/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmArgumentParser.h" #include #include "cmArgumentParserTypes.h" #include "cmMakefile.h" #include "cmMessageType.h" #include "cmStringAlgorithms.h" namespace ArgumentParser { auto KeywordActionMap::Emplace(cm::string_view name, KeywordAction action) -> std::pair { auto const it = std::lower_bound(this->begin(), this->end(), name, [](value_type const& elem, cm::string_view const& k) { return elem.first < k; }); return (it != this->end() && it->first == name) ? std::make_pair(it, false) : std::make_pair(this->emplace(it, name, std::move(action)), true); } auto KeywordActionMap::Find(cm::string_view name) const -> const_iterator { auto const it = std::lower_bound(this->begin(), this->end(), name, [](value_type const& elem, cm::string_view const& k) { return elem.first < k; }); return (it != this->end() && it->first == name) ? it : this->end(); } auto PositionActionMap::Emplace(std::size_t pos, PositionAction action) -> std::pair { auto const it = std::lower_bound( this->begin(), this->end(), pos, [](value_type const& elem, std::size_t k) { return elem.first < k; }); return (it != this->end() && it->first == pos) ? std::make_pair(it, false) : std::make_pair(this->emplace(it, pos, std::move(action)), true); } auto PositionActionMap::Find(std::size_t pos) const -> const_iterator { auto const it = std::lower_bound( this->begin(), this->end(), pos, [](value_type const& elem, std::size_t k) { return elem.first < k; }); return (it != this->end() && it->first == pos) ? it : this->end(); } void Instance::Bind(std::function f, ExpectAtLeast expect) { this->KeywordValueFunc = std::move(f); this->KeywordValuesExpected = expect.Count; } void Instance::Bind(bool& val) { val = true; this->Bind(nullptr, ExpectAtLeast{ 0 }); } void Instance::Bind(std::string& val) { this->Bind( [&val](cm::string_view arg) -> Continue { val = std::string(arg); return Continue::No; }, ExpectAtLeast{ 1 }); } void Instance::Bind(NonEmpty& val) { this->Bind( [this, &val](cm::string_view arg) -> Continue { if (arg.empty() && this->ParseResults) { this->ParseResults->AddKeywordError(this->Keyword, " empty string not allowed\n"); } val.assign(std::string(arg)); return Continue::No; }, ExpectAtLeast{ 1 }); } void Instance::Bind(Maybe& val) { this->Bind( [&val](cm::string_view arg) -> Continue { static_cast(val) = std::string(arg); return Continue::No; }, ExpectAtLeast{ 0 }); } void Instance::Bind(MaybeEmpty>& val) { this->Bind( [&val](cm::string_view arg) -> Continue { val.emplace_back(arg); return Continue::Yes; }, ExpectAtLeast{ 0 }); } void Instance::Bind(NonEmpty>& val) { this->Bind( [&val](cm::string_view arg) -> Continue { val.emplace_back(arg); return Continue::Yes; }, ExpectAtLeast{ 1 }); } void Instance::Bind(std::vector>& multiVal) { multiVal.emplace_back(); std::vector& val = multiVal.back(); this->Bind( [&val](cm::string_view arg) -> Continue { val.emplace_back(arg); return Continue::Yes; }, ExpectAtLeast{ 0 }); } void Instance::Consume(std::size_t pos, cm::string_view arg) { auto const it = this->Bindings.Keywords.Find(arg); if (it != this->Bindings.Keywords.end()) { this->FinishKeyword(); this->Keyword = it->first; this->KeywordValuesSeen = 0; this->DoneWithPositional = true; if (this->Bindings.ParsedKeyword) { this->Bindings.ParsedKeyword(*this, it->first); } it->second(*this); return; } if (this->KeywordValueFunc) { switch (this->KeywordValueFunc(arg)) { case Continue::Yes: break; case Continue::No: this->KeywordValueFunc = nullptr; break; } ++this->KeywordValuesSeen; return; } if (!this->DoneWithPositional) { auto const pit = this->Bindings.Positions.Find(pos); if (pit != this->Bindings.Positions.end()) { pit->second(*this, pos, arg); return; } } if (this->UnparsedArguments) { this->UnparsedArguments->emplace_back(arg); } } void Instance::FinishKeyword() { if (this->Keyword.empty()) { return; } if (this->KeywordValuesSeen < this->KeywordValuesExpected) { if (this->ParseResults) { this->ParseResults->AddKeywordError(this->Keyword, " missing required value\n"); } if (this->Bindings.KeywordMissingValue) { this->Bindings.KeywordMissingValue(*this, this->Keyword); } } } bool ParseResult::MaybeReportError(cmMakefile& mf) const { if (*this) { return false; } std::string e; for (auto const& ke : this->KeywordErrors) { e = cmStrCat(e, "Error after keyword \"", ke.first, "\":\n", ke.second); } mf.IssueMessage(MessageType::FATAL_ERROR, e); return true; } } // namespace ArgumentParser