
CS_CLASS_NO_INITIALIZER(CBasePlayerVData);
//CResourceNameTyped< CWeakHandle< InfoForResourceTypeCModel > > m_sModelName = 0x28
//CSkillFloat m_flHeadDamageMultiplier = 0x108
//CSkillFloat m_flChestDamageMultiplier = 0x118
//CSkillFloat m_flStomachDamageMultiplier = 0x128
//CSkillFloat m_flArmDamageMultiplier = 0x138
//CSkillFloat m_flLegDamageMultiplier = 0x148
//float32 m_flHoldBreathTime = 0x158
//float32 m_flDrowningDamageInterval = 0x15C
//int32 m_nDrowningDamageInitial = 0x160
//int32 m_nDrowningDamageMax = 0x164
//int32 m_nWaterSpeed = 0x168
//float32 m_flUseRange = 0x16C
//float32 m_flUseAngleTolerance = 0x170
//float32 m_flCrouchTime = 0x174
};
class CBasePlayerWeaponVData
{
public:
CS_CLASS_NO_INITIALIZER(CBasePlayerWeaponVData);
SCHEMA_ADD_FIELD(bool, IsFullAuto, "CBasePlayerWeaponVData->m_bIsFullAuto");
SCHEMA_ADD_FIELD(std::int32_t, GetMaxClip1, "CBasePlayerWeaponVData->m_iMaxClip1");
};
class CCSWeaponBaseVData : public CBasePlayerWeaponVData
{
public:
CS_CLASS_NO_INITIALIZER(CCSWeaponBaseVData);
SCHEMA_ADD_FIELD(std::int32_t, GetWeaponType, "CCSWeaponBaseVData->m_WeaponType");
SCHEMA_ADD_FIELD(float, GetRange, "CCSWeaponBaseVData->m_flRange");
};

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#pragma once
// used: [ext] minhook
// @credits: https://github.com/TsudaKageyu/minhook
#include "../../dependencies/minhook/minhook.h"
#include "../../dependencies/Vook.h"
// used: l_print
#include "log.h"
template <typename T>
class CBaseHookObject
{
public:
bool Vreate(void* pFunction, void* pDetour)
{
if (pFunction == nullptr || pDetour == nullptr)
return false;
pBaseFn = pFunction;
pReplaceFn = pDetour;
if (!Vook ::Hook(
pBaseFn, // The initial function's address
pReplaceFn, // The hook's address
&pOriginalFn // The original's address
))
//if (const MH_STATUS status = MH_CreateHook(pBaseFn, pReplaceFn, &pOriginalFn); status != MH_OK)
{
/*
#ifdef _DEBUG
L_PRINT(LOG_ERROR) << CS_XOR("failed to create hook, status: \"") << MH_StatusToString(status) << CS_XOR("\" with base address: ") << L::AddFlags(LOG_MODE_INT_SHOWBASE | LOG_MODE_INT_FORMAT_HEX) << reinterpret_cast<std::uintptr_t>(pBaseFn);
#else
L_PRINT(LOG_ERROR) << CS_XOR("failed to create hook");
#endif
*/
L_PRINT(LOG_ERROR) << CS_XOR("failed to create hook");
CS_ASSERT(false);
return false;
}
//if (!Replace())
//return false;
return true;
}
/// setup hook and replace function
/// @returns: true if hook has been successfully created, false otherwise
bool Create(void* pFunction, void* pDetour)
{
if (pFunction == nullptr || pDetour == nullptr)
return false;
pBaseFn = pFunction;
pReplaceFn = pDetour;
if (const MH_STATUS status = MH_CreateHook(pBaseFn, pReplaceFn, &pOriginalFn); status != MH_OK)
{
#ifdef _DEBUG
L_PRINT(LOG_ERROR) << CS_XOR("failed to create hook, status: \"") << MH_StatusToString(status) << CS_XOR("\" with base address: ") << L::AddFlags(LOG_MODE_INT_SHOWBASE | LOG_MODE_INT_FORMAT_HEX) << reinterpret_cast<std::uintptr_t>(pBaseFn);
#else
L_PRINT(LOG_ERROR) << CS_XOR("failed to create hook");
#endif
CS_ASSERT(false);
return false;
}
if (!Replace())
return false;
return true;
}
/// patch memory to jump to our function instead of original
/// @returns: true if hook has been successfully applied, false otherwise
bool Replace()
{
// check is hook has been created
if (pBaseFn == nullptr)
return false;
// check that function isn't already hooked
if (bIsHooked)
return false;
if (const MH_STATUS status = MH_EnableHook(pBaseFn); status != MH_OK)
{
#ifdef _DEBUG
L_PRINT(LOG_ERROR) << CS_XOR("failed to enable hook, status: \"") << MH_StatusToString(status) << CS_XOR("\" with base address: ") << L::AddFlags(LOG_MODE_INT_SHOWBASE | LOG_MODE_INT_FORMAT_HEX) << reinterpret_cast<std::uintptr_t>(pBaseFn);
#else
L_PRINT(LOG_ERROR) << CS_XOR("failed to enable hook");
#endif
CS_ASSERT(false);
return false;
}
// switch hook state
bIsHooked = true;
return true;
}
bool Vemove()
{
// restore it at first
//if (!Restore())
//return false;
if (!Vook::Unhook(
pBaseFn // The initial function's address
))
//if (const MH_STATUS status = MH_RemoveHook(pBaseFn); status != MH_OK)
{
/*
#ifdef _DEBUG
L_PRINT(LOG_ERROR) << CS_XOR("failed to remove hook, status: \"") << MH_StatusToString(status) << CS_XOR("\" with base address: ") << L::AddFlags(LOG_MODE_INT_SHOWBASE | LOG_MODE_INT_FORMAT_HEX) << reinterpret_cast<std::uintptr_t>(pBaseFn);
#else
L_PRINT(LOG_ERROR) << CS_XOR("failed to remove hook");
#endif
*/
L_PRINT(LOG_ERROR) << CS_XOR("failed to remove hook");
CS_ASSERT(false);
return false;
}
return true;
}
/// restore original function call and cleanup hook data
/// @returns: true if hook has been successfully removed, false otherwise
bool Remove()
{
// restore it at first
if (!Restore())
return false;
if (const MH_STATUS status = MH_RemoveHook(pBaseFn); status != MH_OK)
{
#ifdef _DEBUG
L_PRINT(LOG_ERROR) << CS_XOR("failed to remove hook, status: \"") << MH_StatusToString(status) << CS_XOR("\" with base address: ") << L::AddFlags(LOG_MODE_INT_SHOWBASE | LOG_MODE_INT_FORMAT_HEX) << reinterpret_cast<std::uintptr_t>(pBaseFn);
#else
L_PRINT(LOG_ERROR) << CS_XOR("failed to remove hook");
