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CMake/Source/cmGlobalNinjaGenerator.cxx

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/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
file Copyright.txt or https://cmake.org/licensing for details. */
#include "cmGlobalNinjaGenerator.h"
#include "cmAlgorithms.h"
#include "cmDocumentationEntry.h"
#include "cmFortranParser.h"
#include "cmGeneratedFileStream.h"
#include "cmGeneratorExpressionEvaluationFile.h"
#include "cmGeneratorTarget.h"
#include "cmLocalGenerator.h"
#include "cmLocalNinjaGenerator.h"
#include "cmMakefile.h"
#include "cmOutputConverter.h"
#include "cmState.h"
#include "cmSystemTools.h"
#include "cmTarget.h"
#include "cmTargetDepend.h"
#include "cmVersion.h"
#include "cm_auto_ptr.hxx"
#include "cmake.h"
#include "cm_jsoncpp_reader.h"
#include "cm_jsoncpp_writer.h"
#include <algorithm>
#include <ctype.h>
#include <functional>
#include <iterator>
#include <sstream>
#include <stdio.h>
const char* cmGlobalNinjaGenerator::NINJA_BUILD_FILE = "build.ninja";
const char* cmGlobalNinjaGenerator::NINJA_RULES_FILE = "rules.ninja";
const char* cmGlobalNinjaGenerator::INDENT = " ";
void cmGlobalNinjaGenerator::Indent(std::ostream& os, int count)
{
for (int i = 0; i < count; ++i) {
os << cmGlobalNinjaGenerator::INDENT;
}
}
void cmGlobalNinjaGenerator::WriteDivider(std::ostream& os)
{
os << "# ======================================"
<< "=======================================\n";
}
void cmGlobalNinjaGenerator::WriteComment(std::ostream& os,
const std::string& comment)
{
if (comment.empty()) {
return;
}
std::string::size_type lpos = 0;
std::string::size_type rpos;
os << "\n#############################################\n";
while ((rpos = comment.find('\n', lpos)) != std::string::npos) {
os << "# " << comment.substr(lpos, rpos - lpos) << "\n";
lpos = rpos + 1;
}
os << "# " << comment.substr(lpos) << "\n\n";
}
std::string cmGlobalNinjaGenerator::EncodeRuleName(std::string const& name)
{
// Ninja rule names must match "[a-zA-Z0-9_.-]+". Use ".xx" to encode
// "." and all invalid characters as hexadecimal.
std::string encoded;
for (std::string::const_iterator i = name.begin(); i != name.end(); ++i) {
if (isalnum(*i) || *i == '_' || *i == '-') {
encoded += *i;
} else {
char buf[16];
sprintf(buf, ".%02x", static_cast<unsigned int>(*i));
encoded += buf;
}
}
return encoded;
}
static bool IsIdentChar(char c)
{
return ('a' <= c && c <= 'z') ||
('+' <= c && c <= '9') || // +,-./ and numbers
('A' <= c && c <= 'Z') || (c == '_') || (c == '$') || (c == '\\') ||
(c == ' ') || (c == ':');
}
std::string cmGlobalNinjaGenerator::EncodeIdent(const std::string& ident,
std::ostream& vars)
{
if (std::find_if(ident.begin(), ident.end(),
std::not1(std::ptr_fun(IsIdentChar))) != ident.end()) {
static unsigned VarNum = 0;
std::ostringstream names;
names << "ident" << VarNum++;
vars << names.str() << " = " << ident << "\n";
return "$" + names.str();
}
std::string result = ident;
cmSystemTools::ReplaceString(result, " ", "$ ");
cmSystemTools::ReplaceString(result, ":", "$:");
return result;
}
std::string cmGlobalNinjaGenerator::EncodeLiteral(const std::string& lit)
{
std::string result = lit;
cmSystemTools::ReplaceString(result, "$", "$$");
cmSystemTools::ReplaceString(result, "\n", "$\n");
return result;
}
std::string cmGlobalNinjaGenerator::EncodePath(const std::string& path)
{
std::string result = path;
#ifdef _WIN32
if (this->IsGCCOnWindows())
std::replace(result.begin(), result.end(), '\\', '/');
else
std::replace(result.begin(), result.end(), '/', '\\');
#endif
return EncodeLiteral(result);
}
std::string cmGlobalNinjaGenerator::EncodeDepfileSpace(const std::string& path)
{
std::string result = path;
cmSystemTools::ReplaceString(result, " ", "\\ ");
return result;
}
void cmGlobalNinjaGenerator::WriteBuild(
std::ostream& os, const std::string& comment, const std::string& rule,
const cmNinjaDeps& outputs, const cmNinjaDeps& implicitOuts,
const cmNinjaDeps& explicitDeps, const cmNinjaDeps& implicitDeps,
const cmNinjaDeps& orderOnlyDeps, const cmNinjaVars& variables,
const std::string& rspfile, int cmdLineLimit, bool* usedResponseFile)
{
// Make sure there is a rule.
if (rule.empty()) {
cmSystemTools::Error("No rule for WriteBuildStatement! called "
"with comment: ",
comment.c_str());
return;
}
// Make sure there is at least one output file.
if (outputs.empty()) {
cmSystemTools::Error("No output files for WriteBuildStatement! called "
"with comment: ",
comment.c_str());
return;
}
cmGlobalNinjaGenerator::WriteComment(os, comment);
std::string arguments;
// TODO: Better formatting for when there are multiple input/output files.
// Write explicit dependencies.
for (cmNinjaDeps::const_iterator i = explicitDeps.begin();
i != explicitDeps.end(); ++i) {
arguments += " " + EncodeIdent(EncodePath(*i), os);
}
// Write implicit dependencies.
if (!implicitDeps.empty()) {
arguments += " |";
for (cmNinjaDeps::const_iterator i = implicitDeps.begin();
i != implicitDeps.end(); ++i) {
arguments += " " + EncodeIdent(EncodePath(*i), os);
}
}
// Write order-only dependencies.
if (!orderOnlyDeps.empty()) {
arguments += " ||";
for (cmNinjaDeps::const_iterator i = orderOnlyDeps.begin();
i != orderOnlyDeps.end(); ++i) {
arguments += " " + EncodeIdent(EncodePath(*i), os);
}
}
arguments += "\n";
std::string build;
// Write outputs files.
build += "build";
for (cmNinjaDeps::const_iterator i = outputs.begin(); i != outputs.end();
++i) {
build += " " + EncodeIdent(EncodePath(*i), os);
if (this->ComputingUnknownDependencies) {
this->CombinedBuildOutputs.insert(EncodePath(*i));
}
}
if (!implicitOuts.empty()) {
build += " |";
for (cmNinjaDeps::const_iterator i = implicitOuts.begin();
i != implicitOuts.end(); ++i) {
build += " " + EncodeIdent(EncodePath(*i), os);
}
}
build += ":";
// Write the rule.
build += " " + rule;
// Write the variables bound to this build statement.
std::ostringstream variable_assignments;
for (cmNinjaVars::const_iterator i = variables.begin(); i != variables.end();
++i) {
cmGlobalNinjaGenerator::WriteVariable(variable_assignments, i->first,
i->second, "", 1);
}
// check if a response file rule should be used
std::string buildstr = build;
std::string assignments = variable_assignments.str();
const std::string& args = arguments;
bool useResponseFile = false;
if (cmdLineLimit < 0 ||
(cmdLineLimit > 0 &&
(args.size() + buildstr.size() + assignments.size()) >
static_cast<size_t>(cmdLineLimit))) {
variable_assignments.str(std::string());
cmGlobalNinjaGenerator::WriteVariable(variable_assignments, "RSP_FILE",
rspfile, "", 1);
assignments += variable_assignments.str();
useResponseFile = true;
}
if (usedResponseFile) {
*usedResponseFile = useResponseFile;
}
os << buildstr << args << assignments;
}
void cmGlobalNinjaGenerator::WritePhonyBuild(
std::ostream& os, const std::string& comment, const cmNinjaDeps& outputs,
const cmNinjaDeps& explicitDeps, const cmNinjaDeps& implicitDeps,
const cmNinjaDeps& orderOnlyDeps, const cmNinjaVars& variables)
{
this->WriteBuild(os, comment, "phony", outputs,
/*implicitOuts=*/cmNinjaDeps(), explicitDeps, implicitDeps,
orderOnlyDeps, variables);
}
void cmGlobalNinjaGenerator::AddCustomCommandRule()
{
this->AddRule("CUSTOM_COMMAND", "$COMMAND", "$DESC",
"Rule for running custom commands.",
/*depfile*/ "",
/*deptype*/ "",
/*rspfile*/ "",
/*rspcontent*/ "",
/*restat*/ "", // bound on each build statement as needed
/*generator*/ false);
}
void cmGlobalNinjaGenerator::WriteCustomCommandBuild(
const std::string& command, const std::string& description,
const std::string& comment, const std::string& depfile, bool uses_terminal,
bool restat, const cmNinjaDeps& outputs, const cmNinjaDeps& deps,
const cmNinjaDeps& orderOnly)
{
std::string cmd = command;
#ifdef _WIN32
if (cmd.empty())
// TODO Shouldn't an empty command be handled by ninja?
