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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. */
#pragma once
#include "cmConfigure.h" // IWYU pragma: keep
#include <cassert>
#include <cstddef>
#include <functional>
#include <map>
#include <string>
#include <utility>
#include <vector>
#include <cm/optional>
#include <cm/string_view>
#include <cm/type_traits>
#include <cmext/string_view>
#include "cmArgumentParserTypes.h" // IWYU pragma: keep
template <typename Result>
class cmArgumentParser; // IWYU pragma: keep
class cmMakefile;
namespace ArgumentParser {
class ParseResult
{
std::map<cm::string_view, std::string> KeywordErrors;
public:
explicit operator bool() const { return this->KeywordErrors.empty(); }
void AddKeywordError(cm::string_view key, cm::string_view text)
{
this->KeywordErrors[key] += text;
}
std::map<cm::string_view, std::string> const& GetKeywordErrors() const
{
return this->KeywordErrors;
}
bool MaybeReportError(cmMakefile& mf) const;
};
template <typename Result>
typename std::enable_if<std::is_base_of<ParseResult, Result>::value,
ParseResult*>::type
AsParseResultPtr(Result& result)
{
return &result;
}
template <typename Result>
typename std::enable_if<!std::is_base_of<ParseResult, Result>::value,
ParseResult*>::type
AsParseResultPtr(Result&)
{
return nullptr;
}
enum class Continue
{
No,
Yes,
};
struct ExpectAtLeast
{
std::size_t Count = 0;
ExpectAtLeast(std::size_t count)
: Count(count)
{
}
};
class Instance;
using KeywordAction = std::function<void(Instance&)>;
using KeywordNameAction = std::function<void(Instance&, cm::string_view)>;
using PositionAction =
std::function<void(Instance&, std::size_t, cm::string_view)>;
// using KeywordActionMap = cm::flat_map<cm::string_view, KeywordAction>;
class KeywordActionMap
: public std::vector<std::pair<cm::string_view, KeywordAction>>
{
public:
std::pair<iterator, bool> Emplace(cm::string_view name,
KeywordAction action);
const_iterator Find(cm::string_view name) const;
};
// using PositionActionMap = cm::flat_map<cm::string_view, PositionAction>;
class PositionActionMap
: public std::vector<std::pair<std::size_t, PositionAction>>
{
public:
std::pair<iterator, bool> Emplace(std::size_t pos, PositionAction action);
const_iterator Find(std::size_t pos) const;
};
class ActionMap
{
public:
KeywordActionMap Keywords;
KeywordNameAction KeywordMissingValue;
KeywordNameAction ParsedKeyword;
PositionActionMap Positions;
};
class Base
{
public:
using ExpectAtLeast = ArgumentParser::ExpectAtLeast;
using Continue = ArgumentParser::Continue;
using Instance = ArgumentParser::Instance;
using ParseResult = ArgumentParser::ParseResult;
ArgumentParser::ActionMap Bindings;
bool MaybeBind(cm::string_view name, KeywordAction action)
{
return this->Bindings.Keywords.Emplace(name, std::move(action)).second;
}
void Bind(cm::string_view name, KeywordAction action)
{
bool const inserted = this->MaybeBind(name, std::move(action));
assert(inserted);
static_cast<void>(inserted);
}
void BindParsedKeyword(KeywordNameAction action)
{
assert(!this->Bindings.ParsedKeyword);
this->Bindings.ParsedKeyword = std::move(action);
}
void BindKeywordMissingValue(KeywordNameAction action)
{
assert(!this->Bindings.KeywordMissingValue);
this->Bindings.KeywordMissingValue = std::move(action);
}
void Bind(std::size_t pos, PositionAction action)
{
bool const inserted =
this->Bindings.Positions.Emplace(pos, std::move(action)).second;
assert(inserted);
static_cast<void>(inserted);
}
};
class Instance
{
public:
Instance(ActionMap const& bindings, ParseResult* parseResult,
std::vector<std::string>* unparsedArguments, void* result = nullptr)
: Bindings(bindings)
, ParseResults(parseResult)
, UnparsedArguments(unparsedArguments)
, Result(result)
{
}
void Bind(std::function<Continue(cm::string_view)> f, ExpectAtLeast expect);
void Bind(bool& val);
void Bind(std::string& val);
void Bind(NonEmpty<std::string>& val);
void Bind(Maybe<std::string>& val);
void Bind(MaybeEmpty<std::vector<std::string>>& val);
void Bind(NonEmpty<std::vector<std::string>>& val);
void Bind(std::vector<std::vector<std::string>>& val);
// cm::optional<> records the presence the keyword to which it binds.
template <typename T>
void Bind(cm::optional<T>& optVal)
{
if (!optVal) {
optVal.emplace();
}
this->Bind(*optVal);
}
template <typename Range>
void Parse(Range const& args, std::size_t pos = 0)
{
for (cm::string_view arg : args) {
this->Consume(pos++, arg);
}
this->FinishKeyword();
}
private:
ActionMap const& Bindings;
ParseResult* ParseResults = nullptr;
std::vector<std::string>* UnparsedArguments = nullptr;
void* Result = nullptr;
cm::string_view Keyword;
std::size_t KeywordValuesSeen = 0;
std::size_t KeywordValuesExpected = 0;
std::function<Continue(cm::string_view)> KeywordValueFunc;
bool DoneWithPositional = false;
void Consume(std::size_t pos, cm::string_view arg);
void FinishKeyword();
template <typename Result>
friend class ::cmArgumentParser;
};
} // namespace ArgumentParser
template <typename Result>
class cmArgumentParser : private ArgumentParser::Base
{
public:
// I *think* this function could be made `constexpr` when the code is
// compiled as C++20. This would allow building a parser at compile time.
