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Author SHA1 Message Date
Brett 84e3eba783 regex 2024-08-10 17:19:12 -04:00
Brett 9e73505fdd change what makes a warning 2024-08-10 17:16:26 -04:00
Brett 85b832ae04
Update cmake-multi-platform.yml 2024-08-10 17:06:05 -04:00
Brett 8ee64b5666 debug changes 2024-08-10 16:43:43 -04:00
Brett a710298f28
Update cmake-multi-platform.yml 2024-08-10 16:42:10 -04:00
Brett 0fda2ac52b
Update cmake-multi-platform.yml 2024-08-10 16:37:45 -04:00
Brett dc758921d1
Create cmake-multi-platform.yml 2024-08-10 16:34:04 -04:00
3 changed files with 105 additions and 8 deletions

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@ -0,0 +1,80 @@
# This starter workflow is for a CMake project running on multiple platforms. There is a different starter workflow if you just want a single platform.
# See: https://github.com/actions/starter-workflows/blob/main/ci/cmake-single-platform.yml
name: CMake on multiple platforms
on:
push:
branches: [ "main" ]
pull_request:
branches: [ "main" ]
jobs:
build:
runs-on: ${{ matrix.os }}
strategy:
# Set fail-fast to false to ensure that feedback is delivered for all matrix combinations. Consider changing this to true when your workflow is stable.
fail-fast: false
# Set up a matrix to run the following 3 configurations:
# 1. <Windows, Release, latest MSVC compiler toolchain on the default runner image, default generator>
# 2. <Linux, Release, latest GCC compiler toolchain on the default runner image, default generator>
# 3. <Linux, Release, latest Clang compiler toolchain on the default runner image, default generator>
#
# To add more build types (Release, Debug, RelWithDebInfo, etc.) customize the build_type list.
matrix:
os: [ubuntu-latest, windows-latest]
build_type: [RelWithDebInfo]
c_compiler: [gcc, clang, cl]
include:
- os: windows-latest
c_compiler: cl
cpp_compiler: cl
- os: ubuntu-latest
c_compiler: gcc
cpp_compiler: g++
- os: ubuntu-latest
c_compiler: clang
cpp_compiler: clang++
exclude:
- os: windows-latest
c_compiler: gcc
- os: windows-latest
c_compiler: clang
- os: ubuntu-latest
c_compiler: cl
steps:
- uses: actions/checkout@v4
with:
submodules: recursive
- name: Set reusable strings
# Turn repeated input strings (such as the build output directory) into step outputs. These step outputs can be used throughout the workflow file.
id: strings
shell: bash
run: |
echo "build-output-dir=${{ github.workspace }}/build" >> "$GITHUB_OUTPUT"
- name: Configure CMake
# Configure CMake in a 'build' subdirectory. `CMAKE_BUILD_TYPE` is only required if you are using a single-configuration generator such as make.
# See https://cmake.org/cmake/help/latest/variable/CMAKE_BUILD_TYPE.html?highlight=cmake_build_type
run: >
cmake -B ${{ steps.strings.outputs.build-output-dir }}
-DCMAKE_CXX_COMPILER=${{ matrix.cpp_compiler }}
-DCMAKE_C_COMPILER=${{ matrix.c_compiler }}
-DCMAKE_BUILD_TYPE=${{ matrix.build_type }}
-DENABLE_ADDRSAN=ON
-DENABLE_UBSAN=ON
-DBUILD_GP_TESTS=ON
-DBUILD_EXAMPLES=ON
-S ${{ github.workspace }}
- name: Build
# Build your program with the given configuration. Note that --config is needed because the default Windows generator is a multi-config generator (Visual Studio generator).
run: cmake --build ${{ steps.strings.outputs.build-output-dir }} --config ${{ matrix.build_type }}
- name: Test
working-directory: ${{ steps.strings.outputs.build-output-dir }}
# Execute tests defined by the CMake configuration. Note that --build-config is needed because the default Windows generator is a multi-config generator (Visual Studio generator).
# See https://cmake.org/cmake/help/latest/manual/ctest.1.html for more detail
run: ctest --rerun-failed --output-on-failure --build-config ${{ matrix.build_type }}