cmd = "cmd.exe /c";
#endif
this->AddCustomCommandRule();
cmNinjaVars vars;
vars["COMMAND"] = cmd;
vars["DESC"] = EncodeLiteral(description);
if (restat) {
vars["restat"] = "1";
}
if (uses_terminal && SupportsConsolePool()) {
vars["pool"] = "console";
}
if (!depfile.empty()) {
vars["depfile"] = depfile;
}
this->WriteBuild(*this->BuildFileStream, comment, "CUSTOM_COMMAND", outputs,
/*implicitOuts=*/cmNinjaDeps(), deps, cmNinjaDeps(),
orderOnly, vars);
if (this->ComputingUnknownDependencies) {
// we need to track every dependency that comes in, since we are trying
// to find dependencies that are side effects of build commands
for (cmNinjaDeps::const_iterator i = deps.begin(); i != deps.end(); ++i) {
this->CombinedCustomCommandExplicitDependencies.insert(EncodePath(*i));
}
}
}
void cmGlobalNinjaGenerator::AddMacOSXContentRule()
{
cmLocalGenerator* lg = this->LocalGenerators[0];
std::ostringstream cmd;
cmd << lg->ConvertToOutputFormat(cmSystemTools::GetCMakeCommand(),
cmOutputConverter::SHELL)
<< " -E copy $in $out";
this->AddRule("COPY_OSX_CONTENT", cmd.str(), "Copying OS X Content $out",
"Rule for copying OS X bundle content file.",
/*depfile*/ "",
/*deptype*/ "",
/*rspfile*/ "",
/*rspcontent*/ "",
/*restat*/ "",
/*generator*/ false);
}
void cmGlobalNinjaGenerator::WriteMacOSXContentBuild(const std::string& input,
const std::string& output)
{
this->AddMacOSXContentRule();
cmNinjaDeps outputs;
outputs.push_back(output);
cmNinjaDeps deps;
deps.push_back(input);
cmNinjaVars vars;
this->WriteBuild(*this->BuildFileStream, "", "COPY_OSX_CONTENT", outputs,
/*implicitOuts=*/cmNinjaDeps(), deps, cmNinjaDeps(),
cmNinjaDeps(), cmNinjaVars());
}
void cmGlobalNinjaGenerator::WriteRule(
std::ostream& os, const std::string& name, const std::string& command,
const std::string& description, const std::string& comment,
const std::string& depfile, const std::string& deptype,
const std::string& rspfile, const std::string& rspcontent,
const std::string& restat, bool generator)
{
// Make sure the rule has a name.
if (name.empty()) {
cmSystemTools::Error("No name given for WriteRuleStatement! called "
"with comment: ",
comment.c_str());
return;
}
// Make sure a command is given.
if (command.empty()) {
cmSystemTools::Error("No command given for WriteRuleStatement! called "
"with comment: ",
comment.c_str());
return;
}
cmGlobalNinjaGenerator::WriteComment(os, comment);
// Write the rule.
os << "rule " << name << "\n";
// Write the depfile if any.
if (!depfile.empty()) {
cmGlobalNinjaGenerator::Indent(os, 1);
os << "depfile = " << depfile << "\n";
}
// Write the deptype if any.
if (!deptype.empty()) {
cmGlobalNinjaGenerator::Indent(os, 1);
os << "deps = " << deptype << "\n";
}
// Write the command.
cmGlobalNinjaGenerator::Indent(os, 1);
os << "command = " << command << "\n";
// Write the description if any.
if (!description.empty()) {
cmGlobalNinjaGenerator::Indent(os, 1);
os << "description = " << description << "\n";
}
if (!rspfile.empty()) {
if (rspcontent.empty()) {
cmSystemTools::Error("No rspfile_content given!", comment.c_str());
return;
}
cmGlobalNinjaGenerator::Indent(os, 1);
os << "rspfile = " << rspfile << "\n";
cmGlobalNinjaGenerator::Indent(os, 1);
os << "rspfile_content = " << rspcontent << "\n";
}
if (!restat.empty()) {
cmGlobalNinjaGenerator::Indent(os, 1);
os << "restat = " << restat << "\n";
}
if (generator) {
cmGlobalNinjaGenerator::Indent(os, 1);
os << "generator = 1\n";
}
os << "\n";
}
void cmGlobalNinjaGenerator::WriteVariable(std::ostream& os,
const std::string& name,
const std::string& value,
const std::string& comment,
int indent)
{
// Make sure we have a name.
if (name.empty()) {
cmSystemTools::Error("No name given for WriteVariable! called "
"with comment: ",
comment.c_str());
return;
}
// Do not add a variable if the value is empty.
std::string val = cmSystemTools::TrimWhitespace(value);
if (val.empty()) {
return;
}
cmGlobalNinjaGenerator::WriteComment(os, comment);
cmGlobalNinjaGenerator::Indent(os, indent);
os << name << " = " << val << "\n";
}
void cmGlobalNinjaGenerator::WriteInclude(std::ostream& os,
const std::string& filename,
const std::string& comment)
{
cmGlobalNinjaGenerator::WriteComment(os, comment);
os << "include " << filename << "\n";
}
void cmGlobalNinjaGenerator::WriteDefault(std::ostream& os,
const cmNinjaDeps& targets,
const std::string& comment)
{
cmGlobalNinjaGenerator::WriteComment(os, comment);
os << "default";
for (cmNinjaDeps::const_iterator i = targets.begin(); i != targets.end();
++i) {
os << " " << *i;
}
os << "\n";
}
cmGlobalNinjaGenerator::cmGlobalNinjaGenerator(cmake* cm)
: cmGlobalCommonGenerator(cm)
, BuildFileStream(CM_NULLPTR)
, RulesFileStream(CM_NULLPTR)
, CompileCommandsStream(CM_NULLPTR)
, Rules()
, AllDependencies()
, UsingGCCOnWindows(false)
, ComputingUnknownDependencies(false)
, PolicyCMP0058(cmPolicies::WARN)
, NinjaSupportsConsolePool(false)
, NinjaSupportsImplicitOuts(false)
, NinjaSupportsDyndeps(0)
{
#ifdef _WIN32
cm->GetState()->SetWindowsShell(true);
#endif
// // Ninja is not ported to non-Unix OS yet.
// this->ForceUnixPaths = true;
this->FindMakeProgramFile = "CMakeNinjaFindMake.cmake";
}
// Virtual public methods.
cmLocalGenerator* cmGlobalNinjaGenerator::CreateLocalGenerator(cmMakefile* mf)
{
return new cmLocalNinjaGenerator(this, mf);
}
void cmGlobalNinjaGenerator::GetDocumentation(cmDocumentationEntry& entry)
{
entry.Name = cmGlobalNinjaGenerator::GetActualName();
entry.Brief = "Generates build.ninja files.";
}
// Implemented in all cmGlobaleGenerator sub-classes.
