/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmForEachCommand.h" #include #include #include // IWYU pragma: keep // NOTE The declaration of `std::abs` has moved to `cmath` since C++17 // See https://en.cppreference.com/w/cpp/numeric/math/abs // ALERT But IWYU used to lint `#include`s do not "understand" // conditional compilation (i.e. `#if __cplusplus >= 201703L`) #include #include #include #include #include #include #include #include #include #include "cmExecutionStatus.h" #include "cmFunctionBlocker.h" #include "cmListFileCache.h" #include "cmMakefile.h" #include "cmMessageType.h" #include "cmRange.h" #include "cmStringAlgorithms.h" #include "cmSystemTools.h" namespace { class cmForEachFunctionBlocker : public cmFunctionBlocker { public: explicit cmForEachFunctionBlocker(cmMakefile* mf); ~cmForEachFunctionBlocker() override; cm::string_view StartCommandName() const override { return "foreach"_s; } cm::string_view EndCommandName() const override { return "endforeach"_s; } bool ArgumentsMatch(cmListFileFunction const& lff, cmMakefile& mf) const override; bool Replay(std::vector functions, cmExecutionStatus& inStatus) override; void SetIterationVarsCount(const std::size_t varsCount) { this->IterationVarsCount = varsCount; } void SetZipLists() { this->ZipLists = true; } std::vector Args; private: struct InvokeResult { bool Restore; bool Break; }; bool ReplayItems(std::vector const& functions, cmExecutionStatus& inStatus); bool ReplayZipLists(std::vector const& functions, cmExecutionStatus& inStatus); InvokeResult invoke(std::vector const& functions, cmExecutionStatus& inStatus, cmMakefile& mf); cmMakefile* Makefile; std::size_t IterationVarsCount = 0u; bool ZipLists = false; }; cmForEachFunctionBlocker::cmForEachFunctionBlocker(cmMakefile* mf) : Makefile(mf) { this->Makefile->PushLoopBlock(); } cmForEachFunctionBlocker::~cmForEachFunctionBlocker() { this->Makefile->PopLoopBlock(); } bool cmForEachFunctionBlocker::ArgumentsMatch(cmListFileFunction const& lff, cmMakefile& mf) const { std::vector expandedArguments; mf.ExpandArguments(lff.Arguments, expandedArguments); return expandedArguments.empty() || expandedArguments.front() == this->Args.front(); } bool cmForEachFunctionBlocker::Replay( std::vector functions, cmExecutionStatus& inStatus) { return this->ZipLists ? this->ReplayZipLists(functions, inStatus) : this->ReplayItems(functions, inStatus); } bool cmForEachFunctionBlocker::ReplayItems( std::vector const& functions, cmExecutionStatus& inStatus) { assert("Unexpected number of iteration variables" && this->IterationVarsCount == 1); auto& mf = inStatus.GetMakefile(); // At end of for each execute recorded commands // store the old value std::string oldDef; if (mf.GetDefinition(this->Args.front())) { oldDef = mf.GetDefinition(this->Args.front()); } auto restore = false; for (std::string const& arg : cmMakeRange(this->Args).advance(1)) { // Set the variable to the loop value mf.AddDefinition(this->Args.front(), arg); // Invoke all the functions that were collected in the block. auto r = this->invoke(functions, inStatus, mf); restore = r.Restore; if (r.Break) { break; } } if (restore) { // restore the variable to its prior value mf.AddDefinition(this->Args.front(), oldDef); } return true; } bool cmForEachFunctionBlocker::ReplayZipLists( std::vector const& functions, cmExecutionStatus& inStatus) { assert("Unexpected number of iteration variables" && this->IterationVarsCount >= 1); auto& mf = inStatus.GetMakefile(); // Expand the list of list-variables into a list of lists of strings std::vector> values; values.reserve(this->Args.size() - this->IterationVarsCount); // Also track the longest list size std::size_t maxItems = 0u; for (auto const& var : cmMakeRange(this->Args).advance(this->IterationVarsCount)) { std::vector items; auto const& value = mf.GetSafeDefinition(var); if (!value.empty()) { cmExpandList(value, items, true); } maxItems = std::max(maxItems, items.size()); values.emplace_back(std::move(items)); } // Form the list of iteration variables std::vector iterationVars; if (this->IterationVarsCount > 1) { // If multiple iteration variables has given, // just copy them to the `iterationVars` list. iterationVars.reserve(values.size()); std::copy(this->Args.begin(), this->Args.begin() + this->IterationVarsCount, std::back_inserter(iterationVars)); } else { // In case of the only iteration variable, // generate names as `var_name_N`, // where `N` is the count of lists to zip iterationVars.resize(values.size()); const auto iter_var_prefix = this->Args.front() + "_"; auto i = 0u; std::generate( iterationVars.begin(), iterationVars.end(), [&]() -> std::string { return iter_var_prefix + std::to_string(i++); }); } assert("Sanity check" && iterationVars.size() == values.size()); // Store old values for iteration variables std::map oldDefs; for (auto i = 0u; i < values.size(); ++i) { if (mf.GetDefinition(iterationVars[i])) { oldDefs.emplace(iterationVars[i], mf.GetDefinition(iterationVars[i])); } } // Form a vector of current positions in all lists (Ok, vectors) of values std::vector positions; positions.reserve(values.size()); std::transform( values.begin(), values.end(), std::back_inserter(positions), // Set the initial position to the beginning of every list [](decltype(values)::value_type& list) { return list.begin(); }); assert("Sanity check" && positions.size() == values.size()); auto restore = false; // Iterate over all the lists simulateneously for (auto i = 0u; i < maxItems; ++i) { // Declare iteration variables for (auto j = 0u; j < values.size(); ++j) { // Define (or not) the iteration variable if the current position // still not at the end... if (positions[j] != values[j].end()) { mf.AddDefinition(iterationVars[j], *positions[j]); ++positions[j]; } else { mf.RemoveDefinition(iterationVars[j]); } } // Invoke all the functions that were collected in the block. auto r = this->invoke(functions, inStatus, mf); restore = r.Restore; if (r.Break) { break; } } // Restore the variables to its prior value if (restore) { for (auto const& p : oldDefs) { mf.AddDefinition(p.first, p.second); } } return true; } auto cmForEachFunctionBlocker::invoke( std::vector const& functions, cmExecutionStatus& inStatus, cmMakefile& mf) -> InvokeResult { InvokeResult result = { true, false }; // Invoke all the functions that were collected in the block. for (cmListFileFunction const& func : functions) { cmExecutionStatus status(mf); mf.ExecuteCommand(func, status); if (status.GetReturnInvoked()) { inStatus.SetReturnInvoked(); result.Break = true; break; } if (status.GetBreakInvoked()) { result.Break = true; break; } if (status.GetContinueInvoked()) { break; } if (cmSystemTools::GetFatalErrorOccured()) { result.Restore = false; result.Break = true; break; } } return result; } bool HandleInMode(std::vector const& args, std::vector::const_iterator kwInIter, cmMakefile& makefile) { assert("A valid iterator expected" && kwInIter != args.end()); auto fb = cm::make_unique(&makefile); // Copy iteration variable names first std::copy(args.begin(), kwInIter, std::back_inserter(fb->Args)); // Remember the count of given iteration variable names const auto varsCount = fb->Args.size(); fb->SetIterationVarsCount(varsCount); enum Doing { DoingNone, DoingLists, DoingItems, DoingZipLists }; Doing doing = DoingNone; // Iterate over arguments past the "IN" keyword for (std::string const& arg : cmMakeRange(++kwInIter, args.end())) { if (arg == "LISTS") { if (doing == DoingZipLists) { makefile.IssueMessage(MessageType::FATAL_ERROR, "ZIP_LISTS can not be used with LISTS or ITEMS"); return true; } if (varsCount != 1u) { makefile.IssueMessage( MessageType::FATAL_ERROR, "ITEMS