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cmake/Source/cmQtAutoGeneratorMocUic.cxx

2037 lines
62 KiB

/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
file Copyright.txt or https://cmake.org/licensing for details. */
#include "cmQtAutoGeneratorMocUic.h"
#include "cmQtAutoGen.h"
#include <algorithm>
#include <array>
#include <functional>
#include <list>
#include <memory>
#include <sstream>
#include <utility>
#include "cmAlgorithms.h"
#include "cmCryptoHash.h"
#include "cmMakefile.h"
#include "cmSystemTools.h"
#include "cmake.h"
#if defined(__APPLE__)
# include <unistd.h>
#endif
// -- Class methods
std::string cmQtAutoGeneratorMocUic::BaseSettingsT::AbsoluteBuildPath(
std::string const& relativePath) const
{
return FileSys->CollapseCombinedPath(AutogenBuildDir, relativePath);
}
/**
* @brief Tries to find the header file to the given file base path by
* appending different header extensions
* @return True on success
*/
bool cmQtAutoGeneratorMocUic::BaseSettingsT::FindHeader(
std::string& header, std::string const& testBasePath) const
{
for (std::string const& ext : HeaderExtensions) {
std::string testFilePath(testBasePath);
testFilePath.push_back('.');
testFilePath += ext;
if (FileSys->FileExists(testFilePath)) {
header = testFilePath;
return true;
}
}
return false;
}
bool cmQtAutoGeneratorMocUic::MocSettingsT::skipped(
std::string const& fileName) const
{
return (!Enabled || (SkipList.find(fileName) != SkipList.end()));
}
/**
* @brief Returns the first relevant Qt macro name found in the given C++ code
* @return The name of the Qt macro or an empty string
*/
std::string cmQtAutoGeneratorMocUic::MocSettingsT::FindMacro(
std::string const& content) const
{
for (KeyExpT const& filter : MacroFilters) {
// Run a simple find string operation before the expensive
// regular expression check
if (content.find(filter.Key) != std::string::npos) {
cmsys::RegularExpressionMatch match;
if (filter.Exp.find(content.c_str(), match)) {
// Return macro name on demand
return filter.Key;
}
}
}
return std::string();
}
std::string cmQtAutoGeneratorMocUic::MocSettingsT::MacrosString() const
{
std::string res;
const auto itB = MacroFilters.cbegin();
const auto itE = MacroFilters.cend();
const auto itL = itE - 1;
auto itC = itB;
for (; itC != itE; ++itC) {
// Separator
if (itC != itB) {
if (itC != itL) {
res += ", ";
} else {
res += " or ";
}
}
// Key
res += itC->Key;
}
return res;
}
std::string cmQtAutoGeneratorMocUic::MocSettingsT::FindIncludedFile(
std::string const& sourcePath, std::string const& includeString) const
{
// Search in vicinity of the source
{
std::string testPath = sourcePath;
testPath += includeString;
if (FileSys->FileExists(testPath)) {
return FileSys->GetRealPath(testPath);
}
}
// Search in include directories
for (std::string const& path : IncludePaths) {
std::string fullPath = path;
fullPath.push_back('/');
fullPath += includeString;
if (FileSys->FileExists(fullPath)) {
return FileSys->GetRealPath(fullPath);
}
}
// Return empty string
return std::string();
}
void cmQtAutoGeneratorMocUic::MocSettingsT::FindDependencies(
std::string const& content, std::set<std::string>& depends) const
{
if (!DependFilters.empty() && !content.empty()) {
for (KeyExpT const& filter : DependFilters) {
// Run a simple find string check
if (content.find(filter.Key) != std::string::npos) {
// Run the expensive regular expression check loop
const char* contentChars = content.c_str();
cmsys::RegularExpressionMatch match;
while (filter.Exp.find(contentChars, match)) {
{
std::string dep = match.match(1);
if (!dep.empty()) {
depends.emplace(std::move(dep));
}
}
contentChars += match.end();
}
}
}
}
}
bool cmQtAutoGeneratorMocUic::UicSettingsT::skipped(
std::string const& fileName) const
{
return (!Enabled || (SkipList.find(fileName) != SkipList.end()));
}
void cmQtAutoGeneratorMocUic::JobParseT::Process(WorkerT& wrk)
{
if (AutoMoc && Header) {
// Don't parse header for moc if the file is included by a source already
if (wrk.Gen().ParallelMocIncluded(FileName)) {
AutoMoc = false;
}
}
if (AutoMoc || AutoUic) {
std::string error;
MetaT meta;
if (wrk.FileSys().FileRead(meta.Content, FileName, &error)) {
if (!meta.Content.empty()) {
meta.FileDir = wrk.FileSys().SubDirPrefix(FileName);
meta.FileBase =
wrk.FileSys().GetFilenameWithoutLastExtension(FileName);
bool success = true;
if (AutoMoc) {
if (Header) {
success = ParseMocHeader(wrk, meta);
} else {
success = ParseMocSource(wrk, meta);
}
}
if (AutoUic && success) {
ParseUic(wrk, meta);
}
} else {
wrk.LogFileWarning(GeneratorT::GEN, FileName,
"The source file is empty");
}
} else {
wrk.LogFileError(GeneratorT::GEN, FileName,
"Could not read the file: " + error);
}
}
}
bool cmQtAutoGeneratorMocUic::JobParseT::ParseMocSource(WorkerT& wrk,
MetaT const& meta)
{
struct JobPre
{
bool self; // source file is self
bool underscore; // "moc_" style include
std::string SourceFile;
std::string IncludeString;
};
struct MocInclude
{
std::string Inc; // full include string
std::string Dir; // include string directory
std::string Base; // include string file base
};
// Check if this source file contains a relevant macro
std::string const ownMacro = wrk.Moc().FindMacro(meta.Content);
// Extract moc includes from file
std::deque<MocInclude> mocIncsUsc;
std::deque<MocInclude> mocIncsDot;
{
if (meta.Content.find("moc") != std::string::npos) {
const char* contentChars = meta.Content.c_str();
cmsys::RegularExpressionMatch match;
while (wrk.Moc().RegExpInclude.find(contentChars, match)) {
std::string incString = match.match(2);
std::string incDir(wrk.FileSys().SubDirPrefix(incString));
std::string incBase =
wrk.FileSys().GetFilenameWithoutLastExtension(incString);
if (cmHasLiteralPrefix(incBase, "moc_")) {
// moc_<BASE>.cxx
// Remove the moc_ part from the base name
mocIncsUsc.emplace_back(MocInclude{
std::move(incString), std::move(incDir), incBase.substr(4) });
} else {
// <BASE>.moc
mocIncsDot.emplace_back(MocInclude{
std::move(incString), std::move(incDir), std::move(incBase) });
}
// Forward content pointer
contentChars += match.end();
}
}
}
// Check if there is anything to do
if (ownMacro.empty() && mocIncsUsc.empty() && mocIncsDot.empty()) {
return true;
}
bool ownDotMocIncluded = false;
bool ownMocUscIncluded = false;
std::deque<JobPre> jobs;
// Process moc_<BASE>.cxx includes
for (const MocInclude& mocInc : mocIncsUsc) {
std::string const header =
MocFindIncludedHeader(wrk, meta.FileDir, mocInc.Dir + mocInc.Base);
if (!header.empty()) {
// Check if header is skipped
if (wrk.Moc().skipped(header)) {
continue;
}
// Register moc job
const bool ownMoc = (mocInc.Base == meta.FileBase);
jobs.emplace_back(JobPre{ ownMoc, true, header, mocInc.Inc });
// Store meta information for relaxed mode
if (ownMoc) {
ownMocUscIncluded = true;
}
} else {
{
std::string emsg = "The file includes the moc file ";
emsg += Quoted(mocInc.Inc);
emsg += ", but the header ";
emsg += Quoted(MocStringHeaders(wrk, mocInc.Base));
emsg += " could not be found.";
wrk.LogFileError(GeneratorT::MOC, FileName, emsg);
}
return false;
}
}
// Process <BASE>.moc includes
for (const MocInclude& mocInc : mocIncsDot) {
const bool ownMoc = (mocInc.Base == meta.FileBase);
if (wrk.Moc().RelaxedMode) {
// Relaxed mode
if (!ownMacro.empty() && ownMoc) {
// Add self
jobs.emplace_back(JobPre{ ownMoc, false, FileName, mocInc.Inc });
ownDotMocIncluded = true;
} else {
// In relaxed mode try to find a header instead but issue a warning.