// Used in:
// Source/cmLocalGenerator.cxx
// Source/cmake.cxx
void cmGlobalNinjaGenerator::Generate()
{
// Check minimum Ninja version.
if (cmSystemTools::VersionCompare(cmSystemTools::OP_LESS,
this->NinjaVersion.c_str(),
RequiredNinjaVersion().c_str())) {
std::ostringstream msg;
msg << "The detected version of Ninja (" << this->NinjaVersion;
msg << ") is less than the version of Ninja required by CMake (";
msg << this->RequiredNinjaVersion() << ").";
this->GetCMakeInstance()->IssueMessage(cmake::FATAL_ERROR, msg.str());
return;
}
this->OpenBuildFileStream();
this->OpenRulesFileStream();
this->TargetDependsClosures.clear();
this->InitOutputPathPrefix();
this->TargetAll = this->NinjaOutputPath("all");
this->CMakeCacheFile = this->NinjaOutputPath("CMakeCache.txt");
this->PolicyCMP0058 =
this->LocalGenerators[0]->GetMakefile()->GetPolicyStatus(
cmPolicies::CMP0058);
this->ComputingUnknownDependencies =
(this->PolicyCMP0058 == cmPolicies::OLD ||
this->PolicyCMP0058 == cmPolicies::WARN);
this->cmGlobalGenerator::Generate();
this->WriteAssumedSourceDependencies();
this->WriteTargetAliases(*this->BuildFileStream);
this->WriteFolderTargets(*this->BuildFileStream);
this->WriteUnknownExplicitDependencies(*this->BuildFileStream);
this->WriteBuiltinTargets(*this->BuildFileStream);
if (cmSystemTools::GetErrorOccuredFlag()) {
this->RulesFileStream->setstate(std::ios::failbit);
this->BuildFileStream->setstate(std::ios::failbit);
}
this->CloseCompileCommandsStream();
this->CloseRulesFileStream();
this->CloseBuildFileStream();
}
void cmGlobalNinjaGenerator::FindMakeProgram(cmMakefile* mf)
{
this->cmGlobalGenerator::FindMakeProgram(mf);
if (const char* ninjaCommand = mf->GetDefinition("CMAKE_MAKE_PROGRAM")) {
this->NinjaCommand = ninjaCommand;
std::vector<std::string> command;
command.push_back(this->NinjaCommand);
command.push_back("--version");
std::string version;
cmSystemTools::RunSingleCommand(command, &version, CM_NULLPTR, CM_NULLPTR,
CM_NULLPTR, cmSystemTools::OUTPUT_NONE);
this->NinjaVersion = cmSystemTools::TrimWhitespace(version);
this->CheckNinjaFeatures();
}
}
void cmGlobalNinjaGenerator::CheckNinjaFeatures()
{
this->NinjaSupportsConsolePool = !cmSystemTools::VersionCompare(
cmSystemTools::OP_LESS, this->NinjaVersion.c_str(),
RequiredNinjaVersionForConsolePool().c_str());
this->NinjaSupportsImplicitOuts = !cmSystemTools::VersionCompare(
cmSystemTools::OP_LESS, this->NinjaVersion.c_str(),
this->RequiredNinjaVersionForImplicitOuts().c_str());
{
// Our ninja branch adds ".dyndep-#" to its version number,
// where '#' is a feature-specific version number. Extract it.
static std::string const k_DYNDEP_ = ".dyndep-";
std::string::size_type pos = this->NinjaVersion.find(k_DYNDEP_);
if (pos != std::string::npos) {
const char* fv = this->NinjaVersion.c_str() + pos + k_DYNDEP_.size();
cmSystemTools::StringToULong(fv, &this->NinjaSupportsDyndeps);
}
}
}
bool cmGlobalNinjaGenerator::CheckLanguages(
std::vector<std::string> const& languages, cmMakefile* mf) const
{
if (std::find(languages.begin(), languages.end(), "Fortran") !=
languages.end()) {
return this->CheckFortran(mf);
}
return true;
}
bool cmGlobalNinjaGenerator::CheckFortran(cmMakefile* mf) const
{
if (this->NinjaSupportsDyndeps == 1) {
return true;
}
std::ostringstream e;
if (this->NinjaSupportsDyndeps == 0) {
/* clang-format off */
e <<
"The Ninja generator does not support Fortran using Ninja version\n"
" " + this->NinjaVersion + "\n"
"due to lack of required features. "
"Kitware has implemented the required features but as of this version "
"of CMake they have not been integrated to upstream ninja. "
"Pending integration, Kitware maintains a branch at:\n"
" https://github.com/Kitware/ninja/tree/features-for-fortran#readme\n"
"with the required features. "
"One may build ninja from that branch to get support for Fortran."
;
/* clang-format on */
} else {
/* clang-format off */
e <<
"The Ninja generator in this version of CMake does not support Fortran "
"using Ninja version\n"
" " + this->NinjaVersion + "\n"
"because its 'dyndep' feature version is " <<
this->NinjaSupportsDyndeps << ". "
"This version of CMake is aware only of 'dyndep' feature version 1."
;
/* clang-format on */
}
mf->IssueMessage(cmake::FATAL_ERROR, e.str());
cmSystemTools::SetFatalErrorOccured();
return false;
}
void cmGlobalNinjaGenerator::EnableLanguage(
std::vector<std::string> const& langs, cmMakefile* mf, bool optional)
{
this->cmGlobalGenerator::EnableLanguage(langs, mf, optional);
for (std::vector<std::string>::const_iterator l = langs.begin();
l != langs.end(); ++l) {
if (*l == "NONE") {
continue;
}
this->ResolveLanguageCompiler(*l, mf, optional);
}
#ifdef _WIN32
if (strcmp(mf->GetSafeDefinition("CMAKE_C_SIMULATE_ID"), "MSVC") != 0 &&
strcmp(mf->GetSafeDefinition("CMAKE_CXX_SIMULATE_ID"), "MSVC") != 0 &&
(mf->IsOn("CMAKE_COMPILER_IS_MINGW") ||
strcmp(mf->GetSafeDefinition("CMAKE_C_COMPILER_ID"), "GNU") == 0 ||
strcmp(mf->GetSafeDefinition("CMAKE_CXX_COMPILER_ID"), "GNU") == 0 ||
strcmp(mf->GetSafeDefinition("CMAKE_C_COMPILER_ID"), "Clang") == 0 ||
strcmp(mf->GetSafeDefinition("CMAKE_CXX_COMPILER_ID"), "Clang") == 0)) {
this->UsingGCCOnWindows = true;
}
#endif
}
// Implemented by:
// cmGlobalUnixMakefileGenerator3
// cmGlobalGhsMultiGenerator
// cmGlobalVisualStudio10Generator
// cmGlobalVisualStudio7Generator
// cmGlobalXCodeGenerator
// Called by:
// cmGlobalGenerator::Build()
void cmGlobalNinjaGenerator::GenerateBuildCommand(
std::vector<std::string>& makeCommand, const std::string& makeProgram,
const std::string& /*projectName*/, const std::string& /*projectDir*/,
const std::string& targetName, const std::string& /*config*/, bool /*fast*/,
bool verbose, std::vector<std::string> const& makeOptions)
{
makeCommand.push_back(this->SelectMakeProgram(makeProgram));
if (verbose) {
makeCommand.push_back("-v");
}
makeCommand.insert(makeCommand.end(), makeOptions.begin(),
makeOptions.end());
if (!targetName.empty()) {
if (targetName == "clean") {
makeCommand.push_back("-t");
makeCommand.push_back("clean");
} else {
makeCommand.push_back(targetName);
}
}
}
// Non-virtual public methods.
void cmGlobalNinjaGenerator::AddRule(
const std::string& name, const std::string& command,
const std::string& description, const std::string& comment,
const std::string& depfile, const std::string& deptype,
const std::string& rspfile, const std::string& rspcontent,
const std::string& restat, bool generator)
{
// Do not add the same rule twice.
if (this->HasRule(name)) {
return;
}
this->Rules.insert(name);
cmGlobalNinjaGenerator::WriteRule(*this->RulesFileStream, name, command,
description, comment, depfile, deptype,
rspfile, rspcontent, restat, generator);
this->RuleCmdLength[name] = (int)command.size();
}
bool cmGlobalNinjaGenerator::HasRule(const std::string& name)
{
RulesSetType::const_iterator rule = this->Rules.find(name);
return (rule != this->Rules.end());
}
// Private virtual overrides
std::string cmGlobalNinjaGenerator::GetEditCacheCommand() const
{
// Ninja by design does not run interactive tools in the terminal,
// so our only choice is cmake-gui.
return cmSystemTools::GetCMakeGUICommand();
}
void cmGlobalNinjaGenerator::ComputeTargetObjectDirectory(
cmGeneratorTarget* gt) const
{
// Compute full path to object file directory for this target.
std::string dir;
dir += gt->LocalGenerator->GetCurrentBinaryDirectory();
dir += "/";
dir += gt->LocalGenerator->GetTargetDirectory(gt);
dir += "/";
gt->ObjectDirectory = dir;
}
// Private methods
void cmGlobalNinjaGenerator::OpenBuildFileStream()
{
// Compute Ninja's build file path.
std::string buildFilePath =
this->GetCMakeInstance()->GetHomeOutputDirectory();
buildFilePath += "/";
buildFilePath += cmGlobalNinjaGenerator::NINJA_BUILD_FILE;
// Get a stream where to generate things.
if (!this->BuildFileStream) {
this->BuildFileStream = new cmGeneratedFileStream(buildFilePath.c_str());
if (!this->BuildFileStream) {
// An error message is generated by the constructor if it cannot
// open the file.
return;
}
}
// Write the do not edit header.
this->WriteDisclaimer(*this->BuildFileStream);
// Write a comment about this file.
