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jiangjiajun
2022-07-05 09:30:15 +00:00
parent 4df7366d62
commit 9d87046d78
781 changed files with 225888 additions and 6184 deletions
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17
third_party/yaml-cpp/include/yaml-cpp/anchor.h vendored Normal file
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#ifndef ANCHOR_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define ANCHOR_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include <cstddef>
namespace YAML {
using anchor_t = std::size_t;
const anchor_t NullAnchor = 0;
}
#endif // ANCHOR_H_62B23520_7C8E_11DE_8A39_0800200C9A66

71
third_party/yaml-cpp/include/yaml-cpp/binary.h vendored Normal file
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#ifndef BASE64_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define BASE64_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include <string>
#include <vector>
#include "yaml-cpp/dll.h"
namespace YAML {
YAML_CPP_API std::string EncodeBase64(const unsigned char *data,
std::size_t size);
YAML_CPP_API std::vector<unsigned char> DecodeBase64(const std::string &input);
class YAML_CPP_API Binary {
public:
Binary(const unsigned char *data_, std::size_t size_)
: m_data{}, m_unownedData(data_), m_unownedSize(size_) {}
Binary() : Binary(nullptr, 0) {}
Binary(const Binary &) = default;
Binary(Binary &&) = default;
Binary &operator=(const Binary &) = default;
Binary &operator=(Binary &&) = default;
bool owned() const { return !m_unownedData; }
std::size_t size() const { return owned() ? m_data.size() : m_unownedSize; }
const unsigned char *data() const {
return owned() ? &m_data[0] : m_unownedData;
}
void swap(std::vector<unsigned char> &rhs) {
if (m_unownedData) {
m_data.swap(rhs);
rhs.clear();
rhs.resize(m_unownedSize);
std::copy(m_unownedData, m_unownedData + m_unownedSize, rhs.begin());
m_unownedData = nullptr;
m_unownedSize = 0;
} else {
m_data.swap(rhs);
}
}
bool operator==(const Binary &rhs) const {
const std::size_t s = size();
if (s != rhs.size())
return false;
const unsigned char *d1 = data();
const unsigned char *d2 = rhs.data();
for (std::size_t i = 0; i < s; i++) {
if (*d1++ != *d2++)
return false;
}
return true;
}
bool operator!=(const Binary &rhs) const { return !(*this == rhs); }
private:
std::vector<unsigned char> m_data;
const unsigned char *m_unownedData;
std::size_t m_unownedSize;
};
} // namespace YAML
#endif // BASE64_H_62B23520_7C8E_11DE_8A39_0800200C9A66

40
third_party/yaml-cpp/include/yaml-cpp/contrib/anchordict.h vendored Normal file
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#ifndef ANCHORDICT_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define ANCHORDICT_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include <vector>
#include "../anchor.h"
namespace YAML {
/**
* An object that stores and retrieves values correlating to {@link anchor_t}
* values.
*
* <p>Efficient implementation that can make assumptions about how
* {@code anchor_t} values are assigned by the {@link Parser} class.
*/
template <class T>
class AnchorDict {
public:
AnchorDict() : m_data{} {}
void Register(anchor_t anchor, T value) {
if (anchor > m_data.size()) {
m_data.resize(anchor);
}
m_data[anchor - 1] = value;
}
T Get(anchor_t anchor) const { return m_data[anchor - 1]; }
private:
std::vector<T> m_data;
};
} // namespace YAML
#endif // ANCHORDICT_H_62B23520_7C8E_11DE_8A39_0800200C9A66

149
third_party/yaml-cpp/include/yaml-cpp/contrib/graphbuilder.h vendored Normal file
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#ifndef GRAPHBUILDER_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define GRAPHBUILDER_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include "yaml-cpp/mark.h"
#include <string>
namespace YAML {
class Parser;
// GraphBuilderInterface
// . Abstraction of node creation
// . pParentNode is always nullptr or the return value of one of the NewXXX()
// functions.