#endif
CS_ASSERT(false);
return false;
}
return true;
}
/// restore patched memory to original function call
/// @returns: true if hook has been successfully restored, false otherwise
bool Restore()
{
// check that function is hooked
if (!bIsHooked)
return false;
if (const MH_STATUS status = MH_DisableHook(pBaseFn); status != MH_OK)
{
#ifdef _DEBUG
L_PRINT(LOG_ERROR) << CS_XOR("failed to restore hook, status: \"") << MH_StatusToString(status) << CS_XOR("\" with base address: ") << L::AddFlags(LOG_MODE_INT_SHOWBASE | LOG_MODE_INT_FORMAT_HEX) << reinterpret_cast<std::uintptr_t>(pBaseFn);
#else
L_PRINT(LOG_ERROR) << CS_XOR("failed to restore hook");
#endif
CS_ASSERT(false);
return false;
}
// switch hook state
bIsHooked = false;
return true;
}
/// @returns: original, unwrapped function that would be called without the hook
CS_INLINE T GetOriginal()
{
return reinterpret_cast<T>(pOriginalFn);
}
/// @returns: true if hook is applied at the time, false otherwise
CS_INLINE bool IsHooked() const
{
return bIsHooked;
}
private:
// current hook state
bool bIsHooked = false;
// function base handle
void* pBaseFn = nullptr;
// function that being replace the original call
void* pReplaceFn = nullptr;
// original function
void* pOriginalFn = nullptr;
};

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examples/asphyxia-cs2-823331a79cf867972c517af8e94259fd479e09cf/cstrike/utilities/draw.cpp Normal file
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#include "draw.h"
// used: cheat variables
#include "../core/variables.h"
// used: viewmatrix
#include "../core/sdk.h"
// used: m_deg2rad
#include "math.h"
// used: memoryset
#include "crt.h"
// used: easing
#include "easing.h"
// used: ipt
#include "inputsystem.h"
// used: [ext] imgui
#include "../../dependencies/imgui/imgui_freetype.h"
#include "../../dependencies/imgui/imgui_impl_dx11.h"
#include "../../dependencies/imgui/imgui_impl_win32.h"
// used: [resouces] font awesome
#include "../../resources/fa_solid_900.h"
#include "../../resources/font_awesome_5.h"
// used: iinputsystem
#include "../core/interfaces.h"
#include "../sdk/interfaces/iinputsystem.h"
// used: bMainWindowOpened
#include "../core/menu.h"
// used: hkIsRelativeMouseMode.GetOriginal();
#include "../core/hooks.h"
#pragma region imgui_extended
static constexpr const char* arrKeyNames[] = {
"",
"mouse 1", "mouse 2", "cancel", "mouse 3", "mouse 4", "mouse 5", "",
"backspace", "tab", "", "", "clear", "enter", "", "",
"shift", "control", "alt", "pause", "caps", "", "", "", "", "", "",
"escape", "", "", "", "", "space", "page up", "page down",
"end", "home", "left", "up", "right", "down", "", "", "",
"print", "insert", "delete", "",
"0", "1", "2", "3", "4", "5", "6", "7", "8", "9",
"", "", "", "", "", "", "",
"a", "b", "c", "d", "e", "f", "g", "h", "i", "j", "k",
"l", "m", "n", "o", "p", "q", "r", "s", "t", "u",
"v", "w", "x", "y", "z", "lwin", "rwin", "", "", "",
"num0", "num1", "num2", "num3", "num4", "num5",
"num6", "num7", "num8", "num9",
"*", "+", "", "-", ".", "/",
"f1", "f2", "f3", "f4", "f5", "f6", "f7", "f8",
"f9", "f10", "f11", "f12", "f13", "f14", "f15", "f16",
"f17", "f18", "f19", "f20", "f21", "f22", "f23", "f24",
"", "", "", "", "", "", "", "",
"num lock", "scroll lock",
"", "", "", "", "", "", "",
"", "", "", "", "", "", "",
"lshift", "rshift", "lctrl",
"rctrl", "lmenu", "rmenu"
};
void ImGui::HelpMarker(const char* szDescription)
{
TextDisabled(CS_XOR("(?)"));
if (IsItemHovered())
{
BeginTooltip();
PushTextWrapPos(450.f);
TextUnformatted(szDescription);
PopTextWrapPos();
EndTooltip();
}
}
bool ImGui::HotKey(const char* szLabel, unsigned int* pValue)
{
ImGuiContext& g = *GImGui;
ImGuiWindow* pWindow = g.CurrentWindow;
if (pWindow->SkipItems)
return false;
ImGuiIO& io = g.IO;
const ImGuiStyle& style = g.Style;
const ImGuiID nIndex = pWindow->GetID(szLabel);
const float flWidth = CalcItemWidth();
const ImVec2 vecLabelSize = CalcTextSize(szLabel, nullptr, true);
const ImRect rectFrame(pWindow->DC.CursorPos + ImVec2(vecLabelSize.x > 0.0f ? style.ItemInnerSpacing.x + GetFrameHeight() : 0.0f, 0.0f), pWindow->DC.CursorPos + ImVec2(flWidth, vecLabelSize.x > 0.0f ? vecLabelSize.y + style.FramePadding.y : 0.f));
const ImRect rectTotal(rectFrame.Min, rectFrame.Max);
ItemSize(rectTotal, style.FramePadding.y);
if (!ItemAdd(rectTotal, nIndex, &rectFrame))
return false;
const bool bHovered = ItemHoverable(rectFrame, nIndex);
if (bHovered)
{
SetHoveredID(nIndex);
g.MouseCursor = ImGuiMouseCursor_TextInput;
}
const bool bClicked = bHovered && io.MouseClicked[0];
const bool bDoubleClicked = bHovered && io.MouseDoubleClicked[0];
if (bClicked || bDoubleClicked)
{
if (g.ActiveId != nIndex)
{
CRT::MemorySet(io.MouseDown, 0, sizeof(io.MouseDown));
CRT::MemorySet(io.KeysDown, 0, sizeof(io.KeysDown));
*pValue = 0U;
}
SetActiveID(nIndex, pWindow);
FocusWindow(pWindow);
}
bool bValueChanged = false;
if (unsigned int nKey = *pValue; g.ActiveId == nIndex)
{
for (int n = 0; n < IM_ARRAYSIZE(io.MouseDown); n++)
{
if (IsMouseDown(n))
{
switch (n)
{
case 0:
nKey = VK_LBUTTON;
break;
case 1:
nKey = VK_RBUTTON;