*this->BuildFileStream
<< "# This file contains all the build statements describing the\n"
<< "# compilation DAG.\n\n";
}
void cmGlobalNinjaGenerator::CloseBuildFileStream()
{
if (this->BuildFileStream) {
delete this->BuildFileStream;
this->BuildFileStream = CM_NULLPTR;
} else {
cmSystemTools::Error("Build file stream was not open.");
}
}
void cmGlobalNinjaGenerator::OpenRulesFileStream()
{
// Compute Ninja's build file path.
std::string rulesFilePath =
this->GetCMakeInstance()->GetHomeOutputDirectory();
rulesFilePath += "/";
rulesFilePath += cmGlobalNinjaGenerator::NINJA_RULES_FILE;
// Get a stream where to generate things.
if (!this->RulesFileStream) {
this->RulesFileStream = new cmGeneratedFileStream(rulesFilePath.c_str());
if (!this->RulesFileStream) {
// An error message is generated by the constructor if it cannot
// open the file.
return;
}
}
// Write the do not edit header.
this->WriteDisclaimer(*this->RulesFileStream);
// Write comment about this file.
/* clang-format off */
*this->RulesFileStream
<< "# This file contains all the rules used to get the outputs files\n"
<< "# built from the input files.\n"
<< "# It is included in the main '" << NINJA_BUILD_FILE << "'.\n\n"
;
/* clang-format on */
}
void cmGlobalNinjaGenerator::CloseRulesFileStream()
{
if (this->RulesFileStream) {
delete this->RulesFileStream;
this->RulesFileStream = CM_NULLPTR;
} else {
cmSystemTools::Error("Rules file stream was not open.");
}
}
static void EnsureTrailingSlash(std::string& path)
{
if (path.empty()) {
return;
}
std::string::value_type last = path[path.size() - 1];
#ifdef _WIN32
if (last != '\\') {
path += '\\';
}
#else
if (last != '/') {
path += '/';
}
#endif
}
std::string cmGlobalNinjaGenerator::ConvertToNinjaPath(const std::string& path)
{
cmLocalNinjaGenerator* ng =
static_cast<cmLocalNinjaGenerator*>(this->LocalGenerators[0]);
std::string convPath = ng->ConvertToRelativePath(
this->LocalGenerators[0]->GetState()->GetBinaryDirectory(), path);
convPath = this->NinjaOutputPath(convPath);
#ifdef _WIN32
std::replace(convPath.begin(), convPath.end(), '/', '\\');
#endif
return convPath;
}
std::string cmGlobalNinjaGenerator::ConvertToNinjaFolderRule(
const std::string& path)
{
cmLocalNinjaGenerator* ng =
static_cast<cmLocalNinjaGenerator*>(this->LocalGenerators[0]);
std::string convPath = ng->ConvertToRelativePath(
this->LocalGenerators[0]->GetState()->GetSourceDirectory(), path + "/all");
convPath = this->NinjaOutputPath(convPath);
#ifdef _WIN32
std::replace(convPath.begin(), convPath.end(), '/', '\\');
#endif
return convPath;
}
void cmGlobalNinjaGenerator::AddCXXCompileCommand(
const std::string& commandLine, const std::string& sourceFile)
{
// Compute Ninja's build file path.
std::string buildFileDir =
this->GetCMakeInstance()->GetHomeOutputDirectory();
if (!this->CompileCommandsStream) {
std::string buildFilePath = buildFileDir + "/compile_commands.json";
// Get a stream where to generate things.
this->CompileCommandsStream =
new cmGeneratedFileStream(buildFilePath.c_str());
*this->CompileCommandsStream << "[";
} else {
*this->CompileCommandsStream << "," << std::endl;
}
std::string sourceFileName = sourceFile;
if (!cmSystemTools::FileIsFullPath(sourceFileName.c_str())) {
sourceFileName = cmSystemTools::CollapseFullPath(
sourceFileName, this->GetCMakeInstance()->GetHomeOutputDirectory());
}
/* clang-format off */
*this->CompileCommandsStream << "\n{\n"
<< " \"directory\": \""
<< cmGlobalGenerator::EscapeJSON(buildFileDir) << "\",\n"
<< " \"command\": \""
<< cmGlobalGenerator::EscapeJSON(commandLine) << "\",\n"
<< " \"file\": \""
<< cmGlobalGenerator::EscapeJSON(sourceFileName) << "\"\n"
<< "}";
/* clang-format on */
}
void cmGlobalNinjaGenerator::CloseCompileCommandsStream()
{
if (this->CompileCommandsStream) {
*this->CompileCommandsStream << "\n]";
delete this->CompileCommandsStream;
this->CompileCommandsStream = CM_NULLPTR;
}
}
void cmGlobalNinjaGenerator::WriteDisclaimer(std::ostream& os)
{
os << "# CMAKE generated file: DO NOT EDIT!\n"
<< "# Generated by \"" << this->GetName() << "\""
<< " Generator, CMake Version " << cmVersion::GetMajorVersion() << "."
<< cmVersion::GetMinorVersion() << "\n\n";
}
void cmGlobalNinjaGenerator::AddDependencyToAll(cmGeneratorTarget* target)
{
this->AppendTargetOutputs(target, this->AllDependencies);
}
void cmGlobalNinjaGenerator::AddDependencyToAll(const std::string& input)
{
this->AllDependencies.push_back(input);
}
void cmGlobalNinjaGenerator::WriteAssumedSourceDependencies()
{
for (std::map<std::string, std::set<std::string> >::iterator i =
this->AssumedSourceDependencies.begin();
i != this->AssumedSourceDependencies.end(); ++i) {
cmNinjaDeps deps;
std::copy(i->second.begin(), i->second.end(), std::back_inserter(deps));
WriteCustomCommandBuild(/*command=*/"", /*description=*/"",
"Assume dependencies for generated source file.",
/*depfile*/ "", /*uses_terminal*/ false,
/*restat*/ true, cmNinjaDeps(1, i->first), deps);
}
}
void cmGlobalNinjaGenerator::AppendTargetOutputs(
cmGeneratorTarget const* target, cmNinjaDeps& outputs)
{
std::string configName =
target->Target->GetMakefile()->GetSafeDefinition("CMAKE_BUILD_TYPE");
// for frameworks, we want the real name, not smple name
// frameworks always appear versioned, and the build.ninja
// will always attempt to manage symbolic links instead
// of letting cmOSXBundleGenerator do it.
bool realname = target->IsFrameworkOnApple();
switch (target->GetType()) {
case cmState::EXECUTABLE:
case cmState::SHARED_LIBRARY:
case cmState::STATIC_LIBRARY:
case cmState::MODULE_LIBRARY: {
outputs.push_back(this->ConvertToNinjaPath(
target->GetFullPath(configName, false, realname)));
break;
}
case cmState::OBJECT_LIBRARY:
case cmState::GLOBAL_TARGET:
case cmState::UTILITY: {
std::string path =
target->GetLocalGenerator()->GetCurrentBinaryDirectory() +
std::string("/") + target->GetName();
outputs.push_back(this->ConvertToNinjaPath(path));
break;
}
default:
return;
}
}
void cmGlobalNinjaGenerator::AppendTargetDepends(
cmGeneratorTarget const* target, cmNinjaDeps& outputs)
{
if (target->GetType() == cmState::GLOBAL_TARGET) {
// These depend only on other CMake-provided targets, e.g. "all".