class GraphBuilderInterface {
public:
virtual ~GraphBuilderInterface() = 0;
// Create and return a new node with a null value.
virtual void *NewNull(const Mark &mark, void *pParentNode) = 0;
// Create and return a new node with the given tag and value.
virtual void *NewScalar(const Mark &mark, const std::string &tag,
void *pParentNode, const std::string &value) = 0;
// Create and return a new sequence node
virtual void *NewSequence(const Mark &mark, const std::string &tag,
void *pParentNode) = 0;
// Add pNode to pSequence. pNode was created with one of the NewXxx()
// functions and pSequence with NewSequence().
virtual void AppendToSequence(void *pSequence, void *pNode) = 0;
// Note that no moew entries will be added to pSequence
virtual void SequenceComplete(void *pSequence) { (void)pSequence; }
// Create and return a new map node
virtual void *NewMap(const Mark &mark, const std::string &tag,
void *pParentNode) = 0;
// Add the pKeyNode => pValueNode mapping to pMap. pKeyNode and pValueNode
// were created with one of the NewXxx() methods and pMap with NewMap().
virtual void AssignInMap(void *pMap, void *pKeyNode, void *pValueNode) = 0;
// Note that no more assignments will be made in pMap
virtual void MapComplete(void *pMap) { (void)pMap; }
// Return the node that should be used in place of an alias referencing
// pNode (pNode by default)
virtual void *AnchorReference(const Mark &mark, void *pNode) {
(void)mark;
return pNode;
}
};
// Typesafe wrapper for GraphBuilderInterface. Assumes that Impl defines
// Node, Sequence, and Map types. Sequence and Map must derive from Node
// (unless Node is defined as void). Impl must also implement function with
// all of the same names as the virtual functions in GraphBuilderInterface
// -- including the ones with default implementations -- but with the
// prototypes changed to accept an explicit Node*, Sequence*, or Map* where
// appropriate.
template <class Impl>
class GraphBuilder : public GraphBuilderInterface {
public:
typedef typename Impl::Node Node;
typedef typename Impl::Sequence Sequence;
typedef typename Impl::Map Map;
GraphBuilder(Impl &impl) : m_impl(impl) {
Map *pMap = nullptr;
Sequence *pSeq = nullptr;
Node *pNode = nullptr;
// Type consistency checks
pNode = pMap;
pNode = pSeq;
}
GraphBuilderInterface &AsBuilderInterface() { return *this; }
virtual void *NewNull(const Mark &mark, void *pParentNode) {
return CheckType<Node>(m_impl.NewNull(mark, AsNode(pParentNode)));
}
virtual void *NewScalar(const Mark &mark, const std::string &tag,
void *pParentNode, const std::string &value) {
return CheckType<Node>(
m_impl.NewScalar(mark, tag, AsNode(pParentNode), value));
}
virtual void *NewSequence(const Mark &mark, const std::string &tag,
void *pParentNode) {
return CheckType<Sequence>(
m_impl.NewSequence(mark, tag, AsNode(pParentNode)));
}
virtual void AppendToSequence(void *pSequence, void *pNode) {
m_impl.AppendToSequence(AsSequence(pSequence), AsNode(pNode));
}
virtual void SequenceComplete(void *pSequence) {
m_impl.SequenceComplete(AsSequence(pSequence));
}
virtual void *NewMap(const Mark &mark, const std::string &tag,
void *pParentNode) {
return CheckType<Map>(m_impl.NewMap(mark, tag, AsNode(pParentNode)));
}
virtual void AssignInMap(void *pMap, void *pKeyNode, void *pValueNode) {
m_impl.AssignInMap(AsMap(pMap), AsNode(pKeyNode), AsNode(pValueNode));
}
virtual void MapComplete(void *pMap) { m_impl.MapComplete(AsMap(pMap)); }
virtual void *AnchorReference(const Mark &mark, void *pNode) {
return CheckType<Node>(m_impl.AnchorReference(mark, AsNode(pNode)));
}
private:
Impl &m_impl;
// Static check for pointer to T
template <class T, class U>
static T *CheckType(U *p) {
return p;
}
static Node *AsNode(void *pNode) { return static_cast<Node *>(pNode); }