// This is for KDE4 compatibility
std::string const header =
MocFindIncludedHeader(wrk, meta.FileDir, mocInc.Dir + mocInc.Base);
if (!header.empty()) {
// Check if header is skipped
if (wrk.Moc().skipped(header)) {
continue;
}
// Register moc job
jobs.emplace_back(JobPre{ ownMoc, false, header, mocInc.Inc });
if (ownMacro.empty()) {
if (ownMoc) {
std::string emsg = "The file includes the moc file ";
emsg += Quoted(mocInc.Inc);
emsg += ", but does not contain a ";
emsg += wrk.Moc().MacrosString();
emsg += " macro.\nRunning moc on\n ";
emsg += Quoted(header);
emsg += "!\nBetter include ";
emsg += Quoted("moc_" + mocInc.Base + ".cpp");
emsg += " for a compatibility with strict mode.\n"
"(CMAKE_AUTOMOC_RELAXED_MODE warning)\n";
wrk.LogFileWarning(GeneratorT::MOC, FileName, emsg);
} else {
std::string emsg = "The file includes the moc file ";
emsg += Quoted(mocInc.Inc);
emsg += " instead of ";
emsg += Quoted("moc_" + mocInc.Base + ".cpp");
emsg += ".\nRunning moc on\n ";
emsg += Quoted(header);
emsg += "!\nBetter include ";
emsg += Quoted("moc_" + mocInc.Base + ".cpp");
emsg += " for compatibility with strict mode.\n"
"(CMAKE_AUTOMOC_RELAXED_MODE warning)\n";
wrk.LogFileWarning(GeneratorT::MOC, FileName, emsg);
}
}
} else {
{
std::string emsg = "The file includes the moc file ";
emsg += Quoted(mocInc.Inc);
emsg += ", which seems to be the moc file from a different "
"source file.\nCMAKE_AUTOMOC_RELAXED_MODE: Also a "
"matching header ";
emsg += Quoted(MocStringHeaders(wrk, mocInc.Base));
emsg += " could not be found.";
wrk.LogFileError(GeneratorT::MOC, FileName, emsg);
}
return false;
}
}
} else {
// Strict mode
if (ownMoc) {
// Include self
jobs.emplace_back(JobPre{ ownMoc, false, FileName, mocInc.Inc });
ownDotMocIncluded = true;
// Accept but issue a warning if moc isn't required
if (ownMacro.empty()) {
std::string emsg = "The file includes the moc file ";
emsg += Quoted(mocInc.Inc);
emsg += ", but does not contain a ";
emsg += wrk.Moc().MacrosString();
emsg += " macro.";
wrk.LogFileWarning(GeneratorT::MOC, FileName, emsg);
}
} else {
// Don't allow <BASE>.moc include other than self in strict mode
{
std::string emsg = "The file includes the moc file ";
emsg += Quoted(mocInc.Inc);
emsg += ", which seems to be the moc file from a different "
"source file.\nThis is not supported. Include ";
emsg += Quoted(meta.FileBase + ".moc");
emsg += " to run moc on this source file.";
wrk.LogFileError(GeneratorT::MOC, FileName, emsg);
}
return false;
}
}
}
if (!ownMacro.empty() && !ownDotMocIncluded) {
// In this case, check whether the scanned file itself contains a
// Q_OBJECT.
// If this is the case, the moc_foo.cpp should probably be generated from
// foo.cpp instead of foo.h, because otherwise it won't build.
// But warn, since this is not how it is supposed to be used.
// This is for KDE4 compatibility.
if (wrk.Moc().RelaxedMode && ownMocUscIncluded) {
JobPre uscJobPre;
// Remove underscore job request
{
auto itC = jobs.begin();
auto itE = jobs.end();
for (; itC != itE; ++itC) {
JobPre& job(*itC);
if (job.self && job.underscore) {
uscJobPre = std::move(job);
jobs.erase(itC);
break;
}
}
}
// Issue a warning
{
std::string emsg = "The file contains a ";
emsg += ownMacro;
emsg += " macro, but does not include ";
emsg += Quoted(meta.FileBase + ".moc");
emsg += ". Instead it includes ";
emsg += Quoted(uscJobPre.IncludeString);
emsg += ".\nRunning moc on\n ";
emsg += Quoted(FileName);
emsg += "!\nBetter include ";
emsg += Quoted(meta.FileBase + ".moc");
emsg += " for compatibility with strict mode.\n"
"(CMAKE_AUTOMOC_RELAXED_MODE warning)";
wrk.LogFileWarning(GeneratorT::MOC, FileName, emsg);
}
// Add own source job
jobs.emplace_back(
JobPre{ true, false, FileName, uscJobPre.IncludeString });
} else {
// Otherwise always error out since it will not compile.
{
std::string emsg = "The file contains a ";
emsg += ownMacro;
emsg += " macro, but does not include ";
emsg += Quoted(meta.FileBase + ".moc");
emsg += "!\nConsider to\n - add #include \"";
emsg += meta.FileBase;
emsg += ".moc\"\n - enable SKIP_AUTOMOC for this file";
wrk.LogFileError(GeneratorT::MOC, FileName, emsg);
}
return false;
}
}
// Convert pre jobs to actual jobs
for (JobPre& jobPre : jobs) {
JobHandleT jobHandle(new JobMocT(std::move(jobPre.SourceFile), FileName,
std::move(jobPre.IncludeString)));
if (jobPre.self) {
// Read dependencies from this source
static_cast<JobMocT&>(*jobHandle).FindDependencies(wrk, meta.Content);
}
if (!wrk.Gen().ParallelJobPushMoc(jobHandle)) {
return false;
}
}
return true;
}
bool cmQtAutoGeneratorMocUic::JobParseT::ParseMocHeader(WorkerT& wrk,
MetaT const& meta)
{
bool success = true;
std::string const macroName = wrk.Moc().FindMacro(meta.Content);
if (!macroName.empty()) {
JobHandleT jobHandle(
new JobMocT(std::string(FileName), std::string(), std::string()));
// Read dependencies from this source
static_cast<JobMocT&>(*jobHandle).FindDependencies(wrk, meta.Content);
success = wrk.Gen().ParallelJobPushMoc(jobHandle);
}
return success;
}
std::string cmQtAutoGeneratorMocUic::JobParseT::MocStringHeaders(
WorkerT& wrk, std::string const& fileBase) const
{
std::string res = fileBase;
res += ".{";
res += cmJoin(wrk.Base().HeaderExtensions, ",");
res += "}";
return res;
}
std::string cmQtAutoGeneratorMocUic::JobParseT::MocFindIncludedHeader(
WorkerT& wrk, std::string const& includerDir, std::string const& includeBase)
{
std::string header;
// Search in vicinity of the source
if (!wrk.Base().FindHeader(header, includerDir + includeBase)) {
// Search in include directories
for (std::string const& path : wrk.Moc().IncludePaths) {
std::string fullPath = path;
fullPath.push_back('/');
fullPath += includeBase;
if (wrk.Base().FindHeader(header, fullPath)) {
break;
}
}
}
// Sanitize
if (!header.empty()) {
header = wrk.FileSys().GetRealPath(header);
}
return header;
}
bool cmQtAutoGeneratorMocUic::JobParseT::ParseUic(WorkerT& wrk,
MetaT const& meta)
{
bool success = true;
if (meta.Content.find("ui_") != std::string::npos) {
const char* contentChars = meta.Content.c_str();
cmsys::RegularExpressionMatch match;
while (wrk.Uic().RegExpInclude.find(contentChars, match)) {
if (!ParseUicInclude(wrk, meta, match.match(2))) {
success = false;
break;
}
contentChars += match.end();
}
}
return success;
}
bool cmQtAutoGeneratorMocUic::JobParseT::ParseUicInclude(
WorkerT& wrk, MetaT const& meta, std::string&& includeString)
{
bool success = false;
std::string uiInputFile = UicFindIncludedFile(wrk, meta, includeString);
if (!uiInputFile.empty()) {
if (!wrk.Uic().skipped(uiInputFile)) {
JobHandleT jobHandle(new JobUicT(std::move(uiInputFile), FileName,
std::move(includeString)));
success = wrk.Gen().ParallelJobPushUic(jobHandle);
} else {
// A skipped file is successful
success = true;
}
}
return success;
}
std::string cmQtAutoGeneratorMocUic::JobParseT::UicFindIncludedFile(
WorkerT& wrk, MetaT const& meta, std::string const& includeString)
{
std::string res;
std::string searchFile =
wrk.FileSys().GetFilenameWithoutLastExtension(includeString).substr(3);
searchFile += ".ui";
// Collect search paths list
std::deque<std::string> testFiles;
{
std::string const searchPath = wrk.FileSys().SubDirPrefix(includeString);
std::string searchFileFull;
if (!searchPath.empty()) {
searchFileFull = searchPath;
searchFileFull += searchFile;
}
// Vicinity of the source
{
std::string const sourcePath = meta.FileDir;
testFiles.push_back(sourcePath + searchFile);
if (!searchPath.empty()) {
testFiles.push_back(sourcePath + searchFileFull);
}
}
// AUTOUIC search paths
if (!wrk.Uic().SearchPaths.empty()) {
for (std::string const& sPath : wrk.Uic().SearchPaths) {
testFiles.push_back((sPath + "/").append(searchFile));
}
if (!searchPath.empty()) {
for (std::string const& sPath : wrk.Uic().SearchPaths) {
testFiles.push_back((sPath + "/").append(searchFileFull));
}
}
}
}
// Search for the .ui file!
