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Crafter.Build/implementations/Crafter.Build-Clang.cpp
Jorijn van der Graaf bed4a7c9e4
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Cross-compiled mingw artifact: full DLL+launcher pattern + MSVC target 
Linux→mingw cross-compile now produces the same architectural shape as
build.cmd (DLL + import lib + launcher exe) instead of a single static
binary. The CI Windows artifact becomes a first-class drop-in: a user
on Windows can run crafter-build.exe against any project.cpp and have
it produce real Windows binaries — for either mingw or MSVC ABI.

What changed:

project.cpp: when target=mingw or target=msvc, crafter.build-lib is
built as LibraryDynamic instead of LibraryStatic so the link emits a
DLL + import lib (matching what build.cmd produces natively).

Crafter.Build-Clang.cpp Build():
- LibraryDynamic now branches per target — mingw emits <name>.dll +
  lib<name>.dll.a via lld --out-implib; msvc emits <name>.dll +
  <name>.lib via /IMPLIB; unix unchanged.
- expectedOutputFor returns .dll for Windows-target dynamic libs.
- Executable on Windows host now branches per target: mingw target
  uses simple link (no -lc++/-nostdlib++/LIBCXX_DIR), msvc target keeps
  the existing path. Both auto-copy LibraryDynamic dep DLLs + import
  libs alongside the launcher exe (Windows resolves DLLs from the exe's
  own directory at load time).
- Mingw-target Executables get -D CRAFTER_BUILD_DLL_IMPORT so
  CRAFTER_API resolves to dllimport in their PCMs.
- mingw link adds -static-libstdc++ -static-libgcc -Wl,-Bstatic
  -lpthread so produced .exe/.dll don't depend on a particular
  libstdc++-6.dll / libwinpthread-1.dll being on the consumer's PATH
  (avoids the Arch UCRT vs msys2 UCRT vs msys2 MSVCRT ABI rabbit hole).
  Drops the old auto-copy of /usr/x86_64-w64-mingw32/bin/*.dll which
  is now dead weight.
- -r flag resolves to an absolute path before std::system, otherwise
  cmd.exe rejects "./bin/..." with "'.' is not recognized...".

Crafter.Build-Platform.cpp:
- Split the Windows-host block into shared shell helpers (#if MSVC ||
  MINGW) plus separate #if MSVC and #if MINGW blocks for LoadProject /
  EnsureCrafterBuildPcms / GetBaseCommand / BuildStdPcm.
- Mingw-host LoadProject compiles project.cpp with --target=mingw,
  --sysroot=C:\msys64\ucrt64 (default; override with CRAFTER_MINGW_DIR),
  -femulated-tls, -Wl,--export-all-symbols (mingw-lld doesn't accept
  /EXPORT:NAME), and links against libcrafter-build.dll.a from the
  launcher's directory.
- Mingw-host GetBaseCommand and BuildStdPcm dispatch on config.target
  so a mingw-host crafter-build can also build msvc-target outputs
  (uses LIBCXX_DIR + libc++ headers, same as native build.cmd) when
  the user sets cfg.target = "x86_64-pc-windows-msvc".

README adds a Quick start (Windows) section covering both build paths
(native MSVC via build.cmd and the cross-compiled mingw artifact),
documenting the msys2 UCRT toolchain prerequisite.

Verified end-to-end on the winvm:
- mingw target: cross-compiled crafter-build.exe builds hello-world's
  project.cpp, compiles main.cpp, links a hello.exe that runs without
  any custom PATH (only Windows system DLLs needed).
- msvc target: same crafter-build.exe builds an MSVC-ABI hello.exe
  linked against c++.dll (auto-copied from LIBCXX_DIR), runs cleanly.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
2026-04-29 02:23:42 +02:00

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/*
Crafter® Build
Copyright (C) 2026 Catcrafts®
Catcrafts.net
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License version 3.0 as published by the Free Software Foundation;
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
export module Crafter.Build:Clang_impl;
import std;
import :Clang;
import :Platform;
import :Test;
namespace fs = std::filesystem;
using namespace Crafter;
void Configuration::GetInterfacesAndImplementations(std::span<fs::path> interfaces, std::span<fs::path> implementations) {
auto resolveImport = [this](const std::string& importName,
std::vector<Module*>& localDeps,
std::vector<std::pair<Module*, fs::path>>& externalDeps) -> bool {
for(const std::unique_ptr<Module>& interface : this->interfaces) {
if(interface->name == importName) {
localDeps.push_back(interface.get());
return true;
}
}
std::unordered_set<Configuration*> seen;
std::function<bool(Configuration*)> walk = [&](Configuration* depCfg) -> bool {
if (!seen.insert(depCfg).second) return false;
for(const std::unique_ptr<Module>& depInterface : depCfg->interfaces) {
if(depInterface->name == importName) {
fs::path depPcmPath = (depCfg->PcmDir() / depInterface->path.filename()).string() + ".pcm";
externalDeps.emplace_back(depInterface.get(), std::move(depPcmPath));
return true;
}
}
for(Configuration* sub : depCfg->dependencies) {
if (walk(sub)) return true;
}
return false;
};
for(Configuration* depCfg : this->dependencies) {
if (walk(depCfg)) return true;
}
return false;
};
std::vector<std::tuple<fs::path, std::string, ModulePartition*, Module*>> tempModulePaths = std::vector<std::tuple<fs::path, std::string, ModulePartition*, Module*>>(interfaces.size());
for(std::uint16_t i = 0; i < interfaces.size(); i++){
fs::path file = path / interfaces[i];
file += ".cppm";
std::ifstream t(file);
std::stringstream buffer;
buffer << t.rdbuf();
std::string fileContent = buffer.str();
fileContent = std::regex_replace(fileContent, std::regex(R"(//[^\n]*)"), "");
fileContent = std::regex_replace(fileContent, std::regex(R"(/\*.*?\*/)"), "");