break;
case 2:
nKey = VK_MBUTTON;
break;
case 3:
nKey = VK_XBUTTON1;
break;
case 4:
nKey = VK_XBUTTON2;
break;
}
bValueChanged = true;
ClearActiveID();
}
}
if (!bValueChanged)
{
for (int n = VK_BACK; n <= VK_RMENU; n++)
{
if (IsKeyDown((ImGuiKey)n))
{
nKey = n;
bValueChanged = true;
ClearActiveID();
}
}
}
if (IsKeyPressed(ImGuiKey_Escape))
{
*pValue = 0U;
ClearActiveID();
}
else
*pValue = nKey;
}
char szBuffer[64] = {};
char* szBufferEnd = CRT::StringCopy(szBuffer, " ");
if (*pValue != 0 && g.ActiveId != nIndex)
szBufferEnd = CRT::StringCat(szBufferEnd, arrKeyNames[*pValue]);
else if (g.ActiveId == nIndex)
szBufferEnd = CRT::StringCat(szBufferEnd, CS_XOR("press"));
else
szBufferEnd = CRT::StringCat(szBufferEnd, CS_XOR("none"));
CRT::StringCat(szBufferEnd, " ");
// modified by asphyxia
PushStyleVar(ImGuiStyleVar_FramePadding, ImVec2(style.FramePadding.x, -1));
const ImVec2 vecBufferSize = CalcTextSize(szBuffer);
RenderFrame(ImVec2(rectFrame.Max.x - vecBufferSize.x, rectTotal.Min.y), ImVec2(rectFrame.Max.x, rectTotal.Min.y + style.FramePadding.y + vecBufferSize.y), GetColorU32((bHovered || bClicked || bDoubleClicked) ? ImGuiCol_FrameBgHovered : ImGuiCol_FrameBg), true, style.FrameRounding);
pWindow->DrawList->AddText(ImVec2(rectFrame.Max.x - vecBufferSize.x, rectTotal.Min.y + style.FramePadding.y), GetColorU32(g.ActiveId == nIndex ? ImGuiCol_Text : ImGuiCol_TextDisabled), szBuffer);
if (vecLabelSize.x > 0.f)
RenderText(ImVec2(rectTotal.Min.x, rectTotal.Min.y + style.FramePadding.y), szLabel);
PopStyleVar();
return bValueChanged;
}
bool ImGui::HotKey(const char* szLabel, KeyBind_t* pKeyBind, const bool bAllowSwitch)
{
const bool bValueChanged = HotKey(szLabel, &pKeyBind->uKey);
if (bAllowSwitch)
{
char* szUniqueID = static_cast<char*>(MEM_STACKALLOC(CRT::StringLength(szLabel) + 6));
CRT::StringCat(CRT::StringCopy(szUniqueID, CS_XOR("key##")), szLabel);
if (IsItemClicked(ImGuiMouseButton_Right))
OpenPopup(szUniqueID);
if (BeginPopup(szUniqueID))
{
SetNextItemWidth(ImGui::GetWindowWidth() * 0.75f);
if (Combo(CS_XOR("##keybind.mode"), reinterpret_cast<int*>(&pKeyBind->nMode), CS_XOR("Hold\0Toggle\0\0")))
CloseCurrentPopup();
EndPopup();
}
MEM_STACKFREE(szUniqueID);
}
return bValueChanged;
}
bool ImGui::MultiCombo(const char* szLabel, unsigned int* pFlags, const char* const* arrItems, int nItemsCount)
{
ImGuiContext& g = *GImGui;
ImGuiWindow* pWindow = g.CurrentWindow;
if (pWindow->SkipItems)
return false;
IM_ASSERT(nItemsCount < 32); // bitflags shift overflow, decrease items count or change variable type
const ImGuiStyle& style = g.Style;
const ImVec2 vecLabelSize = CalcTextSize(szLabel, nullptr, true);
const float flActiveWidth = CalcItemWidth() - (vecLabelSize.x > 0.0f ? style.ItemInnerSpacing.x + GetFrameHeight() : 0.0f);
std::vector<const char*> vecActiveItems = {};
// collect active items
for (int i = 0; i < nItemsCount; i++)
{
if (*pFlags & (1 << i))
vecActiveItems.push_back(arrItems[i]);
}
// fuck it, stl still haven't boost::join, fmt::join replacement
std::string strBuffer = {};
for (std::size_t i = 0U; i < vecActiveItems.size(); i++)
{
strBuffer.append(vecActiveItems[i]);
if (i < vecActiveItems.size() - 1U)
strBuffer.append(", ");
}
if (strBuffer.empty())
strBuffer.assign("none");
else
{
const char* szWrapPosition = g.Font->CalcWordWrapPositionA(GetCurrentWindow()->FontWindowScale, strBuffer.data(), strBuffer.data() + strBuffer.length(), flActiveWidth - style.FramePadding.x * 2.0f);
const std::size_t nWrapLength = szWrapPosition - strBuffer.data();
if (nWrapLength > 0U && nWrapLength < strBuffer.length())
{
strBuffer.resize(nWrapLength);
strBuffer.append("...");
}
}
bool bValueChanged = false;
if (BeginCombo(szLabel, strBuffer.c_str()))
{
for (int i = 0; i < nItemsCount; i++)
{
const int nCurrentFlag = (1 << i);
if (Selectable(arrItems[i], (*pFlags & nCurrentFlag), ImGuiSelectableFlags_DontClosePopups))
{
// flip bitflag
*pFlags ^= nCurrentFlag;
bValueChanged = true;
}
}
EndCombo();
}
return bValueChanged;
}
bool ImGui::BeginListBox(const char* szLabel, int nItemsCount, int nHeightInItems)
{
float height = GetTextLineHeightWithSpacing() * ((nHeightInItems < 0 ? ImMin(nItemsCount, 7) : nHeightInItems) + 0.25f) + GetStyle().FramePadding.y * 2.0f;
return BeginListBox(szLabel, ImVec2(0.0f, height));
}
bool ImGui::ColorEdit3(const char* szLabel, Color_t* pColor, ImGuiColorEditFlags flags)
{
return ColorEdit4(szLabel, pColor, flags | ImGuiColorEditFlags_NoAlpha);
}
bool ImGui::ColorEdit4(const char* szLabel, Color_t* pColor, ImGuiColorEditFlags flags)
{
float arrColor[4];
pColor->BaseAlpha(arrColor);
if (ColorEdit4(szLabel, &arrColor[0], flags))
{
*pColor = Color_t::FromBase4(arrColor);
return true;
}
return false;
}
bool ImGui::ColorEdit3(const char* szLabel, ColorPickerVar_t* pColor, ImGuiColorEditFlags flags)
{
return ColorEdit4(szLabel, pColor, flags | ImGuiColorEditFlags_NoAlpha);
}
bool ImGui::ColorEdit4(const char* szLabel, ColorPickerVar_t* pColorVar, ImGuiColorEditFlags flags)
{
const bool bResult = ColorEdit4(szLabel, &pColorVar->colValue, flags);
// switch rainbow mode on middle mouse click
