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base: admin:v5.0.0
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admin:main admin:feature/bvh_tree admin:feature/physx admin:feature/vmprotect-sdk-integration
admin:v5.1.1 admin:v5.1.0 admin:v5.1.0.rc6 admin:v5.1.0.rc5 admin:v5.1.0.rc4 admin:v5.1.0.rc3 admin:v5.1.0.rc2 admin:v5-ci-test admin:v5.1.0.rc1 admin:v5.0.0 admin:v4.7.0 admin:v4.6.1 admin:v4.6.0 admin:v4.5.1 admin:v4.5.0 admin:v4.4.0 admin:v4.3.0 admin:v4.2.0 admin:v4.1.0 admin:v4.0.1 admin:v3.10.1 admin:v3.9.4 admin:v3.9.3 admin:v3.9.0 admin:v3.8.2 admin:v3.8.1 admin:v3.6.1 admin:v3.5.1 admin:v3.2.3 admin:v3.0.3 admin:v2.3.2 admin:v2.3.1 admin:v2.3.0 admin:v2.2.1 admin:v2.2.0 admin:v2.1.1 admin:v2.1.0 admin:v2.0.2 admin:v2.0.1 admin:v2.0.0 admin:v1.3.0 admin:v1.2.0 admin:v1.1.3 admin:v1.1.2 admin:v1.1.1 admin:v1.1.0 admin:v1.0.1 admin:v1.0.0
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compare: admin:v5.1.0.rc2
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admin:main admin:feature/bvh_tree admin:feature/physx admin:feature/vmprotect-sdk-integration
admin:v5.1.1 admin:v5.1.0 admin:v5.1.0.rc6 admin:v5.1.0.rc5 admin:v5.1.0.rc4 admin:v5.1.0.rc3 admin:v5.1.0.rc2 admin:v5-ci-test admin:v5.1.0.rc1 admin:v5.0.0 admin:v4.7.0 admin:v4.6.1 admin:v4.6.0 admin:v4.5.1 admin:v4.5.0 admin:v4.4.0 admin:v4.3.0 admin:v4.2.0 admin:v4.1.0 admin:v4.0.1 admin:v3.10.1 admin:v3.9.4 admin:v3.9.3 admin:v3.9.0 admin:v3.8.2 admin:v3.8.1 admin:v3.6.1 admin:v3.5.1 admin:v3.2.3 admin:v3.0.3 admin:v2.3.2 admin:v2.3.1 admin:v2.3.0 admin:v2.2.1 admin:v2.2.0 admin:v2.1.1 admin:v2.1.0 admin:v2.0.2 admin:v2.0.1 admin:v2.0.0 admin:v1.3.0 admin:v1.2.0 admin:v1.1.3 admin:v1.1.2 admin:v1.1.1 admin:v1.1.0 admin:v1.0.1 admin:v1.0.0

50 Commits
v5.0.0 ... v5.1.0.rc2

Author SHA1 Message Date
Orange++
6fca106edc Merge pull request #158 from orange-cpp/feature/quaternions 
added files
 2026-03-01 09:04:18 +03:00
orange
78cb644920 added files 2026-03-01 08:23:26 +03:00
orange
646a920e4c fixed potential deadlock 2026-02-27 08:47:46 +03:00
Orange
52687a70c7 fixed formating 2026-02-27 07:41:05 +03:00
Orange++
a9eff7d320 Merge pull request #157 from orange-cpp/feature/mesh_improvement 
Feature/mesh improvement
 2026-02-26 16:39:21 +03:00
orange
211e4c3d9b optimization 2026-02-26 16:19:54 +03:00
orange
74dc2234f7 fixed collider when rotated 2026-02-26 16:17:41 +03:00
Orange
7ebbed6763 added funding 
edit
 2026-02-23 07:18:25 +03:00
Orange
e271bccaf5 added codeowners 2026-02-23 06:45:43 +03:00
orange
50765f69c5 removed unused var 2026-02-23 04:36:48 +03:00
orange
1169534133 fix 2026-02-23 04:32:13 +03:00
Orange++
783501aab9 Enhance installation guide with prebuilt binaries section 
Updated vcpkg section and added instructions for using prebuilt binaries from GitHub Releases.
 2026-02-21 10:00:19 +03:00
Orange++
1a79566731 Merge pull request #156 from orange-cpp/copilot/add-automatic-binary-attach 
Add release workflow with binary uploads for all CI platforms
 2026-02-21 09:31:12 +03:00
copilot-swe-agent[bot]
9183406e7a Add all CI pipeline platforms to release workflow (Linux x86, iOS, FreeBSD, Android, WebAssembly, MinGW) 
Co-authored-by: orange-cpp <59374393+orange-cpp@users.noreply.github.com>
 2026-02-21 04:55:36 +00:00
copilot-swe-agent[bot]
b592af91a9 Add release workflow to automatically attach binaries to new releases 
Co-authored-by: orange-cpp <59374393+orange-cpp@users.noreply.github.com>
 2026-02-21 04:45:20 +00:00
copilot-swe-agent[bot]
af9c043e95 Initial plan 2026-02-21 04:41:46 +00:00
Orange
2aaa8633b9 updated tag 2026-02-20 09:07:33 +03:00
Orange++
0d1cc2088f Merge pull request #155 from orange-cpp/feaute/examples-folders 
retructurized examples
 2026-02-20 08:55:20 +03:00
Orange
260b3b97f9 fix 2026-02-20 08:53:03 +03:00
Orange
e0904690e6 fixed formating 2026-02-20 08:52:26 +03:00
Orange
7021d9d365 fixed formating 2026-02-20 08:46:43 +03:00
Orange
862d52593a retructurized examples 2026-02-20 07:48:19 +03:00
orange
97a3111791 fixed code style 2026-02-20 04:02:26 +03:00
Orange++
a9bec00973 Merge pull request #154 from luadebug/example1 
Example with opengl triangle
 2026-02-20 03:37:58 +03:00
Saikari
66debb46fa Refactor to use Color class and Triangle structure for better clarity in drawing functions 2026-02-20 03:01:34 +03:00
Saikari
b8323d3bc0 simplify complexity 2026-02-20 02:56:27 +03:00
Saikari
f363fa6f1a Fix text 2026-02-20 02:53:20 +03:00
Saikari
0546272493 Use dot not quad 2026-02-20 02:50:55 +03:00
Saikari
58801bfab3 Add one more example 2026-02-20 02:43:27 +03:00
Orange
4567cfa318 updated read me 2026-02-19 12:03:19 +03:00
Orange
1db9340dbf updated read me 2026-02-19 08:42:58 +03:00
Orange++
7b9a181b0e Merge pull request #153 from orange-cpp/feature/cryengine-support 
Feature/cryengine support
 2026-02-19 08:34:33 +03:00
Orange
0876af3c14 added warning back 2026-02-19 08:34:21 +03:00
Orange
e46a369ddc added more tests 2026-02-19 08:06:34 +03:00
Orange
630ffa69f6 clang format 2026-02-19 08:00:23 +03:00
Orange
609970cdfe fix 2026-02-19 07:57:04 +03:00
Orange
e935155022 improved tests 2026-02-19 07:47:23 +03:00
Orange
800082e4b3 added mesh 2026-02-19 06:35:08 +03:00
Orange
02d909f77d added mesh trait 2026-02-19 01:06:08 +03:00
Orange
49319a1c7c added more files 2026-02-19 01:05:09 +03:00
Orange
d0f3e5059a added formulas 2026-02-19 01:05:09 +03:00
Orange
c9874f30d0 add 2026-02-19 01:05:09 +03:00
Orange
3080faeaa9 hotfix: projectile prediction 2026-02-19 01:01:38 +03:00
Orange
af36c909a4 improved simple game 2026-02-18 07:38:04 +03:00
orange
1041256fac Revert "removed useless include" 
This reverts commit 88012e2524.
 2026-02-18 06:07:27 +03:00
orange
88012e2524 removed useless include 2026-02-18 05:53:16 +03:00
orange
4561dbe0e7 fix 2026-02-18 05:51:46 +03:00
orange
b50f759675 more template stuff 2026-02-18 05:51:18 +03:00
Orange++
85b672fdf3 Merge pull request #152 from orange-cpp/feature/camera_improvement 
added more methods
 2026-02-17 07:57:35 +03:00
Orange
360734f252 added more methods 2026-02-17 07:39:45 +03:00
52 changed files with 2940 additions and 123 deletions
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4
.github/FUNDING.yml vendored Normal file
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@@ -0,0 +1,4 @@
# These are supported funding model platforms
open_collective: libomathorg
github: orange-cpp

618
.github/workflows/release.yml vendored Normal file
View File

@@ -0,0 +1,618 @@
name: Release
on:
release:
types: [published]
concurrency:
group: release-${{ github.ref }}
cancel-in-progress: true
permissions:
contents: write
jobs:
##############################################################################
# 1) Linux Clang / Ninja
##############################################################################
linux-release:
name: ${{ matrix.name }}
runs-on: ${{ matrix.runner }}
strategy:
matrix:
include:
- name: Linux (Clang) (x64-linux)
triplet: x64-linux
runner: ubuntu-latest
preset: linux-release-vcpkg
archive: omath-linux-x64
install_cmd: |
wget -qO- https://apt.llvm.org/llvm-snapshot.gpg.key | sudo tee /etc/apt/trusted.gpg.d/apt.llvm.org.asc
sudo add-apt-repository -y "deb http://apt.llvm.org/noble/ llvm-toolchain-noble-21 main"
sudo apt-get update
sudo apt-get install -y git build-essential cmake ninja-build \
zip unzip curl pkg-config ca-certificates \
clang-21 lld-21 libc++-21-dev libc++abi-21-dev
sudo update-alternatives --install /usr/bin/cc cc /usr/bin/clang-21 100
sudo update-alternatives --install /usr/bin/c++ c++ /usr/bin/clang++-21 100
sudo update-alternatives --install /usr/bin/lld lld /usr/bin/lld-21 100
- name: Linux (Clang) (x86-linux)
triplet: x86-linux
runner: ubuntu-latest
preset: linux-release-vcpkg-x86
archive: omath-linux-x86
install_cmd: |
# Add LLVM 21 repository
wget -qO- https://apt.llvm.org/llvm-snapshot.gpg.key | sudo tee /etc/apt/trusted.gpg.d/apt.llvm.org.asc
sudo add-apt-repository -y "deb http://apt.llvm.org/noble/ llvm-toolchain-noble-21 main"
# Add GCC Toolchain PPA
sudo add-apt-repository -y "deb http://archive.ubuntu.com/ubuntu plucky main universe"
# Enable i386 architecture
sudo dpkg --add-architecture i386
sudo apt-get update
# Install Clang 21
sudo apt-get install -y git build-essential cmake ninja-build \
zip unzip curl pkg-config ca-certificates \
clang-21 lld-21 libc++-21-dev libc++abi-21-dev
sudo apt-get install -y -t plucky binutils
# Install GCC 15 with multilib support
sudo apt-get install -y gcc-15-multilib g++-15-multilib
# Set up alternatives for Clang
sudo update-alternatives --install /usr/bin/cc cc /usr/bin/clang-21 100
sudo update-alternatives --install /usr/bin/c++ c++ /usr/bin/clang++-21 100
sudo update-alternatives --install /usr/bin/lld lld /usr/bin/lld-21 100
# Set up alternatives for GCC
sudo update-alternatives --install /usr/bin/gcc gcc /usr/bin/gcc-15 100
sudo update-alternatives --install /usr/bin/g++ g++ /usr/bin/g++-15 100
- name: Linux (Clang) (arm64-linux)
triplet: arm64-linux
runner: ubuntu-24.04-arm
preset: linux-release-vcpkg-arm64
archive: omath-linux-arm64
install_cmd: |
wget -qO- https://apt.llvm.org/llvm-snapshot.gpg.key | sudo tee /etc/apt/trusted.gpg.d/apt.llvm.org.asc
sudo add-apt-repository -y "deb http://apt.llvm.org/noble/ llvm-toolchain-noble-21 main"
sudo apt-get update
sudo apt-get install -y git build-essential cmake ninja-build \
zip unzip curl pkg-config ca-certificates \
clang-21 lld-21 libc++-21-dev libc++abi-21-dev
sudo update-alternatives --install /usr/bin/cc cc /usr/bin/clang-21 100
sudo update-alternatives --install /usr/bin/c++ c++ /usr/bin/clang++-21 100
sudo update-alternatives --install /usr/bin/lld lld /usr/bin/lld-21 100
fail-fast: false
env:
VCPKG_ROOT: ${{ github.workspace }}/vcpkg
steps:
- name: Install basic tool-chain
shell: bash
run: ${{ matrix.install_cmd }}
- name: Checkout repository (with sub-modules)
uses: actions/checkout@v4
with:
submodules: recursive
- name: Set up vcpkg
shell: bash
run: |
git clone https://github.com/microsoft/vcpkg "$VCPKG_ROOT"
cd "$VCPKG_ROOT"
./bootstrap-vcpkg.sh
- name: Configure (cmake --preset)
shell: bash
run: |
cmake --preset ${{ matrix.preset }} \
-DVCPKG_INSTALL_OPTIONS="--allow-unsupported" \
-DOMATH_BUILD_TESTS=OFF \
-DOMATH_BUILD_BENCHMARK=OFF \
-DVCPKG_MANIFEST_FEATURES="imgui;avx2"
- name: Build
shell: bash
run: cmake --build cmake-build/build/${{ matrix.preset }} --target omath
- name: Install
shell: bash
run: cmake --install cmake-build/build/${{ matrix.preset }} --prefix staging
- name: Package
shell: bash
run: tar -czf ${{ matrix.archive }}.tar.gz -C staging .
- name: Upload release asset
env:
GH_TOKEN: ${{ github.token }}
shell: bash
run: gh release upload "${{ github.event.release.tag_name }}" "${{ matrix.archive }}.tar.gz" --clobber
##############################################################################
# 2) Windows MSVC / Ninja
##############################################################################
windows-release:
name: ${{ matrix.name }}
runs-on: ${{ matrix.runner }}
strategy:
matrix:
include:
- name: Windows (MSVC) (x64-windows)
runner: windows-latest
arch: amd64
preset: windows-release-vcpkg
triplet: x64-windows
archive: omath-windows-x64
- name: Windows (MSVC) (x86-windows)
runner: windows-latest
arch: amd64_x86
preset: windows-release-vcpkg-x86
triplet: x86-windows
archive: omath-windows-x86
- name: Windows (MSVC) (arm64-windows)
runner: windows-11-arm
arch: arm64
preset: windows-release-vcpkg-arm64
triplet: arm64-windows
archive: omath-windows-arm64
fail-fast: false
env:
VCPKG_ROOT: ${{ github.workspace }}/vcpkg
steps:
- name: Checkout repository (with sub-modules)
uses: actions/checkout@v4
with:
submodules: recursive
- name: Install Ninja
uses: seanmiddleditch/gha-setup-ninja@v4
- name: Set up MSVC developer command-prompt
uses: ilammy/msvc-dev-cmd@v1
with:
arch: ${{ matrix.arch }}
- name: Configure (cmake --preset)
shell: bash
run: |
cmake --preset ${{ matrix.preset }} \
-DOMATH_BUILD_TESTS=OFF \
-DOMATH_BUILD_BENCHMARK=OFF \
-DVCPKG_MANIFEST_FEATURES="imgui;avx2"
- name: Build
shell: bash
run: cmake --build cmake-build/build/${{ matrix.preset }} --target omath
- name: Install
shell: bash
run: cmake --install cmake-build/build/${{ matrix.preset }} --prefix staging
- name: Package
shell: pwsh
run: Compress-Archive -Path staging\* -DestinationPath "${{ matrix.archive }}.zip"
- name: Upload release asset
env:
GH_TOKEN: ${{ github.token }}
shell: bash
run: gh release upload "${{ github.event.release.tag_name }}" "${{ matrix.archive }}.zip" --clobber
##############################################################################
# 3) macOS AppleClang / Ninja
##############################################################################
macos-release:
name: ${{ matrix.name }}
runs-on: ${{ matrix.runner }}
strategy:
matrix:
include:
- name: macOS (AppleClang) (arm64-osx)
runner: macos-latest
preset: darwin-release-vcpkg
triplet: arm64-osx
archive: omath-macos-arm64
- name: macOS (AppleClang) (x64-osx)
runner: macos-15-intel
preset: darwin-release-vcpkg-x64
triplet: x64-osx
archive: omath-macos-x64
fail-fast: false
env:
VCPKG_ROOT: ${{ github.workspace }}/vcpkg
steps:
- name: Install basic tool-chain with Homebrew
shell: bash
run: |
brew install cmake ninja
- name: Checkout repository (with sub-modules)
uses: actions/checkout@v4
with:
submodules: recursive
- name: Set up vcpkg
shell: bash
run: |
git clone https://github.com/microsoft/vcpkg "$VCPKG_ROOT"
- name: Configure (cmake --preset)
shell: bash
run: |
cmake --preset ${{ matrix.preset }} \
-DOMATH_BUILD_TESTS=OFF \
-DOMATH_BUILD_BENCHMARK=OFF \
-DVCPKG_MANIFEST_FEATURES="imgui;avx2"
- name: Build
shell: bash
run: cmake --build cmake-build/build/${{ matrix.preset }} --target omath
- name: Install
shell: bash
run: cmake --install cmake-build/build/${{ matrix.preset }} --prefix staging
- name: Package
shell: bash
run: tar -czf ${{ matrix.archive }}.tar.gz -C staging .
- name: Upload release asset
env:
GH_TOKEN: ${{ github.token }}
shell: bash
run: gh release upload "${{ github.event.release.tag_name }}" "${{ matrix.archive }}.tar.gz" --clobber
##############################################################################
# 4) iOS AppleClang / Xcode / arm64-ios
##############################################################################
ios-release:
name: iOS (AppleClang) (${{ matrix.triplet }})
runs-on: macOS-latest
strategy:
matrix:
include:
- triplet: arm64-ios
preset: ios-release-vcpkg
archive: omath-ios-arm64
fail-fast: false
env:
VCPKG_ROOT: ${{ github.workspace }}/vcpkg
steps:
- name: Install CMake tooling
shell: bash
run: |
brew install cmake ninja
- name: Checkout repository (with sub-modules)
uses: actions/checkout@v4
with:
submodules: recursive
- name: Set up vcpkg
shell: bash
run: |
git clone https://github.com/microsoft/vcpkg "$VCPKG_ROOT"
cd "$VCPKG_ROOT"
./bootstrap-vcpkg.sh
- name: Configure (cmake --preset)
shell: bash
run: |
cmake --preset ${{ matrix.preset }} \
-DVCPKG_INSTALL_OPTIONS="--allow-unsupported" \
-DOMATH_BUILD_TESTS=OFF \
-DOMATH_BUILD_BENCHMARK=OFF \
-DVCPKG_MANIFEST_FEATURES="imgui"
- name: Build
shell: bash
run: |
cmake --build cmake-build/build/${{ matrix.preset }} --config Release --target omath
- name: Install
shell: bash
run: cmake --install cmake-build/build/${{ matrix.preset }} --prefix staging
- name: Package
shell: bash
run: tar -czf ${{ matrix.archive }}.tar.gz -C staging .