tempModulePaths[i] = {file, fileContent, nullptr, nullptr};
}
std::erase_if(tempModulePaths, [this](std::tuple<fs::path, std::string, ModulePartition*, Module*>& file) {
std::smatch match;
if (std::regex_search(std::get<1>(file), match, std::regex(R"(export module ([a-zA-Z0-9_\.\-]+);)"))) {
std::get<0>(file).replace_extension("");
this->interfaces.push_back(std::make_unique<Module>(std::move(match[1].str()), std::move(std::get<0>(file))));
return true;
} else {
return false;
}
});
for(std::uint16_t i = 0; i < tempModulePaths.size(); i++) {
std::smatch match;
if (std::regex_search(std::get<1>(tempModulePaths[i]), match, std::regex(R"(export module ([a-zA-Z_0-9\.\-]+):([a-zA-Z_0-9\.\-]+);)"))) {
for(const std::unique_ptr<Module>& modulee : this->interfaces) {
if(modulee->name == match[1]) {
std::string name = match[2].str();
fs::path pthCpy = std::get<0>(tempModulePaths[i]);
pthCpy.replace_extension("");
std::unique_ptr<ModulePartition> partition = std::make_unique<ModulePartition>(std::move(name), std::move(pthCpy));
std::get<2>(tempModulePaths[i]) = partition.get();
modulee->partitions.push_back(std::move(partition));
std::get<3>(tempModulePaths[i]) = modulee.get();
goto next;
}
}
throw std::runtime_error(std::format("Module {} not found, referenced in {}", match[1].str(), std::get<0>(tempModulePaths[i]).string()));
} else {
throw std::runtime_error(std::format("No module declaration found in {}", std::get<0>(tempModulePaths[i]).string()));
}
next:;
}
for(std::tuple<fs::path, std::string, ModulePartition*, Module*>& file : tempModulePaths) {
ModulePartition* partition = std::get<2>(file);
Module* parentModule = std::get<3>(file);
const std::string& fileContent = std::get<1>(file);
std::regex partitionPattern(R"(import :([a-zA-Z_\-0-9\.]+);)");
std::sregex_iterator currentMatch(fileContent.begin(), fileContent.end(), partitionPattern);
std::sregex_iterator lastMatch;
while (currentMatch != lastMatch) {
std::smatch match = *currentMatch;
for(std::unique_ptr<ModulePartition>& sibling : parentModule->partitions) {
if(sibling->name == match[1]) {
partition->partitionDependencies.push_back(sibling.get());
goto next2;
}
}
throw std::runtime_error(std::format("imported partition {}:{} not found, referenced in {}", parentModule->name, match[1].str(), std::get<0>(file).string()));
next2: ++currentMatch;
}
std::regex modulePattern(R"(import ([a-zA-Z_0-9\.\-]+);)");
std::sregex_iterator modCurrent(fileContent.begin(), fileContent.end(), modulePattern);
while (modCurrent != lastMatch) {
std::smatch match = *modCurrent;
resolveImport(match[1].str(), partition->moduleDependencies, partition->externalModuleDependencies);
++modCurrent;
}
}
for(const fs::path& tempFile : implementations) {
fs::path file = path / tempFile;
file += ".cpp";
std::ifstream t(file);
std::stringstream buffer;
buffer << t.rdbuf();
std::string fileContent = buffer.str();
fileContent = std::regex_replace(fileContent, std::regex(R"(//[^\n]*)"), "");
fileContent = std::regex_replace(fileContent, std::regex(R"(/\*.*?\*/)"), "");
std::smatch match;
fs::path fileCopy = file;
fileCopy.replace_extension("");
Implementation& implementation = this->implementations.emplace_back(std::move(fileCopy));
if (std::regex_search(fileContent, match, std::regex(R"(module ([a-zA-Z0-9_\.\-]+)(:[a-zA-Z0-9_\.\-]+)?\s*;)"))) {
bool isPartitionImpl = match[2].length() > 0;
for(const std::unique_ptr<Module>& interface : this->interfaces) {
if(interface->name == match[1]) {
if (!isPartitionImpl) {
implementation.moduleDependencies.push_back(interface.get());
}
std::regex partitionPattern(R"(import :([a-zA-Z_\-0-9\.]+);)");
std::sregex_iterator currentMatch(fileContent.begin(), fileContent.end(), partitionPattern);
std::sregex_iterator lastMatch;
while (currentMatch != lastMatch) {
std::smatch match2 = *currentMatch;
for(const std::unique_ptr<ModulePartition>& partition : interface->partitions) {
if(partition->name == match2[1]) {
implementation.partitionDependencies.push_back(partition.get());
goto next3;
}
}
throw std::runtime_error(std::format("imported partition {}:{} not found, referenced in {}", match[1].str(), match2[1].str(), file.string()));
next3: ++currentMatch;
}
std::regex modulePattern(R"(import ([a-zA-Z_0-9\.\-]+);)");
std::sregex_iterator modCurrent(fileContent.begin(), fileContent.end(), modulePattern);
while (modCurrent != lastMatch) {
std::smatch match2 = *modCurrent;
if (match2[1] != match[1]) {
resolveImport(match2[1].str(), implementation.moduleDependencies, implementation.externalModuleDependencies);
}
++modCurrent;
}
goto next4;
}
}
throw std::runtime_error(std::format("Module {} not found not found, referenced in {}", match[1].str(), file.string()));
next4:;
} else {
std::regex pattern(R"(import ([a-zA-Z_\-0-9\.]+);)");
std::sregex_iterator currentMatch(fileContent.begin(), fileContent.end(), pattern);
std::sregex_iterator lastMatch;
while (currentMatch != lastMatch) {
std::smatch match2 = *currentMatch;
resolveImport(match2[1].str(), implementation.moduleDependencies, implementation.externalModuleDependencies);
++currentMatch;
}
}
}
}
BuildResult Crafter::Build(Configuration& config, std::unordered_map<fs::path, std::shared_future<BuildResult>>& depResults, std::mutex& depMutex) {
// Reset per-build cached state on every Module/ModulePartition so that
// successive Build() calls on the same Configuration re-evaluate mtimes
// (incremental-rebuild test scenarios). Walks cfg.dependencies recursively
// with a seen-set so diamond deps don't loop.