if (IsItemHovered())
{
// tooltip for turn on/off rainbow mode
BeginTooltip();
{
PushTextWrapPos(450.f);
TextUnformatted(CS_XOR("use mouse middle-click to turn on/off rainbow mode!"));
PopTextWrapPos();
}
EndTooltip();
if (IsMouseClicked(ImGuiMouseButton_Middle))
pColorVar->bRainbow = !pColorVar->bRainbow;
}
// open the context popup
OpenPopupOnItemClick(CS_XOR("context##color.picker"), ImGuiPopupFlags_MouseButtonRight);
// @todo: cleaner code
SetNextWindowSize(ImVec2((pColorVar->bRainbow ? 120.f : 60.f) * D::CalculateDPI(C_GET(int, Vars.nDpiScale)), 0.f));
if (BeginPopup(CS_XOR("context##color.picker")))
{
if (Button(CS_XOR("copy##color.picker"), ImVec2(-1, 15 * D::CalculateDPI(C_GET(int, Vars.nDpiScale)))))
{
// @todo: im32 hex format is AARRGGBB, but we need RRGGBBAA
CRT::String_t<64U> szBuffer(CS_XOR("#%X"), pColorVar->colValue.GetU32());
SetClipboardText(szBuffer.Data());
szBuffer.Clear();
CloseCurrentPopup();
}
if (Button(CS_XOR("paste##color.picker"), ImVec2(-1, 15 * D::CalculateDPI(C_GET(int, Vars.nDpiScale)))))
{
const char* szClipboardText = GetClipboardText();
// @note: +1U for '#' prefix skipping
const ImU32 uConvertedColor = CRT::StringToInteger<ImU32>(szClipboardText + 1U, nullptr, 16);
pColorVar->colValue = Color_t(uConvertedColor);
CloseCurrentPopup();
}
if (pColorVar->bRainbow)
{
// @note: urgh padding moment idk
SetNextItemWidth(ImGui::GetWindowWidth() * 0.90f + 1.f);
SliderFloat(CS_XOR("##speed.color.picker"), &pColorVar->flRainbowSpeed, 0.f, 5.f, CS_XOR("speed: %.1f"), ImGuiSliderFlags_AlwaysClamp);
}
EndPopup();
}
return bResult;
}
#pragma endregion
// thread-safe draw data mutex
static SRWLOCK drawLock = {};
static void* __cdecl ImGuiAllocWrapper(const std::size_t nSize, [[maybe_unused]] void* pUserData = nullptr)
{
return MEM::HeapAlloc(nSize);
}
static void __cdecl ImGuiFreeWrapper(void* pMemory, [[maybe_unused]] void* pUserData = nullptr) noexcept
{
MEM::HeapFree(pMemory);
}
bool D::Setup(HWND hWnd, ID3D11Device* pDevice, ID3D11DeviceContext* pContext)
{
// check is it were already initialized
if (bInitialized)
return true;
ImGui::SetAllocatorFunctions(ImGuiAllocWrapper, ImGuiFreeWrapper);
ImGui::CreateContext();
// setup platform and renderer bindings
if (!ImGui_ImplWin32_Init(hWnd))
return false;
if (!ImGui_ImplDX11_Init(pDevice, pContext))
return false;
// create draw data containers
pDrawListActive = IM_NEW(ImDrawList)(ImGui::GetDrawListSharedData());
pDrawListSafe = IM_NEW(ImDrawList)(ImGui::GetDrawListSharedData());
pDrawListRender = IM_NEW(ImDrawList)(ImGui::GetDrawListSharedData());
// setup styles
#pragma region draw_setup_style
ImGuiStyle& style = ImGui::GetStyle();
style.Alpha = 1.0f;
style.WindowPadding = ImVec2(8, 8);
style.WindowRounding = 4.0f;
style.WindowBorderSize = 1.0f;
style.WindowMinSize = ImVec2(32, 32);
style.WindowTitleAlign = ImVec2(0.5f, 0.5f);
style.ChildRounding = 4.0f;
style.ChildBorderSize = 1.0f;
style.PopupRounding = 4.0f;
style.PopupBorderSize = 1.0f;
style.FramePadding = ImVec2(4, 2);
style.FrameRounding = 4.0f;
style.FrameBorderSize = 1.0f;
style.ItemSpacing = ImVec2(8, 4);
style.ItemInnerSpacing = ImVec2(4, 4);
style.IndentSpacing = 6.0f;
style.ColumnsMinSpacing = 6.0f;
style.ScrollbarSize = 6.0f;
style.ScrollbarRounding = 9.0f;
style.GrabMinSize = 0.0f;
style.GrabRounding = 4.0f;
style.TabRounding = 4.0f;
style.TabBorderSize = 1.0f;
style.ButtonTextAlign = ImVec2(0.5f, 0.5f);
style.SelectableTextAlign = ImVec2(0.0f, 0.5f);
style.WindowShadowSize = 0.f;
style.AntiAliasedLines = true;
style.AntiAliasedFill = true;
style.AntiAliasedLinesUseTex = true;
style.ColorButtonPosition = ImGuiDir_Right;
#pragma endregion
ImGuiIO& io = ImGui::GetIO();
static const ImWchar icons_ranges[] = { ICON_MIN_FA, ICON_MAX_FA, 0 };
ImFontConfig icons_config;
icons_config.MergeMode = true;
icons_config.PixelSnapH = true;
icons_config.FontDataOwnedByAtlas = false;
io.ConfigFlags |= ImGuiConfigFlags_NoMouseCursorChange;
ImFontConfig imVerdanaConfig;
imVerdanaConfig.FontBuilderFlags = ImGuiFreeTypeBuilderFlags_LightHinting;
for (int i = 0; i < CS_ARRAYSIZE(FONT::pMenu); i++)
{
const float flFontSize = 12.f * CalculateDPI(i);
FONT::pMenu[i] = io.Fonts->AddFontFromFileTTF(CS_XOR("C:\\Windows\\Fonts\\Verdana.ttf"), flFontSize, &imVerdanaConfig, io.Fonts->GetGlyphRangesCyrillic());
io.Fonts->AddFontFromMemoryTTF((void*)fa_solid_900, sizeof(fa_solid_900), flFontSize, &icons_config, icons_ranges);
}
imVerdanaConfig.FontBuilderFlags = ImGuiFreeTypeBuilderFlags_Bold;
FONT::pExtra = io.Fonts->AddFontFromFileTTF(CS_XOR("C:\\Windows\\Fonts\\Verdana.ttf"), 14.f, &imVerdanaConfig, io.Fonts->GetGlyphRangesCyrillic());
ImFontConfig imTahomaConfig;
imTahomaConfig.FontBuilderFlags = ImGuiFreeTypeBuilderFlags_LightHinting;
FONT::pVisual = io.Fonts->AddFontFromFileTTF(CS_XOR("C:\\Windows\\Fonts\\Tahoma.ttf"), 14.f, &imTahomaConfig, io.Fonts->GetGlyphRangesCyrillic());
io.Fonts->FontBuilderFlags = ImGuiFreeTypeBuilderFlags_LightHinting;
bInitialized = io.Fonts->Build();
return bInitialized;
}
void D::Destroy()
{
// check is it already destroyed or wasn't initialized at all
if (!bInitialized)
return;