- name: Upload release asset
env:
GH_TOKEN: ${{ github.token }}
shell: bash
run: gh release upload "${{ github.event.release.tag_name }}" "${{ matrix.archive }}.tar.gz" --clobber
##############################################################################
# 5) FreeBSD Clang / Ninja
##############################################################################
freebsd-release:
name: FreeBSD (Clang) (${{ matrix.triplet }})
runs-on: ubuntu-latest
strategy:
matrix:
include:
- triplet: x64-freebsd
preset: freebsd-release-vcpkg
arch: x86-64
archive: omath-freebsd-x64
fail-fast: false
env:
VCPKG_ROOT: ${{ github.workspace }}/tmp/vcpkg
steps:
- name: Checkout repository (with sub-modules)
uses: actions/checkout@v4
with:
submodules: recursive
- name: Build and Package
uses: cross-platform-actions/action@v0.31.0
with:
operating_system: freebsd
architecture: ${{ matrix.arch }}
version: '15.0'
memory: '12G'
cpu_count: 4
run: |
sudo pkg install -y git curl zip unzip gmake llvm gsed bash perl5 openssl 7-zip coreutils cmake ninja pkgconf patchelf
git config --global --add safe.directory `pwd`
# Build vcpkg in /tmp to avoid sshfs timestamp sync issues
export VCPKG_ROOT=/tmp/vcpkg
rm -rf "$VCPKG_ROOT"
git clone https://github.com/microsoft/vcpkg "$VCPKG_ROOT"
cd "$VCPKG_ROOT"
./bootstrap-vcpkg.sh
cd -
export VCPKG_FORCE_SYSTEM_BINARIES=0
cmake --preset ${{ matrix.preset }} \
-DOMATH_BUILD_TESTS=OFF \
-DOMATH_BUILD_BENCHMARK=OFF \
-DVCPKG_MANIFEST_FEATURES="imgui;avx2" \
-DVCPKG_INSTALL_OPTIONS="--allow-unsupported"
cmake --build cmake-build/build/${{ matrix.preset }} --target omath
cmake --install cmake-build/build/${{ matrix.preset }} --prefix staging
tar -czf ${{ matrix.archive }}.tar.gz -C staging .
- name: Upload release asset
env:
GH_TOKEN: ${{ github.token }}
shell: bash
run: gh release upload "${{ github.event.release.tag_name }}" "${{ matrix.archive }}.tar.gz" --clobber
##############################################################################
# 6) Android NDK Clang / Ninja
##############################################################################
android-release:
name: Android NDK (${{ matrix.triplet }})
runs-on: ubuntu-latest
strategy:
matrix:
include:
- triplet: arm-neon-android
preset: android-arm-neon-release-vcpkg
archive: omath-android-arm-neon
- triplet: arm64-android
preset: android-arm64-release-vcpkg
archive: omath-android-arm64
- triplet: x64-android
preset: android-x64-release-vcpkg
archive: omath-android-x64
- triplet: x86-android
preset: android-x86-release-vcpkg
archive: omath-android-x86
fail-fast: false
env:
VCPKG_ROOT: ${{ github.workspace }}/vcpkg
ANDROID_NDK_HOME: ${{ github.workspace }}/android-ndk
steps:
- name: Checkout repository (with sub-modules)
uses: actions/checkout@v4
with:
submodules: recursive
- name: Install Android NDK
shell: bash
run: |
NDK_VERSION="r28b"
NDK_ZIP="android-ndk-${NDK_VERSION}-linux.zip"
wget -q "https://dl.google.com/android/repository/${NDK_ZIP}"
unzip -q "${NDK_ZIP}" -d "${{ github.workspace }}"
mv "${{ github.workspace }}/android-ndk-${NDK_VERSION}" "$ANDROID_NDK_HOME"
rm "${NDK_ZIP}"
echo "ANDROID_NDK_HOME=${ANDROID_NDK_HOME}" >> $GITHUB_ENV
- name: Install basic tool-chain
shell: bash
run: |
sudo apt-get update
sudo apt-get install -y ninja-build cmake
- name: Set up vcpkg
shell: bash
run: |
git clone https://github.com/microsoft/vcpkg "$VCPKG_ROOT"
cd "$VCPKG_ROOT"
./bootstrap-vcpkg.sh
- name: Configure (cmake --preset)
shell: bash
run: |
cmake --preset ${{ matrix.preset }} \
-DVCPKG_INSTALL_OPTIONS="--allow-unsupported" \
-DOMATH_BUILD_TESTS=OFF \
-DOMATH_BUILD_BENCHMARK=OFF \
-DVCPKG_MANIFEST_FEATURES="imgui"
- name: Build
shell: bash
run: |
cmake --build cmake-build/build/${{ matrix.preset }} --target omath
- name: Install
shell: bash
run: cmake --install cmake-build/build/${{ matrix.preset }} --prefix staging
- name: Package
shell: bash
run: tar -czf ${{ matrix.archive }}.tar.gz -C staging .
- name: Upload release asset
env:
GH_TOKEN: ${{ github.token }}
shell: bash
run: gh release upload "${{ github.event.release.tag_name }}" "${{ matrix.archive }}.tar.gz" --clobber
##############################################################################
# 7) WebAssembly (Emscripten) Clang / Ninja / wasm32-emscripten
##############################################################################
wasm-release:
name: WebAssembly (Emscripten) (${{ matrix.triplet }})
runs-on: ubuntu-latest
strategy:
matrix:
include:
- triplet: wasm32-emscripten
preset: wasm-release-vcpkg
archive: omath-wasm32
fail-fast: false
env:
VCPKG_ROOT: ${{ github.workspace }}/vcpkg
steps:
- name: Checkout repository (with sub-modules)
uses: actions/checkout@v4
with:
submodules: recursive
- name: Install basic tool-chain
shell: bash
run: |
sudo apt-get update
sudo apt-get install -y ninja-build
- name: Setup Emscripten
uses: mymindstorm/setup-emsdk@v14
with:
version: 'latest'
- name: Verify Emscripten
shell: bash
run: |
echo "EMSDK=$EMSDK"
emcc --version
ls -la "$EMSDK/upstream/emscripten/cmake/Modules/Platform/Emscripten.cmake"
- name: Set up vcpkg
shell: bash
run: |
git clone https://github.com/microsoft/vcpkg "$VCPKG_ROOT"
cd "$VCPKG_ROOT"
./bootstrap-vcpkg.sh
- name: Configure (cmake --preset)
shell: bash
run: |
cmake --preset ${{ matrix.preset }} \
-DVCPKG_INSTALL_OPTIONS="--allow-unsupported" \
-DOMATH_BUILD_TESTS=OFF \
-DOMATH_BUILD_BENCHMARK=OFF \
-DVCPKG_MANIFEST_FEATURES="imgui"
- name: Build
shell: bash
run: |
cmake --build cmake-build/build/${{ matrix.preset }} --target omath
- name: Install
shell: bash
run: cmake --install cmake-build/build/${{ matrix.preset }} --prefix staging
- name: Package
shell: bash
run: tar -czf ${{ matrix.archive }}.tar.gz -C staging .
- name: Upload release asset
env:
GH_TOKEN: ${{ github.token }}
shell: bash
run: gh release upload "${{ github.event.release.tag_name }}" "${{ matrix.archive }}.tar.gz" --clobber
##############################################################################
# 8) Windows MSYS2 MinGW GCC / Ninja
##############################################################################
mingw-release:
name: ${{ matrix.name }}
runs-on: windows-latest
strategy:
matrix:
include:
- name: MINGW64 (MSYS2) (x64-mingw-dynamic)
msystem: MINGW64
pkg_prefix: mingw-w64-x86_64
preset: mingw-release-vcpkg
archive: omath-mingw64-x64
- name: UCRT64 (MSYS2) (x64-mingw-dynamic)
msystem: UCRT64
pkg_prefix: mingw-w64-ucrt-x86_64
preset: mingw-release-vcpkg
archive: omath-ucrt64-x64
- name: MINGW32 (MSYS2) (x86-mingw-dynamic)
msystem: MINGW32
pkg_prefix: mingw-w64-i686
preset: mingw32-release-vcpkg
archive: omath-mingw32-x86
fail-fast: false
defaults:
run:
shell: msys2 {0}
env:
VCPKG_ROOT: ${{ github.workspace }}/vcpkg
steps:
- name: Setup MSYS2
uses: msys2/setup-msys2@v2
with:
msystem: ${{ matrix.msystem }}
update: true
install: >-
${{ matrix.pkg_prefix }}-toolchain
${{ matrix.pkg_prefix }}-cmake
${{ matrix.pkg_prefix }}-ninja
${{ matrix.pkg_prefix }}-pkg-config
git
base-devel
- name: Checkout repository (with sub-modules)
uses: actions/checkout@v4
with:
submodules: recursive
- name: Set up vcpkg
run: |
git clone https://github.com/microsoft/vcpkg "$VCPKG_ROOT"
cd "$VCPKG_ROOT"
./bootstrap-vcpkg.sh
- name: Configure (cmake --preset)
run: |
cmake --preset ${{ matrix.preset }} \
-DVCPKG_INSTALL_OPTIONS="--allow-unsupported" \
-DOMATH_BUILD_TESTS=OFF \
-DOMATH_BUILD_BENCHMARK=OFF \
-DVCPKG_MANIFEST_FEATURES="imgui"
- name: Build
run: |
cmake --build cmake-build/build/${{ matrix.preset }} --target omath
- name: Install
run: cmake --install cmake-build/build/${{ matrix.preset }} --prefix staging
- name: Package
shell: pwsh
run: Compress-Archive -Path staging\* -DestinationPath "${{ matrix.archive }}.zip"
- name: Upload release asset
env:
GH_TOKEN: ${{ github.token }}
shell: bash
run: gh release upload "${{ github.event.release.tag_name }}" "${{ matrix.archive }}.zip" --clobber

4
.idea/editor.xml generated
View File

@@ -17,7 +17,7 @@
<option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppBoostFormatTooManyArgs/@EntryIndexedValue" value="WARNING" type="string" /> <option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppBoostFormatTooManyArgs/@EntryIndexedValue" value="WARNING" type="string" />
<option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppCStyleCast/@EntryIndexedValue" value="SUGGESTION" type="string" /> <option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppCStyleCast/@EntryIndexedValue" value="SUGGESTION" type="string" />
<option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppCVQualifierCanNotBeAppliedToReference/@EntryIndexedValue" value="WARNING" type="string" /> <option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppCVQualifierCanNotBeAppliedToReference/@EntryIndexedValue" value="WARNING" type="string" />
<option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppClassCanBeFinal/@EntryIndexedValue" value="DO_NOT_SHOW" type="string" /> <option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppClassCanBeFinal/@EntryIndexedValue" value="WARNING" type="string" />
<option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppClassIsIncomplete/@EntryIndexedValue" value="WARNING" type="string" /> <option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppClassIsIncomplete/@EntryIndexedValue" value="WARNING" type="string" />
<option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppClassNeedsConstructorBecauseOfUninitializedMember/@EntryIndexedValue" value="WARNING" type="string" /> <option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppClassNeedsConstructorBecauseOfUninitializedMember/@EntryIndexedValue" value="WARNING" type="string" />
<option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppClassNeverUsed/@EntryIndexedValue" value="WARNING" type="string" /> <option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppClassNeverUsed/@EntryIndexedValue" value="WARNING" type="string" />
@@ -110,7 +110,7 @@
<option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppLambdaCaptureNeverUsed/@EntryIndexedValue" value="WARNING" type="string" /> <option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppLambdaCaptureNeverUsed/@EntryIndexedValue" value="WARNING" type="string" />
<option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppLocalVariableMayBeConst/@EntryIndexedValue" value="HINT" type="string" /> <option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppLocalVariableMayBeConst/@EntryIndexedValue" value="HINT" type="string" />
<option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppLocalVariableMightNotBeInitialized/@EntryIndexedValue" value="WARNING" type="string" /> <option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppLocalVariableMightNotBeInitialized/@EntryIndexedValue" value="WARNING" type="string" />
<option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppLocalVariableWithNonTrivialDtorIsNeverUsed/@EntryIndexedValue" value="DO_NOT_SHOW" type="string" /> <option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppLocalVariableWithNonTrivialDtorIsNeverUsed/@EntryIndexedValue" value="WARNING" type="string" />
<option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppLongFloat/@EntryIndexedValue" value="WARNING" type="string" /> <option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppLongFloat/@EntryIndexedValue" value="WARNING" type="string" />
<option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppMemberFunctionMayBeConst/@EntryIndexedValue" value="SUGGESTION" type="string" /> <option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppMemberFunctionMayBeConst/@EntryIndexedValue" value="SUGGESTION" type="string" />
<option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppMemberFunctionMayBeStatic/@EntryIndexedValue" value="SUGGESTION" type="string" /> <option name="/Default/CodeInspection/Highlighting/InspectionSeverities/=CppMemberFunctionMayBeStatic/@EntryIndexedValue" value="SUGGESTION" type="string" />

9
CMakeLists.txt
View File

@@ -130,11 +130,10 @@ set_target_properties(
CXX_STANDARD 23 CXX_STANDARD 23
CXX_STANDARD_REQUIRED ON) CXX_STANDARD_REQUIRED ON)
if (OMATH_STATIC_MSVC_RUNTIME_LIBRARY) if(OMATH_STATIC_MSVC_RUNTIME_LIBRARY)
set_target_properties(${PROJECT_NAME} PROPERTIES set_target_properties(${PROJECT_NAME} PROPERTIES MSVC_RUNTIME_LIBRARY
MSVC_RUNTIME_LIBRARY "MultiThreaded$<$<CONFIG:Debug>:Debug>" "MultiThreaded$<$<CONFIG:Debug>:Debug>")
) endif()
endif ()
if(OMATH_USE_AVX2) if(OMATH_USE_AVX2)
if(MSVC) if(MSVC)

37
CODEOWNERS Normal file
View File

@@ -0,0 +1,37 @@
## List of maintainers for the omath library
## This file purpose is to give newcomers to the project the responsible
## developers when submitting a pull request on GitHub, or opening a bug
## report in issues.
## This file will notably establish who is responsible for a specific
## area of omath. Being a maintainer means the following:
## - that person has good knownledge in the area
## - that person is able to enforce consistency in the area
## - that person may be available for giving help in the area
## - that person has push access on the repository
## Being a maintainer does not mean the following:
## - that person is dedicated to the area
## - that person is working full-time on the area/on omath
## - that person is paid
## - that person is always available
# omath core source code
/source @orange-cpp
/include @orange-cpp
# Tests and becnchmarks
/benchmark @orange-cpp
/tests @orange-cpp @luadebug
# Examples and documentation
/examples @luadebug @orange-cpp
/docs @orange-cpp
# Misc like formating
/scripts @luadebug
/pixi @luadebug
# CI/CD
/.github/workflows @luadbg @orange-cpp

42
INSTALL.md
View File

@@ -1,6 +1,6 @@
# 📥Installation Guide # 📥Installation Guide
## <img width="28px" src="https://vcpkg.io/assets/mark/mark.svg" /> Using vcpkg ## <img width="28px" src="https://vcpkg.io/assets/mark/mark.svg" /> Using vcpkg (recomended)
**Note**: Support vcpkg for package management **Note**: Support vcpkg for package management
1. Install [vcpkg](https://github.com/microsoft/vcpkg) 1. Install [vcpkg](https://github.com/microsoft/vcpkg)
2. Run the following command to install the orange-math package: 2. Run the following command to install the orange-math package:
@@ -28,6 +28,46 @@ target("...")
add_packages("omath") add_packages("omath")
``` ```
## <img width="28px" src="https://github.githubassets.com/favicons/favicon.svg" /> Using prebuilt binaries (GitHub Releases)
**Note**: This is the fastest option if you dont want to build from source.
1. **Go to the Releases page**
- Open the projects GitHub **Releases** page and choose the latest version.
2. **Download the correct asset for your platform**
- Pick the archive that matches your OS and architecture (for example: Windows x64 / Linux x64 / macOS arm64).
3. **Extract the archive**
- You should end up with something like:
- `include/` (headers)
- `lib/` or `bin/` (library files / DLLs)
- sometimes `cmake/` (CMake package config)
4. **Use it in your project**
### Option A: CMake package (recommended if the release includes CMake config files)
If the extracted folder contains something like `lib/cmake/omath` or `cmake/omath`, you can point CMake to it:
```cmake
# Example: set this to the extracted prebuilt folder
list(APPEND CMAKE_PREFIX_PATH "path/to/omath-prebuilt")
find_package(omath CONFIG REQUIRED)
target_link_libraries(main PRIVATE omath::omath)
```
### Option B: Manual include + link (works with any layout)
If theres no CMake package config, link it manually:
```cmake
target_include_directories(main PRIVATE "path/to/omath-prebuilt/include")
# Choose ONE depending on what you downloaded:
# - Static library: .lib / .a
# - Shared library: .dll + .lib import (Windows), .so (Linux), .dylib (macOS)
target_link_directories(main PRIVATE "path/to/omath-prebuilt/lib")
target_link_libraries(main PRIVATE omath) # or the actual library filename
```
## <img width="28px" src="https://upload.wikimedia.org/wikipedia/commons/e/ef/CMake_logo.svg?" /> Build from source using CMake ## <img width="28px" src="https://upload.wikimedia.org/wikipedia/commons/e/ef/CMake_logo.svg?" /> Build from source using CMake
1. **Preparation** 1. **Preparation**

5
README.md
View File

@@ -80,9 +80,10 @@ if (auto screen = camera.world_to_screen(world_position)) {
- **Collision Detection**: Production ready code to handle collision detection by using simple interfaces. - **Collision Detection**: Production ready code to handle collision detection by using simple interfaces.
- **No Additional Dependencies**: No additional dependencies need to use OMath except unit test execution - **No Additional Dependencies**: No additional dependencies need to use OMath except unit test execution
- **Ready for meta-programming**: Omath use templates for common types like Vectors, Matrixes etc, to handle all types! - **Ready for meta-programming**: Omath use templates for common types like Vectors, Matrixes etc, to handle all types!
- **Engine support**: Supports coordinate systems of **Source, Unity, Unreal, Frostbite, IWEngine and canonical OpenGL**. - **Engine support**: Supports coordinate systems of **Source, Unity, Unreal, Frostbite, IWEngine, CryEngine and canonical OpenGL**.
- **Cross platform**: Supports Windows, MacOS and Linux. - **Cross platform**: Supports Windows, MacOS and Linux.
- **Algorithms**: Has ability to scan for byte pattern with wildcards in PE files/modules, binary slices, works even with Wine apps. - **Algorithms**: Has ability to scan for byte pattern with wildcards in ELF/Mach-O/PE files/modules, binary slices, works even with Wine apps.