template <typename T>
cmArgumentParser& Bind(cm::static_string_view name, T Result::*member)
{
this->Base::Bind(name, [member](Instance& instance) {
instance.Bind(static_cast<Result*>(instance.Result)->*member);
});
return *this;
}
cmArgumentParser& Bind(cm::static_string_view name,
Continue (Result::*member)(cm::string_view),
ExpectAtLeast expect = { 1 })
{
this->Base::Bind(name, [member, expect](Instance& instance) {
Result* result = static_cast<Result*>(instance.Result);
instance.Bind(
[result, member](cm::string_view arg) -> Continue {
return (result->*member)(arg);
},
expect);
});
return *this;
}
cmArgumentParser& Bind(cm::static_string_view name,
Continue (Result::*member)(cm::string_view,
cm::string_view),
ExpectAtLeast expect = { 1 })
{
this->Base::Bind(name, [member, expect](Instance& instance) {
Result* result = static_cast<Result*>(instance.Result);
cm::string_view keyword = instance.Keyword;
instance.Bind(
[result, member, keyword](cm::string_view arg) -> Continue {
return (result->*member)(keyword, arg);
},
expect);
});
return *this;
}
cmArgumentParser& Bind(cm::static_string_view name,
std::function<Continue(Result&, cm::string_view)> f,
ExpectAtLeast expect = { 1 })
{
this->Base::Bind(name, [f, expect](Instance& instance) {
Result* result = static_cast<Result*>(instance.Result);
instance.Bind(
[result, &f](cm::string_view arg) -> Continue {
return f(*result, arg);
},
expect);
});
return *this;
}
cmArgumentParser& Bind(
cm::static_string_view name,
std::function<Continue(Result&, cm::string_view, cm::string_view)> f,
ExpectAtLeast expect = { 1 })
{
this->Base::Bind(name, [f, expect](Instance& instance) {
Result* result = static_cast<Result*>(instance.Result);
cm::string_view keyword = instance.Keyword;
instance.Bind(
[result, keyword, &f](cm::string_view arg) -> Continue {
return f(*result, keyword, arg);
},
expect);
});
return *this;
}
cmArgumentParser& Bind(std::size_t position,
cm::optional<std::string> Result::*member)
{
this->Base::Bind(
position,
[member](Instance& instance, std::size_t, cm::string_view arg) {
Result* result = static_cast<Result*>(instance.Result);
result->*member = arg;
});
return *this;
}
cmArgumentParser& BindParsedKeywords(
std::vector<cm::string_view> Result::*member)
{
this->Base::BindParsedKeyword(
[member](Instance& instance, cm::string_view arg) {
(static_cast<Result*>(instance.Result)->*member).emplace_back(arg);
});
return *this;
}
template <typename Range>
bool Parse(Result& result, Range const& args,
std::vector<std::string>* unparsedArguments,
std::size_t pos = 0) const
{
using ArgumentParser::AsParseResultPtr;
ParseResult* parseResultPtr = AsParseResultPtr(result);
Instance instance(this->Bindings, parseResultPtr, unparsedArguments,
&result);
instance.Parse(args, pos);
return parseResultPtr ? static_cast<bool>(*parseResultPtr) : true;
}
template <typename Range>
Result Parse(Range const& args, std::vector<std::string>* unparsedArguments,
std::size_t pos = 0) const
{
Result result;
this->Parse(result, args, unparsedArguments, pos);
return result;
}
};
template <>
class cmArgumentParser<void> : private ArgumentParser::Base
{
public:
template <typename T>
cmArgumentParser& Bind(cm::static_string_view name, T& ref)
{
this->Base::Bind(name, [&ref](Instance& instance) { instance.Bind(ref); });
return *this;
}
cmArgumentParser& Bind(cm::static_string_view name,
std::function<Continue(cm::string_view)> f,
ExpectAtLeast expect = { 1 })
{
this->Base::Bind(name, [f, expect](Instance& instance) {
instance.Bind([&f](cm::string_view arg) -> Continue { return f(arg); },
expect);
});
return *this;
}
cmArgumentParser& Bind(
cm::static_string_view name,
std::function<Continue(cm::string_view, cm::string_view)> f,
ExpectAtLeast expect = { 1 })
{
this->Base::Bind(name, [f, expect](Instance& instance) {
cm::string_view keyword = instance.Keyword;
instance.Bind(
[keyword, &f](cm::string_view arg) -> Continue {
return f(keyword, arg);
},
expect);
});
return *this;
}
cmArgumentParser& Bind(std::size_t position, cm::optional<std::string>& ref)
{
this->Base::Bind(position,
[&ref](Instance&, std::size_t, cm::string_view arg) {
ref = std::string(arg);
});
return *this;
}
cmArgumentParser& BindParsedKeywords(std::vector<cm::string_view>& ref)
{
this->Base::BindParsedKeyword(
[&ref](Instance&, cm::string_view arg) { ref.emplace_back(arg); });
return *this;
}
template <typename Range>
ParseResult Parse(Range const& args,
std::vector<std::string>* unparsedArguments,
std::size_t pos = 0) const
{
ParseResult parseResult;
Instance instance(this->Bindings, &parseResult, unparsedArguments);
instance.Parse(args, pos);
return parseResult;
}
protected:
using Base::Instance;
using Base::BindKeywordMissingValue;
template <typename T>
bool Bind(cm::string_view name, T& ref)
{
return this->MaybeBind(name,
[&ref](Instance& instance) { instance.Bind(ref); });
}
};
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