for (std::string const& testFile : testFiles) {
if (wrk.FileSys().FileExists(testFile)) {
res = wrk.FileSys().GetRealPath(testFile);
break;
}
}
// Log error
if (res.empty()) {
std::string emsg = "Could not find ";
emsg += Quoted(searchFile);
emsg += " in\n";
for (std::string const& testFile : testFiles) {
emsg += " ";
emsg += Quoted(testFile);
emsg += "\n";
}
wrk.LogFileError(GeneratorT::UIC, FileName, emsg);
}
return res;
}
void cmQtAutoGeneratorMocUic::JobMocPredefsT::Process(WorkerT& wrk)
{
// (Re)generate moc_predefs.h on demand
bool generate(false);
bool fileExists(wrk.FileSys().FileExists(wrk.Moc().PredefsFileAbs));
if (!fileExists) {
if (wrk.Log().Verbose()) {
std::string reason = "Generating ";
reason += Quoted(wrk.Moc().PredefsFileRel);
reason += " because it doesn't exist";
wrk.LogInfo(GeneratorT::MOC, reason);
}
generate = true;
} else if (wrk.Moc().SettingsChanged) {
if (wrk.Log().Verbose()) {
std::string reason = "Generating ";
reason += Quoted(wrk.Moc().PredefsFileRel);
reason += " because the settings changed.";
wrk.LogInfo(GeneratorT::MOC, reason);
}
generate = true;
}
if (generate) {
ProcessResultT result;
{
// Compose command
std::vector<std::string> cmd = wrk.Moc().PredefsCmd;
// Add includes
cmd.insert(cmd.end(), wrk.Moc().Includes.begin(),
wrk.Moc().Includes.end());
// Add definitions
for (std::string const& def : wrk.Moc().Definitions) {
cmd.push_back("-D" + def);
}
// Execute command
if (!wrk.RunProcess(GeneratorT::MOC, result, cmd)) {
std::string emsg = "The content generation command for ";
emsg += Quoted(wrk.Moc().PredefsFileRel);
emsg += " failed.\n";
emsg += result.ErrorMessage;
wrk.LogCommandError(GeneratorT::MOC, emsg, cmd, result.StdOut);
}
}
// (Re)write predefs file only on demand
if (!result.error()) {
if (!fileExists ||
wrk.FileSys().FileDiffers(wrk.Moc().PredefsFileAbs, result.StdOut)) {
if (wrk.FileSys().FileWrite(GeneratorT::MOC, wrk.Moc().PredefsFileAbs,
result.StdOut)) {
// Success
} else {
std::string emsg = "Writing ";
emsg += Quoted(wrk.Moc().PredefsFileRel);
emsg += " failed.";
wrk.LogFileError(GeneratorT::MOC, wrk.Moc().PredefsFileAbs, emsg);
}
} else {
// Touch to update the time stamp
if (wrk.Log().Verbose()) {
std::string msg = "Touching ";
msg += Quoted(wrk.Moc().PredefsFileRel);
msg += ".";
wrk.LogInfo(GeneratorT::MOC, msg);
}
wrk.FileSys().Touch(wrk.Moc().PredefsFileAbs);
}
}
}
}
void cmQtAutoGeneratorMocUic::JobMocT::FindDependencies(
WorkerT& wrk, std::string const& content)
{
wrk.Moc().FindDependencies(content, Depends);
DependsValid = true;
}
void cmQtAutoGeneratorMocUic::JobMocT::Process(WorkerT& wrk)
{
// Compute build file name
if (!IncludeString.empty()) {
BuildFile = wrk.Base().AutogenIncludeDir;
BuildFile += '/';
BuildFile += IncludeString;
} else {
std::string rel = wrk.FileSys().GetFilePathChecksum(SourceFile);
rel += "/moc_";
rel += wrk.FileSys().GetFilenameWithoutLastExtension(SourceFile);
rel += ".cpp";
// Register relative file path
wrk.Gen().ParallelMocAutoRegister(rel);
// Absolute build path
if (wrk.Base().MultiConfig) {
BuildFile = wrk.Base().AutogenIncludeDir;
BuildFile += '/';
BuildFile += rel;
} else {
BuildFile = wrk.Base().AbsoluteBuildPath(rel);
}
}
if (UpdateRequired(wrk)) {
GenerateMoc(wrk);
}
}
bool cmQtAutoGeneratorMocUic::JobMocT::UpdateRequired(WorkerT& wrk)
{
bool const verbose = wrk.Gen().Log().Verbose();
// Test if the build file exists
if (!wrk.FileSys().FileExists(BuildFile)) {
if (verbose) {
std::string reason = "Generating ";
reason += Quoted(BuildFile);
reason += " from its source file ";
reason += Quoted(SourceFile);
reason += " because it doesn't exist";
wrk.LogInfo(GeneratorT::MOC, reason);
}
return true;
}
// Test if any setting changed
if (wrk.Moc().SettingsChanged) {
if (verbose) {
std::string reason = "Generating ";
reason += Quoted(BuildFile);
reason += " from ";
reason += Quoted(SourceFile);
reason += " because the MOC settings changed";
wrk.LogInfo(GeneratorT::MOC, reason);
}
return true;
}
// Test if the moc_predefs file is newer
if (!wrk.Moc().PredefsFileAbs.empty()) {
bool isOlder = false;
{
std::string error;
isOlder = wrk.FileSys().FileIsOlderThan(
BuildFile, wrk.Moc().PredefsFileAbs, &error);
if (!isOlder && !error.empty()) {
wrk.LogError(GeneratorT::MOC, error);
return false;
}
}
if (isOlder) {
if (verbose) {
std::string reason = "Generating ";
reason += Quoted(BuildFile);
reason += " because it's older than: ";
reason += Quoted(wrk.Moc().PredefsFileAbs);
wrk.LogInfo(GeneratorT::MOC, reason);
}
return true;
}
}
// Test if the source file is newer
{
bool isOlder = false;
{
std::string error;
isOlder = wrk.FileSys().FileIsOlderThan(BuildFile, SourceFile, &error);
if (!isOlder && !error.empty()) {
wrk.LogError(GeneratorT::MOC, error);
return false;
}
}
if (isOlder) {
if (verbose) {
std::string reason = "Generating ";
reason += Quoted(BuildFile);
reason += " because it's older than its source file ";
reason += Quoted(SourceFile);
wrk.LogInfo(GeneratorT::MOC, reason);
}
return true;
}
}
// Test if a dependency file is newer
{
// Read dependencies on demand
if (!DependsValid) {
std::string content;
{
std::string error;
if (!wrk.FileSys().FileRead(content, SourceFile, &error)) {
std::string emsg = "Could not read file\n ";
emsg += Quoted(SourceFile);
emsg += "\nrequired by moc include ";
emsg += Quoted(IncludeString);
emsg += " in\n ";
emsg += Quoted(IncluderFile);
emsg += ".\n";
emsg += error;
wrk.LogError(GeneratorT::MOC, emsg);
return false;
}
}
FindDependencies(wrk, content);
}
// Check dependency timestamps
std::string error;
std::string sourceDir = wrk.FileSys().SubDirPrefix(SourceFile);
for (std::string const& depFileRel : Depends) {
std::string depFileAbs =
wrk.Moc().FindIncludedFile(sourceDir, depFileRel);
if (!depFileAbs.empty()) {
if (wrk.FileSys().FileIsOlderThan(BuildFile, depFileAbs, &error)) {
if (verbose) {
std::string reason = "Generating ";
reason += Quoted(BuildFile);
reason += " from ";
reason += Quoted(SourceFile);
reason += " because it is older than it's dependency file ";
reason += Quoted(depFileAbs);
wrk.LogInfo(GeneratorT::MOC, reason);
}
return true;
}
if (!error.empty()) {
wrk.LogError(GeneratorT::MOC, error);