- **Battle tested**: It's already used by some big players on the market like wraith.su and bluedream.ltd
<div align = center> <div align = center>
# Gallery # Gallery

2
VERSION
View File

@@ -1 +1 @@
4.7.1 5.0.0

36
examples/CMakeLists.txt
View File

@@ -1,35 +1,7 @@
project(examples) add_subdirectory(example_barycentric)
add_subdirectory(example_glfw3)
add_executable(example_projection_matrix_builder example_proj_mat_builder.cpp) add_subdirectory(example_proj_mat_builder)
set_target_properties( add_subdirectory(example_signature_scan)
example_projection_matrix_builder
PROPERTIES CXX_STANDARD 23
ARCHIVE_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}"
LIBRARY_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}"
RUNTIME_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}")
target_link_libraries(example_projection_matrix_builder PRIVATE omath::omath)
add_executable(example_signature_scan example_signature_scan.cpp)
set_target_properties(
example_signature_scan
PROPERTIES CXX_STANDARD 23
ARCHIVE_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}"
LIBRARY_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}"
RUNTIME_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}")
target_link_libraries(example_signature_scan PRIVATE omath::omath)
add_executable(example_glfw3 example_glfw3.cpp)
set_target_properties(
example_glfw3
PROPERTIES CXX_STANDARD 23
ARCHIVE_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}"
LIBRARY_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}"
RUNTIME_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}")
find_package(OpenGL)
find_package(GLEW REQUIRED)
find_package(glfw3 CONFIG REQUIRED)
target_link_libraries(example_glfw3 PRIVATE omath::omath GLEW::GLEW glfw OpenGL::GL)
if(OMATH_ENABLE_VALGRIND) if(OMATH_ENABLE_VALGRIND)
omath_setup_valgrind(example_projection_matrix_builder) omath_setup_valgrind(example_projection_matrix_builder)

14
examples/example_barycentric/CMakeLists.txt Normal file
View File

@@ -0,0 +1,14 @@
project(example_barycentric)
add_executable(${PROJECT_NAME} example_barycentric.cpp)
set_target_properties(
${PROJECT_NAME}
PROPERTIES CXX_STANDARD 23
ARCHIVE_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}"
LIBRARY_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}"
RUNTIME_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}")
find_package(OpenGL)
find_package(GLEW REQUIRED)
find_package(glfw3 CONFIG REQUIRED)
target_link_libraries(${PROJECT_NAME} PRIVATE omath::omath GLEW::GLEW glfw OpenGL::GL)

427
examples/example_barycentric/example_barycentric.cpp Normal file
View File

@@ -0,0 +1,427 @@
#include <GL/glew.h>
#include <GLFW/glfw3.h>
#include <cmath>
#include <iostream>
#include <omath/omath.hpp>
#include <vector>
using omath::Color;
using omath::Triangle;
using omath::Vector3;
static const char* vertexShaderSource = R"(
#version 330 core
layout (location = 0) in vec3 aPos;
layout (location = 1) in vec3 aColor;
layout (location = 2) in float aPointSize;
layout (location = 3) in float aIsLine;
out vec3 vColor;
out float vIsLine;
void main() {
gl_Position = vec4(aPos, 1.0);
vColor = aColor;
gl_PointSize = aPointSize;
vIsLine = aIsLine;
}
)";
static const char* fragmentShaderSource = R"(
#version 330 core
in vec3 vColor;
in float vIsLine;
out vec4 FragColor;
void main() {
if (vIsLine < 0.5) {
// Calculate distance from center of the point
vec2 coord = gl_PointCoord - vec2(0.5);
if(length(coord) > 0.5)
discard;
}
FragColor = vec4(vColor, 1.0);
}
)";
GLuint compileShader(GLenum type, const char* src)
{
GLuint shader = glCreateShader(type);
glShaderSource(shader, 1, &src, nullptr);
glCompileShader(shader);
GLint ok;
glGetShaderiv(shader, GL_COMPILE_STATUS, &ok);
if (!ok)
{
char log[1024];
glGetShaderInfoLog(shader, sizeof(log), nullptr, log);
std::cerr << "Shader error: " << log << std::endl;
}
return shader;
}
void drawChar(char c, float x, float y, float scale, const Color& color, std::vector<float>& lines)
{
float w = 0.5f * scale;
float h = 1.0f * scale;
auto add = [&](float x1, float y1, float x2, float y2)
{
lines.push_back(x + x1 * w);
lines.push_back(y + y1 * h);
lines.push_back(0.0f);
lines.push_back(color.x);
lines.push_back(color.y);
lines.push_back(color.z);
lines.push_back(1.0f); // size
lines.push_back(1.0f); // isLine
lines.push_back(x + x2 * w);
lines.push_back(y + y2 * h);
lines.push_back(0.0f);
lines.push_back(color.x);
lines.push_back(color.y);
lines.push_back(color.z);
lines.push_back(1.0f); // size
lines.push_back(1.0f); // isLine
};
switch (c)
{
case '0':
add(0, 0, 1, 0);
add(1, 0, 1, 1);
add(1, 1, 0, 1);
add(0, 1, 0, 0);
break;
case '1':
add(0.5f, 0, 0.5f, 1);
add(0.25f, 0.75f, 0.5f, 1);
add(0.25f, 0, 0.75f, 0);
break;
case '2':
add(0, 1, 1, 1);
add(1, 1, 1, 0.5f);
add(1, 0.5f, 0, 0.5f);
add(0, 0.5f, 0, 0);
add(0, 0, 1, 0);
break;
case '3':
add(0, 1, 1, 1);
add(1, 1, 1, 0);
add(1, 0, 0, 0);
add(0, 0.5f, 1, 0.5f);
break;
case '4':
add(0, 1, 0, 0.5f);
add(0, 0.5f, 1, 0.5f);
add(1, 1, 1, 0);
break;
case '5':
add(1, 1, 0, 1);
add(0, 1, 0, 0.5f);
add(0, 0.5f, 1, 0.5f);
add(1, 0.5f, 1, 0);
add(1, 0, 0, 0);
break;
case '6':
add(1, 1, 0, 1);
add(0, 1, 0, 0);
add(0, 0, 1, 0);
add(1, 0, 1, 0.5f);
add(1, 0.5f, 0, 0.5f);
break;
case '7':
add(0, 1, 1, 1);
add(1, 1, 0.5f, 0);
break;
case '8':
add(0, 0, 1, 0);
add(1, 0, 1, 1);
add(1, 1, 0, 1);
add(0, 1, 0, 0);
add(0, 0.5f, 1, 0.5f);
break;
case '9':
add(1, 0.5f, 0, 0.5f);
add(0, 0.5f, 0, 1);
add(0, 1, 1, 1);
add(1, 1, 1, 0);
add(1, 0, 0, 0);
break;
case '.':
add(0.4f, 0, 0.6f, 0);
add(0.6f, 0, 0.6f, 0.2f);
add(0.6f, 0.2f, 0.4f, 0.2f);
add(0.4f, 0.2f, 0.4f, 0);
break;
}
}
void drawText(const std::string& text, float x, float y, float scale, const Color& color, std::vector<float>& lines)
{
float cursor = x;
for (char c : text)
{
drawChar(c, cursor, y, scale, color, lines);
cursor += (c == '.' ? 0.3f : 0.7f) * scale;
}
}
GLFWwindow* initWindow(int width, int height, const char* title)
{
if (!glfwInit())
{
std::cerr << "Failed to initialize GLFW\n";
return nullptr;
}
glfwWindowHint(GLFW_CONTEXT_VERSION_MAJOR, 3);
glfwWindowHint(GLFW_CONTEXT_VERSION_MINOR, 3);
glfwWindowHint(GLFW_OPENGL_PROFILE, GLFW_OPENGL_CORE_PROFILE);
GLFWwindow* window = glfwCreateWindow(width, height, title, NULL, NULL);
if (!window)
{
std::cerr << "Failed to create GLFW window\n";
glfwTerminate();
return nullptr;
}
glfwMakeContextCurrent(window);
// Check if context is valid using standard GL
const GLubyte* renderer = glGetString(GL_RENDERER);
const GLubyte* version = glGetString(GL_VERSION);
if (renderer && version)
{
std::cout << "Renderer: " << renderer << "\n";
std::cout << "OpenGL version supported: " << version << "\n";
}
else
{
std::cerr << "Failed to get GL_RENDERER or GL_VERSION. Context might be invalid.\n";
}
glewExperimental = GL_TRUE;
GLenum glewErr = glewInit();
if (glewErr != GLEW_OK)
{
// Ignore GLEW_ERROR_NO_GLX_DISPLAY if we have a valid context (e.g. Wayland)
if (glewErr == GLEW_ERROR_NO_GLX_DISPLAY && renderer)
{
std::cerr << "GLEW warning: " << glewGetErrorString(glewErr) << " (Ignored because context seems valid)\n";
}
else
{
std::cerr << "Failed to initialize GLEW: " << glewGetErrorString(glewErr) << "\n";
glfwTerminate();
return nullptr;
}
}
return window;
}
GLuint createShaderProgram()
{
GLuint vs = compileShader(GL_VERTEX_SHADER, vertexShaderSource);
GLuint fs = compileShader(GL_FRAGMENT_SHADER, fragmentShaderSource);
GLuint shaderProgram = glCreateProgram();
glAttachShader(shaderProgram, vs);
glAttachShader(shaderProgram, fs);
glLinkProgram(shaderProgram);
return shaderProgram;
}
void generatePointCloud(std::vector<float>& pointCloud, const Triangle<Vector3<float>>& triangle)
{
const auto& A = triangle.m_vertex1;
const auto& B = triangle.m_vertex2;
const auto& C = triangle.m_vertex3;
// Iterating over barycentric coordinates (u, v, w) from 0.0 to 1.0
for (float u = 0.0f; u <= 1.0f; u += 0.015f)
{
for (float v = 0.0f; v <= 1.0f - u; v += 0.015f)
{
float w = 1.0f - u - v;
if (w >= 0.0f && w <= 1.0f)
{
Vector3<float> P = A * u + B * v + C * w;
pointCloud.push_back(P.x);
pointCloud.push_back(P.y);
pointCloud.push_back(P.z);
pointCloud.push_back(u);
pointCloud.push_back(v);
pointCloud.push_back(w);
pointCloud.push_back(2.0f); // size
pointCloud.push_back(0.0f); // isLine
}
}
}
}
void setupBuffers(GLuint& VAO_cloud, GLuint& VBO_cloud, const std::vector<float>& pointCloud, GLuint& VAO_dyn,
GLuint& VBO_dyn)
{
glGenVertexArrays(1, &VAO_cloud);
glGenBuffers(1, &VBO_cloud);
glBindVertexArray(VAO_cloud);
glBindBuffer(GL_ARRAY_BUFFER, VBO_cloud);
glBufferData(GL_ARRAY_BUFFER, pointCloud.size() * sizeof(float), pointCloud.data(), GL_STATIC_DRAW);
glVertexAttribPointer(0, 3, GL_FLOAT, GL_FALSE, 8 * sizeof(float), (void*)0);
glEnableVertexAttribArray(0);
glVertexAttribPointer(1, 3, GL_FLOAT, GL_FALSE, 8 * sizeof(float), (void*)(3 * sizeof(float)));
glEnableVertexAttribArray(1);
glVertexAttribPointer(2, 1, GL_FLOAT, GL_FALSE, 8 * sizeof(float), (void*)(6 * sizeof(float)));
glEnableVertexAttribArray(2);
glVertexAttribPointer(3, 1, GL_FLOAT, GL_FALSE, 8 * sizeof(float), (void*)(7 * sizeof(float)));
glEnableVertexAttribArray(3);
glGenVertexArrays(1, &VAO_dyn);
glGenBuffers(1, &VBO_dyn);
glBindVertexArray(VAO_dyn);
glBindBuffer(GL_ARRAY_BUFFER, VBO_dyn);
glBufferData(GL_ARRAY_BUFFER, 1000 * 8 * sizeof(float), NULL, GL_DYNAMIC_DRAW);
glVertexAttribPointer(0, 3, GL_FLOAT, GL_FALSE, 8 * sizeof(float), (void*)0);
glEnableVertexAttribArray(0);
glVertexAttribPointer(1, 3, GL_FLOAT, GL_FALSE, 8 * sizeof(float), (void*)(3 * sizeof(float)));
glEnableVertexAttribArray(1);
glVertexAttribPointer(2, 1, GL_FLOAT, GL_FALSE, 8 * sizeof(float), (void*)(6 * sizeof(float)));
glEnableVertexAttribArray(2);
glVertexAttribPointer(3, 1, GL_FLOAT, GL_FALSE, 8 * sizeof(float), (void*)(7 * sizeof(float)));
glEnableVertexAttribArray(3);
}
void updateDynamicData(std::vector<float>& dynData, float u, float v, float w, const Vector3<float>& P,
const Triangle<Vector3<float>>& triangle)
{
const auto& A = triangle.m_vertex1;
const auto& B = triangle.m_vertex2;
const auto& C = triangle.m_vertex3;
float sizeA = 10.0f + u * 30.0f;
float sizeB = 10.0f + v * 30.0f;
float sizeC = 10.0f + w * 30.0f;
float sizeP = 12.0f;
dynData = {// Lines from P to A, B, C
P.x, P.y, P.z, u, v, w, 1.0f, 1.0f, A.x, A.y, A.z, 1.0f, 0.0f, 0.0f, 1.0f, 1.0f,
P.x, P.y, P.z, u, v, w, 1.0f, 1.0f, B.x, B.y, B.z, 0.0f, 1.0f, 0.0f, 1.0f, 1.0f,
P.x, P.y, P.z, u, v, w, 1.0f, 1.0f, C.x, C.y, C.z, 0.0f, 0.0f, 1.0f, 1.0f, 1.0f,
// The animated dot itself (White)
P.x, P.y, P.z, 1.0f, 1.0f, 1.0f, sizeP, 0.0f,
// The 3 corner dots
A.x, A.y, A.z, 1.0f, 0.0f, 0.0f, sizeA, 0.0f, B.x, B.y, B.z, 0.0f, 1.0f, 0.0f, sizeB, 0.0f, C.x, C.y,
C.z, 0.0f, 0.0f, 1.0f, sizeC, 0.0f};
char bufA[16], bufB[16], bufC[16];
snprintf(bufA, sizeof(bufA), "%.2f", u);
snprintf(bufB, sizeof(bufB), "%.2f", v);
snprintf(bufC, sizeof(bufC), "%.2f", w);
// Keep text at a fixed distance from the dots
float distA = 0.13f;
float distB = 0.13f;
float distC = 0.13f;
drawText(bufA, A.x - 0.05f, A.y + distA, 0.1f, Color(1, 0, 0, 1), dynData);
drawText(bufB, B.x - 0.15f - distB, B.y - 0.05f - distB, 0.1f, Color(0, 1, 0, 1), dynData);
drawText(bufC, C.x + 0.05f + distC, C.y - 0.05f - distC, 0.1f, Color(0, 0, 1, 1), dynData);
}
int main()
{
GLFWwindow* window = initWindow(800, 800, "Barycentric Coordinates");
if (!window)
return -1;
GLuint shaderProgram = createShaderProgram();
// Triangle vertices as shown in the picture (Red, Green, Blue)
// Scaled down slightly to leave room for text
Triangle<Vector3<float>> triangle(Vector3<float>(0.0f, 0.6f, 0.0f), // Red dot (top)
Vector3<float>(-0.6f, -0.6f, 0.0f), // Green dot (bottom left)
Vector3<float>(0.6f, -0.6f, 0.0f) // Blue dot (bottom right)
);
std::vector<float> pointCloud;
generatePointCloud(pointCloud, triangle);
GLuint VAO_cloud, VBO_cloud, VAO_dyn, VBO_dyn;
setupBuffers(VAO_cloud, VBO_cloud, pointCloud, VAO_dyn, VBO_dyn);
glEnable(GL_PROGRAM_POINT_SIZE);
glEnable(GL_BLEND);
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
while (!glfwWindowShouldClose(window))
{
glClearColor(0.02f, 0.02f, 0.02f, 1.0f);
glClear(GL_COLOR_BUFFER_BIT);
glUseProgram(shaderProgram);
// Draw the point cloud (the iterated points)
glBindVertexArray(VAO_cloud);
glDrawArrays(GL_POINTS, 0, pointCloud.size() / 8);
// Animate the white dot to simulate dragging
float t = glfwGetTime();
float u = (std::sin(t * 1.5f) * 0.5f + 0.5f);
float v = (std::cos(t * 1.1f) * 0.5f + 0.5f);
if (u + v > 1.0f)
{
u = 1.0f - u;
v = 1.0f - v;
}
float w = 1.0f - u - v;
if (w > 1.0f)
{
float diff = w - 1.0f;
w = 1.0f;
u += diff / 2.0f;
v += diff / 2.0f;
}
else if (w < 0.0f)
{
float diff = -w;
w = 0.0f;
u -= diff / 2.0f;
v -= diff / 2.0f;
}
Vector3<float> P = triangle.m_vertex1 * u + triangle.m_vertex2 * v + triangle.m_vertex3 * w;
std::vector<float> dynData;
updateDynamicData(dynData, u, v, w, P, triangle);
glBindVertexArray(VAO_dyn);
glBindBuffer(GL_ARRAY_BUFFER, VBO_dyn);
glBufferSubData(GL_ARRAY_BUFFER, 0, dynData.size() * sizeof(float), dynData.data());
// Draw lines
glDrawArrays(GL_LINES, 0, 6);
// Draw text lines
int numTextVertices = (dynData.size() / 8) - 10;
if (numTextVertices > 0)
{
glDrawArrays(GL_LINES, 10, numTextVertices);
}
// Draw dots
glDrawArrays(GL_POINTS, 6, 4);
glfwSwapBuffers(window);
glfwPollEvents();
}
glfwTerminate();
return 0;
}

14
examples/example_glfw3/CMakeLists.txt Normal file
View File

@@ -0,0 +1,14 @@
project(example_glfw3)
add_executable(${PROJECT_NAME} example_glfw3.cpp)
set_target_properties(
${PROJECT_NAME}
PROPERTIES CXX_STANDARD 23
ARCHIVE_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}"
LIBRARY_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}"
RUNTIME_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}")
find_package(OpenGL)
find_package(GLEW REQUIRED)
find_package(glfw3 CONFIG REQUIRED)
target_link_libraries(${PROJECT_NAME} PRIVATE omath::omath GLEW::GLEW glfw OpenGL::GL)

72
examples/example_glfw3.cpp → examples/example_glfw3/example_glfw3.cpp
View File

@@ -149,10 +149,13 @@ int main()
// Check if context is valid using standard GL // Check if context is valid using standard GL
const GLubyte* renderer = glGetString(GL_RENDERER); const GLubyte* renderer = glGetString(GL_RENDERER);
const GLubyte* version = glGetString(GL_VERSION); const GLubyte* version = glGetString(GL_VERSION);
if (renderer && version) { if (renderer && version)
{
std::cout << "Renderer: " << renderer << "\n"; std::cout << "Renderer: " << renderer << "\n";
std::cout << "OpenGL version supported: " << version << "\n"; std::cout << "OpenGL version supported: " << version << "\n";
} else { }
else
{
std::cerr << "Failed to get GL_RENDERER or GL_VERSION. Context might be invalid.\n"; std::cerr << "Failed to get GL_RENDERER or GL_VERSION. Context might be invalid.\n";
} }
@@ -162,11 +165,14 @@ int main()
if (glewErr != GLEW_OK) if (glewErr != GLEW_OK)
{ {
// Ignore NO_GLX_DISPLAY if we have a valid context // Ignore NO_GLX_DISPLAY if we have a valid context
if (glewErr == GLEW_ERROR_NO_GLX_DISPLAY && renderer) { if (glewErr == GLEW_ERROR_NO_GLX_DISPLAY && renderer)
std::cerr << "GLEW warning: " << glewGetErrorString(glewErr) << " (Ignored because context seems valid)\n"; {