std::set<std::string> const& utils = target->GetUtilities();
for (std::set<std::string>::const_iterator i = utils.begin();
i != utils.end(); ++i) {
std::string d =
target->GetLocalGenerator()->GetCurrentBinaryDirectory() +
std::string("/") + *i;
outputs.push_back(this->ConvertToNinjaPath(d));
}
} else {
cmNinjaDeps outs;
cmTargetDependSet const& targetDeps = this->GetTargetDirectDepends(target);
for (cmTargetDependSet::const_iterator i = targetDeps.begin();
i != targetDeps.end(); ++i) {
if ((*i)->GetType() == cmState::INTERFACE_LIBRARY) {
continue;
}
this->AppendTargetOutputs(*i, outs);
}
std::sort(outs.begin(), outs.end());
outputs.insert(outputs.end(), outs.begin(), outs.end());
}
}
void cmGlobalNinjaGenerator::AppendTargetDependsClosure(
cmGeneratorTarget const* target, cmNinjaDeps& outputs)
{
TargetDependsClosureMap::iterator i =
this->TargetDependsClosures.find(target);
if (i == this->TargetDependsClosures.end()) {
TargetDependsClosureMap::value_type e(
target, std::set<cmGeneratorTarget const*>());
i = this->TargetDependsClosures.insert(e).first;
this->ComputeTargetDependsClosure(target, i->second);
}
std::set<cmGeneratorTarget const*> const& targets = i->second;
cmNinjaDeps outs;
for (std::set<cmGeneratorTarget const*>::const_iterator ti = targets.begin();
ti != targets.end(); ++ti) {
this->AppendTargetOutputs(*ti, outs);
}
std::sort(outs.begin(), outs.end());
outputs.insert(outputs.end(), outs.begin(), outs.end());
}
void cmGlobalNinjaGenerator::ComputeTargetDependsClosure(
cmGeneratorTarget const* target, std::set<cmGeneratorTarget const*>& depends)
{
cmTargetDependSet const& targetDeps = this->GetTargetDirectDepends(target);
for (cmTargetDependSet::const_iterator i = targetDeps.begin();
i != targetDeps.end(); ++i) {
if ((*i)->GetType() == cmState::INTERFACE_LIBRARY) {
continue;
}
if (depends.insert(*i).second) {
this->ComputeTargetDependsClosure(*i, depends);
}
}
}
void cmGlobalNinjaGenerator::AddTargetAlias(const std::string& alias,
cmGeneratorTarget* target)
{
std::string buildAlias = this->NinjaOutputPath(alias);
cmNinjaDeps outputs;
this->AppendTargetOutputs(target, outputs);
// Mark the target's outputs as ambiguous to ensure that no other target uses
// the output as an alias.
for (cmNinjaDeps::iterator i = outputs.begin(); i != outputs.end(); ++i) {
TargetAliases[*i] = CM_NULLPTR;
}
// Insert the alias into the map. If the alias was already present in the
// map and referred to another target, mark it as ambiguous.
std::pair<TargetAliasMap::iterator, bool> newAlias =
TargetAliases.insert(std::make_pair(buildAlias, target));
if (newAlias.second && newAlias.first->second != target) {
newAlias.first->second = CM_NULLPTR;
}
}
void cmGlobalNinjaGenerator::WriteTargetAliases(std::ostream& os)
{
cmGlobalNinjaGenerator::WriteDivider(os);
os << "# Target aliases.\n\n";
for (TargetAliasMap::const_iterator i = TargetAliases.begin();
i != TargetAliases.end(); ++i) {
// Don't write ambiguous aliases.
if (!i->second) {
continue;
}
cmNinjaDeps deps;
this->AppendTargetOutputs(i->second, deps);
this->WritePhonyBuild(os, "", cmNinjaDeps(1, i->first), deps);
}
}
void cmGlobalNinjaGenerator::WriteFolderTargets(std::ostream& os)
{
cmGlobalNinjaGenerator::WriteDivider(os);
os << "# Folder targets.\n\n";
std::map<std::string, cmNinjaDeps> targetsPerFolder;
for (std::vector<cmLocalGenerator*>::const_iterator lgi =
this->LocalGenerators.begin();
lgi != this->LocalGenerators.end(); ++lgi) {
cmLocalGenerator const* lg = *lgi;
const std::string currentSourceFolder(
lg->GetStateSnapshot().GetDirectory().GetCurrentSource());
// The directory-level rule should depend on the target-level rules
// for all targets in the directory.
targetsPerFolder[currentSourceFolder] = cmNinjaDeps();
for (std::vector<cmGeneratorTarget*>::const_iterator ti =
lg->GetGeneratorTargets().begin();
ti != lg->GetGeneratorTargets().end(); ++ti) {
cmGeneratorTarget const* gt = *ti;
cmState::TargetType const type = gt->GetType();
if ((type == cmState::EXECUTABLE || type == cmState::STATIC_LIBRARY ||
type == cmState::SHARED_LIBRARY ||
type == cmState::MODULE_LIBRARY ||
type == cmState::OBJECT_LIBRARY || type == cmState::UTILITY) &&
!gt->GetPropertyAsBool("EXCLUDE_FROM_ALL")) {
targetsPerFolder[currentSourceFolder].push_back(gt->GetName());
}
}
// The directory-level rule should depend on the directory-level
// rules of the subdirectories.
std::vector<cmState::Snapshot> const& children =
lg->GetStateSnapshot().GetChildren();
for (std::vector<cmState::Snapshot>::const_iterator stateIt =
children.begin();
stateIt != children.end(); ++stateIt) {
targetsPerFolder[currentSourceFolder].push_back(
this->ConvertToNinjaFolderRule(
stateIt->GetDirectory().GetCurrentSource()));
}
}
std::string const rootSourceDir =
this->LocalGenerators[0]->GetSourceDirectory();
for (std::map<std::string, cmNinjaDeps>::const_iterator it =
targetsPerFolder.begin();
it != targetsPerFolder.end(); ++it) {
cmGlobalNinjaGenerator::WriteDivider(os);
std::string const& currentSourceDir = it->first;
// Do not generate a rule for the root source dir.
if (rootSourceDir.length() >= currentSourceDir.length()) {
continue;
}
std::string const comment = "Folder: " + currentSourceDir;
cmNinjaDeps output(1);
output.push_back(this->ConvertToNinjaFolderRule(currentSourceDir));
this->WritePhonyBuild(os, comment, output, it->second);
}
}
void cmGlobalNinjaGenerator::WriteUnknownExplicitDependencies(std::ostream& os)
{
if (!this->ComputingUnknownDependencies) {
return;
}
// We need to collect the set of known build outputs.
// Start with those generated by WriteBuild calls.
// No other method needs this so we can take ownership
// of the set locally and throw it out when we are done.
std::set<std::string> knownDependencies;
knownDependencies.swap(this->CombinedBuildOutputs);
// now write out the unknown explicit dependencies.
// union the configured files, evaluations files and the
// CombinedBuildOutputs,
// and then difference with CombinedExplicitDependencies to find the explicit
// dependencies that we have no rule for
cmGlobalNinjaGenerator::WriteDivider(os);
/* clang-format off */
os << "# Unknown Build Time Dependencies.\n"
<< "# Tell Ninja that they may appear as side effects of build rules\n"
<< "# otherwise ordered by order-only dependencies.\n\n";
/* clang-format on */
// get the list of files that cmake itself has generated as a
// product of configuration.
for (std::vector<cmLocalGenerator*>::const_iterator i =
this->LocalGenerators.begin();
i != this->LocalGenerators.end(); ++i) {
// get the vector of files created by this makefile and convert them
// to ninja paths, which are all relative in respect to the build directory
const std::vector<std::string>& files =
(*i)->GetMakefile()->GetOutputFiles();
typedef std::vector<std::string>::const_iterator vect_it;
for (vect_it j = files.begin(); j != files.end(); ++j) {
knownDependencies.insert(this->ConvertToNinjaPath(*j));
}
// get list files which are implicit dependencies as well and will be phony
// for rebuild manifest
std::vector<std::string> const& lf = (*i)->GetMakefile()->GetListFiles();
typedef std::vector<std::string>::const_iterator vect_it;
for (vect_it j = lf.begin(); j != lf.end(); ++j) {
knownDependencies.insert(this->ConvertToNinjaPath(*j));
}
std::vector<cmGeneratorExpressionEvaluationFile*> const& ef =
(*i)->GetMakefile()->GetEvaluationFiles();
for (std::vector<cmGeneratorExpressionEvaluationFile*>::const_iterator li =
ef.begin();
li != ef.end(); ++li) {
// get all the files created by generator expressions and convert them
// to ninja paths
std::vector<std::string> evaluationFiles = (*li)->GetFiles();
for (vect_it j = evaluationFiles.begin(); j != evaluationFiles.end();
++j) {
knownDependencies.insert(this->ConvertToNinjaPath(*j));
}
}
}
knownDependencies.insert(this->CMakeCacheFile);
for (TargetAliasMap::const_iterator i = this->TargetAliases.begin();
i != this->TargetAliases.end(); ++i) {
knownDependencies.insert(this->ConvertToNinjaPath(i->first));
}
// remove all source files we know will exist.
typedef std::map<std::string, std::set<std::string> >::const_iterator map_it;
for (map_it i = this->AssumedSourceDependencies.begin();
i != this->AssumedSourceDependencies.end(); ++i) {
knownDependencies.insert(this->ConvertToNinjaPath(i->first));
}
// now we difference with CombinedCustomCommandExplicitDependencies to find
// the list of items we know nothing about.