return false;
}
} else {
std::string message = "Could not find dependency file ";
message += Quoted(depFileRel);
wrk.LogFileWarning(GeneratorT::MOC, SourceFile, message);
}
}
}
return false;
}
void cmQtAutoGeneratorMocUic::JobMocT::GenerateMoc(WorkerT& wrk)
{
// Make sure the parent directory exists
if (wrk.FileSys().MakeParentDirectory(GeneratorT::MOC, BuildFile)) {
// Compose moc command
std::vector<std::string> cmd;
cmd.push_back(wrk.Moc().Executable);
// Add options
cmd.insert(cmd.end(), wrk.Moc().AllOptions.begin(),
wrk.Moc().AllOptions.end());
// Add predefs include
if (!wrk.Moc().PredefsFileAbs.empty()) {
cmd.push_back("--include");
cmd.push_back(wrk.Moc().PredefsFileAbs);
}
cmd.push_back("-o");
cmd.push_back(BuildFile);
cmd.push_back(SourceFile);
// Execute moc command
ProcessResultT result;
if (wrk.RunProcess(GeneratorT::MOC, result, cmd)) {
// Moc command success
// Print moc output
if (!result.StdOut.empty()) {
wrk.LogInfo(GeneratorT::MOC, result.StdOut);
}
// Notify the generator that a not included file changed (on demand)
if (IncludeString.empty()) {
wrk.Gen().ParallelMocAutoUpdated();
}
} else {
// Moc command failed
{
std::string emsg = "The moc process failed to compile\n ";
emsg += Quoted(SourceFile);
emsg += "\ninto\n ";
emsg += Quoted(BuildFile);
emsg += ".\n";
emsg += result.ErrorMessage;
wrk.LogCommandError(GeneratorT::MOC, emsg, cmd, result.StdOut);
}
wrk.FileSys().FileRemove(BuildFile);
}
}
}
void cmQtAutoGeneratorMocUic::JobUicT::Process(WorkerT& wrk)
{
// Compute build file name
BuildFile = wrk.Base().AutogenIncludeDir;
BuildFile += '/';
BuildFile += IncludeString;
if (UpdateRequired(wrk)) {
GenerateUic(wrk);
}
}
bool cmQtAutoGeneratorMocUic::JobUicT::UpdateRequired(WorkerT& wrk)
{
bool const verbose = wrk.Gen().Log().Verbose();
// Test if the build file exists
if (!wrk.FileSys().FileExists(BuildFile)) {
if (verbose) {
std::string reason = "Generating ";
reason += Quoted(BuildFile);
reason += " from its source file ";
reason += Quoted(SourceFile);
reason += " because it doesn't exist";
wrk.LogInfo(GeneratorT::UIC, reason);
}
return true;
}
// Test if the uic settings changed
if (wrk.Uic().SettingsChanged) {
if (verbose) {
std::string reason = "Generating ";
reason += Quoted(BuildFile);
reason += " from ";
reason += Quoted(SourceFile);
reason += " because the UIC settings changed";
wrk.LogInfo(GeneratorT::UIC, reason);
}
return true;
}
// Test if the source file is newer
{
bool isOlder = false;
{
std::string error;
isOlder = wrk.FileSys().FileIsOlderThan(BuildFile, SourceFile, &error);
if (!isOlder && !error.empty()) {
wrk.LogError(GeneratorT::UIC, error);
return false;
}
}
if (isOlder) {
if (verbose) {
std::string reason = "Generating ";
reason += Quoted(BuildFile);
reason += " because it's older than its source file ";
reason += Quoted(SourceFile);
wrk.LogInfo(GeneratorT::UIC, reason);
}
return true;
}
}
return false;
}
void cmQtAutoGeneratorMocUic::JobUicT::GenerateUic(WorkerT& wrk)
{
// Make sure the parent directory exists
if (wrk.FileSys().MakeParentDirectory(GeneratorT::UIC, BuildFile)) {
// Compose uic command
std::vector<std::string> cmd;
cmd.push_back(wrk.Uic().Executable);
{
std::vector<std::string> allOpts = wrk.Uic().TargetOptions;
auto optionIt = wrk.Uic().Options.find(SourceFile);
if (optionIt != wrk.Uic().Options.end()) {
UicMergeOptions(allOpts, optionIt->second,
(wrk.Base().QtVersionMajor == 5));
}
cmd.insert(cmd.end(), allOpts.begin(), allOpts.end());
}
cmd.push_back("-o");
cmd.push_back(BuildFile);
cmd.push_back(SourceFile);
ProcessResultT result;
if (wrk.RunProcess(GeneratorT::UIC, result, cmd)) {
// Uic command success
// Print uic output
if (!result.StdOut.empty()) {
wrk.LogInfo(GeneratorT::UIC, result.StdOut);
}
} else {
// Uic command failed
{
std::string emsg = "The uic process failed to compile\n ";
emsg += Quoted(SourceFile);
emsg += "\ninto\n ";
emsg += Quoted(BuildFile);
emsg += "\nincluded by\n ";
emsg += Quoted(IncluderFile);
emsg += ".\n";
emsg += result.ErrorMessage;
wrk.LogCommandError(GeneratorT::UIC, emsg, cmd, result.StdOut);
}
wrk.FileSys().FileRemove(BuildFile);
}
}
}
void cmQtAutoGeneratorMocUic::JobDeleterT::operator()(JobT* job)
{
delete job;
}
cmQtAutoGeneratorMocUic::WorkerT::WorkerT(cmQtAutoGeneratorMocUic* gen,
uv_loop_t* uvLoop)
: Gen_(gen)
{
// Initialize uv asynchronous callback for process starting
ProcessRequest_.init(*uvLoop, &WorkerT::UVProcessStart, this);
// Start thread
Thread_ = std::thread(&WorkerT::Loop, this);
}
cmQtAutoGeneratorMocUic::WorkerT::~WorkerT()
{
// Join thread
if (Thread_.joinable()) {
Thread_.join();
}
}
void cmQtAutoGeneratorMocUic::WorkerT::LogInfo(
GeneratorT genType, std::string const& message) const
{
return Log().Info(genType, message);
}
void cmQtAutoGeneratorMocUic::WorkerT::LogWarning(
GeneratorT genType, std::string const& message) const
{
return Log().Warning(genType, message);
}
void cmQtAutoGeneratorMocUic::WorkerT::LogFileWarning(
GeneratorT genType, std::string const& filename,
std::string const& message) const
{
return Log().WarningFile(genType, filename, message);
}
void cmQtAutoGeneratorMocUic::WorkerT::LogError(
GeneratorT genType, std::string const& message) const
{
Gen().ParallelRegisterJobError();
Log().Error(genType, message);
}
void cmQtAutoGeneratorMocUic::WorkerT::LogFileError(
GeneratorT genType, std::string const& filename,
std::string const& message) const
{
Gen().ParallelRegisterJobError();
Log().ErrorFile(genType, filename, message);
}
void cmQtAutoGeneratorMocUic::WorkerT::LogCommandError(
GeneratorT genType, std::string const& message,
std::vector<std::string> const& command, std::string const& output) const
{
Gen().ParallelRegisterJobError();
Log().ErrorCommand(genType, message, command, output);
}
bool cmQtAutoGeneratorMocUic::WorkerT::RunProcess(
GeneratorT genType, ProcessResultT& result,
std::vector<std::string> const& command)
{
if (command.empty()) {
return false;
}
// Create process instance
{
std::lock_guard<std::mutex> lock(ProcessMutex_);
Process_ = cm::make_unique<ReadOnlyProcessT>();
Process_->setup(&result, true, command, Gen().Base().AutogenBuildDir);
}
// Send asynchronous process start request to libuv loop