{
std::unordered_set<Configuration*> resetSeen;
std::function<void(Configuration*)> reset = [&](Configuration* c) {
if (!resetSeen.insert(c).second) return;
for (auto& iface : c->interfaces) {
iface->checked = false;
iface->compiled.store(false);
for (auto& part : iface->partitions) {
part->checked = false;
part->compiled.store(false);
}
}
for (Configuration* dep : c->dependencies) {
reset(dep);
}
};
reset(&config);
}
// Auto-detect the WASI sysroot before any compile step runs so BuildStdPcm
// and the main compile command see the same value. Linux-only — Windows
// users supply cfg.sysroot pointing at their wasi-sdk install. Covers all
// wasm32-* triples (wasi, wasip1, wasip2, ...); the sysroot's per-triple
// subdirs handle the differences.
#ifdef CRAFTER_BUILD_CONFIGURATION_TARGET_x86_64_pc_linux_gnu
if (config.sysroot.empty() && config.target.starts_with("wasm32")) {
config.sysroot = "/usr/share/wasi-sysroot";
}
#endif
fs::path buildDir = config.path/"build"/std::format("{}-{}-{}", config.name, config.target, config.march);
fs::path outputDir = config.path/"bin"/std::format("{}-{}-{}", config.name, config.target, config.march);
if (!fs::exists(buildDir)) {
fs::create_directories(buildDir);
}
if (!fs::exists(outputDir)) {
fs::create_directories(outputDir);
}
BuildResult buildResult;
std::vector<std::thread> threads;
threads.reserve(config.shaders.size() + 1 + config.interfaces.size() + config.implementations.size());
std::string buildError;
std::atomic<bool> buildCancelled{false};
for (const Shader& shader : config.shaders) {
if (shader.Check(outputDir)) continue;
threads.emplace_back([&shader, &outputDir, &buildError, &buildCancelled]() {
if (buildCancelled.load(std::memory_order_relaxed)) return;
std::string result = shader.Compile(outputDir);
if (result.empty()) return;
bool expected = false;
if (buildCancelled.compare_exchange_strong(expected, true)) {
buildError = std::move(result);
}
});
}
threads.emplace_back([&config, &outputDir, &buildCancelled, &buildError]() {
if (buildCancelled.load(std::memory_order_relaxed)) return;
try {
for (const fs::path& additionalFile : config.files) {
fs::path destination = outputDir / additionalFile.filename();
if (fs::is_directory(additionalFile)) {
for (const auto& entry : fs::recursive_directory_iterator(additionalFile)) {
const fs::path& sourcePath = entry.path();
// Compute relative path inside the directory
fs::path relativePath = fs::relative(sourcePath, additionalFile);
fs::path destPath = destination / relativePath;
if (entry.is_directory()) {
// Ensure directory exists in destination
if (!fs::exists(destPath)) {
fs::create_directories(destPath);
}
} else if (entry.is_regular_file()) {
// Ensure parent directory exists
fs::create_directories(destPath.parent_path());
if (!fs::exists(destPath)) {
fs::copy_file(sourcePath, destPath);
}
else if (fs::last_write_time(sourcePath) > fs::last_write_time(destPath)) {
fs::copy_file(sourcePath, destPath, fs::copy_options::overwrite_existing);
}
}
}
} else {
// Handle regular file
if (!fs::exists(destination)) {
fs::copy_file(additionalFile, destination);
}
else if (fs::last_write_time(additionalFile) > fs::last_write_time(destination)) {
fs::copy_file(additionalFile, destination, fs::copy_options::overwrite_existing);
}
}
}
} catch(std::exception& e) {
bool expected = false;
if (buildCancelled.compare_exchange_strong(expected, true)) {
buildError = e.what();
}
}
});
std::vector<ExternalBuildResult> externalResults(config.externalDependencies.size());
std::vector<std::thread> externalThreads;