// We have encoded all the paths in CombinedCustomCommandExplicitDependencies
// and knownDependencies so no matter if unix or windows paths they
// should all match now.
std::vector<std::string> unknownExplicitDepends;
this->CombinedCustomCommandExplicitDependencies.erase(this->TargetAll);
std::set_difference(this->CombinedCustomCommandExplicitDependencies.begin(),
this->CombinedCustomCommandExplicitDependencies.end(),
knownDependencies.begin(), knownDependencies.end(),
std::back_inserter(unknownExplicitDepends));
std::string const rootBuildDirectory =
this->GetCMakeInstance()->GetHomeOutputDirectory();
bool const inSourceBuild =
(rootBuildDirectory == this->GetCMakeInstance()->GetHomeDirectory());
std::vector<std::string> warnExplicitDepends;
for (std::vector<std::string>::const_iterator i =
unknownExplicitDepends.begin();
i != unknownExplicitDepends.end(); ++i) {
// verify the file is in the build directory
std::string const absDepPath =
cmSystemTools::CollapseFullPath(*i, rootBuildDirectory.c_str());
bool const inBuildDir =
cmSystemTools::IsSubDirectory(absDepPath, rootBuildDirectory);
if (inBuildDir) {
cmNinjaDeps deps(1, *i);
this->WritePhonyBuild(os, "", deps, cmNinjaDeps());
if (this->PolicyCMP0058 == cmPolicies::WARN && !inSourceBuild &&
warnExplicitDepends.size() < 10) {
warnExplicitDepends.push_back(*i);
}
}
}
if (!warnExplicitDepends.empty()) {
std::ostringstream w;
/* clang-format off */
w << cmPolicies::GetPolicyWarning(cmPolicies::CMP0058) << "\n"
"This project specifies custom command DEPENDS on files "
"in the build tree that are not specified as the OUTPUT or "
"BYPRODUCTS of any add_custom_command or add_custom_target:\n"
" " << cmJoin(warnExplicitDepends, "\n ") <<
"\n"
"For compatibility with versions of CMake that did not have "
"the BYPRODUCTS option, CMake is generating phony rules for "
"such files to convince 'ninja' to build."
"\n"
"Project authors should add the missing BYPRODUCTS or OUTPUT "
"options to the custom commands that produce these files."
;
/* clang-format on */
this->GetCMakeInstance()->IssueMessage(cmake::AUTHOR_WARNING, w.str());
}
}
void cmGlobalNinjaGenerator::WriteBuiltinTargets(std::ostream& os)
{
// Write headers.
cmGlobalNinjaGenerator::WriteDivider(os);
os << "# Built-in targets\n\n";
this->WriteTargetAll(os);
this->WriteTargetRebuildManifest(os);
this->WriteTargetClean(os);
this->WriteTargetHelp(os);
}
void cmGlobalNinjaGenerator::WriteTargetAll(std::ostream& os)
{
cmNinjaDeps outputs;
outputs.push_back(this->TargetAll);
this->WritePhonyBuild(os, "The main all target.", outputs,
this->AllDependencies);
if (!this->HasOutputPathPrefix()) {
cmGlobalNinjaGenerator::WriteDefault(os, outputs,
"Make the all target the default.");
}
}
void cmGlobalNinjaGenerator::WriteTargetRebuildManifest(std::ostream& os)
{
cmLocalGenerator* lg = this->LocalGenerators[0];
std::ostringstream cmd;
cmd << lg->ConvertToOutputFormat(cmSystemTools::GetCMakeCommand(),
cmOutputConverter::SHELL)
<< " -H"
<< lg->ConvertToOutputFormat(lg->GetSourceDirectory(),
cmOutputConverter::SHELL)
<< " -B"
<< lg->ConvertToOutputFormat(lg->GetBinaryDirectory(),
cmOutputConverter::SHELL);
WriteRule(*this->RulesFileStream, "RERUN_CMAKE", cmd.str(),
"Re-running CMake...", "Rule for re-running cmake.",
/*depfile=*/"",
/*deptype=*/"",
/*rspfile=*/"",
/*rspcontent*/ "",
/*restat=*/"",
/*generator=*/true);
cmNinjaDeps implicitDeps;
for (std::vector<cmLocalGenerator*>::const_iterator i =
this->LocalGenerators.begin();
i != this->LocalGenerators.end(); ++i) {
std::vector<std::string> const& lf = (*i)->GetMakefile()->GetListFiles();
for (std::vector<std::string>::const_iterator fi = lf.begin();
fi != lf.end(); ++fi) {
implicitDeps.push_back(this->ConvertToNinjaPath(*fi));
}
}
implicitDeps.push_back(this->CMakeCacheFile);
std::sort(implicitDeps.begin(), implicitDeps.end());
implicitDeps.erase(std::unique(implicitDeps.begin(), implicitDeps.end()),
implicitDeps.end());
cmNinjaVars variables;
// Use 'console' pool to get non buffered output of the CMake re-run call
// Available since Ninja 1.5
if (SupportsConsolePool()) {
variables["pool"] = "console";
}
std::string const ninjaBuildFile = this->NinjaOutputPath(NINJA_BUILD_FILE);
this->WriteBuild(os, "Re-run CMake if any of its inputs changed.",
"RERUN_CMAKE",
/*outputs=*/cmNinjaDeps(1, ninjaBuildFile),
/*implicitOuts=*/cmNinjaDeps(),
/*explicitDeps=*/cmNinjaDeps(), implicitDeps,
/*orderOnlyDeps=*/cmNinjaDeps(), variables);
this->WritePhonyBuild(os, "A missing CMake input file is not an error.",
implicitDeps, cmNinjaDeps());
}
std::string cmGlobalNinjaGenerator::ninjaCmd() const
{
cmLocalGenerator* lgen = this->LocalGenerators[0];
if (lgen) {
return lgen->ConvertToOutputFormat(this->NinjaCommand,
cmOutputConverter::SHELL);
}
return "ninja";
}
bool cmGlobalNinjaGenerator::SupportsConsolePool() const
{
return this->NinjaSupportsConsolePool;
}
bool cmGlobalNinjaGenerator::SupportsImplicitOuts() const
{
return this->NinjaSupportsImplicitOuts;
}
void cmGlobalNinjaGenerator::WriteTargetClean(std::ostream& os)
{
WriteRule(*this->RulesFileStream, "CLEAN", ninjaCmd() + " -t clean",
"Cleaning all built files...",
"Rule for cleaning all built files.",
/*depfile=*/"",
/*deptype=*/"",
/*rspfile=*/"",
/*rspcontent*/ "",
/*restat=*/"",
/*generator=*/false);
WriteBuild(os, "Clean all the built files.", "CLEAN",
/*outputs=*/cmNinjaDeps(1, this->NinjaOutputPath("clean")),
/*implicitOuts=*/cmNinjaDeps(),
/*explicitDeps=*/cmNinjaDeps(),
/*implicitDeps=*/cmNinjaDeps(),
/*orderOnlyDeps=*/cmNinjaDeps(),
/*variables=*/cmNinjaVars());
}
void cmGlobalNinjaGenerator::WriteTargetHelp(std::ostream& os)
{
WriteRule(*this->RulesFileStream, "HELP", ninjaCmd() + " -t targets",
"All primary targets available:",
"Rule for printing all primary targets available.",
/*depfile=*/"",
/*deptype=*/"",
/*rspfile=*/"",
/*rspcontent*/ "",
/*restat=*/"",
/*generator=*/false);
WriteBuild(os, "Print all primary targets available.", "HELP",
/*outputs=*/cmNinjaDeps(1, this->NinjaOutputPath("help")),
/*implicitOuts=*/cmNinjaDeps(),
/*explicitDeps=*/cmNinjaDeps(),
/*implicitDeps=*/cmNinjaDeps(),
/*orderOnlyDeps=*/cmNinjaDeps(),
/*variables=*/cmNinjaVars());
}
void cmGlobalNinjaGenerator::InitOutputPathPrefix()
{
this->OutputPathPrefix =
this->LocalGenerators[0]->GetMakefile()->GetSafeDefinition(
"CMAKE_NINJA_OUTPUT_PATH_PREFIX");
EnsureTrailingSlash(this->OutputPathPrefix);
}
std::string cmGlobalNinjaGenerator::NinjaOutputPath(std::string const& path)
{
if (!this->HasOutputPathPrefix() || cmSystemTools::FileIsFullPath(path)) {
return path;
}
return this->OutputPathPrefix + path;
}
void cmGlobalNinjaGenerator::StripNinjaOutputPathPrefixAsSuffix(
std::string& path)
{
if (path.empty()) {
return;
}
EnsureTrailingSlash(path);
cmStripSuffixIfExists(path, this->OutputPathPrefix);
}
/*
We use the following approach to support Fortran. Each target already
has a <target>.dir/ directory used to hold intermediate files for CMake.