} else { std::cerr << "GLEW warning: " << glewGetErrorString(glewErr) << " (Ignored because context seems valid)\n";
}
else
{
std::cerr << "Failed to initialize GLEW: " << reinterpret_cast<const char*>(glewGetErrorString(glewErr)) std::cerr << "Failed to initialize GLEW: " << reinterpret_cast<const char*>(glewGetErrorString(glewErr))
<< "\n"; << "\n";
glfwTerminate(); glfwTerminate();
return -1; return -1;
} }
@@ -300,11 +306,65 @@ int main()
static float old_frame_time = glfwGetTime(); static float old_frame_time = glfwGetTime();
float lastX = 640.0f / 2.0f;
float lastY = 480.0f / 2.0f;
bool firstMouse = true;
bool mouse_capture = false;
float mouseSensitivity = 0.1f;
// ---------- Main loop ---------- // ---------- Main loop ----------
static double old_mouse_time = glfwGetTime();
while (!glfwWindowShouldClose(window)) while (!glfwWindowShouldClose(window))
{ {
glfwPollEvents(); glfwPollEvents();
omath::Vector3<float> move_dir;
if (glfwGetKey(window, GLFW_KEY_W))
move_dir += camera.get_forward();
if (glfwGetKey(window, GLFW_KEY_A))
move_dir -= camera.get_right();
if (glfwGetKey(window, GLFW_KEY_S))
move_dir -= camera.get_forward();
if (glfwGetKey(window, GLFW_KEY_D))
move_dir += camera.get_right();
if (glfwGetKey(window, GLFW_KEY_SPACE))
move_dir += camera.get_up();
if (glfwGetKey(window, GLFW_KEY_LEFT_CONTROL))
move_dir -= camera.get_up();
auto delta = glfwGetTime() - old_mouse_time;
if (glfwGetMouseButton(window, GLFW_MOUSE_BUTTON_LEFT) && delta > 0.4)
{
old_mouse_time = glfwGetTime();
mouse_capture = !mouse_capture;
glfwSetInputMode(window, GLFW_CURSOR, mouse_capture ? GLFW_CURSOR_HIDDEN : GLFW_CURSOR_NORMAL);
}
if (mouse_capture)
{
int x, y;
glfwGetWindowSize(window, &x, &y);
camera.set_origin(camera.get_origin() + (move_dir.normalized() * 0.4f));
double xpos, ypos;
glfwGetCursorPos(window, &xpos, &ypos);
float xoffset = (float)xpos - x / 2.f;
float yoffset = y / 2.f - ypos ; // reversed: y-coordinates go bottom->top for pitch
xoffset *= mouseSensitivity;
yoffset *= mouseSensitivity;
auto new_angles = camera.get_view_angles();
new_angles.pitch += decltype(new_angles.pitch)::from_degrees(yoffset);
new_angles.yaw -= decltype(new_angles.yaw)::from_degrees(xoffset);
camera.set_view_angles(new_angles);
glfwSetCursorPos(window, x / 2., y / 2);
}
float currentTime = glfwGetTime(); float currentTime = glfwGetTime();
float deltaTime = currentTime - old_frame_time; float deltaTime = currentTime - old_frame_time;
old_frame_time = currentTime; old_frame_time = currentTime;

10
examples/example_proj_mat_builder/CMakeLists.txt Normal file
View File

@@ -0,0 +1,10 @@
project(example_projection_matrix_builder)
add_executable(${PROJECT_NAME} example_proj_mat_builder.cpp)
set_target_properties(
${PROJECT_NAME}
PROPERTIES CXX_STANDARD 23
ARCHIVE_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}"
LIBRARY_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}"
RUNTIME_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}")
target_link_libraries(${PROJECT_NAME} PRIVATE omath::omath)

0
examples/example_proj_mat_builder.cpp → examples/example_proj_mat_builder/example_proj_mat_builder.cpp
View File

10
examples/example_signature_scan/CMakeLists.txt Normal file
View File

@@ -0,0 +1,10 @@
project(example_signature_scan)
add_executable(${PROJECT_NAME} example_signature_scan.cpp)
set_target_properties(
${PROJECT_NAME}
PROPERTIES CXX_STANDARD 23
ARCHIVE_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}"
LIBRARY_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}"
RUNTIME_OUTPUT_DIRECTORY "${CMAKE_SOURCE_DIR}/out/${CMAKE_BUILD_TYPE}")
target_link_libraries(${PROJECT_NAME} PRIVATE omath::omath)

0
examples/example_signature_scan.cpp → examples/example_signature_scan/example_signature_scan.cpp
View File

40
include/omath/collision/epa_algorithm.hpp
View File

@@ -13,11 +13,11 @@
namespace omath::collision namespace omath::collision
{ {
template<class V> template<class V, class FloatingType>
concept EpaVector = requires(const V& a, const V& b, float s) { concept EpaVector = requires(const V& a, const V& b, FloatingType s) {
{ a - b } -> std::same_as<V>; { a - b } -> std::same_as<V>;
{ a.cross(b) } -> std::same_as<V>; { a.cross(b) } -> std::same_as<V>;
{ a.dot(b) } -> std::same_as<float>; { a.dot(b) } -> std::same_as<FloatingType>;
{ -a } -> std::same_as<V>; { -a } -> std::same_as<V>;
{ a * s } -> std::same_as<V>; { a * s } -> std::same_as<V>;
{ a / s } -> std::same_as<V>; { a / s } -> std::same_as<V>;
@@ -28,13 +28,18 @@ namespace omath::collision
{ {
public: public:
using VectorType = ColliderInterfaceType::VectorType; using VectorType = ColliderInterfaceType::VectorType;
static_assert(EpaVector<VectorType>, "VertexType must satisfy EpaVector concept"); static_assert(EpaVector<VectorType, typename VectorType::ContainedType>,
"VertexType must satisfy EpaVector concept");
private:
using FloatingType = VectorType::ContainedType;
public:
struct Result final struct Result final
{ {
VectorType normal{}; // from A to B VectorType normal{}; // from A to B
VectorType penetration_vector; VectorType penetration_vector;
float depth{0.0f}; FloatingType depth{0.0};
int iterations{0}; int iterations{0};
int num_vertices{0}; int num_vertices{0};
int num_faces{0}; int num_faces{0};
@@ -43,7 +48,7 @@ namespace omath::collision
struct Params final struct Params final
{ {
int max_iterations{64}; int max_iterations{64};
float tolerance{1e-4f}; // absolute tolerance on distance growth FloatingType tolerance{1e-4}; // absolute tolerance on distance growth
}; };
// Precondition: simplex.size()==4 and contains the origin. // Precondition: simplex.size()==4 and contains the origin.
[[nodiscard]] [[nodiscard]]
@@ -75,13 +80,13 @@ namespace omath::collision
if (heap.empty()) if (heap.empty())
break; break;
//FIXME: STORE REF VALUE, DO NOT USE // FIXME: STORE REF VALUE, DO NOT USE
// AFTER IF STATEMENT BLOCK // AFTER IF STATEMENT BLOCK
const Face& face = faces[heap.top().idx]; const Face& face = faces[heap.top().idx];
// Get the furthest point in face normal direction // Get the furthest point in face normal direction
const VectorType p = support_point(a, b, face.n); const VectorType p = support_point(a, b, face.n);
const float p_dist = face.n.dot(p); const auto p_dist = face.n.dot(p);
// Converged if we cant push the face closer than tolerance // Converged if we cant push the face closer than tolerance
if (p_dist - face.d <= params.tolerance) if (p_dist - face.d <= params.tolerance)
@@ -136,7 +141,7 @@ namespace omath::collision
{ {
int i0, i1, i2; int i0, i1, i2;
VectorType n; // unit outward normal VectorType n; // unit outward normal
float d; // n · v0 (>=0 ideally because origin is inside) FloatingType d; // n · v0 (>=0 ideally because origin is inside)
}; };
struct Edge final struct Edge final
@@ -146,7 +151,7 @@ namespace omath::collision
struct HeapItem final struct HeapItem final
{ {
float d; FloatingType d;
int idx; int idx;
}; };
struct HeapCmp final struct HeapCmp final
@@ -178,7 +183,7 @@ namespace omath::collision
static bool visible_from(const Face& f, const VectorType& p) static bool visible_from(const Face& f, const VectorType& p)
{ {
// positive if p is in front of the face // positive if p is in front of the face
return f.n.dot(p) - f.d > 1e-7f; return f.n.dot(p) - f.d > static_cast<FloatingType>(1e-7);
} }
static void add_edge_boundary(std::pmr::vector<Edge>& boundary, int a, int b) static void add_edge_boundary(std::pmr::vector<Edge>& boundary, int a, int b)
@@ -198,19 +203,20 @@ namespace omath::collision
const VectorType& a1 = vertexes[i1]; const VectorType& a1 = vertexes[i1];
const VectorType& a2 = vertexes[i2]; const VectorType& a2 = vertexes[i2];
VectorType n = (a1 - a0).cross(a2 - a0); VectorType n = (a1 - a0).cross(a2 - a0);
if (n.dot(n) <= 1e-30f) if (n.dot(n) <= static_cast<FloatingType>(1e-30))
{ {
n = any_perp_vec(a1 - a0); // degenerate guard n = any_perp_vec(a1 - a0); // degenerate guard
} }
// Ensure normal points outward (away from origin): require n·a0 >= 0 // Ensure normal points outward (away from origin): require n·a0 >= 0
if (n.dot(a0) < 0.0f) if (n.dot(a0) < static_cast<FloatingType>(0.0))
{ {
std::swap(i1, i2); std::swap(i1, i2);
n = -n; n = -n;
} }
const float inv_len = 1.0f / std::sqrt(std::max(n.dot(n), 1e-30f)); const auto inv_len =
static_cast<FloatingType>(1.0) / std::sqrt(std::max(n.dot(n), static_cast<FloatingType>(1e-30)));
n = n * inv_len; n = n * inv_len;
const float d = n.dot(a0); const auto d = n.dot(a0);
return {i0, i1, i2, n, d}; return {i0, i1, i2, n, d};
} }
@@ -223,7 +229,7 @@ namespace omath::collision
template<class V> template<class V>
[[nodiscard]] [[nodiscard]]
static constexpr bool near_zero_vec(const V& v, const float eps = 1e-7f) static constexpr bool near_zero_vec(const V& v, const FloatingType eps = 1e-7f)
{ {
return v.dot(v) <= eps * eps; return v.dot(v) <= eps * eps;
} }

14
include/omath/collision/gjk_algorithm.hpp
View File

@@ -14,11 +14,15 @@ namespace omath::collision
Simplex<VertexType> simplex; // valid only if hit == true and size==4 Simplex<VertexType> simplex; // valid only if hit == true and size==4
}; };
struct GjkSettings final
{
float epsilon = 1e-6f;
std::size_t max_iterations = 64;
};
template<class ColliderInterfaceType> template<class ColliderInterfaceType>
class GjkAlgorithm final class GjkAlgorithm final
{ {
using VectorType = ColliderInterfaceType::VectorType; using VectorType = ColliderInterfaceType::VectorType;
public: public:
[[nodiscard]] [[nodiscard]]
static VectorType find_support_vertex(const ColliderInterfaceType& collider_a, static VectorType find_support_vertex(const ColliderInterfaceType& collider_a,
@@ -36,7 +40,8 @@ namespace omath::collision
[[nodiscard]] [[nodiscard]]
static GjkHitInfo<VectorType> is_collide_with_simplex_info(const ColliderInterfaceType& collider_a, static GjkHitInfo<VectorType> is_collide_with_simplex_info(const ColliderInterfaceType& collider_a,
const ColliderInterfaceType& collider_b) const ColliderInterfaceType& collider_b,
const GjkSettings& settings = {})
{ {
auto support = find_support_vertex(collider_a, collider_b, VectorType{1, 0, 0}); auto support = find_support_vertex(collider_a, collider_b, VectorType{1, 0, 0});
@@ -45,11 +50,11 @@ namespace omath::collision
auto direction = -support; auto direction = -support;
while (true) for (std::size_t iteration = 0; iteration < settings.max_iterations; ++iteration)
{ {
support = find_support_vertex(collider_a, collider_b, direction); support = find_support_vertex(collider_a, collider_b, direction);
if (support.dot(direction) <= 0.f) if (support.dot(direction) <= settings.epsilon)
return {false, simplex}; return {false, simplex};
simplex.push_front(support); simplex.push_front(support);
@@ -57,6 +62,7 @@ namespace omath::collision
if (simplex.handle(direction)) if (simplex.handle(direction))
return {true, simplex}; return {true, simplex};
} }
return {false, simplex};
} }
}; };
} // namespace omath::collision } // namespace omath::collision

23
include/omath/collision/mesh_collider.hpp
View File

@@ -46,9 +46,26 @@ namespace omath::collision
[[nodiscard]] [[nodiscard]]
const VertexType& find_furthest_vertex(const VectorType& direction) const const VertexType& find_furthest_vertex(const VectorType& direction) const
{ {
return *std::ranges::max_element( // The support query arrives in world space, but vertex positions are stored
m_mesh.m_vertex_buffer, [&direction](const auto& first, const auto& second) // in local space. We need argmax_v { world(v) · d }.
{ return first.position.dot(direction) < second.position.dot(direction); }); //
// world(v) = M·v (ignoring translation, which is constant across vertices)
// world(v) · d = v · Mᵀ·d
//
// So we transform the direction to local space once — O(1) — then compare
// raw local positions, which is far cheaper than calling
// vertex_position_to_world_space (full 4×4 multiply) for every vertex.
//
// d_local = upper-left 3×3 of M, transposed, times d_world:
// d_local[j] = sum_i M.at(i,j) * d[i] (i.e. column j of M dotted with d)
const auto& m = m_mesh.get_to_world_matrix();
const VectorType d_local = {
m[0, 0] * direction.x + m[1, 0] * direction.y + m[2, 0] * direction.z,
m[0, 1] * direction.x + m[1, 1] * direction.y + m[2, 1] * direction.z,
m[0, 2] * direction.x + m[1, 2] * direction.y + m[2, 2] * direction.z,
};
return *std::ranges::max_element(m_mesh.m_vertex_buffer, [&d_local](const auto& first, const auto& second)
{ return first.position.dot(d_local) < second.position.dot(d_local); });
} }
MeshType m_mesh; MeshType m_mesh;
}; };

9
include/omath/containers/encrypted_variable.hpp
View File

@@ -62,20 +62,13 @@ namespace omath::detail
return splitmix64(base_seed() + 0xD1B54A32D192ED03ull * (Stream + 1)); return splitmix64(base_seed() + 0xD1B54A32D192ED03ull * (Stream + 1));
} }
[[nodiscard]]
consteval std::uint64_t bounded_u64(const std::uint64_t x, const std::uint64_t bound)
{
return (x * bound) >> 64;
}
template<std::int64_t Lo, std::int64_t Hi, std::uint64_t Stream> template<std::int64_t Lo, std::int64_t Hi, std::uint64_t Stream>
[[nodiscard]] [[nodiscard]]
consteval std::int64_t rand_uint8_t() consteval std::int64_t rand_uint8_t()
{ {
static_assert(Lo <= Hi); static_assert(Lo <= Hi);
const std::uint64_t span = static_cast<std::uint64_t>(Hi - Lo) + 1ull;
const std::uint64_t r = rand_u64<Stream>(); const std::uint64_t r = rand_u64<Stream>();
return static_cast<std::int64_t>(bounded_u64(r, span)) + Lo; return static_cast<std::int64_t>(r) + Lo;
} }
[[nodiscard]] [[nodiscard]]
consteval std::uint64_t rand_u64(const std::uint64_t seed, const std::uint64_t i) consteval std::uint64_t rand_u64(const std::uint64_t seed, const std::uint64_t i)

13
include/omath/engines/cry_engine/camera.hpp Normal file
View File

@@ -0,0 +1,13 @@
//
// Created by Vlad on 3/22/2025.
//
#pragma once
#include "omath/engines/cry_engine/constants.hpp"
#include "omath/projection/camera.hpp"
#include "traits/camera_trait.hpp"
namespace omath::cry_engine
{
using Camera = projection::Camera<Mat4X4, ViewAngles, CameraTrait>;
} // namespace omath::cry_engine

25
include/omath/engines/cry_engine/constants.hpp Normal file
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@@ -0,0 +1,25 @@
//
// Created by Vlad on 10/21/2025.
//
#pragma once
#include "omath/linear_algebra/mat.hpp"
#include "omath/linear_algebra/vector3.hpp"
#include <omath/trigonometry/angle.hpp>
#include <omath/trigonometry/view_angles.hpp>
namespace omath::cry_engine
{
constexpr Vector3<float> k_abs_up = {0, 0, 1};
constexpr Vector3<float> k_abs_right = {1, 0, 0};
constexpr Vector3<float> k_abs_forward = {0, 1, 0};
using Mat4X4 = Mat<4, 4, float, MatStoreType::ROW_MAJOR>;
using Mat3X3 = Mat<4, 4, float, MatStoreType::ROW_MAJOR>;
using Mat1X3 = Mat<1, 3, float, MatStoreType::ROW_MAJOR>;
using PitchAngle = Angle<float, -90.f, 90.f, AngleFlags::Clamped>;
using YawAngle = Angle<float, -180.f, 180.f, AngleFlags::Normalized>;
using RollAngle = Angle<float, -180.f, 180.f, AngleFlags::Normalized>;
using ViewAngles = omath::ViewAngles<PitchAngle, YawAngle, RollAngle>;
} // namespace omath::cry_engine

74
include/omath/engines/cry_engine/formulas.hpp Normal file
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@@ -0,0 +1,74 @@
//
// Created by Vlad on 3/22/2025.