externalThreads.reserve(config.externalDependencies.size());
for (std::size_t i = 0; i < config.externalDependencies.size(); ++i) {
externalThreads.emplace_back([&, i]() {
if (buildCancelled.load(std::memory_order_relaxed)) return;
externalResults[i] = BuildExternal(config.externalDependencies[i], config.target, buildCancelled);
if (!externalResults[i].error.empty()) {
bool expected = false;
if (buildCancelled.compare_exchange_strong(expected, true)) {
buildError = externalResults[i].error;
}
}
});
}
fs::path stdPcmDir = GetCacheDir()/(config.target+"-"+config.march);
if (!fs::exists(stdPcmDir)) {
fs::create_directories(stdPcmDir);
}
std::string stdPcmResult = BuildStdPcm(config, stdPcmDir/"std.pcm");
if(!stdPcmResult.empty()) {
buildCancelled.store(true);
for(std::thread& thread : threads) thread.join();
for(std::thread& thread : externalThreads) thread.join();
return {stdPcmResult, false, {}};
}
fs::path pcmDir;
if(config.type != ConfigurationType::Executable) {
pcmDir = outputDir;
} else {
pcmDir = buildDir;
}
fs::copy_file(stdPcmDir/"std.pcm", pcmDir/"std.pcm", fs::copy_options::update_existing);
std::string editedTarget = config.target;
std::replace(editedTarget.begin(), editedTarget.end(), '-', '_');
// wasm32 targets reject -march and silently ignore -mtune (clang errors on
// the former). Skip both for any wasm32-* triple.
bool isWasm = config.target.starts_with("wasm32");
std::string archFlags = isWasm
? std::string()
: std::format(" -march={} -mtune={}", config.march, config.mtune);
std::string command = std::format("{} --target={}{} -std=c++26 -D CRAFTER_BUILD_CONFIGURATION_TARGET=\\\"{}\\\" -D CRAFTER_BUILD_CONFIGURATION_TARGET_{} -fprebuilt-module-path={} -fprebuilt-module-path={}", GetBaseCommand(config), config.target, archFlags, editedTarget, editedTarget, stdPcmDir.string(), pcmDir.string());
if (!config.sysroot.empty()) {
command += std::format(" --sysroot={}", config.sysroot);
}
if (config.target.starts_with("wasm32")) {
// -mllvm is consumed by codegen but not the link driver, which is the
// same command line; quiet the unused-flag warning rather than split
// compile and link commands.
command += " -fno-exceptions -fno-c++-static-destructors -mllvm -wasm-enable-sjlj -D_WASI_EMULATED_SIGNAL -Wno-unused-command-line-argument";
}
if (config.target == "x86_64-w64-mingw32") {
// mingw libstdc++ defines TLS via __emutls_v.* (emulated TLS); without
// -femulated-tls clang generates native-TLS references that don't
// match. Symptom: undefined std::__once_callable / __once_call at
// link time. Also -Wno-unused… because -femulated-tls is a codegen
// flag the link driver doesn't consume.
command += " -femulated-tls -Wno-unused-command-line-argument";
}
if(config.type == ConfigurationType::LibraryDynamic) {
#ifdef CRAFTER_BUILD_CONFIGURATION_TARGET_x86_64_pc_linux_gnu
command += " -fPIC -D CRAFTER_BUILD_CONFIGURATION_TYPE_SHARED_LIBRARY";
#endif
#if defined(CRAFTER_BUILD_CONFIGURATION_TARGET_x86_64_pc_windows_msvc) || defined(CRAFTER_BUILD_CONFIGURATION_TARGET_x86_64_w64_mingw32)
command += " -D CRAFTER_BUILD_CONFIGURATION_TYPE_SHARED_LIBRARY";
#endif
} else if(config.type == ConfigurationType::Executable) {
command += " -D CRAFTER_BUILD_CONFIGURATION_TYPE_EXECUTABLE";
// On Windows targets the API uses __declspec(dllimport) when consuming
// a DLL. Set the macro for executables so CRAFTER_API resolves to
// dllimport in their PCM cache (separate from the lib's PCM cache,
// which gets dllexport). Harmless if the exe doesn't actually link a
// crafter DLL — CRAFTER_API only matters at API call sites.