// free draw data containers
IM_DELETE(pDrawListActive);
IM_DELETE(pDrawListSafe);
IM_DELETE(pDrawListRender);
// shutdown imgui directx9 renderer binding
ImGui_ImplDX11_Shutdown();
// shutdown imgui win32 platform binding
ImGui_ImplWin32_Shutdown();
// destroy imgui context
ImGui::DestroyContext();
bInitialized = false;
}
#pragma region draw_callbacks
extern IMGUI_IMPL_API LRESULT ImGui_ImplWin32_WndProcHandler(HWND hWnd, UINT uMsg, WPARAM wParam, LPARAM lParam);
bool D::OnWndProc(HWND hWnd, UINT uMsg, WPARAM wParam, LPARAM lParam)
{
// check is drawing initialized
if (!bInitialized)
return false;
IPT::OnWndProc(hWnd, uMsg, wParam, lParam);
// switch menu state
if (IPT::IsKeyReleased(C_GET(unsigned int, Vars.nMenuKey)))
{
MENU::bMainWindowOpened = !MENU::bMainWindowOpened;
// update animation
MENU::animMenuDimBackground.Switch();
// handle IsRelativeMouseMode original
const auto oIsRelativeMouseMode = H::hkIsRelativeMouseMode.GetOriginal();
oIsRelativeMouseMode(I::InputSystem, MENU::bMainWindowOpened ? false : MENU::bMainActive);
}
// handle ImGui's window messages and block game's input if menu is opened
return ImGui_ImplWin32_WndProcHandler(hWnd, uMsg, wParam, lParam) || MENU::bMainWindowOpened;
}
void D::NewFrame()
{
ImGui_ImplDX11_NewFrame();
ImGui_ImplWin32_NewFrame();
ImGui::NewFrame();
}
void D::Render()
{
ImGui::Render();
RenderDrawData(ImGui::GetDrawData());
ImGui_ImplDX11_RenderDrawData(ImGui::GetDrawData());
}
#pragma endregion
#pragma region draw_main
void D::RenderDrawData(ImDrawData* pDrawData)
{
if (::TryAcquireSRWLockExclusive(&drawLock))
{
*pDrawListRender = *pDrawListSafe;
::ReleaseSRWLockExclusive(&drawLock);
}
if (pDrawListRender->CmdBuffer.empty())
return;
// remove trailing command if unused
// @note: equivalent to pDrawList->_PopUnusedDrawCmd()
if (const ImDrawCmd& lastCommand = pDrawListRender->CmdBuffer.back(); lastCommand.ElemCount == 0 && lastCommand.UserCallback == nullptr)
{
pDrawListRender->CmdBuffer.pop_back();
if (pDrawListRender->CmdBuffer.empty())
return;
}
ImGuiContext* pContext = ImGui::GetCurrentContext();
ImGuiViewportP* pViewport = pContext->Viewports[0];
ImVector<ImDrawList*>* vecDrawLists = pViewport->DrawDataBuilder.Layers[0];
vecDrawLists->push_front(pDrawListRender); // this one being most background
pDrawData->CmdLists.push_front(pDrawListRender);
pDrawData->CmdListsCount = vecDrawLists->Size;
pDrawData->TotalVtxCount += pDrawListRender->VtxBuffer.Size;
pDrawData->TotalIdxCount += pDrawListRender->IdxBuffer.Size;
}
void D::ResetDrawData()
{
pDrawListActive->_ResetForNewFrame();
pDrawListActive->PushTextureID(ImGui::GetIO().Fonts->TexID);
pDrawListActive->PushClipRectFullScreen();
}
void D::SwapDrawData()
{
::AcquireSRWLockExclusive(&drawLock);
IM_ASSERT(pDrawListActive->VtxBuffer.Size == 0 || pDrawListActive->_VtxWritePtr == pDrawListActive->VtxBuffer.Data + pDrawListActive->VtxBuffer.Size);
IM_ASSERT(pDrawListActive->IdxBuffer.Size == 0 || pDrawListActive->_IdxWritePtr == pDrawListActive->IdxBuffer.Data + pDrawListActive->IdxBuffer.Size);
if (!(pDrawListActive->Flags & ImDrawListFlags_AllowVtxOffset))
IM_ASSERT(static_cast<int>(pDrawListActive->_VtxCurrentIdx) == pDrawListActive->VtxBuffer.Size);
*pDrawListSafe = *pDrawListActive;
::ReleaseSRWLockExclusive(&drawLock);
}
#pragma endregion
#pragma region draw_bindings
bool D::WorldToScreen(const Vector_t& vecOrigin, ImVec2* pvecScreen)
{
const float flWidth = SDK::ViewMatrix[3][0] * vecOrigin.x + SDK::ViewMatrix[3][1] * vecOrigin.y + SDK::ViewMatrix[3][2] * vecOrigin.z + SDK::ViewMatrix[3][3];
// check is point can't fit on screen, because it's behind us
if (flWidth < 0.001f)
return false;
// compute the scene coordinates of a point in 3D
const float flInverse = 1.0f / flWidth;
pvecScreen->x = (SDK::ViewMatrix[0][0] * vecOrigin.x + SDK::ViewMatrix[0][1] * vecOrigin.y + SDK::ViewMatrix[0][2] * vecOrigin.z + SDK::ViewMatrix[0][3]) * flInverse;
pvecScreen->y = (SDK::ViewMatrix[1][0] * vecOrigin.x + SDK::ViewMatrix[1][1] * vecOrigin.y + SDK::ViewMatrix[1][2] * vecOrigin.z + SDK::ViewMatrix[1][3]) * flInverse;
// screen transform
// get the screen position in pixels of given point
const ImVec2 vecDisplaySize = ImGui::GetIO().DisplaySize;
pvecScreen->x = (vecDisplaySize.x * 0.5f) + (pvecScreen->x * vecDisplaySize.x) * 0.5f;
pvecScreen->y = (vecDisplaySize.y * 0.5f) - (pvecScreen->y * vecDisplaySize.y) * 0.5f;
return true;
}
float D::CalculateDPI(const int nScaleTarget)
{
switch ((EMiscDpiScale)nScaleTarget)
{
case EMiscDpiScale::MISC_DPISCALE_DEFAULT:
return 1.f;
case EMiscDpiScale::MISC_DPISCALE_125:
return 1.25f;
case EMiscDpiScale::MISC_DPISCALE_150:
return 1.5f;
case EMiscDpiScale::MISC_DPISCALE_175:
return 1.75f;
case EMiscDpiScale::MISC_DPISCALE_200:
return 2.f;
default:
return 1.f;
}
}
void D::AddDrawListRect(ImDrawList* pDrawList, const ImVec2& vecMin, const ImVec2& vecMax, const Color_t& colRect, const unsigned int uFlags, const Color_t& colOutline, const float flRounding, const ImDrawFlags roundingCorners, float flThickness, const float flOutlineThickness)
{
if (pDrawList == nullptr)
pDrawList = pDrawListActive;