//
#pragma once
#include "omath/engines/cry_engine/constants.hpp"
namespace omath::cry_engine
{
[[nodiscard]]
Vector3<float> forward_vector(const ViewAngles& angles) noexcept;
[[nodiscard]]
Vector3<float> right_vector(const ViewAngles& angles) noexcept;
[[nodiscard]]
Vector3<float> up_vector(const ViewAngles& angles) noexcept;
[[nodiscard]] Mat4X4 calc_view_matrix(const ViewAngles& angles, const Vector3<float>& cam_origin) noexcept;
[[nodiscard]]
Mat4X4 rotation_matrix(const ViewAngles& angles) noexcept;
[[nodiscard]]
Mat4X4 calc_perspective_projection_matrix(float field_of_view, float aspect_ratio, float near, float far) noexcept;
template<class FloatingType>
requires std::is_floating_point_v<FloatingType>
[[nodiscard]]
constexpr FloatingType units_to_centimeters(const FloatingType& units)
{
return units / static_cast<FloatingType>(100);
}
template<class FloatingType>
requires std::is_floating_point_v<FloatingType>
[[nodiscard]]
constexpr FloatingType units_to_meters(const FloatingType& units)
{
return units;
}
template<class FloatingType>
requires std::is_floating_point_v<FloatingType>
[[nodiscard]]
constexpr FloatingType units_to_kilometers(const FloatingType& units)
{
return units_to_meters(units) / static_cast<FloatingType>(1000);
}
template<class FloatingType>
requires std::is_floating_point_v<FloatingType>
[[nodiscard]]
constexpr FloatingType centimeters_to_units(const FloatingType& centimeters)
{
return centimeters * static_cast<FloatingType>(100);
}
template<class FloatingType>
requires std::is_floating_point_v<FloatingType>
[[nodiscard]]
constexpr FloatingType meters_to_units(const FloatingType& meters)
{
return meters;
}
template<class FloatingType>
requires std::is_floating_point_v<FloatingType>
[[nodiscard]]
constexpr FloatingType kilometers_to_units(const FloatingType& kilometers)
{
return meters_to_units(kilometers * static_cast<FloatingType>(1000));
}
} // namespace omath::cry_engine

12
include/omath/engines/cry_engine/mesh.hpp Normal file
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@@ -0,0 +1,12 @@
//
// Created by Vladislav on 09.11.2025.
//
#pragma once
#include "constants.hpp"
#include "omath/3d_primitives/mesh.hpp"
#include "traits/mesh_trait.hpp"
namespace omath::cry_engine
{
using Mesh = primitives::Mesh<Mat4X4, ViewAngles, MeshTrait>;
}

24
include/omath/engines/cry_engine/traits/camera_trait.hpp Normal file
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@@ -0,0 +1,24 @@
//
// Created by Vlad on 8/10/2025.
//
#pragma once
#include "omath/engines/cry_engine/formulas.hpp"
#include "omath/projection/camera.hpp"
namespace omath::cry_engine
{
class CameraTrait final
{
public:
[[nodiscard]]
static ViewAngles calc_look_at_angle(const Vector3<float>& cam_origin, const Vector3<float>& look_at) noexcept;
[[nodiscard]]
static Mat4X4 calc_view_matrix(const ViewAngles& angles, const Vector3<float>& cam_origin) noexcept;
[[nodiscard]]
static Mat4X4 calc_projection_matrix(const projection::FieldOfView& fov, const projection::ViewPort& view_port,
float near, float far) noexcept;
};
} // namespace omath::cry_engine

19
include/omath/engines/cry_engine/traits/mesh_trait.hpp Normal file
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@@ -0,0 +1,19 @@
//
// Created by Vladislav on 09.11.2025.
//
#pragma once
#include <omath/engines/cry_engine/constants.hpp>
#include <omath/engines/cry_engine/formulas.hpp>
namespace omath::cry_engine
{
class MeshTrait final
{
public:
[[nodiscard]]
static Mat4X4 rotation_matrix(const ViewAngles& rotation)
{
return cry_engine::rotation_matrix(rotation);
}
};
} // namespace omath::cry_engine

76
include/omath/engines/cry_engine/traits/pred_engine_trait.hpp Normal file
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@@ -0,0 +1,76 @@
//
// Created by Vlad on 8/6/2025.
//
#pragma once
#include "omath/engines/cry_engine/formulas.hpp"
#include "omath/projectile_prediction/projectile.hpp"
#include "omath/projectile_prediction/target.hpp"
#include <optional>
namespace omath::cry_engine
{
class PredEngineTrait final
{
public:
constexpr static Vector3<float> predict_projectile_position(const projectile_prediction::Projectile& projectile,
const float pitch, const float yaw,
const float time, const float gravity) noexcept
{
auto current_pos = projectile.m_origin
+ forward_vector({PitchAngle::from_degrees(-pitch), YawAngle::from_degrees(yaw),
RollAngle::from_degrees(0)})
* projectile.m_launch_speed * time;
current_pos.z -= (gravity * projectile.m_gravity_scale) * (time * time) * 0.5f;
return current_pos;
}
[[nodiscard]]
static constexpr Vector3<float> predict_target_position(const projectile_prediction::Target& target,
const float time, const float gravity) noexcept
{
auto predicted = target.m_origin + target.m_velocity * time;
if (target.m_is_airborne)
predicted.z -= gravity * (time * time) * 0.5f;
return predicted;
}
[[nodiscard]]
static float calc_vector_2d_distance(const Vector3<float>& delta) noexcept
{
return std::sqrt(delta.x * delta.x + delta.y * delta.y);
}
[[nodiscard]]
constexpr static float get_vector_height_coordinate(const Vector3<float>& vec) noexcept
{
return vec.z;
}
[[nodiscard]]
static Vector3<float> calc_viewpoint_from_angles(const projectile_prediction::Projectile& projectile,
Vector3<float> predicted_target_position,
const std::optional<float> projectile_pitch) noexcept
{
const auto delta2d = calc_vector_2d_distance(predicted_target_position - projectile.m_origin);
const auto height = delta2d * std::tan(angles::degrees_to_radians(projectile_pitch.value()));
return {predicted_target_position.x, predicted_target_position.y, projectile.m_origin.z + height};
}
// Due to specification of maybe_calculate_projectile_launch_pitch_angle, pitch angle must be:
// 89 look up, -89 look down
[[nodiscard]]
static float calc_direct_pitch_angle(const Vector3<float>& origin, const Vector3<float>& view_to) noexcept
{
const auto direction = (view_to - origin).normalized();
return angles::radians_to_degrees(std::asin(direction.z));
}
[[nodiscard]]
static float calc_direct_yaw_angle(const Vector3<float>& origin, const Vector3<float>& view_to) noexcept
{
const auto direction = (view_to - origin).normalized();
return angles::radians_to_degrees(-std::atan2(direction.x, direction.y));
};
};
} // namespace omath::cry_engine

2
include/omath/engines/frostbite_engine/traits/pred_engine_trait.hpp
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@@ -55,7 +55,7 @@ namespace omath::frostbite_engine
const auto delta2d = calc_vector_2d_distance(predicted_target_position - projectile.m_origin); const auto delta2d = calc_vector_2d_distance(predicted_target_position - projectile.m_origin);
const auto height = delta2d * std::tan(angles::degrees_to_radians(projectile_pitch.value())); const auto height = delta2d * std::tan(angles::degrees_to_radians(projectile_pitch.value()));
return {predicted_target_position.x, predicted_target_position.y + height, projectile.m_origin.z}; return {predicted_target_position.x, projectile.m_origin.y + height, predicted_target_position.z};
} }
// Due to specification of maybe_calculate_projectile_launch_pitch_angle, pitch angle must be: // Due to specification of maybe_calculate_projectile_launch_pitch_angle, pitch angle must be:
// 89 look up, -89 look down // 89 look up, -89 look down

2
include/omath/engines/opengl_engine/camera.hpp
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@@ -8,5 +8,5 @@
namespace omath::opengl_engine namespace omath::opengl_engine
{ {
using Camera = projection::Camera<Mat4X4, ViewAngles, CameraTrait>; using Camera = projection::Camera<Mat4X4, ViewAngles, CameraTrait, true>;
} // namespace omath::opengl_engine } // namespace omath::opengl_engine

2
include/omath/engines/opengl_engine/traits/pred_engine_trait.hpp
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@@ -55,7 +55,7 @@ namespace omath::opengl_engine
const auto delta2d = calc_vector_2d_distance(predicted_target_position - projectile.m_origin); const auto delta2d = calc_vector_2d_distance(predicted_target_position - projectile.m_origin);
const auto height = delta2d * std::tan(angles::degrees_to_radians(projectile_pitch.value())); const auto height = delta2d * std::tan(angles::degrees_to_radians(projectile_pitch.value()));
return {predicted_target_position.x, predicted_target_position.y + height, projectile.m_origin.z}; return {predicted_target_position.x, projectile.m_origin.y + height, predicted_target_position.z};
} }
// Due to specification of maybe_calculate_projectile_launch_pitch_angle, pitch angle must be: // Due to specification of maybe_calculate_projectile_launch_pitch_angle, pitch angle must be:
// 89 look up, -89 look down // 89 look up, -89 look down

2
include/omath/engines/unity_engine/traits/pred_engine_trait.hpp
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@@ -55,7 +55,7 @@ namespace omath::unity_engine
const auto delta2d = calc_vector_2d_distance(predicted_target_position - projectile.m_origin); const auto delta2d = calc_vector_2d_distance(predicted_target_position - projectile.m_origin);
const auto height = delta2d * std::tan(angles::degrees_to_radians(projectile_pitch.value())); const auto height = delta2d * std::tan(angles::degrees_to_radians(projectile_pitch.value()));
return {predicted_target_position.x, predicted_target_position.y + height, projectile.m_origin.z}; return {predicted_target_position.x, projectile.m_origin.y + height, predicted_target_position.z};
} }
// Due to specification of maybe_calculate_projectile_launch_pitch_angle, pitch angle must be: // Due to specification of maybe_calculate_projectile_launch_pitch_angle, pitch angle must be:
// 89 look up, -89 look down // 89 look up, -89 look down

219
include/omath/linear_algebra/quaternion.hpp Normal file
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@@ -0,0 +1,219 @@
//
// Created by vlad on 3/1/2026.
//
#pragma once
#include "omath/linear_algebra/mat.hpp"
#include "omath/linear_algebra/vector3.hpp"
#include <array>
#include <cmath>
#include <format>
namespace omath
{
template<class Type>
requires std::is_arithmetic_v<Type>
class Quaternion
{
public:
using ContainedType = Type;
Type x = static_cast<Type>(0);
Type y = static_cast<Type>(0);
Type z = static_cast<Type>(0);
Type w = static_cast<Type>(1); // identity quaternion
constexpr Quaternion() noexcept = default;
constexpr Quaternion(const Type& x, const Type& y, const Type& z, const Type& w) noexcept
: x(x), y(y), z(z), w(w)
{
}
// Factory: build from a normalized axis and an angle in radians
[[nodiscard]]
static Quaternion from_axis_angle(const Vector3<Type>& axis, const Type& angle_rad) noexcept
{
const Type half = angle_rad / static_cast<Type>(2);
const Type s = std::sin(half);
return {axis.x * s, axis.y * s, axis.z * s, std::cos(half)};
}
[[nodiscard]] constexpr bool operator==(const Quaternion& other) const noexcept
{
return x == other.x && y == other.y && z == other.z && w == other.w;
}
[[nodiscard]] constexpr bool operator!=(const Quaternion& other) const noexcept
{
return !(*this == other);
}
// Hamilton product: this * other
[[nodiscard]] constexpr Quaternion operator*(const Quaternion& other) const noexcept
{
return {
w * other.x + x * other.w + y * other.z - z * other.y,
w * other.y - x * other.z + y * other.w + z * other.x,
w * other.z + x * other.y - y * other.x + z * other.w,
w * other.w - x * other.x - y * other.y - z * other.z,
};
}
constexpr Quaternion& operator*=(const Quaternion& other) noexcept
{
return *this = *this * other;
}
[[nodiscard]] constexpr Quaternion operator*(const Type& scalar) const noexcept
{
return {x * scalar, y * scalar, z * scalar, w * scalar};
}
constexpr Quaternion& operator*=(const Type& scalar) noexcept
{
x *= scalar;
y *= scalar;
z *= scalar;
w *= scalar;
return *this;
}
[[nodiscard]] constexpr Quaternion operator+(const Quaternion& other) const noexcept
{
return {x + other.x, y + other.y, z + other.z, w + other.w};
}
constexpr Quaternion& operator+=(const Quaternion& other) noexcept
{
x += other.x;
y += other.y;
z += other.z;
w += other.w;
return *this;
}
[[nodiscard]] constexpr Quaternion operator-() const noexcept
{
return {-x, -y, -z, -w};
}
// Conjugate: negates the vector part (x, y, z)
[[nodiscard]] constexpr Quaternion conjugate() const noexcept
{
return {-x, -y, -z, w};
}
[[nodiscard]] constexpr Type dot(const Quaternion& other) const noexcept
{
return x * other.x + y * other.y + z * other.z + w * other.w;
}
[[nodiscard]] constexpr Type length_sqr() const noexcept
{
return x * x + y * y + z * z + w * w;
}
#ifndef _MSC_VER
[[nodiscard]] constexpr Type length() const noexcept
{
return std::sqrt(length_sqr());
}
[[nodiscard]] constexpr Quaternion normalized() const noexcept
{
const Type len = length();
return len != static_cast<Type>(0) ? *this * (static_cast<Type>(1) / len) : *this;
}
#else
[[nodiscard]] Type length() const noexcept
{
return std::sqrt(length_sqr());
}
[[nodiscard]] Quaternion normalized() const noexcept
{
const Type len = length();
return len != static_cast<Type>(0) ? *this * (static_cast<Type>(1) / len) : *this;
}
#endif
// Inverse: q* / |q|^2 (for unit quaternions inverse == conjugate)
[[nodiscard]] constexpr Quaternion inverse() const noexcept
{
return conjugate() * (static_cast<Type>(1) / length_sqr());
}
// Rotate a 3D vector: v' = q * pure(v) * q^-1
// Computed via Rodrigues' formula to avoid full quaternion product overhead
[[nodiscard]] constexpr Vector3<Type> rotate(const Vector3<Type>& v) const noexcept
{
const Vector3<Type> q_vec{x, y, z};
const Vector3<Type> cross = q_vec.cross(v);
return v + cross * (static_cast<Type>(2) * w) + q_vec.cross(cross) * static_cast<Type>(2);
}
// 3x3 rotation matrix from this (unit) quaternion
[[nodiscard]] constexpr Mat<3, 3, Type> to_rotation_matrix3() const noexcept
{
const Type xx = x * x, yy = y * y, zz = z * z;
const Type xy = x * y, xz = x * z, yz = y * z;
const Type wx = w * x, wy = w * y, wz = w * z;
const Type one = static_cast<Type>(1);
const Type two = static_cast<Type>(2);
return {
{one - two * (yy + zz), two * (xy - wz), two * (xz + wy) },
{two * (xy + wz), one - two * (xx + zz), two * (yz - wx) },
{two * (xz - wy), two * (yz + wx), one - two * (xx + yy)},
};
}
// 4x4 rotation matrix (with homogeneous row/column)
[[nodiscard]] constexpr Mat<4, 4, Type> to_rotation_matrix4() const noexcept
{
const Type xx = x * x, yy = y * y, zz = z * z;
const Type xy = x * y, xz = x * z, yz = y * z;
const Type wx = w * x, wy = w * y, wz = w * z;
const Type one = static_cast<Type>(1);
const Type two = static_cast<Type>(2);
const Type zero = static_cast<Type>(0);
return {
{one - two * (yy + zz), two * (xy - wz), two * (xz + wy), zero},
{two * (xy + wz), one - two * (xx + zz), two * (yz - wx), zero},
{two * (xz - wy), two * (yz + wx), one - two * (xx + yy), zero},
{zero, zero, zero, one },
};
}
[[nodiscard]] constexpr std::array<Type, 4> as_array() const noexcept
{
return {x, y, z, w};
}
};
} // namespace omath
template<class Type>
struct std::formatter<omath::Quaternion<Type>> // NOLINT(*-dcl58-cpp)
{
[[nodiscard]]
static constexpr auto parse(std::format_parse_context& ctx)
{
return ctx.begin();
}
template<class FormatContext>
[[nodiscard]]
static auto format(const omath::Quaternion<Type>& q, FormatContext& ctx)
{
if constexpr (std::is_same_v<typename FormatContext::char_type, char>)
return std::format_to(ctx.out(), "[{}, {}, {}, {}]", q.x, q.y, q.z, q.w);
if constexpr (std::is_same_v<typename FormatContext::char_type, wchar_t>)
return std::format_to(ctx.out(), L"[{}, {}, {}, {}]", q.x, q.y, q.z, q.w);
if constexpr (std::is_same_v<typename FormatContext::char_type, char8_t>)
return std::format_to(ctx.out(), u8"[{}, {}, {}, {}]", q.x, q.y, q.z, q.w);
}
};

6
include/omath/linear_algebra/vector2.hpp
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@@ -220,6 +220,12 @@ namespace omath
{ {
return std::make_tuple(x, y); return std::make_tuple(x, y);
} }
[[nodiscard]]
constexpr std::array<Type, 2> as_array() const noexcept
{
return {x, y};
}
#ifdef OMATH_IMGUI_INTEGRATION #ifdef OMATH_IMGUI_INTEGRATION
[[nodiscard]] [[nodiscard]]
constexpr ImVec2 to_im_vec2() const noexcept constexpr ImVec2 to_im_vec2() const noexcept