if (config.target == "x86_64-w64-mingw32" || config.target == "x86_64-pc-windows-msvc") {
command += " -D CRAFTER_BUILD_DLL_IMPORT";
}
} else {
command += " -D CRAFTER_BUILD_CONFIGURATION_TYPE_LIBRARY";
}
std::string files;
std::unordered_set<std::string> libSet;
std::mutex fileMutex;
std::vector<std::thread> depThreads;
depThreads.reserve(config.dependencies.size());
std::atomic<bool> repack(false);
{
std::unordered_set<Configuration*> seen;
std::function<void(Configuration*)> addFlags = [&](Configuration* dep) {
if (!seen.insert(dep).second) return;
for (const auto& entry : fs::recursive_directory_iterator(dep->path)) {
if (entry.is_directory() && entry.path().filename() == "include") {
command += " -I" + entry.path().string();
}
}
command += std::format(" -I{} -fprebuilt-module-path={}", dep->path.string(), dep->PcmDir().string());
for (Configuration* sub : dep->dependencies) {
addFlags(sub);
}
};
for (Configuration* dep : config.dependencies) {
addFlags(dep);
}
}
for(Configuration* dep : config.dependencies) {
depThreads.emplace_back([&, dep](){
try {
if (buildCancelled.load(std::memory_order_relaxed)) return;
std::shared_ptr<std::promise<BuildResult>> promise;
std::shared_future<BuildResult> resultFuture;
bool isBuilder = false;
depMutex.lock();
fs::path cacheKey = dep->PcmDir();
auto it = depResults.find(cacheKey);
if (it == depResults.end()) {
isBuilder = true;
promise = std::make_shared<std::promise<BuildResult>>();
resultFuture = promise->get_future().share();
depResults.emplace(cacheKey, resultFuture);
} else {
resultFuture = it->second;
}
depMutex.unlock();
if (isBuilder) {
BuildResult built;
try {
built = Build(*dep, depResults, depMutex);
} catch (...) {
promise->set_exception(std::current_exception());
throw;
}
promise->set_value(std::move(built));
}
const BuildResult& result = resultFuture.get();
fileMutex.lock();
for (const std::string& lib : result.libs) libSet.insert(lib);
fileMutex.unlock();
if (!result.result.empty()) {
bool expected = false;
if (buildCancelled.compare_exchange_strong(expected, true)) {
buildError = result.result;
}
}
if (result.repack) {
repack = true;
}
} catch (const std::exception& e) {
bool expected = false;
if (buildCancelled.compare_exchange_strong(expected, true)) {
buildError = std::format("dep build for {} threw: {}", dep->path.string(), e.what());
}
}
});
}
for(const Define& define : config.defines) {
if(define.value.empty()) {
command += std::format(" -D {}", define.name);
} else {
command += std::format(" -D {}={}", define.name, define.value);
}
}
for(const std::string& flag : config.compileFlags) {
command += " " + flag;
}
std::string cmakeBuildType;
if(config.debug) {
cmakeBuildType = "Debug";
command += " -g -D CRAFTER_BUILD_CONFIGURATION_DEBUG";
} else {
cmakeBuildType = "Release";
command += " -O3";
}
for (const fs::path& cFile : config.cFiles) {
files += std::format(" {}_source.o ", (buildDir / cFile.filename()).string());
const std::string objPath = (buildDir / cFile.filename()).string() + "_source.o";
const std::string srcPath = cFile.string() + ".c";
if (!fs::exists(objPath) || fs::last_write_time(srcPath) > fs::last_write_time(objPath)) {
threads.emplace_back([&cFile, &buildDir, &buildError, &buildCancelled, &config]() {
if (buildCancelled.load(std::memory_order_relaxed)) return;
std::string result = RunCommand(std::format("clang {}.c --target={} -march={} -mtune={} -O3 -c -o {}_source.o", cFile.string(), config.target, config.march, config.mtune, (buildDir / cFile.filename()).string()));
if (result.empty()) return;
bool expected = false;
if (buildCancelled.compare_exchange_strong(expected, true)) {
buildError = std::move(result);
}
});
}
}
for (const fs::path& cFile : config.cuda) {
files += std::format(" {}_source.o ", (buildDir / cFile.filename()).string());
const std::string objPath = (buildDir / cFile.filename()).string() + "_source.o";
const std::string srcPath = cFile.string() + ".cu";
if (!fs::exists(objPath) || fs::last_write_time(srcPath) > fs::last_write_time(objPath)) {
threads.emplace_back([&cFile, &buildDir, &buildError, &buildCancelled]() {
if (buildCancelled.load(std::memory_order_relaxed)) return;
std::string result = RunCommand(std::format("nvcc {}.cu -c -o {}_source.o -O3 -arch=sm_89", cFile.string(), (buildDir / cFile.filename()).string()));
if (result.empty()) return;
bool expected = false;
if (buildCancelled.compare_exchange_strong(expected, true)) {
buildError = std::move(result);
}
});
}
}
for(std::thread& thread : depThreads) {
thread.join();
}
for(std::thread& thread : externalThreads) {
thread.join();
}
if(buildCancelled.load()) {
for(std::thread& thread : threads) thread.join();
return {buildError, false, {}};
}
if(repack.load()) {
buildResult.repack = true;
}
buildResult.libs = std::move(libSet);
for(const std::string& flag : config.linkFlags) {
buildResult.libs.insert(flag);
}
fs::file_time_type externalFloor = fs::file_time_type::min();
for(const ExternalBuildResult& ext : externalResults) {
for(const std::string& flag : ext.compileFlags) {
command += " " + flag;
}
for(const std::string& flag : ext.linkFlags) {
buildResult.libs.insert(flag);
}
if (ext.latestArtifact > externalFloor) externalFloor = ext.latestArtifact;
}
for(std::unique_ptr<Module>& interface : config.interfaces) {
if(interface->Check(pcmDir, externalFloor)) {
Module* mod = interface.get();
threads.emplace_back([mod, &command, &pcmDir, &buildDir, &buildCancelled, &buildError]() {
try {
mod->Compile(command, pcmDir, buildDir, buildCancelled, buildError);
} catch (const std::exception& e) {
bool expected = false;
if (buildCancelled.compare_exchange_strong(expected, true)) {
buildError = std::format("Module::Compile threw: {}", e.what());
}
}
});
buildResult.repack = true;
}
files += std::format(" {}/{}.o", buildDir.string(), interface->path.filename().string());
for(std::unique_ptr<ModulePartition>& part : interface->partitions) {
files += std::format(" {}/{}.o", buildDir.string(), part->path.filename().string());
}
}
for(Implementation& implementation : config.implementations) {
if(implementation.Check(buildDir, pcmDir, externalFloor)) {
buildResult.repack = true;
Implementation* impl = &implementation;
threads.emplace_back([impl, &command, &buildDir, &buildCancelled, &buildError]() {
try {
impl->Compile(command, buildDir, buildCancelled, buildError);
} catch (const std::exception& e) {
bool expected = false;
if (buildCancelled.compare_exchange_strong(expected, true)) {
buildError = std::format("Implementation::Compile threw: {}", e.what());
}
}
});
}
files += std::format(" {}/{}_impl.o", buildDir.string(), implementation.path.filename().string());
}
for(std::thread& thread : threads) {
thread.join();
}
if(buildCancelled.load()) {
return {buildError, false, {}};
}
std::string linkExtras;
for(const std::string& flag : buildResult.libs) {
linkExtras += " " + flag;
}
// mingw uses libstdc++; C++26 std::print/format extras live in libstdc++exp.