const ImU32 colRectPacked = colRect.GetU32();
const ImU32 colOutlinePacked = colOutline.GetU32();
if (uFlags & DRAW_RECT_FILLED)
pDrawList->AddRectFilled(vecMin, vecMax, colRectPacked, flRounding, roundingCorners);
else
{
pDrawList->AddRect(vecMin, vecMax, colRectPacked, flRounding, roundingCorners, flThickness);
flThickness *= 0.5f;
}
const float flHalfOutlineThickness = flOutlineThickness * 0.5f;
const ImVec2 vecThicknessOffset = { flThickness + flHalfOutlineThickness, flThickness + flHalfOutlineThickness };
if (uFlags & DRAW_RECT_BORDER)
pDrawList->AddRect(vecMin + vecThicknessOffset, vecMax - vecThicknessOffset, colOutlinePacked, flRounding, roundingCorners, flOutlineThickness);
if (uFlags & DRAW_RECT_OUTLINE)
pDrawList->AddRect(vecMin - vecThicknessOffset, vecMax + vecThicknessOffset, colOutlinePacked, flRounding, roundingCorners, flOutlineThickness);
}
void D::AddDrawListRectMultiColor(ImDrawList* pDrawList, const ImVec2& vecMin, const ImVec2& vecMax, const Color_t& colUpperLeft, const Color_t& colUpperRight, const Color_t& colBottomRight, const Color_t& colBottomLeft)
{
if (pDrawList == nullptr)
pDrawList = pDrawListActive;
pDrawList->AddRectFilledMultiColor(vecMin, vecMax, colUpperLeft.GetU32(), colUpperRight.GetU32(), colBottomRight.GetU32(), colBottomLeft.GetU32());
}
void D::AddDrawListCircle(ImDrawList* pDrawList, const ImVec2& vecCenter, const float flRadius, const Color_t& colCircle, const int nSegments, const unsigned int uFlags, const Color_t& colOutline, float flThickness, const float flOutlineThickness)
{
if (pDrawList == nullptr)
pDrawList = pDrawListActive;
const ImU32 colCirclePacked = colCircle.GetU32();
if (uFlags & DRAW_CIRCLE_FILLED)
{
pDrawList->AddCircleFilled(vecCenter, flRadius, colCirclePacked, nSegments);
flThickness = 0.0f;
}
else
pDrawList->AddCircle(vecCenter, flRadius, colCirclePacked, nSegments, flThickness);
if (uFlags & DRAW_CIRCLE_OUTLINE)
pDrawList->AddCircle(vecCenter, flRadius + flOutlineThickness, colOutline.GetU32(), nSegments, flThickness + flOutlineThickness);
}
void D::AddDrawListArc(ImDrawList* pDrawList, const ImVec2& vecPosition, const float flRadius, const float flMinimumAngle, const float flMaximumAngle, const Color_t& colArc, const float flThickness)
{
if (pDrawList == nullptr)
pDrawList = pDrawListActive;
pDrawList->PathArcTo(vecPosition, flRadius, M_DEG2RAD(flMinimumAngle), M_DEG2RAD(flMaximumAngle), 32);
pDrawList->PathStroke(colArc.GetU32(), false, flThickness);
}
void D::AddDrawListLine(ImDrawList* pDrawList, const ImVec2& vecFirst, const ImVec2& vecSecond, const Color_t& colLine, const float flThickness)
{
if (pDrawList == nullptr)
pDrawList = pDrawListActive;
pDrawList->AddLine(vecFirst, vecSecond, colLine.GetU32(), flThickness);
}
void D::AddDrawListTriangle(ImDrawList* pDrawList, const ImVec2& vecFirst, const ImVec2& vecSecond, const ImVec2& vecThird, const Color_t& colTriangle, const unsigned int uFlags, const Color_t& colOutline, const float flThickness)
{
if (pDrawList == nullptr)
pDrawList = pDrawListActive;
const ImU32 colTrianglePacked = colTriangle.GetU32();
if (uFlags & DRAW_TRIANGLE_FILLED)
pDrawList->AddTriangleFilled(vecFirst, vecSecond, vecThird, colTrianglePacked);
else
pDrawList->AddTriangle(vecFirst, vecSecond, vecThird, colTrianglePacked, flThickness);
if (uFlags & DRAW_TRIANGLE_OUTLINE)
pDrawList->AddTriangle(vecFirst, vecSecond, vecThird, colOutline.GetU32(), flThickness + 1.0f);
}
void D::AddDrawListQuad(ImDrawList* pDrawList, const ImVec2& vecFirst, const ImVec2& vecSecond, const ImVec2& vecThird, const ImVec2& vecFourth, const Color_t& colQuad, const unsigned int uFlags, const Color_t& colOutline, const float flThickness)
{
if (pDrawList == nullptr)
pDrawList = pDrawListActive;
const ImU32 colQuadPacked = colQuad.GetU32();
if (uFlags & DRAW_QUAD_FILLED)
pDrawList->AddQuadFilled(vecFirst, vecSecond, vecThird, vecFourth, colQuadPacked);
else
pDrawList->AddQuad(vecFirst, vecSecond, vecThird, vecFourth, colQuadPacked, flThickness);
if (uFlags & DRAW_QUAD_OUTLINE)
pDrawList->AddQuad(vecFirst, vecSecond, vecThird, vecFourth, colOutline.GetU32(), flThickness + 1.0f);
}
void D::AddDrawListPolygon(ImDrawList* pDrawList, const ImVec2* vecPoints, const int nPointsCount, const Color_t& colPolygon, unsigned int uFlags, const Color_t& colOutline, const bool bClosed, const float flThickness)
{
if (pDrawList == nullptr)
pDrawList = pDrawListActive;
const ImU32 colPolygonPacked = colPolygon.GetU32();
if (uFlags & DRAW_POLYGON_FILLED)
pDrawList->AddConvexPolyFilled(vecPoints, nPointsCount, colPolygonPacked);
else
pDrawList->AddPolyline(vecPoints, nPointsCount, colPolygonPacked, bClosed, flThickness);
if (uFlags & DRAW_POLYGON_OUTLINE)
pDrawList->AddPolyline(vecPoints, nPointsCount, colOutline.GetU32(), bClosed, flThickness + 1.0f);
}
void D::AddDrawListText(ImDrawList* pDrawList, const ImFont* pFont, const ImVec2& vecPosition, const char* szText, const Color_t& colText, const unsigned int uFlags, const Color_t& colOutline, const float flThickness)
{
if (pDrawList == nullptr)
pDrawList = pDrawListActive;
// set font texture