ProcessRequest_.send();
// Log command
if (this->Log().Verbose()) {
std::string msg = "Running command:\n";
msg += QuotedCommand(command);
msg += '\n';
this->LogInfo(genType, msg);
}
// Wait until the process has been finished and destroyed
{
std::unique_lock<std::mutex> ulock(ProcessMutex_);
while (Process_) {
ProcessCondition_.wait(ulock);
}
}
return !result.error();
}
void cmQtAutoGeneratorMocUic::WorkerT::Loop()
{
while (true) {
Gen().WorkerSwapJob(JobHandle_);
if (JobHandle_) {
JobHandle_->Process(*this);
} else {
break;
}
}
}
void cmQtAutoGeneratorMocUic::WorkerT::UVProcessStart(uv_async_t* handle)
{
auto& wrk = *reinterpret_cast<WorkerT*>(handle->data);
{
std::lock_guard<std::mutex> lock(wrk.ProcessMutex_);
if (wrk.Process_ && !wrk.Process_->IsStarted()) {
wrk.Process_->start(handle->loop,
std::bind(&WorkerT::UVProcessFinished, &wrk));
}
}
}
void cmQtAutoGeneratorMocUic::WorkerT::UVProcessFinished()
{
{
std::lock_guard<std::mutex> lock(ProcessMutex_);
if (Process_ && Process_->IsFinished()) {
Process_.reset();
}
}
// Notify idling thread
ProcessCondition_.notify_one();
}
cmQtAutoGeneratorMocUic::cmQtAutoGeneratorMocUic()
: Base_(&FileSys())
, Moc_(&FileSys())
, Stage_(StageT::SETTINGS_READ)
, JobsRemain_(0)
, JobError_(false)
, JobThreadsAbort_(false)
, MocAutoFileUpdated_(false)
{
// Precompile regular expressions
Moc_.RegExpInclude.compile(
"(^|\n)[ \t]*#[ \t]*include[ \t]+"
"[\"<](([^ \">]+/)?moc_[^ \">/]+\\.cpp|[^ \">]+\\.moc)[\">]");
Uic_.RegExpInclude.compile("(^|\n)[ \t]*#[ \t]*include[ \t]+"
"[\"<](([^ \">]+/)?ui_[^ \">/]+\\.h)[\">]");
// Initialize libuv asynchronous iteration request
UVRequest().init(*UVLoop(), &cmQtAutoGeneratorMocUic::UVPollStage, this);
}
cmQtAutoGeneratorMocUic::~cmQtAutoGeneratorMocUic()
{
}
bool cmQtAutoGeneratorMocUic::Init(cmMakefile* makefile)
{
// -- Meta
Base_.HeaderExtensions = makefile->GetCMakeInstance()->GetHeaderExtensions();
// Utility lambdas
auto InfoGet = [makefile](const char* key) {
return makefile->GetSafeDefinition(key);
};
auto InfoGetBool = [makefile](const char* key) {
return makefile->IsOn(key);
};
auto InfoGetList = [makefile](const char* key) -> std::vector<std::string> {
std::vector<std::string> list;
cmSystemTools::ExpandListArgument(makefile->GetSafeDefinition(key), list);
return list;
};
auto InfoGetLists =
[makefile](const char* key) -> std::vector<std::vector<std::string>> {
std::vector<std::vector<std::string>> lists;
{
std::string const value = makefile->GetSafeDefinition(key);
std::string::size_type pos = 0;
while (pos < value.size()) {
std::string::size_type next = value.find(ListSep, pos);
std::string::size_type length =
(next != std::string::npos) ? next - pos : value.size() - pos;
// Remove enclosing braces
if (length >= 2) {
std::string::const_iterator itBeg = value.begin() + (pos + 1);
std::string::const_iterator itEnd = itBeg + (length - 2);
{
std::string subValue(itBeg, itEnd);
std::vector<std::string> list;
cmSystemTools::ExpandListArgument(subValue, list);
lists.push_back(std::move(list));
}
}
pos += length;
pos += ListSep.size();
}
}
return lists;
};
auto InfoGetConfig = [makefile, this](const char* key) -> std::string {
const char* valueConf = nullptr;
{
std::string keyConf = key;
keyConf += '_';
keyConf += InfoConfig();
valueConf = makefile->GetDefinition(keyConf);
}
if (valueConf == nullptr) {
return makefile->GetSafeDefinition(key);
}
return std::string(valueConf);
};
auto InfoGetConfigList =
[&InfoGetConfig](const char* key) -> std::vector<std::string> {
std::vector<std::string> list;
cmSystemTools::ExpandListArgument(InfoGetConfig(key), list);
return list;
};
// -- Read info file
if (!makefile->ReadListFile(InfoFile().c_str())) {
Log().ErrorFile(GeneratorT::GEN, InfoFile(), "File processing failed");
return false;
}
// -- Meta
Log().RaiseVerbosity(InfoGet("AM_VERBOSITY"));
Base_.MultiConfig = InfoGetBool("AM_MULTI_CONFIG");
{
unsigned long num = Base_.NumThreads;
if (cmSystemTools::StringToULong(InfoGet("AM_PARALLEL").c_str(), &num)) {
num = std::max<unsigned long>(num, 1);
num = std::min<unsigned long>(num, ParallelMax);
Base_.NumThreads = static_cast<unsigned int>(num);
}
}
// - Files and directories
Base_.ProjectSourceDir = InfoGet("AM_CMAKE_SOURCE_DIR");
Base_.ProjectBinaryDir = InfoGet("AM_CMAKE_BINARY_DIR");
Base_.CurrentSourceDir = InfoGet("AM_CMAKE_CURRENT_SOURCE_DIR");
Base_.CurrentBinaryDir = InfoGet("AM_CMAKE_CURRENT_BINARY_DIR");
Base_.IncludeProjectDirsBefore =
InfoGetBool("AM_CMAKE_INCLUDE_DIRECTORIES_PROJECT_BEFORE");
Base_.AutogenBuildDir = InfoGet("AM_BUILD_DIR");
if (Base_.AutogenBuildDir.empty()) {
Log().ErrorFile(GeneratorT::GEN, InfoFile(),
"Autogen build directory missing");
return false;
}
// include directory
Base_.AutogenIncludeDir = InfoGetConfig("AM_INCLUDE_DIR");
if (Base_.AutogenIncludeDir.empty()) {
Log().ErrorFile(GeneratorT::GEN, InfoFile(),
"Autogen include directory missing");
return false;
}
// - Files
SettingsFile_ = InfoGetConfig("AM_SETTINGS_FILE");
if (SettingsFile_.empty()) {
Log().ErrorFile(GeneratorT::GEN, InfoFile(), "Settings file name missing");
return false;
}
// - Qt environment
{
unsigned long qtv = Base_.QtVersionMajor;
if (cmSystemTools::StringToULong(InfoGet("AM_QT_VERSION_MAJOR").c_str(),
&qtv)) {
Base_.QtVersionMajor = static_cast<unsigned int>(qtv);
}
}
// - Moc
Moc_.Executable = InfoGet("AM_QT_MOC_EXECUTABLE");
Moc_.Enabled = !Moc().Executable.empty();
if (Moc().Enabled) {
{
auto lst = InfoGetList("AM_MOC_SKIP");
Moc_.SkipList.insert(lst.begin(), lst.end());
}
Moc_.Definitions = InfoGetConfigList("AM_MOC_DEFINITIONS");
#ifdef _WIN32
{
std::string win32("WIN32");
auto itB = Moc().Definitions.cbegin();
auto itE = Moc().Definitions.cend();
if (std::find(itB, itE, win32) == itE) {
Moc_.Definitions.emplace_back(std::move(win32));
}
}
#endif
Moc_.IncludePaths = InfoGetConfigList("AM_MOC_INCLUDES");
Moc_.Options = InfoGetList("AM_MOC_OPTIONS");
Moc_.RelaxedMode = InfoGetBool("AM_MOC_RELAXED_MODE");
for (std::string const& item : InfoGetList("AM_MOC_MACRO_NAMES")) {
Moc_.MacroFilters.emplace_back(
item, ("[\n][ \t]*{?[ \t]*" + item).append("[^a-zA-Z0-9_]"));
}
{
