verdnatura-chat/ios/Pods/Flipper-Folly/folly/gen/String.h

248 lines
7.7 KiB
C++

/*
* Copyright (c) Facebook, Inc. and its affiliates.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#pragma once
#define FOLLY_GEN_STRING_H_
#include <folly/Range.h>
#include <folly/gen/Base.h>
#include <folly/io/IOBuf.h>
namespace folly {
namespace gen {
namespace detail {
class StringResplitter;
template <class Delimiter>
class SplitStringSource;
template <class Delimiter, class Output>
class Unsplit;
template <class Delimiter, class OutputBuffer>
class UnsplitBuffer;
template <class TargetContainer, class Delimiter, class... Targets>
class SplitTo;
} // namespace detail
/**
* Split the output from a generator into StringPiece "lines" delimited by
* the given delimiter. Delimters are NOT included in the output.
*
* resplit() behaves as if the input strings were concatenated into one long
* string and then split.
*
* Equivalently, you can use StreamSplitter outside of a folly::gen setting.
*/
// make this a template so we don't require StringResplitter to be complete
// until use
template <class S = detail::StringResplitter>
S resplit(char delimiter, bool keepDelimiter = false) {
return S(delimiter, keepDelimiter);
}
template <class S = detail::SplitStringSource<char>>
S split(const StringPiece source, char delimiter) {
return S(source, delimiter);
}
template <class S = detail::SplitStringSource<StringPiece>>
S split(StringPiece source, StringPiece delimiter) {
return S(source, delimiter);
}
/**
* EOL terms ("\r", "\n", or "\r\n").
*/
class MixedNewlines {};
/**
* Split by EOL ("\r", "\n", or "\r\n").
* @see split().
*/
template <class S = detail::SplitStringSource<MixedNewlines>>
S lines(StringPiece source) {
return S(source, MixedNewlines{});
}
/*
* Joins a sequence of tokens into a string, with the chosen delimiter.
*
* E.G.
* fbstring result = split("a,b,c", ",") | unsplit(",");
* assert(result == "a,b,c");
*
* std::string result = split("a,b,c", ",") | unsplit<std::string>(" ");
* assert(result == "a b c");
*/
// NOTE: The template arguments are reversed to allow the user to cleanly
// specify the output type while still inferring the type of the delimiter.
template <
class Output = folly::fbstring,
class Delimiter,
class Unsplit = detail::Unsplit<Delimiter, Output>>
Unsplit unsplit(const Delimiter& delimiter) {
return Unsplit(delimiter);
}
template <
class Output = folly::fbstring,
class Unsplit = detail::Unsplit<fbstring, Output>>
Unsplit unsplit(const char* delimiter) {
return Unsplit(delimiter);
}
/*
* Joins a sequence of tokens into a string, appending them to the output
* buffer. If the output buffer is empty, an initial delimiter will not be
* inserted at the start.
*
* E.G.
* std::string buffer;
* split("a,b,c", ",") | unsplit(",", &buffer);
* assert(buffer == "a,b,c");
*
* std::string anotherBuffer("initial");
* split("a,b,c", ",") | unsplit(",", &anotherbuffer);
* assert(anotherBuffer == "initial,a,b,c");
*/
template <
class Delimiter,
class OutputBuffer,
class UnsplitBuffer = detail::UnsplitBuffer<Delimiter, OutputBuffer>>
UnsplitBuffer unsplit(Delimiter delimiter, OutputBuffer* outputBuffer) {
return UnsplitBuffer(delimiter, outputBuffer);
}
template <
class OutputBuffer,
class UnsplitBuffer = detail::UnsplitBuffer<fbstring, OutputBuffer>>
UnsplitBuffer unsplit(const char* delimiter, OutputBuffer* outputBuffer) {
return UnsplitBuffer(delimiter, outputBuffer);
}
template <class... Targets>
detail::Map<detail::SplitTo<std::tuple<Targets...>, char, Targets...>>
eachToTuple(char delim) {
return detail::Map<detail::SplitTo<std::tuple<Targets...>, char, Targets...>>(
detail::SplitTo<std::tuple<Targets...>, char, Targets...>(delim));
}
template <class... Targets>
detail::Map<detail::SplitTo<std::tuple<Targets...>, fbstring, Targets...>>
eachToTuple(StringPiece delim) {
return detail::Map<
detail::SplitTo<std::tuple<Targets...>, fbstring, Targets...>>(
detail::SplitTo<std::tuple<Targets...>, fbstring, Targets...>(
to<fbstring>(delim)));
}
template <class First, class Second>
detail::Map<detail::SplitTo<std::pair<First, Second>, char, First, Second>>
eachToPair(char delim) {
return detail::Map<
detail::SplitTo<std::pair<First, Second>, char, First, Second>>(
detail::SplitTo<std::pair<First, Second>, char, First, Second>(delim));
}
template <class First, class Second>
detail::Map<detail::SplitTo<std::pair<First, Second>, fbstring, First, Second>>
eachToPair(StringPiece delim) {
return detail::Map<
detail::SplitTo<std::pair<First, Second>, fbstring, First, Second>>(
detail::SplitTo<std::pair<First, Second>, fbstring, First, Second>(
to<fbstring>(delim)));
}
/**
* Outputs exactly the same bytes as the input stream, in different chunks.
* A chunk boundary occurs after each delimiter, or, if maxLength is
* non-zero, after maxLength bytes, whichever comes first. Your callback
* can return false to stop consuming the stream at any time.
*
* The splitter buffers the last incomplete chunk, so you must call flush()
* to consume the piece of the stream after the final delimiter. This piece
* may be empty. After a flush(), the splitter can be re-used for a new
* stream.
*
* operator() and flush() return false iff your callback returns false. The
* internal buffer is not flushed, so reusing such a splitter will have
* indeterminate results. Same goes if your callback throws. Feel free to
* fix these corner cases if needed.
*
* Tips:
* - Create via streamSplitter() to take advantage of template deduction.
* - If your callback needs an end-of-stream signal, test for "no
* trailing delimiter **and** shorter than maxLength".
* - You can fine-tune the initial capacity of the internal IOBuf.
*/
template <class Callback>
class StreamSplitter {
public:
StreamSplitter(
char delimiter,
Callback&& pieceCb,
uint64_t maxLength = 0,
uint64_t initialCapacity = 0)
: buffer_(IOBuf::CREATE, initialCapacity),
delimiter_(delimiter),
maxLength_(maxLength),
pieceCb_(std::move(pieceCb)) {}
/**
* Consume any incomplete last line (may be empty). Do this before
* destroying the StreamSplitter, or you will fail to consume part of the
* input.
*
* After flush() you may proceed to consume the next stream via ().
*
* Returns false if the callback wants no more data, true otherwise.
* A return value of false means that this splitter must no longer be used.
*/
bool flush();
/**
* Consume another piece of the input stream.
*
* Returns false only if your callback refuses to consume more data by
* returning false (true otherwise). A return value of false means that
* this splitter must no longer be used.
*/
bool operator()(StringPiece in);
private:
// Holds the current "incomplete" chunk so that chunks can span calls to ()
IOBuf buffer_;
char delimiter_;
uint64_t maxLength_; // The callback never gets more chars than this
Callback pieceCb_;
};
template <class Callback> // Helper to enable template deduction
StreamSplitter<Callback>
streamSplitter(char delimiter, Callback&& pieceCb, uint64_t capacity = 0) {
return StreamSplitter<Callback>(delimiter, std::move(pieceCb), capacity);
}
} // namespace gen
} // namespace folly
#include <folly/gen/String-inl.h>