pDrawList->PushTextureID(pFont->ContainerAtlas->TexID);
const ImU32 colOutlinePacked = colOutline.GetU32();
if (uFlags & DRAW_TEXT_DROPSHADOW)
pDrawList->AddText(pFont, pFont->FontSize, vecPosition + ImVec2(flThickness, flThickness), colOutlinePacked, szText);
else if (uFlags & DRAW_TEXT_OUTLINE)
{
pDrawList->AddText(pFont, pFont->FontSize, vecPosition + ImVec2(flThickness, -flThickness), colOutlinePacked, szText);
pDrawList->AddText(pFont, pFont->FontSize, vecPosition + ImVec2(-flThickness, flThickness), colOutlinePacked, szText);
}
pDrawList->AddText(pFont, pFont->FontSize, vecPosition, colText.GetU32(), szText);
pDrawList->PopTextureID();
}
void D::AddDrawListShadowRect(ImDrawList* pDrawList, const ImVec2& vecMin, const ImVec2& vecMax, const Color_t& colShadow, float flThickness, float flRounding, ImDrawFlags roundingCorners)
{
if (pDrawList == nullptr)
pDrawList = pDrawListActive;
pDrawList->AddShadowRect(vecMin, vecMax, colShadow.GetU32(), flThickness, ImVec2(0, 0), roundingCorners, flRounding);
}
#pragma endregion
#pragma region draw_structures
void AnimationHandler_t::Update(const float flDeltaTime, const float flDuration)
{
if (fnEaseIn == nullptr)
fnEaseIn = &EASING::InSine;
if (fnEaseOut == nullptr)
fnEaseOut = &EASING::OutSine;
// Reset the elapsed time if the bool switches
if (bSwitch != bLastSwitch)
flElapsedTime = 0;
flElapsedTime = MATH::Max(0.0f, MATH::Min(flElapsedTime, flDuration));
float flTime = flElapsedTime / flDuration;
// Determine the initial and target value based on the current state
float flInitialValue = bSwitch ? 0.1f : flValue;
float flTargetValue = bSwitch ? 1.0f : 0.1f; /*(1.0f is max value)*/
// Select the appropriate easing function based on the current state
EasingFunction_t fnCurrentEase = bSwitch ? fnEaseIn : fnEaseOut;
// Apply the appropriate easing function based on fade-in or fade-out (with lerping, which is basically what's the math were doing)
flValue = (flInitialValue + (flTargetValue - flInitialValue)) * (float)fnCurrentEase(flTime);
flValue = MATH::Clamp(flValue, 0.1f, 1.0f);
flElapsedTime += flDeltaTime;
bLastSwitch = bSwitch;
}
#pragma endregion

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#pragma once
// used: [d3d]
#include <d3d11.h>
#include "../common.h"
#include "../sdk/datatypes/color.h"
#include "../sdk/datatypes/vector.h"
// used: [ext] imgui
#include "../../dependencies/imgui/imgui.h"
#include "../../dependencies/imgui/imgui_internal.h"
// forward declarations
struct KeyBind_t;
#pragma region draw_objects_enumerations
enum ERectRenderFlags : unsigned int
{
DRAW_RECT_NONE = 0,
DRAW_RECT_OUTLINE = (1 << 0),
DRAW_RECT_BORDER = (1 << 1),
DRAW_RECT_FILLED = (1 << 2)
};
enum ECircleRenderFlags : unsigned int
{
DRAW_CIRCLE_NONE = 0,
DRAW_CIRCLE_OUTLINE = (1 << 0),
DRAW_CIRCLE_FILLED = (1 << 1)
};
enum ETriangleRenderFlags : unsigned int
{
DRAW_TRIANGLE_NONE = 0,
DRAW_TRIANGLE_OUTLINE = (1 << 0),
DRAW_TRIANGLE_FILLED = (1 << 1)
};
enum EQuadRenderFlags : unsigned int
{
DRAW_QUAD_NONE = 0,
DRAW_QUAD_OUTLINE = (1 << 0),
DRAW_QUAD_FILLED = (1 << 1)
};
enum EPolygonRenderFlags : unsigned int
{
DRAW_POLYGON_NONE = 0,
DRAW_POLYGON_OUTLINE = (1 << 0),
DRAW_POLYGON_FILLED = (1 << 1)
};
enum ETextRenderFlags : unsigned int
{
DRAW_TEXT_NONE = 0,
DRAW_TEXT_DROPSHADOW = (1 << 0),
DRAW_TEXT_OUTLINE = (1 << 1)
};
#pragma endregion
#pragma region draw_structures
// predefined custom user type
struct ColorPickerVar_t;
typedef double (*EasingFunction_t)(double);
struct AnimationHandler_t
{
// default: ease::in/outsine
AnimationHandler_t(EasingFunction_t fnIn = nullptr, EasingFunction_t fnOut = nullptr) :
fnEaseIn(fnIn), fnEaseOut(fnOut), bSwitch(false), bLastSwitch(false), flElapsedTime(0.f), flValue(0.1f){};
~AnimationHandler_t() = default;
// Has to be called every frame
void Update(const float flDeltaTime, const float flDuration);
// Get the current value multiplied by a scale
float GetValue(float flScale = 1.0f)
{
return flValue * flScale;
}
const bool GetSwitch() const
{
return bSwitch;
}
// switch state
void Switch()
{
bSwitch = !bSwitch;
}
void SetSwitch(const bool bState)
{
bSwitch = bState;
}
private:
// Set to true for ease-in animation, false for ease-out
bool bSwitch = 0;
bool bLastSwitch = bSwitch;
float flElapsedTime = 0.f;
// Current value of the animation
float flValue = 0.1f;
// Ease in and out functions Declaration
EasingFunction_t fnEaseIn = nullptr;
EasingFunction_t fnEaseOut = nullptr;
};
#pragma endregion
/*
* FONTS
*/
namespace FONT
{
// 0. verdana, size: 12px * scaledDPI(1.0f->2.0f); lighthinting
inline ImFont* pMenu[5];
// 1. verdana, size: 14px; bold
inline ImFont* pExtra;
// 2. tahoma, size: 16px; lighthinting
inline ImFont* pVisual;
}
// extended imgui functionality
namespace ImGui
{
/* @section: main */
void HelpMarker(const char* szDescription);
bool HotKey(const char* szLabel, unsigned int* pValue);
bool HotKey(const char* szLabel, KeyBind_t* pKeyBind, const bool bAllowSwitch = true);
bool MultiCombo(const char* szLabel, unsigned int* pFlags, const char* const* arrItems, int nItemsCount);
bool BeginListBox(const char* szLabel, int nItemsCount, int nHeightInItems = -1);