For each target, a FortranDependInfo.json file is generated by CMake with
information about include directories, module directories, and the locations
the per-target directories for target dependencies.
Compilation of source files within a target is split into the following steps:
1. Preprocess all sources, scan preprocessed output for module dependencies.
This step is done with independent build statements for each source,
and can therefore be done in parallel.
rule Fortran_PREPROCESS
depfile = $DEP_FILE
command = gfortran -cpp $DEFINES $INCLUDES $FLAGS -E $in -o $out &&
cmake -E cmake_ninja_depends \
--tdi=FortranDependInfo.json --pp=$out --dep=$DEP_FILE \
--obj=$OBJ_FILE --ddi=$DYNDEP_INTERMEDIATE_FILE
build src.f90-pp.f90 | src.f90-pp.f90.ddi: Fortran_PREPROCESS src.f90
OBJ_FILE = src.f90.o
DEP_FILE = src.f90-pp.f90.d
DYNDEP_INTERMEDIATE_FILE = src.f90-pp.f90.ddi
The ``cmake -E cmake_ninja_depends`` tool reads the preprocessed output
and generates the ninja depfile for preprocessor dependencies. It also
generates a "ddi" file (in a format private to CMake) that lists the
object file that compilation will produce along with the module names
it provides and/or requires. The "ddi" file is an implicit output
because it should not appear in "$out" but is generated by the rule.
2. Consolidate the per-source module dependencies saved in the "ddi"
files from all sources to produce a ninja "dyndep" file, ``Fortran.dd``.
rule Fortran_DYNDEP
command = cmake -E cmake_ninja_dyndep \
--tdi=FortranDependInfo.json --dd=$out $in
build Fortran.dd: Fortran_DYNDEP src1.f90-pp.f90.ddi src2.f90-pp.f90.ddi
The ``cmake -E cmake_ninja_dyndep`` tool reads the "ddi" files from all
sources in the target and the ``FortranModules.json`` files from targets
on which the target depends. It computes dependency edges on compilations
that require modules to those that provide the modules. This information
is placed in the ``Fortran.dd`` file for ninja to load later. It also
writes the expected location of modules provided by this target into
``FortranModules.json`` for use by dependent targets.
3. Compile all sources after loading dynamically discovered dependencies
of the compilation build statements from their ``dyndep`` bindings.
rule Fortran_COMPILE
command = gfortran $INCLUDES $FLAGS -c $in -o $out
build src1.f90.o: Fortran_COMPILE src1.f90-pp.f90 || Fortran.dd
dyndep = Fortran.dd
The "dyndep" binding tells ninja to load dynamically discovered
dependency information from ``Fortran.dd``. This adds information
such as:
build src1.f90.o | mod1.mod: dyndep
restat = 1
This tells ninja that ``mod1.mod`` is an implicit output of compiling
the object file ``src1.f90.o``. The ``restat`` binding tells it that
the timestamp of the output may not always change. Additionally:
build src2.f90.o: dyndep | mod1.mod
This tells ninja that ``mod1.mod`` is a dependency of compiling the
object file ``src2.f90.o``. This ensures that ``src1.f90.o`` and
``mod1.mod`` will always be up to date before ``src2.f90.o`` is built
(because the latter consumes the module).
*/
int cmcmd_cmake_ninja_depends(std::vector<std::string>::const_iterator argBeg,
std::vector<std::string>::const_iterator argEnd)
{
std::string arg_tdi;
std::string arg_pp;
std::string arg_dep;
std::string arg_obj;
std::string arg_ddi;
for (std::vector<std::string>::const_iterator a = argBeg; a != argEnd; ++a) {
std::string const& arg = *a;
if (cmHasLiteralPrefix(arg, "--tdi=")) {
arg_tdi = arg.substr(6);
} else if (cmHasLiteralPrefix(arg, "--pp=")) {
arg_pp = arg.substr(5);
} else if (cmHasLiteralPrefix(arg, "--dep=")) {
arg_dep = arg.substr(6);
} else if (cmHasLiteralPrefix(arg, "--obj=")) {
arg_obj = arg.substr(6);
} else if (cmHasLiteralPrefix(arg, "--ddi=")) {
arg_ddi = arg.substr(6);
} else {
cmSystemTools::Error("-E cmake_ninja_depends unknown argument: ",
arg.c_str());
return 1;
}
}
if (arg_tdi.empty()) {
cmSystemTools::Error("-E cmake_ninja_depends requires value for --tdi=");
return 1;
}
if (arg_pp.empty()) {
cmSystemTools::Error("-E cmake_ninja_depends requires value for --pp=");
return 1;
}
if (arg_dep.empty()) {
cmSystemTools::Error("-E cmake_ninja_depends requires value for --dep=");
return 1;
}
if (arg_obj.empty()) {
cmSystemTools::Error("-E cmake_ninja_depends requires value for --obj=");
return 1;
}
if (arg_ddi.empty()) {
cmSystemTools::Error("-E cmake_ninja_depends requires value for --ddi=");
return 1;
}
std::vector<std::string> includes;
{
Json::Value tdio;
Json::Value const& tdi = tdio;
{
cmsys::ifstream tdif(arg_tdi.c_str(), std::ios::in | std::ios::binary);
Json::Reader reader;
if (!reader.parse(tdif, tdio, false)) {
cmSystemTools::Error("-E cmake_ninja_depends failed to parse ",
arg_tdi.c_str(),
reader.getFormattedErrorMessages().c_str());
return 1;
}
}
Json::Value const& tdi_include_dirs = tdi["include-dirs"];
if (tdi_include_dirs.isArray()) {
for (Json::Value::const_iterator i = tdi_include_dirs.begin();
i != tdi_include_dirs.end(); ++i) {
includes.push_back(i->asString());
}
}
}
cmFortranSourceInfo info;
std::set<std::string> defines;
cmFortranParser parser(includes, defines, info);
if (!cmFortranParser_FilePush(&parser, arg_pp.c_str())) {
cmSystemTools::Error("-E cmake_ninja_depends failed to open ",
arg_pp.c_str());
return 1;
}
if (cmFortran_yyparse(parser.Scanner) != 0) {
// Failed to parse the file.
return 1;
}
{
cmGeneratedFileStream depfile(arg_dep.c_str());
depfile << cmSystemTools::ConvertToUnixOutputPath(arg_pp) << ":";
for (std::set<std::string>::iterator i = info.Includes.begin();
i != info.Includes.end(); ++i) {
depfile << " \\\n " << cmSystemTools::ConvertToUnixOutputPath(*i);
}
depfile << "\n";
}
Json::Value ddi(Json::objectValue);
ddi["object"] = arg_obj;
Json::Value& ddi_provides = ddi["provides"] = Json::arrayValue;
for (std::set<std::string>::iterator i = info.Provides.begin();
i != info.Provides.end(); ++i) {
ddi_provides.append(*i);
}
Json::Value& ddi_requires = ddi["requires"] = Json::arrayValue;
for (std::set<std::string>::iterator i = info.Requires.begin();
i != info.Requires.end(); ++i) {
// Require modules not provided in the same source.
if (!info.Provides.count(*i)) {
ddi_requires.append(*i);
}
}
cmGeneratedFileStream ddif(arg_ddi.c_str());
ddif << ddi;
if (!ddif) {
cmSystemTools::Error("-E cmake_ninja_depends failed to write ",
arg_ddi.c_str());
return 1;
}
return 0;
}
struct cmFortranObjectInfo
{
std::string Object;
std::vector<std::string> Provides;
std::vector<std::string> Requires;
};
bool cmGlobalNinjaGenerator::WriteDyndepFile(
std::string const& dir_top_src, std::string const& dir_top_bld,
std::string const& dir_cur_src, std::string const& dir_cur_bld,
std::string const& arg_dd, std::vector<std::string> const& arg_ddis,
std::string const& module_dir,
std::vector<std::string> const& linked_target_dirs)
{
// Setup path conversions.