11
include/omath/linear_algebra/vector3.hpp
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@@ -4,8 +4,8 @@
#pragma once #pragma once
#include "omath/trigonometry/angle.hpp"
#include "omath/linear_algebra/vector2.hpp" #include "omath/linear_algebra/vector2.hpp"
#include "omath/trigonometry/angle.hpp"
#include <cstdint> #include <cstdint>
#include <expected> #include <expected>
#include <functional> #include <functional>
@@ -233,7 +233,8 @@ namespace omath
return Angle<float, 0.f, 180.f, AngleFlags::Clamped>::from_radians(std::acos(dot(other) / bottom)); return Angle<float, 0.f, 180.f, AngleFlags::Clamped>::from_radians(std::acos(dot(other) / bottom));
} }
[[nodiscard]] bool is_perpendicular(const Vector3& other, Type epsilon = static_cast<Type>(0.0001)) const noexcept [[nodiscard]] bool is_perpendicular(const Vector3& other,
Type epsilon = static_cast<Type>(0.0001)) const noexcept
{ {
if (const auto angle = angle_between(other)) if (const auto angle = angle_between(other))
return std::abs(angle->as_degrees() - static_cast<Type>(90)) <= epsilon; return std::abs(angle->as_degrees() - static_cast<Type>(90)) <= epsilon;
@@ -274,6 +275,12 @@ namespace omath
{ {
return length() >= other.length(); return length() >= other.length();
} }
[[nodiscard]]
constexpr std::array<Type, 3> as_array() const noexcept
{
return {this->x, this->y, z};
}
}; };
} // namespace omath } // namespace omath

10
include/omath/linear_algebra/vector4.hpp
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@@ -3,8 +3,8 @@
// //
#pragma once #pragma once
#include <algorithm>
#include "omath/linear_algebra/vector3.hpp" #include "omath/linear_algebra/vector3.hpp"
#include <algorithm>
namespace omath namespace omath
{ {
@@ -183,6 +183,12 @@ namespace omath
return length() >= other.length(); return length() >= other.length();
} }
[[nodiscard]]
constexpr std::array<Type, 4> as_array() const noexcept
{
return {this->x, this->y, this->z, w};
}
#ifdef OMATH_IMGUI_INTEGRATION #ifdef OMATH_IMGUI_INTEGRATION
[[nodiscard]] [[nodiscard]]
constexpr ImVec4 to_im_vec4() const noexcept constexpr ImVec4 to_im_vec4() const noexcept
@@ -200,7 +206,7 @@ namespace omath
return {static_cast<Type>(other.x), static_cast<Type>(other.y), static_cast<Type>(other.z)}; return {static_cast<Type>(other.x), static_cast<Type>(other.y), static_cast<Type>(other.z)};
} }
#endif #endif
}; };
} // namespace omath } // namespace omath
template<> struct std::hash<omath::Vector4<float>> template<> struct std::hash<omath::Vector4<float>>

3
include/omath/omath.hpp
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@@ -17,6 +17,9 @@
// Matrix classes // Matrix classes
#include "omath/linear_algebra/mat.hpp" #include "omath/linear_algebra/mat.hpp"
// Quaternion
#include "omath/linear_algebra/quaternion.hpp"
// Color functionality // Color functionality
#include "omath/utility/color.hpp" #include "omath/utility/color.hpp"

58
include/omath/projection/camera.hpp
View File

@@ -52,7 +52,7 @@ namespace omath::projection
requires noexcept(T::calc_projection_matrix(fov, viewport, znear, zfar)); requires noexcept(T::calc_projection_matrix(fov, viewport, znear, zfar));
}; };
template<class Mat4X4Type, class ViewAnglesType, class TraitClass> template<class Mat4X4Type, class ViewAnglesType, class TraitClass, bool inverted_z = false>
requires CameraEngineConcept<TraitClass, Mat4X4Type, ViewAnglesType> requires CameraEngineConcept<TraitClass, Mat4X4Type, ViewAnglesType>
class Camera final class Camera final
{ {
@@ -80,59 +80,96 @@ namespace omath::projection
{ {
m_view_angles = TraitClass::calc_look_at_angle(m_origin, target); m_view_angles = TraitClass::calc_look_at_angle(m_origin, target);
m_view_projection_matrix = std::nullopt; m_view_projection_matrix = std::nullopt;
m_view_matrix = std::nullopt;
} }
protected: [[nodiscard]]
[[nodiscard]] Mat4X4Type calc_view_projection_matrix() const noexcept Vector3<float> get_forward() const noexcept
{ {
return TraitClass::calc_projection_matrix(m_field_of_view, m_view_port, m_near_plane_distance, const auto& view_matrix = get_view_matrix();
m_far_plane_distance)
* TraitClass::calc_view_matrix(m_view_angles, m_origin); if constexpr (inverted_z)
return -Vector3<float>{view_matrix[2, 0], view_matrix[2, 1], view_matrix[2, 2]};
return {view_matrix[2, 0], view_matrix[2, 1], view_matrix[2, 2]};
}
[[nodiscard]]
Vector3<float> get_right() const noexcept
{
const auto& view_matrix = get_view_matrix();
return {view_matrix[0, 0], view_matrix[0, 1], view_matrix[0, 2]};
}
[[nodiscard]]
Vector3<float> get_up() const noexcept
{
const auto& view_matrix = get_view_matrix();
return {view_matrix[1, 0], view_matrix[1, 1], view_matrix[1, 2]};
} }
public:
[[nodiscard]] const Mat4X4Type& get_view_projection_matrix() const noexcept [[nodiscard]] const Mat4X4Type& get_view_projection_matrix() const noexcept
{ {
if (!m_view_projection_matrix.has_value()) if (!m_view_projection_matrix.has_value())
m_view_projection_matrix = calc_view_projection_matrix(); m_view_projection_matrix = get_projection_matrix() * get_view_matrix();
return m_view_projection_matrix.value(); return m_view_projection_matrix.value();
} }
[[nodiscard]] const Mat4X4Type& get_view_matrix() const noexcept
{
if (!m_view_matrix.has_value())
m_view_matrix = TraitClass::calc_view_matrix(m_view_angles, m_origin);
return m_view_matrix.value();
}
[[nodiscard]] const Mat4X4Type& get_projection_matrix() const noexcept
{
if (!m_projection_matrix.has_value())
m_projection_matrix = TraitClass::calc_projection_matrix(m_field_of_view, m_view_port,
m_near_plane_distance, m_far_plane_distance);
return m_projection_matrix.value();
}
void set_field_of_view(const FieldOfView& fov) noexcept void set_field_of_view(const FieldOfView& fov) noexcept
{ {
m_field_of_view = fov; m_field_of_view = fov;
m_view_projection_matrix = std::nullopt; m_view_projection_matrix = std::nullopt;
m_projection_matrix = std::nullopt;
} }
void set_near_plane(const float near) noexcept void set_near_plane(const float near) noexcept
{ {
m_near_plane_distance = near; m_near_plane_distance = near;
m_view_projection_matrix = std::nullopt; m_view_projection_matrix = std::nullopt;
m_projection_matrix = std::nullopt;
} }
void set_far_plane(const float far) noexcept void set_far_plane(const float far) noexcept
{ {
m_far_plane_distance = far; m_far_plane_distance = far;
m_view_projection_matrix = std::nullopt; m_view_projection_matrix = std::nullopt;
m_projection_matrix = std::nullopt;
} }
void set_view_angles(const ViewAnglesType& view_angles) noexcept void set_view_angles(const ViewAnglesType& view_angles) noexcept
{ {
m_view_angles = view_angles; m_view_angles = view_angles;
m_view_projection_matrix = std::nullopt; m_view_projection_matrix = std::nullopt;
m_view_matrix = std::nullopt;
} }
void set_origin(const Vector3<float>& origin) noexcept void set_origin(const Vector3<float>& origin) noexcept
{ {
m_origin = origin; m_origin = origin;
m_view_projection_matrix = std::nullopt; m_view_projection_matrix = std::nullopt;
m_view_matrix = std::nullopt;
} }
void set_view_port(const ViewPort& view_port) noexcept void set_view_port(const ViewPort& view_port) noexcept
{ {
m_view_port = view_port; m_view_port = view_port;
m_view_projection_matrix = std::nullopt; m_view_projection_matrix = std::nullopt;
m_projection_matrix = std::nullopt;
} }
[[nodiscard]] const FieldOfView& get_field_of_view() const noexcept [[nodiscard]] const FieldOfView& get_field_of_view() const noexcept
@@ -283,7 +320,8 @@ namespace omath::projection
Angle<float, 0.f, 180.f, AngleFlags::Clamped> m_field_of_view; Angle<float, 0.f, 180.f, AngleFlags::Clamped> m_field_of_view;
mutable std::optional<Mat4X4Type> m_view_projection_matrix; mutable std::optional<Mat4X4Type> m_view_projection_matrix;
mutable std::optional<Mat4X4Type> m_projection_matrix;
mutable std::optional<Mat4X4Type> m_view_matrix;
float m_far_plane_distance; float m_far_plane_distance;
float m_near_plane_distance; float m_near_plane_distance;

14
pixi/run.benchmark.cmake
View File

@@ -15,7 +15,10 @@ endif()
set(EXAMPLES_BIN_DIR "${PROJECT_ROOT}/out/${CMAKE_BUILD_TYPE}") set(EXAMPLES_BIN_DIR "${PROJECT_ROOT}/out/${CMAKE_BUILD_TYPE}")
if(NOT EXISTS "${EXAMPLES_BIN_DIR}") if(NOT EXISTS "${EXAMPLES_BIN_DIR}")
message(FATAL_ERROR "Examples binary directory not found: ${EXAMPLES_BIN_DIR}. Please build the project first.") message(
FATAL_ERROR
"Examples binary directory not found: ${EXAMPLES_BIN_DIR}. Please build the project first."
)
endif() endif()
message(STATUS "Looking for benchmark executables in: ${EXAMPLES_BIN_DIR}") message(STATUS "Looking for benchmark executables in: ${EXAMPLES_BIN_DIR}")
@@ -43,16 +46,13 @@ foreach(EXAMPLE_PATH ${EXAMPLE_FILES})
endif() endif()
# On Linux/macOS, check permissions or just try to run it. # On Linux/macOS, check permissions or just try to run it.
message(STATUS "-------------------------------------------------") message(STATUS "-------------------------------------------------")
message(STATUS "Running benchmark: ${FILENAME}") message(STATUS "Running benchmark: ${FILENAME}")
message(STATUS "-------------------------------------------------") message(STATUS "-------------------------------------------------")
execute_process( execute_process(COMMAND "${EXAMPLE_PATH}" WORKING_DIRECTORY "${PROJECT_ROOT}"
COMMAND "${EXAMPLE_PATH}" RESULT_VARIABLE EXIT_CODE)
WORKING_DIRECTORY "${PROJECT_ROOT}"
RESULT_VARIABLE EXIT_CODE
)
if(NOT EXIT_CODE EQUAL 0) if(NOT EXIT_CODE EQUAL 0)
message(WARNING "Benchmark ${FILENAME} exited with error code: ${EXIT_CODE}") message(WARNING "Benchmark ${FILENAME} exited with error code: ${EXIT_CODE}")

14
pixi/run.examples.cmake
View File

@@ -15,7 +15,10 @@ endif()
set(EXAMPLES_BIN_DIR "${PROJECT_ROOT}/out/${CMAKE_BUILD_TYPE}") set(EXAMPLES_BIN_DIR "${PROJECT_ROOT}/out/${CMAKE_BUILD_TYPE}")
if(NOT EXISTS "${EXAMPLES_BIN_DIR}") if(NOT EXISTS "${EXAMPLES_BIN_DIR}")
message(FATAL_ERROR "Examples binary directory not found: ${EXAMPLES_BIN_DIR}. Please build the project first.") message(
FATAL_ERROR
"Examples binary directory not found: ${EXAMPLES_BIN_DIR}. Please build the project first."
)
endif() endif()
message(STATUS "Looking for example executables in: ${EXAMPLES_BIN_DIR}") message(STATUS "Looking for example executables in: ${EXAMPLES_BIN_DIR}")
@@ -43,16 +46,13 @@ foreach(EXAMPLE_PATH ${EXAMPLE_FILES})
endif() endif()
# On Linux/macOS, check permissions or just try to run it. # On Linux/macOS, check permissions or just try to run it.
message(STATUS "-------------------------------------------------") message(STATUS "-------------------------------------------------")
message(STATUS "Running example: ${FILENAME}") message(STATUS "Running example: ${FILENAME}")
message(STATUS "-------------------------------------------------") message(STATUS "-------------------------------------------------")
execute_process( execute_process(COMMAND "${EXAMPLE_PATH}" WORKING_DIRECTORY "${PROJECT_ROOT}"
COMMAND "${EXAMPLE_PATH}" RESULT_VARIABLE EXIT_CODE)
WORKING_DIRECTORY "${PROJECT_ROOT}"
RESULT_VARIABLE EXIT_CODE
)
if(NOT EXIT_CODE EQUAL 0) if(NOT EXIT_CODE EQUAL 0)
message(WARNING "Example ${FILENAME} exited with error code: ${EXIT_CODE}") message(WARNING "Example ${FILENAME} exited with error code: ${EXIT_CODE}")

14
pixi/run.unit.tests.cmake
View File

@@ -15,7 +15,10 @@ endif()
set(EXAMPLES_BIN_DIR "${PROJECT_ROOT}/out/${CMAKE_BUILD_TYPE}") set(EXAMPLES_BIN_DIR "${PROJECT_ROOT}/out/${CMAKE_BUILD_TYPE}")
if(NOT EXISTS "${EXAMPLES_BIN_DIR}") if(NOT EXISTS "${EXAMPLES_BIN_DIR}")
message(FATAL_ERROR "Examples binary directory not found: ${EXAMPLES_BIN_DIR}. Please build the project first.") message(
FATAL_ERROR
"Examples binary directory not found: ${EXAMPLES_BIN_DIR}. Please build the project first."
)
endif() endif()
message(STATUS "Looking for unit test executables in: ${EXAMPLES_BIN_DIR}") message(STATUS "Looking for unit test executables in: ${EXAMPLES_BIN_DIR}")
@@ -43,16 +46,13 @@ foreach(EXAMPLE_PATH ${EXAMPLE_FILES})
endif() endif()
# On Linux/macOS, check permissions or just try to run it. # On Linux/macOS, check permissions or just try to run it.
message(STATUS "-------------------------------------------------") message(STATUS "-------------------------------------------------")
message(STATUS "Running unit_tests: ${FILENAME}") message(STATUS "Running unit_tests: ${FILENAME}")
message(STATUS "-------------------------------------------------") message(STATUS "-------------------------------------------------")
execute_process( execute_process(COMMAND "${EXAMPLE_PATH}" WORKING_DIRECTORY "${PROJECT_ROOT}"
COMMAND "${EXAMPLE_PATH}" RESULT_VARIABLE EXIT_CODE)
WORKING_DIRECTORY "${PROJECT_ROOT}"
RESULT_VARIABLE EXIT_CODE
)
if(NOT EXIT_CODE EQUAL 0) if(NOT EXIT_CODE EQUAL 0)
message(WARNING "Example ${FILENAME} exited with error code: ${EXIT_CODE}") message(WARNING "Example ${FILENAME} exited with error code: ${EXIT_CODE}")

15
scripts/cmake-format.sh Normal file
View File

@@ -0,0 +1,15 @@
#!/usr/bin/env bash
set -euo pipefail
# Format all CMakeLists.txt and *.cmake files in the repo (excluding common build dirs)
REPO_ROOT="$(cd "$(dirname "${BASH_SOURCE[0]}")/.." && pwd)"
cd "$REPO_ROOT"
find . \
-path "./build" -prune -o \
-path "./cmake-build*" -prune -o \
-path "./out" -prune -o \
-path "./.git" -prune -o \
\( -name "CMakeLists.txt" -o -name "*.cmake" \) -print0 \
| xargs -0 cmake-format -i

26
source/engines/cry_engine/camera_trait.cpp Normal file
View File

@@ -0,0 +1,26 @@
//
// Created by Vlad on 8/11/2025.
//
#include "omath/engines/cry_engine/traits/camera_trait.hpp"
namespace omath::cry_engine
{
ViewAngles CameraTrait::calc_look_at_angle(const Vector3<float>& cam_origin, const Vector3<float>& look_at) noexcept
{
const auto direction = (look_at - cam_origin).normalized();
return {PitchAngle::from_radians(std::asin(direction.z)),
YawAngle::from_radians(-std::atan2(direction.x, direction.y)), RollAngle::from_radians(0.f)};
}
Mat4X4 CameraTrait::calc_view_matrix(const ViewAngles& angles, const Vector3<float>& cam_origin) noexcept
{
return cry_engine::calc_view_matrix(angles, cam_origin);
}
Mat4X4 CameraTrait::calc_projection_matrix(const projection::FieldOfView& fov,
const projection::ViewPort& view_port, const float near,
const float far) noexcept
{
return calc_perspective_projection_matrix(fov.as_degrees(), view_port.aspect_ratio(), near, far);
}
} // namespace omath::unity_engine

42
source/engines/cry_engine/formulas.cpp Normal file
View File

@@ -0,0 +1,42 @@
//
// Created by Vlad on 3/22/2025.
//
#include "omath/engines/cry_engine/formulas.hpp"
namespace omath::cry_engine
{
Vector3<float> forward_vector(const ViewAngles& angles) noexcept
{
const auto vec = rotation_matrix(angles) * mat_column_from_vector(k_abs_forward);
return {vec.at(0, 0), vec.at(1, 0), vec.at(2, 0)};
}
Vector3<float> right_vector(const ViewAngles& angles) noexcept
{
const auto vec = rotation_matrix(angles) * mat_column_from_vector(k_abs_right);
return {vec.at(0, 0), vec.at(1, 0), vec.at(2, 0)};
}
Vector3<float> up_vector(const ViewAngles& angles) noexcept
{
const auto vec = rotation_matrix(angles) * mat_column_from_vector(k_abs_up);
return {vec.at(0, 0), vec.at(1, 0), vec.at(2, 0)};
}
Mat4X4 calc_view_matrix(const ViewAngles& angles, const Vector3<float>& cam_origin) noexcept
{
return mat_camera_view<float, MatStoreType::ROW_MAJOR>(forward_vector(angles), right_vector(angles),
up_vector(angles), cam_origin);
}
Mat4X4 rotation_matrix(const ViewAngles& angles) noexcept
{
return mat_rotation_axis_z<float, MatStoreType::ROW_MAJOR>(angles.yaw)
* mat_rotation_axis_y<float, MatStoreType::ROW_MAJOR>(angles.roll)
* mat_rotation_axis_x<float, MatStoreType::ROW_MAJOR>(angles.pitch);
}
Mat4X4 calc_perspective_projection_matrix(const float field_of_view, const float aspect_ratio, const float near,
const float far) noexcept
{
return mat_perspective_left_handed(field_of_view, aspect_ratio, near, far);
}
} // namespace omath::unity_engine

240
tests/engines/unit_test_cry_engine.cpp Normal file
View File

@@ -0,0 +1,240 @@
//
// Created by Vladislav on 19.02.2026.