or LISTS require exactly one iteration variable"); return true; } doing = DoingLists; } else if (arg == "ITEMS") { if (doing == DoingZipLists) { makefile.IssueMessage(MessageType::FATAL_ERROR, "ZIP_LISTS can not be used with LISTS or ITEMS"); return true; } if (varsCount != 1u) { makefile.IssueMessage( MessageType::FATAL_ERROR, "ITEMS or LISTS require exactly one iteration variable"); return true; } doing = DoingItems; } else if (arg == "ZIP_LISTS") { if (doing != DoingNone) { makefile.IssueMessage(MessageType::FATAL_ERROR, "ZIP_LISTS can not be used with LISTS or ITEMS"); return true; } doing = DoingZipLists; fb->SetZipLists(); } else if (doing == DoingLists) { auto const& value = makefile.GetSafeDefinition(arg); if (!value.empty()) { cmExpandList(value, fb->Args, true); } } else if (doing == DoingItems || doing == DoingZipLists) { fb->Args.push_back(arg); } else { makefile.IssueMessage(MessageType::FATAL_ERROR, cmStrCat("Unknown argument:\n", " ", arg, "\n")); return true; } } // If `ZIP_LISTS` given and variables count more than 1, // make sure the given lists count matches variables... if (doing == DoingZipLists && varsCount > 1u && (2u * varsCount) != fb->Args.size()) { makefile.IssueMessage( MessageType::FATAL_ERROR, cmStrCat("Expected ", std::to_string(varsCount), " list variables, but given ", std::to_string(fb->Args.size() - varsCount))); return true; } makefile.AddFunctionBlocker(std::move(fb)); return true; } bool TryParseInteger(cmExecutionStatus& status, const std::string& str, int& i) { try { i = std::stoi(str); } catch (std::invalid_argument&) { std::ostringstream e; e << "Invalid integer: '" << str << "'"; status.SetError(e.str()); cmSystemTools::SetFatalErrorOccured(); return false; } return true; } } // anonymous namespace bool cmForEachCommand(std::vector const& args, cmExecutionStatus& status) { if (args.empty()) { status.SetError("called with incorrect number of arguments"); return false; } auto kwInIter = std::find(args.begin(), args.end(), "IN"); if (kwInIter != args.end()) { return HandleInMode(args, kwInIter, status.GetMakefile()); } // create a function blocker auto fb = cm::make_unique(&status.GetMakefile()); if (args.size() > 1) { if (args[1] == "RANGE") { int start = 0; int stop = 0; int step = 0; if (args.size() == 3) { if (!TryParseInteger(status, args[2], stop)) { return false; } } if (args.size() == 4) { if (!TryParseInteger(status, args[2], start)) { return false; } if (!TryParseInteger(status, args[3], stop)) { return false; } } if (args.size() == 5) { if (!TryParseInteger(status, args[2], start)) { return false; } if (!TryParseInteger(status, args[3], stop)) { return false; } if (!TryParseInteger(status, args[4], step)) { return false; } } if (step == 0) { if (start > stop) { step = -1; } else { step = 1; } } if ((start > stop && step > 0) || (start < stop && step < 0) || step == 0) { status.SetError( cmStrCat("called with incorrect range specification: start ", start, ", stop ", stop, ", step ", step)); cmSystemTools::SetFatalErrorOccured(); return false; } // Calculate expected iterations count and reserve enough space // in the `fb->Args` vector. The first item is the iteration variable // name... const std::size_t iter_cnt = 2u + int(start < stop) * (stop - start) / std::abs(step) + int(start > stop) * (start - stop) / std::abs(step); fb->Args.resize(iter_cnt); fb->Args.front() = args.front(); auto cc = start; auto generator = [&cc, step]() -> std::string { auto result = std::to_string(cc); cc += step; return result; }; // Fill the `range` vector w/ generated string values // (starting from 2nd position) std::generate(++fb->Args.begin(), fb->Args.end(), generator); } else { fb->Args = args; } } else { fb->Args = args; } fb->SetIterationVarsCount(1u); status.GetMakefile().AddFunctionBlocker(std::move(fb)); return true; }