// libstdc++ on mingw uses winpthreads for std::atomic_wait /
// counting_semaphore / stop_token, so -lpthread is required as soon as
// those primitives appear (they do, transitively, in any non-trivial std
// import). -static-libstdc++ bundles libstdc++ into the exe so we don't
// chase libstdc++-6.dll TLS symbol mismatches across mingw versions and
// the resulting binary stands alone. Auto-link so user projects don't
// carry boilerplate.
if (config.target == "x86_64-w64-mingw32") {
// Static-link libstdc++/libgcc/libwinpthread so the resulting .exe
// or .dll doesn't depend on a specific runtime DLL being on the
// consumer's PATH. The mingw runtime ABI varies subtly between
// distributions (Arch UCRT vs msys2 UCRT vs msys2 MSVCRT) and
// STATUS_ENTRYPOINT_NOT_FOUND at LoadLibrary time is the symptom
// of a mismatch. Static linkage trades binary size for portability.
// The -Bstatic/-Bdynamic bracketing forces -lpthread to resolve
// against libwinpthread.a rather than the import lib; everything
// else (KERNEL32, UCRT) stays dynamic. -lstdc++exp adds C++26
// std::print/format extras. -femulated-tls is already on the
// compile so __once_callable et al resolve in static libstdc++.
linkExtras += " -lstdc++exp -static-libstdc++ -static-libgcc -Wl,-Bstatic -lpthread -Wl,-Bdynamic";
}
// Force a relink if the expected output is missing or older than any dep
// artifact. Missing covers: previous build produced a different outputName,
// or the binary was deleted by hand. Older-than-dep covers: dep's library
// was rebuilt by an earlier run (so dep.repack is false this time around)
// but the consumer was never relinked against the new dep.
{
auto expectedOutputFor = [](const Configuration& c) -> fs::path {
fs::path dir = c.path/"bin"/std::format("{}-{}-{}", c.name, c.target, c.march);
if (c.type == ConfigurationType::Executable) {
if (c.target.starts_with("wasm32"))
return dir / (c.outputName + ".wasm");
return c.target == "x86_64-w64-mingw32"
? dir / (c.outputName + ".exe")
: dir / c.outputName;
}
if (c.type == ConfigurationType::LibraryStatic) {
return c.target == "x86_64-w64-mingw32" || c.target == "x86_64-pc-windows-msvc"
? dir / std::format("{}.lib", c.outputName)
: dir / std::format("lib{}.a", c.outputName);
}
// LibraryDynamic — point at the .dll on Windows targets so the
// mtime check sees the newly-built DLL; on Unix the .so suffices.
if (c.target == "x86_64-w64-mingw32" || c.target == "x86_64-pc-windows-msvc") {
return dir / std::format("{}.dll", c.outputName);
}
return dir / std::format("lib{}.so", c.outputName);
};
fs::path expected = expectedOutputFor(config);
if (!fs::exists(expected)) {
buildResult.repack = true;
} else {
auto consumerMtime = fs::last_write_time(expected);
for (Configuration* dep : config.dependencies) {
fs::path depArtifact = expectedOutputFor(*dep);
if (fs::exists(depArtifact) && fs::last_write_time(depArtifact) > consumerMtime) {
buildResult.repack = true;
break;
}
}
}
}
if(buildResult.repack) {
if(config.type == ConfigurationType::Executable) {
#ifdef CRAFTER_BUILD_CONFIGURATION_TARGET_x86_64_pc_linux_gnu
if(config.target == "x86_64-w64-mingw32") {
try {
// Copy any LibraryDynamic dependency DLLs alongside
// the launcher exe — Windows resolves DLLs from the exe's
// own directory at load time, so this is the simplest
// equivalent of rpath $ORIGIN.