auto pushFilter = [this](std::string const& key, std::string const& exp,
std::string& error) {
if (!key.empty()) {
if (!exp.empty()) {
Moc_.DependFilters.push_back(KeyExpT());
KeyExpT& filter(Moc_.DependFilters.back());
if (filter.Exp.compile(exp)) {
filter.Key = key;
} else {
error = "Regular expression compiling failed";
}
} else {
error = "Regular expression is empty";
}
} else {
error = "Key is empty";
}
if (!error.empty()) {
error = ("AUTOMOC_DEPEND_FILTERS: " + error);
error += "\n";
error += " Key: ";
error += Quoted(key);
error += "\n";
error += " Exp: ";
error += Quoted(exp);
error += "\n";
}
};
std::string error;
// Insert default filter for Q_PLUGIN_METADATA
if (Base().QtVersionMajor != 4) {
pushFilter("Q_PLUGIN_METADATA",
"[\n][ \t]*Q_PLUGIN_METADATA[ \t]*\\("
"[^\\)]*FILE[ \t]*\"([^\"]+)\"",
error);
}
// Insert user defined dependency filters
{
std::vector<std::string> flts = InfoGetList("AM_MOC_DEPEND_FILTERS");
if ((flts.size() % 2) == 0) {
for (std::vector<std::string>::iterator itC = flts.begin(),
itE = flts.end();
itC != itE; itC += 2) {
pushFilter(*itC, *(itC + 1), error);
if (!error.empty()) {
break;
}
}
} else {
Log().ErrorFile(
GeneratorT::MOC, InfoFile(),
"AUTOMOC_DEPEND_FILTERS list size is not a multiple of 2");
return false;
}
}
if (!error.empty()) {
Log().ErrorFile(GeneratorT::MOC, InfoFile(), error);
return false;
}
}
Moc_.PredefsCmd = InfoGetList("AM_MOC_PREDEFS_CMD");
// Install moc predefs job
if (!Moc().PredefsCmd.empty()) {
JobQueues_.MocPredefs.emplace_back(new JobMocPredefsT());
}
}
// - Uic
Uic_.Executable = InfoGet("AM_QT_UIC_EXECUTABLE");
Uic_.Enabled = !Uic().Executable.empty();
if (Uic().Enabled) {
{
auto lst = InfoGetList("AM_UIC_SKIP");
Uic_.SkipList.insert(lst.begin(), lst.end());
}
Uic_.SearchPaths = InfoGetList("AM_UIC_SEARCH_PATHS");
Uic_.TargetOptions = InfoGetConfigList("AM_UIC_TARGET_OPTIONS");
{
auto sources = InfoGetList("AM_UIC_OPTIONS_FILES");
auto options = InfoGetLists("AM_UIC_OPTIONS_OPTIONS");
// Compare list sizes
if (sources.size() != options.size()) {
std::ostringstream ost;
ost << "files/options lists sizes mismatch (" << sources.size() << "/"
<< options.size() << ")";
Log().ErrorFile(GeneratorT::UIC, InfoFile(), ost.str());
return false;
}
auto fitEnd = sources.cend();
auto fit = sources.begin();
auto oit = options.begin();
while (fit != fitEnd) {
Uic_.Options[*fit] = std::move(*oit);
++fit;
++oit;
}
}
}
// Initialize source file jobs
{
std::hash<std::string> stringHash;
std::set<std::size_t> uniqueHeaders;
// Add header jobs
for (std::string& hdr : InfoGetList("AM_HEADERS")) {
const bool moc = !Moc().skipped(hdr);
const bool uic = !Uic().skipped(hdr);
if ((moc || uic) && uniqueHeaders.emplace(stringHash(hdr)).second) {
JobQueues_.Headers.emplace_back(
new JobParseT(std::move(hdr), moc, uic, true));
}
}
// Add source jobs
{
std::vector<std::string> sources = InfoGetList("AM_SOURCES");
// Add header(s) for the source file
for (std::string& src : sources) {
const bool srcMoc = !Moc().skipped(src);
const bool srcUic = !Uic().skipped(src);
if (!srcMoc && !srcUic) {
continue;
}
// Search for the default header file and a private header
{
std::array<std::string, 2> bases;
bases[0] = FileSys().SubDirPrefix(src);
bases[0] += FileSys().GetFilenameWithoutLastExtension(src);
bases[1] = bases[0];
bases[1] += "_p";
for (std::string const& headerBase : bases) {
std::string header;
if (Base().FindHeader(header, headerBase)) {
const bool moc = srcMoc && !Moc().skipped(header);
const bool uic = srcUic && !Uic().skipped(header);
if ((moc || uic) &&
uniqueHeaders.emplace(stringHash(header)).second) {
JobQueues_.Headers.emplace_back(
new JobParseT(std::move(header), moc, uic, true));
}
}
}
}
// Add source job
JobQueues_.Sources.emplace_back(
new JobParseT(std::move(src), srcMoc, srcUic));
}
}
}
// Init derived information
// ------------------------
// Init file path checksum generator
FileSys().setupFilePathChecksum(
Base().CurrentSourceDir, Base().CurrentBinaryDir, Base().ProjectSourceDir,
Base().ProjectBinaryDir);
// Moc variables
if (Moc().Enabled) {
// Mocs compilation file
Moc_.CompFileAbs = Base().AbsoluteBuildPath("mocs_compilation.cpp");
// Moc predefs file
if (!Moc_.PredefsCmd.empty()) {
Moc_.PredefsFileRel = "moc_predefs";
if (Base_.MultiConfig) {
Moc_.PredefsFileRel += '_';
Moc_.PredefsFileRel += InfoConfig();
}
Moc_.PredefsFileRel += ".h";
Moc_.PredefsFileAbs = Base_.AbsoluteBuildPath(Moc().PredefsFileRel);
}
// Sort include directories on demand
if (Base().IncludeProjectDirsBefore) {
// Move strings to temporary list
std::list<std::string> includes;
includes.insert(includes.end(), Moc().IncludePaths.begin(),
Moc().IncludePaths.end());
Moc_.IncludePaths.clear();
Moc_.IncludePaths.reserve(includes.size());
// Append project directories only
{
std::array<std::string const*, 2> const movePaths = {
{ &Base().ProjectBinaryDir, &Base().ProjectSourceDir }
};
for (std::string const* ppath : movePaths) {
std::list<std::string>::iterator it = includes.begin();
while (it != includes.end()) {
std::string const& path = *it;
if (cmSystemTools::StringStartsWith(path, ppath->c_str())) {
Moc_.IncludePaths.push_back(path);
it = includes.erase(it);
} else {
++it;
}
}
}
}
// Append remaining directories
Moc_.IncludePaths.insert(Moc_.IncludePaths.end(), includes.begin(),
includes.end());
}
// Compose moc includes list
{
std::set<std::string> frameworkPaths;
for (std::string const& path : Moc().IncludePaths) {
Moc_.Includes.push_back("-I" + path);
// Extract framework path
if (cmHasLiteralSuffix(path, ".framework/Headers")) {
// Go up twice to get to the framework root
std::vector<std::string> pathComponents;
FileSys().SplitPath(path, pathComponents);
std::string frameworkPath = FileSys().JoinPath(
pathComponents.begin(), pathComponents.end() - 2);
frameworkPaths.insert(frameworkPath);
}
}
// Append framework includes
for (std::string const& path : frameworkPaths) {
Moc_.Includes.push_back("-F");
Moc_.Includes.push_back(path);
}
}
// Setup single list with all options
{
// Add includes
Moc_.AllOptions.insert(Moc_.AllOptions.end(), Moc().Includes.begin(),
Moc().Includes.end());
// Add definitions
for (std::string const& def : Moc().Definitions) {
