llvm-for-llvmta/tools/clang/lib/Tooling/DependencyScanning/DependencyScanningTool.cpp

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//===- DependencyScanningTool.cpp - clang-scan-deps service ---------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "clang/Tooling/DependencyScanning/DependencyScanningTool.h"
#include "clang/Frontend/Utils.h"
namespace clang{
namespace tooling{
namespace dependencies{
std::vector<std::string> FullDependencies::getAdditionalCommandLine(
std::function<StringRef(ClangModuleDep)> LookupPCMPath,
std::function<const ModuleDeps &(ClangModuleDep)> LookupModuleDeps) const {
std::vector<std::string> Ret = AdditionalNonPathCommandLine;
dependencies::detail::appendCommonModuleArguments(
ClangModuleDeps, LookupPCMPath, LookupModuleDeps, Ret);
return Ret;
}
DependencyScanningTool::DependencyScanningTool(
DependencyScanningService &Service)
: Worker(Service) {}
llvm::Expected<std::string> DependencyScanningTool::getDependencyFile(
const tooling::CompilationDatabase &Compilations, StringRef CWD) {
/// Prints out all of the gathered dependencies into a string.
class MakeDependencyPrinterConsumer : public DependencyConsumer {
public:
void handleFileDependency(const DependencyOutputOptions &Opts,
StringRef File) override {
if (!this->Opts)
this->Opts = std::make_unique<DependencyOutputOptions>(Opts);
Dependencies.push_back(std::string(File));
}
void handleModuleDependency(ModuleDeps MD) override {
// These are ignored for the make format as it can't support the full
// set of deps, and handleFileDependency handles enough for implicitly
// built modules to work.
}
void handleContextHash(std::string Hash) override {}
void printDependencies(std::string &S) {
if (!Opts)
return;
class DependencyPrinter : public DependencyFileGenerator {
public:
DependencyPrinter(DependencyOutputOptions &Opts,
ArrayRef<std::string> Dependencies)
: DependencyFileGenerator(Opts) {
for (const auto &Dep : Dependencies)
addDependency(Dep);
}
void printDependencies(std::string &S) {
llvm::raw_string_ostream OS(S);
outputDependencyFile(OS);
}
};
DependencyPrinter Generator(*Opts, Dependencies);
Generator.printDependencies(S);
}
private:
std::unique_ptr<DependencyOutputOptions> Opts;
std::vector<std::string> Dependencies;
};
// We expect a single command here because if a source file occurs multiple
// times in the original CDB, then `computeDependencies` would run the
// `DependencyScanningAction` once for every time the input occured in the
// CDB. Instead we split up the CDB into single command chunks to avoid this
// behavior.
assert(Compilations.getAllCompileCommands().size() == 1 &&
"Expected a compilation database with a single command!");
std::string Input = Compilations.getAllCompileCommands().front().Filename;
MakeDependencyPrinterConsumer Consumer;
auto Result = Worker.computeDependencies(Input, CWD, Compilations, Consumer);
if (Result)
return std::move(Result);
std::string Output;
Consumer.printDependencies(Output);
return Output;
}
llvm::Expected<FullDependenciesResult>
DependencyScanningTool::getFullDependencies(
const tooling::CompilationDatabase &Compilations, StringRef CWD,
const llvm::StringSet<> &AlreadySeen) {
class FullDependencyPrinterConsumer : public DependencyConsumer {
public:
FullDependencyPrinterConsumer(const llvm::StringSet<> &AlreadySeen)
: AlreadySeen(AlreadySeen) {}
void handleFileDependency(const DependencyOutputOptions &Opts,
StringRef File) override {
Dependencies.push_back(std::string(File));
}
void handleModuleDependency(ModuleDeps MD) override {
ClangModuleDeps[MD.ContextHash + MD.ModuleName] = std::move(MD);
}
void handleContextHash(std::string Hash) override {
ContextHash = std::move(Hash);
}
FullDependenciesResult getFullDependencies() const {
FullDependencies FD;
FD.ContextHash = std::move(ContextHash);
FD.FileDeps.assign(Dependencies.begin(), Dependencies.end());
for (auto &&M : ClangModuleDeps) {
auto &MD = M.second;
if (MD.ImportedByMainFile)
FD.ClangModuleDeps.push_back({MD.ModuleName, ContextHash});
}
FullDependenciesResult FDR;
for (auto &&M : ClangModuleDeps) {
// TODO: Avoid handleModuleDependency even being called for modules
// we've already seen.
if (AlreadySeen.count(M.first))
continue;
FDR.DiscoveredModules.push_back(std::move(M.second));
}
FDR.FullDeps = std::move(FD);
return FDR;
}
private:
std::vector<std::string> Dependencies;
std::unordered_map<std::string, ModuleDeps> ClangModuleDeps;
std::string ContextHash;
std::vector<std::string> OutputPaths;
const llvm::StringSet<> &AlreadySeen;
};
// We expect a single command here because if a source file occurs multiple
// times in the original CDB, then `computeDependencies` would run the
// `DependencyScanningAction` once for every time the input occured in the
// CDB. Instead we split up the CDB into single command chunks to avoid this
// behavior.
assert(Compilations.getAllCompileCommands().size() == 1 &&
"Expected a compilation database with a single command!");
std::string Input = Compilations.getAllCompileCommands().front().Filename;
FullDependencyPrinterConsumer Consumer(AlreadySeen);
llvm::Error Result =
Worker.computeDependencies(Input, CWD, Compilations, Consumer);
if (Result)
return std::move(Result);
return Consumer.getFullDependencies();
}
} // end namespace dependencies
} // end namespace tooling
} // end namespace clang