std::unordered_set<Configuration*> dllSeen;
std::function<void(Configuration*)> copyDepDlls = [&](Configuration* dep) {
if (!dllSeen.insert(dep).second) return;
if (dep->type == ConfigurationType::LibraryDynamic && dep->target == "x86_64-w64-mingw32") {
fs::path depDir = dep->path / "bin" / std::format("{}-{}-{}", dep->name, dep->target, dep->march);
// The DLL itself (Windows resolves it from the
// exe's directory at load time) and the mingw
// import lib (so a downstream `crafter-build.exe`
// can link a fresh project.dll against it without
// hunting through sibling output dirs).
for (auto fname : {std::format("{}.dll", dep->outputName),
std::format("lib{}.dll.a", dep->outputName)}) {
fs::path src = depDir / fname;
if (!fs::exists(src)) continue;
fs::path dest = outputDir / src.filename();
if (!fs::exists(dest) || fs::last_write_time(src) > fs::last_write_time(dest)) {
fs::copy(src, dest, fs::copy_options::overwrite_existing);
}
}
}
for (Configuration* sub : dep->dependencies) copyDepDlls(sub);
};
for (Configuration* dep : config.dependencies) copyDepDlls(dep);
} catch (const fs::filesystem_error& e) {
return {e.what(), false, {}};
}
}
if (config.target.starts_with("wasm32")) {
buildResult.result = RunCommand(std::format("{}{} -o {}.wasm -fuse-ld=lld{}", command, files, (outputDir/config.outputName).string(), linkExtras));
} else {
buildResult.result = RunCommand(std::format("{}{} -o {} -fuse-ld=lld{}", command, files, (outputDir/config.outputName).string(), linkExtras));
}
#endif
#if defined(CRAFTER_BUILD_CONFIGURATION_TARGET_x86_64_pc_windows_msvc) || defined(CRAFTER_BUILD_CONFIGURATION_TARGET_x86_64_w64_mingw32)
if (config.target == "x86_64-w64-mingw32") {
// Windows host, mingw target: same shape as the Linux→mingw
// path (no LIBCXX_DIR / -lc++ / -nostdlib++ — those are MSVC
// libc++ flags). Copy LibraryDynamic dep DLLs + import libs
// alongside the launcher exe so Windows resolves them from
// the exe's own directory at load time. Runtime DLLs (libstdc++,
// libgcc, libwinpthread) come from msys2 on PATH.
std::unordered_set<Configuration*> dllSeen;
std::function<void(Configuration*)> copyDepDlls = [&](Configuration* dep) {
if (!dllSeen.insert(dep).second) return;
if (dep->type == ConfigurationType::LibraryDynamic && dep->target == "x86_64-w64-mingw32") {
fs::path depDir = dep->path / "bin" / std::format("{}-{}-{}", dep->name, dep->target, dep->march);
for (auto fname : {std::format("{}.dll", dep->outputName),
std::format("lib{}.dll.a", dep->outputName)}) {
fs::path src = depDir / fname;
if (!fs::exists(src)) continue;
fs::path dest = outputDir / src.filename();
if (!fs::exists(dest) || fs::last_write_time(src) > fs::last_write_time(dest)) {
fs::copy(src, dest, fs::copy_options::overwrite_existing);
}
}
}
for (Configuration* sub : dep->dependencies) copyDepDlls(sub);
};
for (Configuration* dep : config.dependencies) copyDepDlls(dep);
buildResult.result = RunCommand(std::format(
"{}{} -o {} -fuse-ld=lld{}",
command, files, (outputDir/config.outputName).string(), linkExtras));
} else {
std::system(std::format("copy \"%LIBCXX_DIR%\\lib\\c++.dll\" \"{}\\c++.dll\"", outputDir.string()).c_str());
buildResult.result = RunCommand(std::format("{}{} -o {}.exe -fuse-ld=lld -L %LIBCXX_DIR%\\lib -lc++ -nostdinc++ -nostdlib++{}", command, files, (outputDir/config.outputName).string(), linkExtras));
}
#endif
} else if(config.type == ConfigurationType::LibraryStatic) {
#ifdef CRAFTER_BUILD_CONFIGURATION_TARGET_x86_64_pc_linux_gnu
buildResult.result = RunCommand(std::format("ar rcs {}.a {}", (outputDir/fs::path(std::string("lib")+config.outputName)).string(), files));
#endif
#if defined(CRAFTER_BUILD_CONFIGURATION_TARGET_x86_64_pc_windows_msvc) || defined(CRAFTER_BUILD_CONFIGURATION_TARGET_x86_64_w64_mingw32)
buildResult.result = RunCommand(std::format("llvm-lib.exe {} /OUT:{}.lib", files, (outputDir/fs::path(config.outputName)).string()));
#endif
} else {
// LibraryDynamic. Output names follow each target's convention so
// consumers can link via the standard linker search:
// mingw: <name>.dll + lib<name>.dll.a (lld --out-implib)
// msvc: <name>.dll + <name>.lib (lld /IMPLIB)
// unix: lib<name>.so (rpath $ORIGIN)
if (config.target == "x86_64-w64-mingw32") {
fs::path dll = outputDir / std::format("{}.dll", config.outputName);
fs::path implib = outputDir / std::format("lib{}.dll.a", config.outputName);
buildResult.result = RunCommand(std::format(
"{}{} -shared -o {} -Wl,--out-implib,{} -fuse-ld=lld{}",
command, files, dll.string(), implib.string(), linkExtras));
} else if (config.target == "x86_64-pc-windows-msvc") {
fs::path dll = outputDir / std::format("{}.dll", config.outputName);