/* @section: wrappers */
bool ColorEdit3(const char* szLabel, Color_t* pColor, ImGuiColorEditFlags flags = ImGuiColorEditFlags_NoInputs | ImGuiColorEditFlags_NoTooltip | ImGuiColorEditFlags_NoSidePreview | ImGuiColorEditFlags_DisplayHex);
bool ColorEdit4(const char* szLabel, Color_t* pColor, ImGuiColorEditFlags flags = ImGuiColorEditFlags_NoInputs | ImGuiColorEditFlags_NoTooltip | ImGuiColorEditFlags_NoSidePreview | ImGuiColorEditFlags_DisplayHex | ImGuiColorEditFlags_AlphaBar);
bool ColorEdit3(const char* szLabel, ColorPickerVar_t* pColor, ImGuiColorEditFlags flags = ImGuiColorEditFlags_NoInputs | ImGuiColorEditFlags_NoTooltip | ImGuiColorEditFlags_NoSidePreview | ImGuiColorEditFlags_DisplayHex);
bool ColorEdit4(const char* szLabel, ColorPickerVar_t* pColorVar, ImGuiColorEditFlags flags = ImGuiColorEditFlags_NoInputs | ImGuiColorEditFlags_NoTooltip | ImGuiColorEditFlags_NoSidePreview | ImGuiColorEditFlags_DisplayHex | ImGuiColorEditFlags_AlphaBar);
}
/*
* DRAW
* - rendering framework
*/
namespace D
{
// initialize rendering engine, create fonts, set styles etc
bool Setup(HWND hWnd, ID3D11Device* pDevice, ID3D11DeviceContext* pContext);
// shutdown rendering engine
void Destroy();
/* @section: callbacks */
// handle input window message and save keys states in array
bool OnWndProc(HWND hWnd, UINT uMsg, WPARAM wParam, LPARAM lParam);
/* @section: main */
// render primitives by stored safe data
void RenderDrawData(ImDrawData* pDrawData);
// reset active draw data container
void ResetDrawData();
// swap active draw data container to safe one
void SwapDrawData();
// call it before rendering
void NewFrame();
// call to render all primitives
void Render();
/* @section: get */
/// convert world space to screen space coordinates by game's conversion matrix
/// @param[out] pvecScreen output for converted screen position
/// @returns: true if converted coordinates fit into display size, false otherwise
bool WorldToScreen(const Vector_t& vecOrigin, ImVec2* pvecScreen);
float CalculateDPI(const int nScaleTarget = 0);
/* @section: bindings */
void AddDrawListRect(ImDrawList* pDrawList, const ImVec2& vecMin, const ImVec2& vecMax, const Color_t& colRect, const unsigned int uFlags = DRAW_RECT_NONE, const Color_t& colOutline = Color_t(0, 0, 0, 255), const float flRounding = 0.f, const ImDrawFlags roundingCorners = ImDrawFlags_RoundCornersAll, float flThickness = 1.0f, const float flOutlineThickness = 1.0f);
void AddDrawListRectMultiColor(ImDrawList* pDrawList, const ImVec2& vecMin, const ImVec2& vecMax, const Color_t& colUpperLeft, const Color_t& colUpperRight, const Color_t& colBottomRight, const Color_t& colBottomLeft);
void AddDrawListCircle(ImDrawList* pDrawList, const ImVec2& vecCenter, const float flRadius, const Color_t& colCircle, const int nSegments, const unsigned int uFlags = DRAW_CIRCLE_NONE, const Color_t& colOutline = Color_t(0, 0, 0, 255), const float flThickness = 1.0f, const float flOutlineThickness = 1.0f);
void AddDrawListArc(ImDrawList* pDrawList, const ImVec2& vecPosition, const float flRadius, const float flMinimumAngle, const float flMaximumAngle, const Color_t& colArc = Color_t(255, 255, 255, 255), const float flThickness = 1.0f);
void AddDrawListLine(ImDrawList* pDrawList, const ImVec2& vecFirst, const ImVec2& vecSecond, const Color_t& colLine, const float flThickness = 1.0f);
void AddDrawListTriangle(ImDrawList* pDrawList, const ImVec2& vecFirst, const ImVec2& vecSecond, const ImVec2& vecThird, const Color_t& colTriangle, const unsigned int uFlags = DRAW_TRIANGLE_NONE, const Color_t& colOutline = Color_t(0, 0, 0, 255), const float flThickness = 0.f);
void AddDrawListQuad(ImDrawList* pDrawList, const ImVec2& vecFirst, const ImVec2& vecSecond, const ImVec2& vecThird, const ImVec2& vecFourth, const Color_t& colQuad, const unsigned int uFlags = DRAW_QUAD_NONE, const Color_t& colOutline = Color_t(0, 0, 0, 255), const float flThickness = 0.f);
void AddDrawListPolygon(ImDrawList* pDrawList, const ImVec2* vecPoints, const int nPointsCount, const Color_t& colPolygon, unsigned int uFlags = DRAW_POLYGON_NONE, const Color_t& colOutline = Color_t(0, 0, 0, 255), const bool bClosed = true, const float flThickness = 1.0f);
void AddDrawListText(ImDrawList* pDrawList, const ImFont* pFont, const ImVec2& vecPosition, const char* szText, const Color_t& colText, const unsigned int uFlags = DRAW_TEXT_NONE, const Color_t& colOutline = Color_t(0, 0, 0, 255), const float flThickness = 1.0f);
void AddDrawListShadowRect(ImDrawList* pDrawList, const ImVec2& vecMin, const ImVec2& vecMax, const Color_t& colShadow, float flThickness = 32.f, float flRounding = 0.0f, ImDrawFlags roundingCorners = ImDrawFlags_RoundCornersAll);
/* @section: values */
// rendering engine initialization state
inline bool bInitialized = false;
// active draw data container used to store
inline ImDrawList* pDrawListActive = nullptr;
// safe draw data container
inline ImDrawList* pDrawListSafe = nullptr;
// actual draw data container used to render
inline ImDrawList* pDrawListRender = nullptr;
}

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