//
#include <gtest/gtest.h>
#include <omath/engines/cry_engine/camera.hpp>
#include <omath/engines/cry_engine/constants.hpp>
#include <omath/engines/cry_engine/formulas.hpp>
#include <random>
#include <ranges>
using namespace omath;
TEST(unit_test_cry_engine, look_at_forward)
{
const auto angles = cry_engine::CameraTrait::calc_look_at_angle({}, cry_engine::k_abs_forward);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = cry_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), cry_engine::k_abs_forward.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_cry_engine, look_at_right)
{
const auto angles = cry_engine::CameraTrait::calc_look_at_angle({}, cry_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = cry_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), cry_engine::k_abs_right.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_cry_engine, look_at_up)
{
const auto angles = cry_engine::CameraTrait::calc_look_at_angle({}, cry_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = cry_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), cry_engine::k_abs_right.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_cry_engine, look_at_back)
{
const auto angles = cry_engine::CameraTrait::calc_look_at_angle({}, -cry_engine::k_abs_forward);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = cry_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), (-cry_engine::k_abs_forward).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_cry_engine, look_at_left)
{
const auto angles = cry_engine::CameraTrait::calc_look_at_angle({}, -cry_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = cry_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), (-cry_engine::k_abs_right).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_cry_engine, look_at_down)
{
const auto angles = cry_engine::CameraTrait::calc_look_at_angle({}, -cry_engine::k_abs_up);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = cry_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), (-cry_engine::k_abs_up).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_cry_engine, RightVector)
{
const auto right = omath::cry_engine::right_vector({});
EXPECT_EQ(right, omath::cry_engine::k_abs_right);
}
TEST(unit_test_cry_engine, UpVector)
{
const auto up = omath::cry_engine::up_vector({});
EXPECT_EQ(up, omath::cry_engine::k_abs_up);
}
TEST(unit_test_cry_engine, ProjectTargetMovedFromCamera)
{
constexpr auto fov = omath::projection::FieldOfView::from_degrees(60.f);
const auto cam = omath::cry_engine::Camera({0, 0, 0}, {}, {1280.f, 720.f}, fov, 0.01f, 1000.f);
for (float distance = 0.02f; distance < 100.f; distance += 0.01f)
{
const auto projected = cam.world_to_screen({0, distance, 0});
EXPECT_TRUE(projected.has_value());
if (!projected.has_value())
continue;
EXPECT_NEAR(projected->x, 640, 0.00001f);
EXPECT_NEAR(projected->y, 360, 0.00001f);
}
}
TEST(unit_test_cry_engine, CameraSetAndGetFov)
{
constexpr auto fov = omath::projection::FieldOfView::from_degrees(90.f);
auto cam = omath::cry_engine::Camera({0, 0, 0}, {}, {1920.f, 1080.f}, fov, 0.01f, 1000.f);
EXPECT_EQ(cam.get_field_of_view().as_degrees(), 90.f);
cam.set_field_of_view(omath::projection::FieldOfView::from_degrees(50.f));
EXPECT_EQ(cam.get_field_of_view().as_degrees(), 50.f);
}
TEST(unit_test_cry_engine, CameraSetAndGetOrigin)
{
auto cam = omath::cry_engine::Camera({0, 0, 0}, {}, {1920.f, 1080.f}, {}, 0.01f, 1000.f);
EXPECT_EQ(cam.get_origin(), omath::Vector3<float>{});
cam.set_field_of_view(omath::projection::FieldOfView::from_degrees(50.f));
EXPECT_EQ(cam.get_field_of_view().as_degrees(), 50.f);
}
TEST(unit_test_cry_engine, loook_at_random_all_axis)
{
std::mt19937 gen(std::random_device{}()); // Seed with a non-deterministic source
std::uniform_real_distribution<float> dist(-1000.f, 1000.f);
constexpr auto fov = omath::projection::FieldOfView::from_degrees(90.f);
auto cam = omath::cry_engine::Camera({0, 0, 0}, {}, {1920.f, 1080.f}, fov, 0.001f, 10000.f);
std::size_t failed_points = 0;
for (int i = 0; i < 1000; i++)
{
const auto position_to_look = omath::Vector3<float>{dist(gen), dist(gen), dist(gen)};
if (cam.get_origin().distance_to(position_to_look) < 10)
continue;
cam.look_at(position_to_look);
auto projected_pos = cam.world_to_view_port(position_to_look);
EXPECT_TRUE(projected_pos.has_value());
if (!projected_pos)
continue;
if (std::abs(projected_pos->x - 0.f) >= 0.0001f || std::abs(projected_pos->y - 0.f) >= 0.0001f)
failed_points++;
}
EXPECT_LE(failed_points, 100);
}
TEST(unit_test_cry_engine, loook_at_random_x_axis)
{
std::mt19937 gen(std::random_device{}()); // Seed with a non-deterministic source
std::uniform_real_distribution<float> dist(-1000.f, 1000.f);
constexpr auto fov = omath::projection::FieldOfView::from_degrees(90.f);
auto cam = omath::cry_engine::Camera({0, 0, 0}, {}, {1920.f, 1080.f}, fov, 0.001f, 10000.f);
std::size_t failed_points = 0;
for (int i = 0; i < 1000; i++)
{
const auto position_to_look = omath::Vector3<float>{dist(gen), 0.f, 0.f};
if (cam.get_origin().distance_to(position_to_look) < 10)
continue;
cam.look_at(position_to_look);
auto projected_pos = cam.world_to_view_port(position_to_look);
EXPECT_TRUE(projected_pos.has_value());
if (!projected_pos)
continue;
if (std::abs(projected_pos->x - 0.f) >= 0.001f || std::abs(projected_pos->y - 0.f) >= 0.001f)
failed_points++;
}
EXPECT_LE(failed_points, 100);
}
TEST(unit_test_cry_engine, loook_at_random_y_axis)
{
std::mt19937 gen(std::random_device{}()); // Seed with a non-deterministic source
std::uniform_real_distribution<float> dist(-1000.f, 1000.f);
constexpr auto fov = omath::projection::FieldOfView::from_degrees(90.f);
auto cam = omath::cry_engine::Camera({0, 0, 0}, {}, {1920.f, 1080.f}, fov, 0.001f, 10000.f);
std::size_t failed_points = 0;
for (int i = 0; i < 1000; i++)
{
const auto position_to_look = omath::Vector3<float>{0.f, dist(gen), 0.f};
if (cam.get_origin().distance_to(position_to_look) < 10)
continue;
cam.look_at(position_to_look);
auto projected_pos = cam.world_to_view_port(position_to_look);
EXPECT_TRUE(projected_pos.has_value());
if (!projected_pos)
continue;
if (std::abs(projected_pos->x - 0.f) >= 0.01f || std::abs(projected_pos->y - 0.f) >= 0.01f)
failed_points++;
}
EXPECT_LE(failed_points, 100);
}
TEST(unit_test_cry_engine, loook_at_random_z_axis)
{
std::mt19937 gen(std::random_device{}()); // Seed with a non-deterministic source
std::uniform_real_distribution<float> dist(-1000.f, 1000.f);
constexpr auto fov = omath::projection::FieldOfView::from_degrees(90.f);
auto cam = omath::cry_engine::Camera({0, 0, 0}, {}, {1920.f, 1080.f}, fov, 0.001f, 10000.f);
std::size_t failed_points = 0;
for (int i = 0; i < 1000; i++)
{
const auto position_to_look = omath::Vector3<float>{0.f, 0.f, dist(gen)};
if (cam.get_origin().distance_to(position_to_look) < 10)
continue;
cam.look_at(position_to_look);
auto projected_pos = cam.world_to_view_port(position_to_look);
EXPECT_TRUE(projected_pos.has_value());
if (!projected_pos)
continue;
if (std::abs(projected_pos->x - 0.f) >= 0.01f || std::abs(projected_pos->y - 0.f) >= 0.01f)
failed_points++;
}
EXPECT_LE(failed_points, 100);
}

54
tests/engines/unit_test_frostbite_engine.cpp
View File

@@ -7,6 +7,7 @@
#include <omath/engines/frostbite_engine/formulas.hpp> #include <omath/engines/frostbite_engine/formulas.hpp>
#include <print> #include <print>
#include <random> #include <random>
#include <ranges>
TEST(unit_test_frostbite_engine, UnitsToCentimeters_BasicValues) TEST(unit_test_frostbite_engine, UnitsToCentimeters_BasicValues)
{ {
@@ -352,4 +353,55 @@ TEST(unit_test_frostbite_engine, loook_at_random_z_axis)
failed_points++; failed_points++;
} }
EXPECT_LE(failed_points, 100); EXPECT_LE(failed_points, 100);
} }
TEST(unit_test_frostbite_engine, look_at_right)
{
const auto angles = omath::frostbite_engine::CameraTrait::calc_look_at_angle({}, omath::frostbite_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::frostbite_engine::forward_vector(angles);
for (const auto& [result, etalon] :
std::views::zip(dir_vector.as_array(), omath::frostbite_engine::k_abs_right.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_frostbite_engine, look_at_up)
{
const auto angles = omath::frostbite_engine::CameraTrait::calc_look_at_angle({}, omath::frostbite_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::frostbite_engine::forward_vector(angles);
for (const auto& [result, etalon] :
std::views::zip(dir_vector.as_array(), omath::frostbite_engine::k_abs_right.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_frostbite_engine, look_at_back)
{
const auto angles = omath::frostbite_engine::CameraTrait::calc_look_at_angle({}, -omath::frostbite_engine::k_abs_forward);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::frostbite_engine::forward_vector(angles);
for (const auto& [result, etalon] :
std::views::zip(dir_vector.as_array(), (-omath::frostbite_engine::k_abs_forward).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_frostbite_engine, look_at_left)
{
const auto angles = omath::frostbite_engine::CameraTrait::calc_look_at_angle({}, -omath::frostbite_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::frostbite_engine::forward_vector(angles);
for (const auto& [result, etalon] :
std::views::zip(dir_vector.as_array(), (-omath::frostbite_engine::k_abs_right).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_frostbite_engine, look_at_down)
{
const auto angles = omath::frostbite_engine::CameraTrait::calc_look_at_angle({}, -omath::frostbite_engine::k_abs_up);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::frostbite_engine::forward_vector(angles);
for (const auto& [result, etalon] :
std::views::zip(dir_vector.as_array(), (-omath::frostbite_engine::k_abs_up).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}

57
tests/engines/unit_test_iw_engine.cpp
View File

@@ -6,6 +6,7 @@
#include <omath/engines/iw_engine/constants.hpp> #include <omath/engines/iw_engine/constants.hpp>
#include <omath/engines/iw_engine/formulas.hpp> #include <omath/engines/iw_engine/formulas.hpp>
#include <random> #include <random>
#include <ranges>
TEST(unit_test_iw_engine, ForwardVector) TEST(unit_test_iw_engine, ForwardVector)
{ {
@@ -223,4 +224,60 @@ TEST(unit_test_iw_engine, loook_at_random_z_axis)
failed_points++; failed_points++;
} }
EXPECT_LE(failed_points, 100); EXPECT_LE(failed_points, 100);
}
TEST(unit_test_iw_engine, look_at_forward)
{
const auto angles = omath::iw_engine::CameraTrait::calc_look_at_angle({}, omath::iw_engine::k_abs_forward);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::iw_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), omath::iw_engine::k_abs_forward.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_iw_engine, look_at_right)
{
const auto angles = omath::iw_engine::CameraTrait::calc_look_at_angle({}, omath::iw_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::iw_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), omath::iw_engine::k_abs_right.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_iw_engine, look_at_up)
{
const auto angles = omath::iw_engine::CameraTrait::calc_look_at_angle({}, omath::iw_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::iw_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), omath::iw_engine::k_abs_right.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_iw_engine, look_at_back)
{
const auto angles = omath::iw_engine::CameraTrait::calc_look_at_angle({}, -omath::iw_engine::k_abs_forward);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::iw_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), (-omath::iw_engine::k_abs_forward).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_iw_engine, look_at_left)
{
const auto angles = omath::iw_engine::CameraTrait::calc_look_at_angle({}, -omath::iw_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::iw_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), (-omath::iw_engine::k_abs_right).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_iw_engine, look_at_down)
{
const auto angles = omath::iw_engine::CameraTrait::calc_look_at_angle({}, -omath::iw_engine::k_abs_up);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::iw_engine::forward_vector(angles);
EXPECT_NEAR(dir_vector.z, -0.99984f, 0.0001f);
EXPECT_NEAR(dir_vector.x,- 0.017f, 0.01f);
EXPECT_NEAR(dir_vector.y, 0.f, 0.001f);
} }

57
tests/engines/unit_test_open_gl.cpp
View File

@@ -6,6 +6,7 @@
#include <omath/engines/opengl_engine/constants.hpp> #include <omath/engines/opengl_engine/constants.hpp>
#include <omath/engines/opengl_engine/formulas.hpp> #include <omath/engines/opengl_engine/formulas.hpp>
#include <random> #include <random>
#include <ranges>
TEST(unit_test_opengl, UnitsToCentimeters_BasicValues) TEST(unit_test_opengl, UnitsToCentimeters_BasicValues)
{ {
@@ -337,4 +338,60 @@ TEST(unit_test_opengl_engine, loook_at_random_z_axis)
failed_points++; failed_points++;
} }
EXPECT_LE(failed_points, 100); EXPECT_LE(failed_points, 100);
}
TEST(unit_test_opengl_engine, look_at_forward)
{
const auto angles = omath::opengl_engine::CameraTrait::calc_look_at_angle({}, omath::opengl_engine::k_abs_forward);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::opengl_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), omath::opengl_engine::k_abs_forward.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_opengl_engine, look_at_right)
{
const auto angles = omath::opengl_engine::CameraTrait::calc_look_at_angle({}, omath::opengl_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::opengl_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), omath::opengl_engine::k_abs_right.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_opengl_engine, look_at_up)
{
const auto angles = omath::opengl_engine::CameraTrait::calc_look_at_angle({}, omath::opengl_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::opengl_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), omath::opengl_engine::k_abs_right.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_opengl_engine, look_at_back)
{
const auto angles = omath::opengl_engine::CameraTrait::calc_look_at_angle({}, -omath::opengl_engine::k_abs_forward);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::opengl_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), (-omath::opengl_engine::k_abs_forward).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_opengl_engine, look_at_left)
{
const auto angles = omath::opengl_engine::CameraTrait::calc_look_at_angle({}, -omath::opengl_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::opengl_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), (-omath::opengl_engine::k_abs_right).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_opengl_engine, look_at_down)
{
const auto angles = omath::opengl_engine::CameraTrait::calc_look_at_angle({}, -omath::opengl_engine::k_abs_up);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::opengl_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), (-omath::opengl_engine::k_abs_up).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
} }

57
tests/engines/unit_test_source_engine.cpp
View File

@@ -6,6 +6,7 @@
#include <omath/engines/source_engine/constants.hpp> #include <omath/engines/source_engine/constants.hpp>
#include <omath/engines/source_engine/formulas.hpp> #include <omath/engines/source_engine/formulas.hpp>
#include <random> #include <random>
#include <ranges>
TEST(unit_test_source_engine_units, HammerUnitsToCentimeters_BasicValues) TEST(unit_test_source_engine_units, HammerUnitsToCentimeters_BasicValues)
{ {
@@ -365,4 +366,60 @@ TEST(unit_test_source_engine, loook_at_random_z_axis)
failed_points++; failed_points++;
} }
EXPECT_LE(failed_points, 100); EXPECT_LE(failed_points, 100);
}
TEST(unit_test_source_engine, look_at_forward)
{
const auto angles = omath::source_engine::CameraTrait::calc_look_at_angle({}, omath::source_engine::k_abs_forward);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::source_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), omath::source_engine::k_abs_forward.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_source_engine, look_at_right)
{
const auto angles = omath::source_engine::CameraTrait::calc_look_at_angle({}, omath::source_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::source_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), omath::source_engine::k_abs_right.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_source_engine, look_at_up)
{
const auto angles = omath::source_engine::CameraTrait::calc_look_at_angle({}, omath::source_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::source_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), omath::source_engine::k_abs_right.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_source_engine, look_at_back)
{
const auto angles = omath::source_engine::CameraTrait::calc_look_at_angle({}, -omath::source_engine::k_abs_forward);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::source_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), (-omath::source_engine::k_abs_forward).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_source_engine, look_at_left)
{
const auto angles = omath::source_engine::CameraTrait::calc_look_at_angle({}, -omath::source_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::source_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), (-omath::source_engine::k_abs_right).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_source_engine, look_at_down)
{
const auto angles = omath::source_engine::CameraTrait::calc_look_at_angle({}, -omath::source_engine::k_abs_up);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::source_engine::forward_vector(angles);
EXPECT_NEAR(dir_vector.z, -0.99984f, 0.0001f);
EXPECT_NEAR(dir_vector.x,- 0.017f, 0.01f);
EXPECT_NEAR(dir_vector.y, 0.f, 0.001f);
} }

67
tests/engines/unit_test_unity_engine.cpp
View File

@@ -7,6 +7,7 @@
#include <omath/engines/unity_engine/formulas.hpp> #include <omath/engines/unity_engine/formulas.hpp>
#include <print> #include <print>
#include <random> #include <random>
#include <ranges>
TEST(unit_test_unity_engine, UnitsToCentimeters_BasicValues) TEST(unit_test_unity_engine, UnitsToCentimeters_BasicValues)
{ {
@@ -207,7 +208,8 @@ TEST(unit_test_unity_engine, Project)
constexpr auto fov = omath::projection::FieldOfView::from_degrees(60.f); constexpr auto fov = omath::projection::FieldOfView::from_degrees(60.f);
const auto cam = omath::unity_engine::Camera({0, 0, 0}, {}, {1280.f, 720.f}, fov, 0.03f, 1000.f); const auto cam = omath::unity_engine::Camera({0, 0, 0}, {}, {1280.f, 720.f}, fov, 0.03f, 1000.f);
const auto proj = cam.world_to_screen<omath::unity_engine::Camera::ScreenStart::BOTTOM_LEFT_CORNER>({10.f, 3, 10.f}); const auto proj =
cam.world_to_screen<omath::unity_engine::Camera::ScreenStart::BOTTOM_LEFT_CORNER>({10.f, 3, 10.f});
EXPECT_NEAR(proj->x, 1263.538, 0.001f); EXPECT_NEAR(proj->x, 1263.538, 0.001f);
EXPECT_NEAR(proj->y, 547.061f, 0.001f); EXPECT_NEAR(proj->y, 547.061f, 0.001f);
@@ -353,4 +355,65 @@ TEST(unit_test_unity_engine, loook_at_random_z_axis)
failed_points++; failed_points++;
} }
EXPECT_LE(failed_points, 100); EXPECT_LE(failed_points, 100);
} }
TEST(unit_test_unity_engine, look_at_forward)
{
const auto angles = omath::unity_engine::CameraTrait::calc_look_at_angle({}, omath::unity_engine::k_abs_forward);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::unity_engine::forward_vector(angles);
for (const auto& [result, etalon] :
std::views::zip(dir_vector.as_array(), omath::unity_engine::k_abs_forward.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_unity_engine, look_at_right)
{
const auto angles = omath::unity_engine::CameraTrait::calc_look_at_angle({}, omath::unity_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::unity_engine::forward_vector(angles);
for (const auto& [result, etalon] :
std::views::zip(dir_vector.as_array(), omath::unity_engine::k_abs_right.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_unity_engine, look_at_up)
{
const auto angles = omath::unity_engine::CameraTrait::calc_look_at_angle({}, omath::unity_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::unity_engine::forward_vector(angles);
for (const auto& [result, etalon] :
std::views::zip(dir_vector.as_array(), omath::unity_engine::k_abs_right.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_unity_engine, look_at_back)
{
const auto angles = omath::unity_engine::CameraTrait::calc_look_at_angle({}, -omath::unity_engine::k_abs_forward);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::unity_engine::forward_vector(angles);
for (const auto& [result, etalon] :
std::views::zip(dir_vector.as_array(), (-omath::unity_engine::k_abs_forward).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_unity_engine, look_at_left)
{
const auto angles = omath::unity_engine::CameraTrait::calc_look_at_angle({}, -omath::unity_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::unity_engine::forward_vector(angles);
for (const auto& [result, etalon] :
std::views::zip(dir_vector.as_array(), (-omath::unity_engine::k_abs_right).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_unity_engine, look_at_down)
{
const auto angles = omath::unity_engine::CameraTrait::calc_look_at_angle({}, -omath::unity_engine::k_abs_up);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::unity_engine::forward_vector(angles);
for (const auto& [result, etalon] :
std::views::zip(dir_vector.as_array(), (-omath::unity_engine::k_abs_up).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}

56
tests/engines/unit_test_unreal_engine.cpp
View File

@@ -7,6 +7,7 @@
#include <omath/engines/unreal_engine/formulas.hpp> #include <omath/engines/unreal_engine/formulas.hpp>
#include <print> #include <print>
#include <random> #include <random>
#include <ranges>
TEST(unit_test_unreal_engine, ForwardVector) TEST(unit_test_unreal_engine, ForwardVector)
{ {
@@ -361,4 +362,59 @@ TEST(unit_test_unreal_engine, ConstexprConversions)
static_assert(cm == 100000.0, "units_to_centimeters constexpr failed"); static_assert(cm == 100000.0, "units_to_centimeters constexpr failed");
static_assert(m == 1000.0, "units_to_meters constexpr failed"); static_assert(m == 1000.0, "units_to_meters constexpr failed");
static_assert(km == 1.0, "units_to_kilometers constexpr failed"); static_assert(km == 1.0, "units_to_kilometers constexpr failed");
}
TEST(unit_test_unreal_engine, look_at_forward)
{
const auto angles = omath::unreal_engine::CameraTrait::calc_look_at_angle({}, omath::unreal_engine::k_abs_forward);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::unreal_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), omath::unreal_engine::k_abs_forward.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_unreal_engine, look_at_right)
{
const auto angles = omath::unreal_engine::CameraTrait::calc_look_at_angle({}, omath::unreal_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::unreal_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), omath::unreal_engine::k_abs_right.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_unreal_engine, look_at_up)
{
const auto angles = omath::unreal_engine::CameraTrait::calc_look_at_angle({}, omath::unreal_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::unreal_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), omath::unreal_engine::k_abs_right.as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_unreal_engine, look_at_back)
{
const auto angles = omath::unreal_engine::CameraTrait::calc_look_at_angle({}, -omath::unreal_engine::k_abs_forward);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::unreal_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), (-omath::unreal_engine::k_abs_forward).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_unreal_engine, look_at_left)
{
const auto angles = omath::unreal_engine::CameraTrait::calc_look_at_angle({}, -omath::unreal_engine::k_abs_right);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::unreal_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), (-omath::unreal_engine::k_abs_right).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
}
TEST(unit_test_unreal_engine, look_at_down)
{
const auto angles = omath::unreal_engine::CameraTrait::calc_look_at_angle({}, -omath::unreal_engine::k_abs_up);
// ReSharper disable once CppTooWideScopeInitStatement
const auto dir_vector = omath::unreal_engine::forward_vector(angles);
for (const auto& [result, etalon] : std::views::zip(dir_vector.as_array(), (-omath::unreal_engine::k_abs_up).as_array()))
EXPECT_NEAR(result, etalon, 0.0001f);
} }

402
tests/general/unit_test_quaternion.cpp Normal file
View File

@@ -0,0 +1,402 @@
//
// Created by vlad on 3/1/2026.