fs::path implib = outputDir / std::format("{}.lib", config.outputName);
buildResult.result = RunCommand(std::format(
"{}{} -shared -o {} -Wl,/IMPLIB:{} -fuse-ld=lld{}",
command, files, dll.string(), implib.string(), linkExtras));
} else {
buildResult.result = RunCommand(std::format(
"{}{} -shared -o {}.so -Wl,-rpath,'$ORIGIN' -fuse-ld=lld{}",
command, files, (outputDir/(std::string("lib")+config.outputName)).string(), linkExtras));
}
}
}
if (config.type == ConfigurationType::LibraryStatic || config.type == ConfigurationType::LibraryDynamic) {
buildResult.libs.insert(std::format("-L{}", outputDir.string()));
buildResult.libs.insert(std::format("-l{}", config.outputName));
}
return buildResult;
}
void Crafter::EnableWasiBrowserRuntime(Configuration& cfg) {
fs::path runtimeDir = GetCrafterBuildHome() / "wasi-runtime";
fs::path runtimeJs = runtimeDir / "runtime.js";
fs::path htmlTemplate = runtimeDir / "index.html.in";
if (!fs::exists(runtimeJs) || !fs::exists(htmlTemplate)) {
throw std::runtime_error(std::format(
"wasi-runtime assets missing under {} (set CRAFTER_BUILD_HOME or reinstall)",
runtimeDir.string()));
}
fs::path htmlOutDir = cfg.path / "build" / "wasi-runtime" / cfg.name;
fs::create_directories(htmlOutDir);
fs::path htmlPath = htmlOutDir / "index.html";
std::ifstream in(htmlTemplate);
std::stringstream buf;
buf << in.rdbuf();
std::string html = std::regex_replace(buf.str(), std::regex(R"(\{\{WASM\}\})"), cfg.outputName + ".wasm");
std::ofstream out(htmlPath);
out << html;
out.close();
cfg.files.push_back(runtimeJs);
cfg.files.push_back(htmlPath);
}
int Crafter::Run(int argc, char** argv) {
try {
fs::path projectFile = "./project.cpp";
std::vector<std::string_view> projectArgs;
projectArgs.reserve(argc);
bool runTests = false;
bool runAfterBuild = false;
RunTestsOptions testOpts;
for (int i = 1; i < argc; ++i) {
std::string_view arg = argv[i];
if (arg == "test") {
runTests = true;
} else if (arg == "-r") {
runAfterBuild = true;
} else if (arg.starts_with("--project=")) {
projectFile = arg.substr(std::string_view("--project=").size());
} else if (runTests && arg.starts_with("--jobs=")) {
testOpts.jobs = std::stoi(std::string(arg.substr(std::string_view("--jobs=").size())));
} else if (runTests && arg.starts_with("--timeout=")) {
testOpts.timeoutOverride = std::chrono::seconds(std::stoi(std::string(arg.substr(std::string_view("--timeout=").size()))));
} else if (runTests && arg == "--list") {
testOpts.listOnly = true;
} else if (runTests && arg.starts_with("--runner=")) {
testOpts.runnerOverride = std::string(arg.substr(std::string_view("--runner=").size()));
} else if (runTests && !arg.starts_with("-")) {
testOpts.globs.emplace_back(arg);
} else {
projectArgs.push_back(arg);
}
}
// The test run is target-scoped: only tests whose cfg.target equals
// testOpts.targetFilter are included. Default = host triple, so a
// bare `crafter-build test` runs everything that targets host.
for (auto& a : projectArgs) {
if (a.starts_with("--target=")) {
testOpts.targetFilter = std::string(a.substr(std::string_view("--target=").size()));
}
}
if (!fs::exists(projectFile)) {
std::println(std::cerr, "No project file at {}", projectFile.string());
return 1;
}
Configuration config = LoadProject(projectFile, projectArgs);
SetParentProject(&config);
if (runTests) {
TestSummary summary = RunTests(config, testOpts, projectArgs);
return summary.AllPassed() ? 0 : 1;
}
std::unordered_map<fs::path, std::shared_future<BuildResult>> depResults;
std::mutex depMutex;
BuildResult result = Build(config, depResults, depMutex);
if (!result.result.empty()) {
std::println(std::cerr, "{}", result.result);
return 1;
}
if (runAfterBuild) {
if (config.type != ConfigurationType::Executable) {
std::println(std::cerr, "-r: cannot run a library");
return 1;
}
fs::path dir = config.path / "bin" / std::format("{}-{}-{}", config.name, config.target, config.march);
fs::path artifact = dir / config.outputName;
if (config.target.starts_with("wasm32")) {
artifact += ".wasm";
} else if (config.target == "x86_64-w64-mingw32" || config.target == "x86_64-pc-windows-msvc") {
artifact += ".exe";
}
// Resolve to absolute — cmd.exe on Windows mishandles a leading
// "./" by trying to interpret it as a command. system() invokes
// through cmd /c, so the relative-prefixed path makes cmd error
// with "'.' is not recognized as an internal or external command".
artifact = fs::absolute(artifact);
return std::system(artifact.string().c_str()) == 0 ? 0 : 1;
}
return 0;
} catch (const std::exception& e) {
std::println(std::cerr, "{}", e.what());
return 1;
}
}
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