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@ -1,5 +1,5 @@
cmake_minimum_required(VERSION 3.25) cmake_minimum_required(VERSION 3.25)
project(blt-gp VERSION 0.0.128) project(blt-gp VERSION 0.0.131)
include(CTest) include(CTest)
@ -77,7 +77,8 @@ macro(blt_add_project name source type)
add_test(NAME ${name} COMMAND ${name}-${type}) add_test(NAME ${name} COMMAND ${name}-${type})
# set (passRegex "Pass" "Passed" "PASS" "PASSED") # set (passRegex "Pass" "Passed" "PASS" "PASSED")
set (failRegex "WARN" "FAIL" "ERROR" "FATAL") # set (failRegex "WARN" "FAIL" "ERROR" "FATAL")
set (failRegex "\[WARN\]" "FAIL" "ERROR" "FATAL" "exception")
# set_property (TEST ${name} PROPERTY PASS_REGULAR_EXPRESSION "${passRegex}") # set_property (TEST ${name} PROPERTY PASS_REGULAR_EXPRESSION "${passRegex}")
set_property (TEST ${name} PROPERTY FAIL_REGULAR_EXPRESSION "${failRegex}") set_property (TEST ${name} PROPERTY FAIL_REGULAR_EXPRESSION "${failRegex}")

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@ -83,12 +83,17 @@ namespace blt::gp
return offset; return offset;
} }
template<blt::u64... indices>
void print_args(std::integer_sequence<blt::u64, indices...>)
{
BLT_INFO("Arguments:");
(BLT_INFO("%ld: %s", indices, blt::type_string<Args>().c_str()), ...);
}
template<typename Func, blt::u64... indices, typename... ExtraArgs> template<typename Func, blt::u64... indices, typename... ExtraArgs>
inline static constexpr Return exec_sequence_to_indices(Func&& func, stack_allocator& allocator, std::integer_sequence<blt::u64, indices...>, inline static constexpr Return exec_sequence_to_indices(Func&& func, stack_allocator& allocator, std::integer_sequence<blt::u64, indices...>,
ExtraArgs&& ... args) ExtraArgs&& ... args)
{ {
//BLT_INFO("Arguments:");
//(BLT_INFO("%ld: %s", indices, blt::type_string<Args>().c_str()) , ...);
//blt::size_t arg_size = (stack_allocator::aligned_size<detail::remove_cv_ref<Args>>() + ...); //blt::size_t arg_size = (stack_allocator::aligned_size<detail::remove_cv_ref<Args>>() + ...);
//BLT_TRACE(arg_size); //BLT_TRACE(arg_size);
// expands Args and indices, providing each argument with its index calculating the current argument byte offset // expands Args and indices, providing each argument with its index calculating the current argument byte offset
@ -100,10 +105,21 @@ namespace blt::gp
Return operator()(Func&& func, stack_allocator& read_allocator, ExtraArgs&& ... args) Return operator()(Func&& func, stack_allocator& read_allocator, ExtraArgs&& ... args)
{ {
constexpr auto seq = std::make_integer_sequence<blt::u64, sizeof...(Args)>(); constexpr auto seq = std::make_integer_sequence<blt::u64, sizeof...(Args)>();
#if BLT_DEBUG_LEVEL > 0
try
{
#endif
Return ret = exec_sequence_to_indices(std::forward<Func>(func), read_allocator, seq, std::forward<ExtraArgs>(args)...); Return ret = exec_sequence_to_indices(std::forward<Func>(func), read_allocator, seq, std::forward<ExtraArgs>(args)...);
read_allocator.call_destructors<detail::remove_cv_ref<Args>...>(); read_allocator.call_destructors<detail::remove_cv_ref<Args>...>();
read_allocator.pop_bytes((stack_allocator::aligned_size<detail::remove_cv_ref<Args>>() + ...)); read_allocator.pop_bytes((stack_allocator::aligned_size<detail::remove_cv_ref<Args>>() + ...));
return ret; return ret;
#if BLT_DEBUG_LEVEL > 0
} catch (const std::runtime_error& e)
{
print_args(seq);
throw std::runtime_error(e.what());
}
#endif
} }
}; };