{
cmState::Snapshot snapshot =
this->GetCMakeInstance()->GetCurrentSnapshot();
snapshot.GetDirectory().SetCurrentSource(dir_cur_src);
snapshot.GetDirectory().SetCurrentBinary(dir_cur_bld);
snapshot.GetDirectory().SetRelativePathTopSource(dir_top_src.c_str());
snapshot.GetDirectory().SetRelativePathTopBinary(dir_top_bld.c_str());
CM_AUTO_PTR<cmMakefile> mfd(new cmMakefile(this, snapshot));
CM_AUTO_PTR<cmLocalNinjaGenerator> lgd(static_cast<cmLocalNinjaGenerator*>(
this->CreateLocalGenerator(mfd.get())));
this->Makefiles.push_back(mfd.release());
this->LocalGenerators.push_back(lgd.release());
}
std::vector<cmFortranObjectInfo> objects;
for (std::vector<std::string>::const_iterator ddii = arg_ddis.begin();
ddii != arg_ddis.end(); ++ddii) {
// Load the ddi file and compute the module file paths it provides.
Json::Value ddio;
Json::Value const& ddi = ddio;
cmsys::ifstream ddif(ddii->c_str(), std::ios::in | std::ios::binary);
Json::Reader reader;
if (!reader.parse(ddif, ddio, false)) {
cmSystemTools::Error("-E cmake_ninja_dyndep failed to parse ",
ddii->c_str(),
reader.getFormattedErrorMessages().c_str());
return false;
}
cmFortranObjectInfo info;
info.Object = ddi["object"].asString();
Json::Value const& ddi_provides = ddi["provides"];
if (ddi_provides.isArray()) {
for (Json::Value::const_iterator i = ddi_provides.begin();
i != ddi_provides.end(); ++i) {
info.Provides.push_back(i->asString());
}
}
Json::Value const& ddi_requires = ddi["requires"];
if (ddi_requires.isArray()) {
for (Json::Value::const_iterator i = ddi_requires.begin();
i != ddi_requires.end(); ++i) {
info.Requires.push_back(i->asString());
}
}
objects.push_back(info);
}
// Map from module name to module file path, if known.
std::map<std::string, std::string> mod_files;
// Populate the module map with those provided by linked targets first.
for (std::vector<std::string>::const_iterator di =
linked_target_dirs.begin();
di != linked_target_dirs.end(); ++di) {
std::string const ltmn = *di + "/FortranModules.json";
Json::Value ltm;
cmsys::ifstream ltmf(ltmn.c_str(), std::ios::in | std::ios::binary);
Json::Reader reader;
if (ltmf && !reader.parse(ltmf, ltm, false)) {
cmSystemTools::Error("-E cmake_ninja_dyndep failed to parse ",
di->c_str(),
reader.getFormattedErrorMessages().c_str());
return false;
}
if (ltm.isObject()) {
for (Json::Value::iterator i = ltm.begin(); i != ltm.end(); ++i) {
mod_files[i.key().asString()] = i->asString();
}
}
}
// Extend the module map with those provided by this target.
// We do this after loading the modules provided by linked targets
// in case we have one of the same name that must be preferred.
Json::Value tm = Json::objectValue;
for (std::vector<cmFortranObjectInfo>::iterator oi = objects.begin();
oi != objects.end(); ++oi) {
for (std::vector<std::string>::iterator i = oi->Provides.begin();
i != oi->Provides.end(); ++i) {
std::string const mod = module_dir + *i + ".mod";
mod_files[*i] = mod;
tm[*i] = mod;
}
}
cmGeneratedFileStream ddf(arg_dd.c_str());
ddf << "ninja_dyndep_version = 1.0\n";
for (std::vector<cmFortranObjectInfo>::iterator oi = objects.begin();
oi != objects.end(); ++oi) {
std::string const ddComment;
std::string const ddRule = "dyndep";
cmNinjaDeps ddOutputs;
cmNinjaDeps ddImplicitOuts;
cmNinjaDeps ddExplicitDeps;
cmNinjaDeps ddImplicitDeps;
cmNinjaDeps ddOrderOnlyDeps;
cmNinjaVars ddVars;
ddOutputs.push_back(oi->Object);
for (std::vector<std::string>::iterator i = oi->Provides.begin();
i != oi->Provides.end(); ++i) {
ddImplicitOuts.push_back(this->ConvertToNinjaPath(mod_files[*i]));
}
for (std::vector<std::string>::iterator i = oi->Requires.begin();
i != oi->Requires.end(); ++i) {
std::map<std::string, std::string>::iterator m = mod_files.find(*i);
if (m != mod_files.end()) {
ddImplicitDeps.push_back(this->ConvertToNinjaPath(m->second));
}
}
if (!oi->Provides.empty()) {
ddVars["restat"] = "1";
}
this->WriteBuild(ddf, ddComment, ddRule, ddOutputs, ddImplicitOuts,
ddExplicitDeps, ddImplicitDeps, ddOrderOnlyDeps, ddVars);
}
// Store the map of modules provided by this target in a file for
// use by dependents that reference this target in linked-target-dirs.
std::string const target_mods_file =
cmSystemTools::GetFilenamePath(arg_dd) + "/FortranModules.json";
cmGeneratedFileStream tmf(target_mods_file.c_str());
tmf << tm;
return true;
}
int cmcmd_cmake_ninja_dyndep(std::vector<std::string>::const_iterator argBeg,
std::vector<std::string>::const_iterator argEnd)
{
std::string arg_dd;
std::string arg_tdi;
std::vector<std::string> arg_ddis;
for (std::vector<std::string>::const_iterator a = argBeg; a != argEnd; ++a) {
std::string const& arg = *a;
if (cmHasLiteralPrefix(arg, "--tdi=")) {
arg_tdi = arg.substr(6);
} else if (cmHasLiteralPrefix(arg, "--dd=")) {
arg_dd = arg.substr(5);
} else if (!cmHasLiteralPrefix(arg, "--") &&
cmHasLiteralSuffix(arg, ".ddi")) {
arg_ddis.push_back(arg);
} else {
cmSystemTools::Error("-E cmake_ninja_dyndep unknown argument: ",
arg.c_str());
return 1;
}
}
if (arg_tdi.empty()) {
cmSystemTools::Error("-E cmake_ninja_dyndep requires value for --tdi=");
return 1;
}
if (arg_dd.empty()) {
cmSystemTools::Error("-E cmake_ninja_dyndep requires value for --dd=");
return 1;
}
Json::Value tdio;
Json::Value const& tdi = tdio;
{
cmsys::ifstream tdif(arg_tdi.c_str(), std::ios::in | std::ios::binary);
Json::Reader reader;
if (!reader.parse(tdif, tdio, false)) {
cmSystemTools::Error("-E cmake_ninja_dyndep failed to parse ",
arg_tdi.c_str(),
reader.getFormattedErrorMessages().c_str());
return 1;
}
}
std::string const dir_cur_bld = tdi["dir-cur-bld"].asString();
std::string const dir_cur_src = tdi["dir-cur-src"].asString();
std::string const dir_top_bld = tdi["dir-top-bld"].asString();
std::string const dir_top_src = tdi["dir-top-src"].asString();
std::string module_dir = tdi["module-dir"].asString();
if (!module_dir.empty()) {
module_dir += "/";
}
std::vector<std::string> linked_target_dirs;
Json::Value const& tdi_linked_target_dirs = tdi["linked-target-dirs"];
if (tdi_linked_target_dirs.isArray()) {
for (Json::Value::const_iterator i = tdi_linked_target_dirs.begin();
i != tdi_linked_target_dirs.end(); ++i) {
linked_target_dirs.push_back(i->asString());
}
}
cmake cm;
cm.SetHomeDirectory(dir_top_src);
cm.SetHomeOutputDirectory(dir_top_bld);
CM_AUTO_PTR<cmGlobalNinjaGenerator> ggd(
static_cast<cmGlobalNinjaGenerator*>(cm.CreateGlobalGenerator("Ninja")));
if (!ggd.get() ||
!ggd->WriteDyndepFile(dir_top_src, dir_top_bld, dir_cur_src, dir_cur_bld,
arg_dd, arg_ddis, module_dir,
linked_target_dirs)) {
return 1;
}
return 0;
}
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