//
#include <omath/linear_algebra/quaternion.hpp>
#include <cmath>
#include <gtest/gtest.h>
#include <numbers>
using namespace omath;
static constexpr float kEps = 1e-5f;
// ── Helpers ──────────────────────────────────────────────────────────────────
static void expect_quat_near(const Quaternion<float>& a, const Quaternion<float>& b, float eps = kEps)
{
EXPECT_NEAR(a.x, b.x, eps);
EXPECT_NEAR(a.y, b.y, eps);
EXPECT_NEAR(a.z, b.z, eps);
EXPECT_NEAR(a.w, b.w, eps);
}
static void expect_vec3_near(const Vector3<float>& a, const Vector3<float>& b, float eps = kEps)
{
EXPECT_NEAR(a.x, b.x, eps);
EXPECT_NEAR(a.y, b.y, eps);
EXPECT_NEAR(a.z, b.z, eps);
}
// ── Constructors ─────────────────────────────────────────────────────────────
TEST(Quaternion, DefaultConstructorIsIdentity)
{
constexpr Quaternion<float> q;
EXPECT_FLOAT_EQ(q.x, 0.f);
EXPECT_FLOAT_EQ(q.y, 0.f);
EXPECT_FLOAT_EQ(q.z, 0.f);
EXPECT_FLOAT_EQ(q.w, 1.f);
}
TEST(Quaternion, ValueConstructor)
{
constexpr Quaternion<float> q{1.f, 2.f, 3.f, 4.f};
EXPECT_FLOAT_EQ(q.x, 1.f);
EXPECT_FLOAT_EQ(q.y, 2.f);
EXPECT_FLOAT_EQ(q.z, 3.f);
EXPECT_FLOAT_EQ(q.w, 4.f);
}
TEST(Quaternion, DoubleInstantiation)
{
constexpr Quaternion<double> q{0.0, 0.0, 0.0, 1.0};
EXPECT_DOUBLE_EQ(q.w, 1.0);
}
// ── Equality ─────────────────────────────────────────────────────────────────
TEST(Quaternion, EqualityOperators)
{
constexpr Quaternion<float> a{1.f, 2.f, 3.f, 4.f};
constexpr Quaternion<float> b{1.f, 2.f, 3.f, 4.f};
constexpr Quaternion<float> c{1.f, 2.f, 3.f, 5.f};
EXPECT_TRUE(a == b);
EXPECT_FALSE(a == c);
EXPECT_FALSE(a != b);
EXPECT_TRUE(a != c);
}
// ── Arithmetic ───────────────────────────────────────────────────────────────
TEST(Quaternion, ScalarMultiply)
{
constexpr Quaternion<float> q{1.f, 2.f, 3.f, 4.f};
constexpr auto r = q * 2.f;
EXPECT_FLOAT_EQ(r.x, 2.f);
EXPECT_FLOAT_EQ(r.y, 4.f);
EXPECT_FLOAT_EQ(r.z, 6.f);
EXPECT_FLOAT_EQ(r.w, 8.f);
}
TEST(Quaternion, ScalarMultiplyAssign)
{
Quaternion<float> q{1.f, 2.f, 3.f, 4.f};
q *= 3.f;
EXPECT_FLOAT_EQ(q.x, 3.f);
EXPECT_FLOAT_EQ(q.y, 6.f);
EXPECT_FLOAT_EQ(q.z, 9.f);
EXPECT_FLOAT_EQ(q.w, 12.f);
}
TEST(Quaternion, Addition)
{
constexpr Quaternion<float> a{1.f, 2.f, 3.f, 4.f};
constexpr Quaternion<float> b{4.f, 3.f, 2.f, 1.f};
constexpr auto r = a + b;
EXPECT_FLOAT_EQ(r.x, 5.f);
EXPECT_FLOAT_EQ(r.y, 5.f);
EXPECT_FLOAT_EQ(r.z, 5.f);
EXPECT_FLOAT_EQ(r.w, 5.f);
}
TEST(Quaternion, AdditionAssign)
{
Quaternion<float> a{1.f, 0.f, 0.f, 0.f};
const Quaternion<float> b{0.f, 1.f, 0.f, 0.f};
a += b;
EXPECT_FLOAT_EQ(a.x, 1.f);
EXPECT_FLOAT_EQ(a.y, 1.f);
}
TEST(Quaternion, UnaryNegation)
{
constexpr Quaternion<float> q{1.f, -2.f, 3.f, -4.f};
constexpr auto r = -q;
EXPECT_FLOAT_EQ(r.x, -1.f);
EXPECT_FLOAT_EQ(r.y, 2.f);
EXPECT_FLOAT_EQ(r.z, -3.f);
EXPECT_FLOAT_EQ(r.w, 4.f);
}
// ── Hamilton product ──────────────────────────────────────────────────────────
TEST(Quaternion, MultiplyByIdentityIsNoop)
{
constexpr Quaternion<float> identity;
constexpr Quaternion<float> q{0.5f, 0.5f, 0.5f, 0.5f};
expect_quat_near(q * identity, q);
expect_quat_near(identity * q, q);
}
TEST(Quaternion, MultiplyAssign)
{
constexpr Quaternion<float> identity;
Quaternion<float> q{0.5f, 0.5f, 0.5f, 0.5f};
q *= identity;
expect_quat_near(q, {0.5f, 0.5f, 0.5f, 0.5f});
}
TEST(Quaternion, MultiplyKnownResult)
{
// i * j = k → (1,0,0,0) * (0,1,0,0) = (0,0,1,0)
constexpr Quaternion<float> i{1.f, 0.f, 0.f, 0.f};
constexpr Quaternion<float> j{0.f, 1.f, 0.f, 0.f};
constexpr auto k = i * j;
EXPECT_FLOAT_EQ(k.x, 0.f);
EXPECT_FLOAT_EQ(k.y, 0.f);
EXPECT_FLOAT_EQ(k.z, 1.f);
EXPECT_FLOAT_EQ(k.w, 0.f);
}
TEST(Quaternion, MultiplyByInverseGivesIdentity)
{
const Quaternion<float> q = Quaternion<float>::from_axis_angle({0.f, 0.f, 1.f},
std::numbers::pi_v<float> / 3.f);
const auto result = q * q.inverse();
expect_quat_near(result, Quaternion<float>{});
}
// ── Conjugate ────────────────────────────────────────────────────────────────
TEST(Quaternion, Conjugate)
{
constexpr Quaternion<float> q{1.f, 2.f, 3.f, 4.f};
constexpr auto c = q.conjugate();
EXPECT_FLOAT_EQ(c.x, -1.f);
EXPECT_FLOAT_EQ(c.y, -2.f);
EXPECT_FLOAT_EQ(c.z, -3.f);
EXPECT_FLOAT_EQ(c.w, 4.f);
}
TEST(Quaternion, ConjugateOfIdentityIsIdentity)
{
constexpr Quaternion<float> id;
constexpr auto c = id.conjugate();
EXPECT_FLOAT_EQ(c.x, 0.f);
EXPECT_FLOAT_EQ(c.y, 0.f);
EXPECT_FLOAT_EQ(c.z, 0.f);
EXPECT_FLOAT_EQ(c.w, 1.f);
}
// ── Dot / length ─────────────────────────────────────────────────────────────
TEST(Quaternion, Dot)
{
constexpr Quaternion<float> a{1.f, 0.f, 0.f, 0.f};
constexpr Quaternion<float> b{0.f, 1.f, 0.f, 0.f};
EXPECT_FLOAT_EQ(a.dot(b), 0.f);
EXPECT_FLOAT_EQ(a.dot(a), 1.f);
}
TEST(Quaternion, LengthSqrIdentity)
{
constexpr Quaternion<float> id;
EXPECT_FLOAT_EQ(id.length_sqr(), 1.f);
}
TEST(Quaternion, LengthSqrGeneral)
{
constexpr Quaternion<float> q{1.f, 2.f, 3.f, 4.f};
EXPECT_FLOAT_EQ(q.length_sqr(), 30.f);
}
TEST(Quaternion, LengthIdentity)
{
const Quaternion<float> id;
EXPECT_NEAR(id.length(), 1.f, kEps);
}
TEST(Quaternion, Normalized)
{
const Quaternion<float> q{1.f, 1.f, 1.f, 1.f};
const auto n = q.normalized();
EXPECT_NEAR(n.length(), 1.f, kEps);
EXPECT_NEAR(n.x, 0.5f, kEps);
EXPECT_NEAR(n.y, 0.5f, kEps);
EXPECT_NEAR(n.z, 0.5f, kEps);
EXPECT_NEAR(n.w, 0.5f, kEps);
}
TEST(Quaternion, NormalizedOfZeroLengthReturnsSelf)
{
// length_sqr = 0 would be UB, but zero-vector part + zero w is degenerate;
// we just verify the guard branch (divides by zero) doesn't crash by
// keeping length > 0 via the default constructor path.
const Quaternion<float> unit;
const auto n = unit.normalized();
expect_quat_near(n, unit);
}
// ── Inverse ───────────────────────────────────────────────────────────────────
TEST(Quaternion, InverseOfUnitIsConjugate)
{
const Quaternion<float> q = Quaternion<float>::from_axis_angle({1.f, 0.f, 0.f},
std::numbers::pi_v<float> / 4.f);
const auto inv = q.inverse();
const auto conj = q.conjugate();
expect_quat_near(inv, conj);
}
// ── from_axis_angle ──────────────────────────────────────────────────────────
TEST(Quaternion, FromAxisAngleZeroAngleIsIdentity)
{
const auto q = Quaternion<float>::from_axis_angle({1.f, 0.f, 0.f}, 0.f);
EXPECT_NEAR(q.x, 0.f, kEps);
EXPECT_NEAR(q.y, 0.f, kEps);
EXPECT_NEAR(q.z, 0.f, kEps);
EXPECT_NEAR(q.w, 1.f, kEps);
}
TEST(Quaternion, FromAxisAngle90DegZ)
{
const float half_pi = std::numbers::pi_v<float> / 2.f;
const auto q = Quaternion<float>::from_axis_angle({0.f, 0.f, 1.f}, half_pi);
const float s = std::sin(half_pi / 2.f);
const float c = std::cos(half_pi / 2.f);
EXPECT_NEAR(q.x, 0.f, kEps);
EXPECT_NEAR(q.y, 0.f, kEps);
EXPECT_NEAR(q.z, s, kEps);
EXPECT_NEAR(q.w, c, kEps);
}
// ── rotate ───────────────────────────────────────────────────────────────────
TEST(Quaternion, RotateByIdentityIsNoop)
{
constexpr Quaternion<float> id;
constexpr Vector3<float> v{1.f, 2.f, 3.f};
const auto r = id.rotate(v);
expect_vec3_near(r, v);
}
TEST(Quaternion, Rotate90DegAroundZ)
{
// Rotating (1,0,0) by 90° around Z should give (0,1,0)
const auto q = Quaternion<float>::from_axis_angle({0.f, 0.f, 1.f}, std::numbers::pi_v<float> / 2.f);
const auto r = q.rotate({1.f, 0.f, 0.f});
expect_vec3_near(r, {0.f, 1.f, 0.f});
}
TEST(Quaternion, Rotate180DegAroundY)
{
// Rotating (1,0,0) by 180° around Y should give (-1,0,0)
const auto q = Quaternion<float>::from_axis_angle({0.f, 1.f, 0.f}, std::numbers::pi_v<float>);
const auto r = q.rotate({1.f, 0.f, 0.f});
expect_vec3_near(r, {-1.f, 0.f, 0.f});
}
TEST(Quaternion, Rotate90DegAroundX)
{
// Rotating (0,1,0) by 90° around X should give (0,0,1)
const auto q = Quaternion<float>::from_axis_angle({1.f, 0.f, 0.f}, std::numbers::pi_v<float> / 2.f);
const auto r = q.rotate({0.f, 1.f, 0.f});
expect_vec3_near(r, {0.f, 0.f, 1.f});
}
// ── to_rotation_matrix3 ───────────────────────────────────────────────────────
TEST(Quaternion, RotationMatrix3FromIdentityIsIdentityMatrix)
{
constexpr Quaternion<float> id;
constexpr auto m = id.to_rotation_matrix3();
for (size_t i = 0; i < 3; ++i)
for (size_t j = 0; j < 3; ++j)
EXPECT_NEAR(m.at(i, j), i == j ? 1.f : 0.f, kEps);
}
TEST(Quaternion, RotationMatrix3From90DegZ)
{
// Expected: | 0 -1 0 |
// | 1 0 0 |
// | 0 0 1 |
const auto q = Quaternion<float>::from_axis_angle({0.f, 0.f, 1.f}, std::numbers::pi_v<float> / 2.f);
const auto m = q.to_rotation_matrix3();
EXPECT_NEAR(m.at(0, 0), 0.f, kEps);
EXPECT_NEAR(m.at(0, 1), -1.f, kEps);
EXPECT_NEAR(m.at(0, 2), 0.f, kEps);
EXPECT_NEAR(m.at(1, 0), 1.f, kEps);
EXPECT_NEAR(m.at(1, 1), 0.f, kEps);
EXPECT_NEAR(m.at(1, 2), 0.f, kEps);
EXPECT_NEAR(m.at(2, 0), 0.f, kEps);
EXPECT_NEAR(m.at(2, 1), 0.f, kEps);
EXPECT_NEAR(m.at(2, 2), 1.f, kEps);
}
TEST(Quaternion, RotationMatrix3ConsistentWithRotate)
{
// Matrix-vector multiply must agree with the rotate() method
const auto q = Quaternion<float>::from_axis_angle({1.f, 1.f, 0.f}, std::numbers::pi_v<float> / 3.f);
const Vector3<float> v{2.f, -1.f, 0.5f};
const auto rotated = q.rotate(v);
const auto m = q.to_rotation_matrix3();
// manual mat-vec multiply (row-major)
const float rx = m.at(0, 0) * v.x + m.at(0, 1) * v.y + m.at(0, 2) * v.z;
const float ry = m.at(1, 0) * v.x + m.at(1, 1) * v.y + m.at(1, 2) * v.z;
const float rz = m.at(2, 0) * v.x + m.at(2, 1) * v.y + m.at(2, 2) * v.z;
EXPECT_NEAR(rotated.x, rx, kEps);
EXPECT_NEAR(rotated.y, ry, kEps);
EXPECT_NEAR(rotated.z, rz, kEps);
}
// ── to_rotation_matrix4 ───────────────────────────────────────────────────────
TEST(Quaternion, RotationMatrix4FromIdentityIsIdentityMatrix)
{
constexpr Quaternion<float> id;
constexpr auto m = id.to_rotation_matrix4();
for (size_t i = 0; i < 4; ++i)
for (size_t j = 0; j < 4; ++j)
EXPECT_NEAR(m.at(i, j), i == j ? 1.f : 0.f, kEps);
}
TEST(Quaternion, RotationMatrix4HomogeneousRowAndColumn)
{
const auto q = Quaternion<float>::from_axis_angle({1.f, 0.f, 0.f}, std::numbers::pi_v<float> / 5.f);
const auto m = q.to_rotation_matrix4();
// Last row and last column must be (0,0,0,1)
for (size_t i = 0; i < 3; ++i)
{
EXPECT_NEAR(m.at(3, i), 0.f, kEps);
EXPECT_NEAR(m.at(i, 3), 0.f, kEps);
}
EXPECT_NEAR(m.at(3, 3), 1.f, kEps);
}
TEST(Quaternion, RotationMatrix4Upper3x3MatchesMatrix3)
{
const auto q = Quaternion<float>::from_axis_angle({0.f, 1.f, 0.f}, std::numbers::pi_v<float> / 7.f);
const auto m3 = q.to_rotation_matrix3();
const auto m4 = q.to_rotation_matrix4();
for (size_t i = 0; i < 3; ++i)
for (size_t j = 0; j < 3; ++j)
EXPECT_NEAR(m4.at(i, j), m3.at(i, j), kEps);
}
// ── as_array ──────────────────────────────────────────────────────────────────
TEST(Quaternion, AsArray)
{
constexpr Quaternion<float> q{1.f, 2.f, 3.f, 4.f};
constexpr auto arr = q.as_array();
EXPECT_FLOAT_EQ(arr[0], 1.f);
EXPECT_FLOAT_EQ(arr[1], 2.f);
EXPECT_FLOAT_EQ(arr[2], 3.f);
EXPECT_FLOAT_EQ(arr[3], 4.f);
}
// ── std::formatter ────────────────────────────────────────────────────────────
TEST(Quaternion, Formatter)
{
const Quaternion<float> q{1.f, 2.f, 3.f, 4.f};
const auto s = std::format("{}", q);
EXPECT_EQ(s, "[1, 2, 3, 4]");
}