Moc_.AllOptions.push_back("-D" + def);
}
// Add options
Moc_.AllOptions.insert(Moc_.AllOptions.end(), Moc().Options.begin(),
Moc().Options.end());
}
}
return true;
}
bool cmQtAutoGeneratorMocUic::Process()
{
// Run libuv event loop
UVRequest().send();
if (uv_run(UVLoop(), UV_RUN_DEFAULT) == 0) {
if (JobError_) {
return false;
}
} else {
return false;
}
return true;
}
void cmQtAutoGeneratorMocUic::UVPollStage(uv_async_t* handle)
{
reinterpret_cast<cmQtAutoGeneratorMocUic*>(handle->data)->PollStage();
}
void cmQtAutoGeneratorMocUic::PollStage()
{
switch (Stage_) {
case StageT::SETTINGS_READ:
SettingsFileRead();
SetStage(StageT::CREATE_DIRECTORIES);
break;
case StageT::CREATE_DIRECTORIES:
CreateDirectories();
SetStage(StageT::PARSE_SOURCES);
break;
case StageT::PARSE_SOURCES:
if (ThreadsStartJobs(JobQueues_.Sources)) {
SetStage(StageT::PARSE_HEADERS);
}
break;
case StageT::PARSE_HEADERS:
if (ThreadsStartJobs(JobQueues_.Headers)) {
SetStage(StageT::MOC_PREDEFS);
}
break;
case StageT::MOC_PREDEFS:
if (ThreadsStartJobs(JobQueues_.MocPredefs)) {
SetStage(StageT::MOC_PROCESS);
}
break;
case StageT::MOC_PROCESS:
if (ThreadsStartJobs(JobQueues_.Moc)) {
SetStage(StageT::MOCS_COMPILATION);
}
break;
case StageT::MOCS_COMPILATION:
if (ThreadsJobsDone()) {
MocGenerateCompilation();
SetStage(StageT::UIC_PROCESS);
}
break;
case StageT::UIC_PROCESS:
if (ThreadsStartJobs(JobQueues_.Uic)) {
SetStage(StageT::SETTINGS_WRITE);
}
break;
case StageT::SETTINGS_WRITE:
SettingsFileWrite();
SetStage(StageT::FINISH);
break;
case StageT::FINISH:
if (ThreadsJobsDone()) {
// Clear all libuv handles
ThreadsStop();
UVRequest().reset();
// Set highest END stage manually
Stage_ = StageT::END;
}
break;
case StageT::END:
break;
}
}
void cmQtAutoGeneratorMocUic::SetStage(StageT stage)
{
if (JobError_) {
stage = StageT::FINISH;
}
// Only allow to increase the stage
if (Stage_ < stage) {
Stage_ = stage;
UVRequest().send();
}
}
void cmQtAutoGeneratorMocUic::SettingsFileRead()
{
// Compose current settings strings
{
cmCryptoHash crypt(cmCryptoHash::AlgoSHA256);
std::string const sep(" ~~~ ");
if (Moc_.Enabled) {
std::string str;
str += Moc().Executable;
str += sep;
str += cmJoin(Moc().AllOptions, ";");
str += sep;
str += Base().IncludeProjectDirsBefore ? "TRUE" : "FALSE";
str += sep;
str += cmJoin(Moc().PredefsCmd, ";");
str += sep;
SettingsStringMoc_ = crypt.HashString(str);
}
if (Uic().Enabled) {
std::string str;
str += Uic().Executable;
str += sep;
str += cmJoin(Uic().TargetOptions, ";");
for (const auto& item : Uic().Options) {
str += sep;
str += item.first;
str += sep;
str += cmJoin(item.second, ";");
}
str += sep;
SettingsStringUic_ = crypt.HashString(str);
}
}
// Read old settings and compare
{
std::string content;
if (FileSys().FileRead(content, SettingsFile_)) {
if (Moc().Enabled) {
if (SettingsStringMoc_ != SettingsFind(content, "moc")) {
Moc_.SettingsChanged = true;
}
}
if (Uic().Enabled) {
if (SettingsStringUic_ != SettingsFind(content, "uic")) {
Uic_.SettingsChanged = true;
}
}
// In case any setting changed remove the old settings file.
// This triggers a full rebuild on the next run if the current
// build is aborted before writing the current settings in the end.
if (Moc().SettingsChanged || Uic().SettingsChanged) {
FileSys().FileRemove(SettingsFile_);
}
} else {
// Settings file read failed
if (Moc().Enabled) {
Moc_.SettingsChanged = true;
}
if (Uic().Enabled) {
Uic_.SettingsChanged = true;
}
}
}
}
void cmQtAutoGeneratorMocUic::SettingsFileWrite()
{
std::lock_guard<std::mutex> jobsLock(JobsMutex_);
// Only write if any setting changed
if (!JobError_ && (Moc().SettingsChanged || Uic().SettingsChanged)) {
if (Log().Verbose()) {
Log().Info(GeneratorT::GEN,
"Writing settings file " + Quoted(SettingsFile_));
}
// Compose settings file content
std::string content;
{
auto SettingAppend = [&content](const char* key,
std::string const& value) {
if (!value.empty()) {
content += key;
content += ':';
content += value;
content += '\n';
}
};
SettingAppend("moc", SettingsStringMoc_);
SettingAppend("uic", SettingsStringUic_);
}
// Write settings file
if (!FileSys().FileWrite(GeneratorT::GEN, SettingsFile_, content)) {
Log().ErrorFile(GeneratorT::GEN, SettingsFile_,
"Settings file writing failed");
// Remove old settings file to trigger a full rebuild on the next run
FileSys().FileRemove(SettingsFile_);
RegisterJobError();
}
}
}
void cmQtAutoGeneratorMocUic::CreateDirectories()
{
// Create AUTOGEN include directory
if (!FileSys().MakeDirectory(GeneratorT::GEN, Base().AutogenIncludeDir)) {
RegisterJobError();
}
}
bool cmQtAutoGeneratorMocUic::ThreadsStartJobs(JobQueueT& queue)
{
bool done = false;
std::size_t queueSize = queue.size();
// Change the active queue
{
std::lock_guard<std::mutex> jobsLock(JobsMutex_);
// Check if there are still unfinished jobs from the previous queue
if (JobsRemain_ == 0) {
if (!JobThreadsAbort_) {
JobQueue_.swap(queue);
JobsRemain_ = queueSize;
} else {
// Abort requested
queue.clear();
queueSize = 0;
}
done = true;
}
}
if (done && (queueSize != 0)) {
// Start new threads on demand
if (Workers_.empty()) {
Workers_.resize(Base().NumThreads);
for (auto& item : Workers_) {
item = cm::make_unique<WorkerT>(this, UVLoop());
}
} else {
// Notify threads
if (queueSize == 1) {
JobsConditionRead_.notify_one();
} else {
JobsConditionRead_.notify_all();
}
}
}
return done;
}
void cmQtAutoGeneratorMocUic::ThreadsStop()
{
if (!Workers_.empty()) {
// Clear all jobs
{
std::lock_guard<std::mutex> jobsLock(JobsMutex_);
JobThreadsAbort_ = true;
JobsRemain_ -= JobQueue_.size();
JobQueue_.clear();
JobQueues_.Sources.clear();
JobQueues_.Headers.clear();
JobQueues_.MocPredefs.clear();
JobQueues_.Moc.clear();
JobQueues_.Uic.clear();
}
// Wake threads
JobsConditionRead_.notify_all();
// Join and clear threads
Workers_.clear();
}
}
bool cmQtAutoGeneratorMocUic::ThreadsJobsDone()
{
std::lock_guard<std::mutex> jobsLock(JobsMutex_);
return (JobsRemain_ == 0);
}
void cmQtAutoGeneratorMocUic::WorkerSwapJob(JobHandleT& jobHandle)
{
bool const jobProcessed(jobHandle);
if (jobProcessed) {
jobHandle.reset(nullptr);
}
{
std::unique_lock<std::mutex> jobsLock(JobsMutex_);
// Reduce the remaining job count and notify the libuv loop
// when all jobs are done
if (jobProcessed) {
--JobsRemain_;
if (JobsRemain_ == 0) {
UVRequest().send();
}
}
// Wait for new jobs
while (!JobThreadsAbort_ && JobQueue_.empty()) {
JobsConditionRead_.wait(jobsLock);
}
// Try to pick up a new job handle
if (!JobThreadsAbort_ && !JobQueue_.empty()) {
jobHandle = std::move(JobQueue_.front());
JobQueue_.pop_front();
}
}
}
void cmQtAutoGeneratorMocUic::ParallelRegisterJobError()
{
std::lock_guard<std::mutex> jobsLock(JobsMutex_);
RegisterJobError();
}
// Private method that requires cmQtAutoGeneratorMocUic::JobsMutex_ to be
// locked
void cmQtAutoGeneratorMocUic::RegisterJobError()
{
JobError_ = true;
if (!JobThreadsAbort_) {
JobThreadsAbort_ = true;
// Clear remaining jobs
if (JobsRemain_ != 0) {
JobsRemain_ -= JobQueue_.size();
JobQueue_.clear();
}
}
}
bool cmQtAutoGeneratorMocUic::ParallelJobPushMoc(JobHandleT& jobHandle)
{
std::lock_guard<std::mutex> jobsLock(JobsMutex_);
if (!JobThreadsAbort_) {
bool pushJobHandle = true;
// Do additional tests if this is an included moc job
const JobMocT& mocJob(static_cast<JobMocT&>(*jobHandle));
if (!mocJob.IncludeString.empty()) {
// Register included moc file and look for collisions
MocIncludedFiles_.emplace(mocJob.SourceFile);
if (!MocIncludedStrings_.emplace(mocJob.IncludeString).second) {
// Another source file includes the same moc file!
for (const JobHandleT& otherHandle : JobQueues_.Moc) {
const JobMocT& otherJob(static_cast<JobMocT&>(*otherHandle));
if (otherJob.IncludeString == mocJob.IncludeString) {
// Check if the same moc file would be generated from different
// source files which is an error.
if (otherJob.SourceFile != mocJob.SourceFile) {
// Include string collision
std::string error = "The two source files\n ";
error += Quoted(mocJob.IncluderFile);
error += " and\n ";
error += Quoted(otherJob.IncluderFile);
error += "\ncontain the same moc include string ";
error += Quoted(mocJob.IncludeString);
error += "\nbut the moc file would be generated from different "
"source files\n ";
error += Quoted(mocJob.SourceFile);
error += " and\n ";
error += Quoted(otherJob.SourceFile);
error += ".\nConsider to\n"
"- not include the \"moc_<NAME>.cpp\" file\n"
"- add a directory prefix to a \"<NAME>.moc\" include "
"(e.g \"sub/<NAME>.moc\")\n"
"- rename the source file(s)\n";
Log().Error(GeneratorT::MOC, error);
RegisterJobError();
}
// Do not push this job in since the included moc file already
// gets generated by an other job.
pushJobHandle = false;
break;
}
}
}
}
// Push job on demand
if (pushJobHandle) {
JobQueues_.Moc.emplace_back(std::move(jobHandle));
}
}
return !JobError_;
}
bool cmQtAutoGeneratorMocUic::ParallelJobPushUic(JobHandleT& jobHandle)
{
std::lock_guard<std::mutex> jobsLock(JobsMutex_);
if (!JobThreadsAbort_) {
bool pushJobHandle = true;
// Look for include collisions.
const JobUicT& uicJob(static_cast<JobUicT&>(*jobHandle));
for (const JobHandleT& otherHandle : JobQueues_.Uic) {
const JobUicT& otherJob(static_cast<JobUicT&>(*otherHandle));
if (otherJob.IncludeString == uicJob.IncludeString) {
// Check if the same uic file would be generated from different
// source files which would be an error.
if (otherJob.SourceFile != uicJob.SourceFile) {
// Include string collision
std::string error = "The two source files\n ";
error += Quoted(uicJob.IncluderFile);
error += " and\n ";
error += Quoted(otherJob.IncluderFile);
error += "\ncontain the same uic include string ";
error += Quoted(uicJob.IncludeString);
error += "\nbut the uic file would be generated from different "
"source files\n ";
error += Quoted(uicJob.SourceFile);
error += " and\n ";
error += Quoted(otherJob.SourceFile);
error +=
".\nConsider to\n"
"- add a directory prefix to a \"ui_<NAME>.h\" include "
"(e.g \"sub/ui_<NAME>.h\")\n"
"- rename the <NAME>.ui file(s) and adjust the \"ui_<NAME>.h\" "
"include(s)\n";
Log().Error(GeneratorT::UIC, error);
RegisterJobError();
}
// Do not push this job in since the uic file already
// gets generated by an other job.
pushJobHandle = false;
break;
}
}
if (pushJobHandle) {
JobQueues_.Uic.emplace_back(std::move(jobHandle));
}
}
return !JobError_;
}
bool cmQtAutoGeneratorMocUic::ParallelMocIncluded(
std::string const& sourceFile)
{
std::lock_guard<std::mutex> mocLock(JobsMutex_);
return (MocIncludedFiles_.find(sourceFile) != MocIncludedFiles_.end());
}
void cmQtAutoGeneratorMocUic::ParallelMocAutoRegister(
std::string const& mocFile)
{
std::lock_guard<std::mutex> mocLock(JobsMutex_);
MocAutoFiles_.emplace(mocFile);
}
void cmQtAutoGeneratorMocUic::ParallelMocAutoUpdated()
{
std::lock_guard<std::mutex> mocLock(JobsMutex_);
MocAutoFileUpdated_ = true;
}
void cmQtAutoGeneratorMocUic::MocGenerateCompilation()
{
std::lock_guard<std::mutex> mocLock(JobsMutex_);
if (!JobError_ && Moc().Enabled) {
// Write mocs compilation build file
{
// Compose mocs compilation file content
std::string content =
"// This file is autogenerated. Changes will be overwritten.\n";
if (MocAutoFiles_.empty()) {
// Placeholder content
content += "// No files found that require moc or the moc files are "
"included\n";
content += "enum some_compilers { need_more_than_nothing };\n";
} else {
// Valid content
char const sbeg = Base().MultiConfig ? '<' : '"';
char const send = Base().MultiConfig ? '>' : '"';
for (std::string const& mocfile : MocAutoFiles_) {
content += "#include ";
content += sbeg;
content += mocfile;
content += send;
content += '\n';
}
}
std::string const& compAbs = Moc().CompFileAbs;
if (FileSys().FileDiffers(compAbs, content)) {
// Actually write mocs compilation file
if (Log().Verbose()) {
Log().Info(GeneratorT::MOC, "Generating MOC compilation " + compAbs);
}
if (!FileSys().FileWrite(GeneratorT::MOC, compAbs, content)) {
Log().ErrorFile(GeneratorT::MOC, compAbs,
"mocs compilation file writing failed");
RegisterJobError();
return;
}
} else if (MocAutoFileUpdated_) {
// Only touch mocs compilation file
if (Log().Verbose()) {
Log().Info(GeneratorT::MOC, "Touching mocs compilation " + compAbs);
}
FileSys().Touch(compAbs);
}
}
// Write mocs compilation wrapper file
if (Base().MultiConfig) {
}
}
}