static Sequence *AsSequence(void *pSeq) {
return static_cast<Sequence *>(pSeq);
}
static Map *AsMap(void *pMap) { return static_cast<Map *>(pMap); }
};
void *BuildGraphOfNextDocument(Parser &parser,
GraphBuilderInterface &graphBuilder);
template <class Impl>
typename Impl::Node *BuildGraphOfNextDocument(Parser &parser, Impl &impl) {
GraphBuilder<Impl> graphBuilder(impl);
return static_cast<typename Impl::Node *>(
BuildGraphOfNextDocument(parser, graphBuilder));
}
}
#endif // GRAPHBUILDER_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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third_party/yaml-cpp/include/yaml-cpp/depthguard.h vendored Normal file
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#ifndef DEPTH_GUARD_H_00000000000000000000000000000000000000000000000000000000
#define DEPTH_GUARD_H_00000000000000000000000000000000000000000000000000000000
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include "exceptions.h"
namespace YAML {
/**
* @brief The DeepRecursion class
* An exception class which is thrown by DepthGuard. Ideally it should be
* a member of DepthGuard. However, DepthGuard is a templated class which means
* that any catch points would then need to know the template parameters. It is
* simpler for clients to not have to know at the catch point what was the
* maximum depth.
*/
class DeepRecursion : public ParserException {
public:
virtual ~DeepRecursion() = default;
DeepRecursion(int depth, const Mark& mark_, const std::string& msg_);
// Returns the recursion depth when the exception was thrown
int depth() const {
return m_depth;
}
private:
int m_depth = 0;
};
/**
* @brief The DepthGuard class
* DepthGuard takes a reference to an integer. It increments the integer upon
* construction of DepthGuard and decrements the integer upon destruction.
*
* If the integer would be incremented past max_depth, then an exception is
* thrown. This is ideally geared toward guarding against deep recursion.
*
* @param max_depth
* compile-time configurable maximum depth.
*/
template <int max_depth = 2000>
class DepthGuard final {
public:
DepthGuard(int & depth_, const Mark& mark_, const std::string& msg_) : m_depth(depth_) {
++m_depth;
if ( max_depth <= m_depth ) {
throw DeepRecursion{m_depth, mark_, msg_};
}
}
DepthGuard(const DepthGuard & copy_ctor) = delete;
DepthGuard(DepthGuard && move_ctor) = delete;
DepthGuard & operator=(const DepthGuard & copy_assign) = delete;
DepthGuard & operator=(DepthGuard && move_assign) = delete;
~DepthGuard() {
--m_depth;
}
int current_depth() const {
return m_depth;
}
private:
int & m_depth;
};
} // namespace YAML
#endif // DEPTH_GUARD_H_00000000000000000000000000000000000000000000000000000000

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third_party/yaml-cpp/include/yaml-cpp/dll.h vendored Normal file
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#ifndef DLL_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define DLL_H_62B23520_7C8E_11DE_8A39_0800200C9A66
// Definition YAML_CPP_STATIC_DEFINE using to building YAML-CPP as static
// library (definition created by CMake or defined manually)
// Definition yaml_cpp_EXPORTS using to building YAML-CPP as dll/so library
// (definition created by CMake or defined manually)
#ifdef YAML_CPP_STATIC_DEFINE
# define YAML_CPP_API
# define YAML_CPP_NO_EXPORT
#else
# if defined(_MSC_VER) || defined(__MINGW32__) || defined(__MINGW64__)
# ifndef YAML_CPP_API
# ifdef yaml_cpp_EXPORTS
/* We are building this library */
# pragma message( "Defining YAML_CPP_API for DLL export" )
# define YAML_CPP_API __declspec(dllexport)
# else
/* We are using this library */
# pragma message( "Defining YAML_CPP_API for DLL import" )
# define YAML_CPP_API __declspec(dllimport)
# endif
# endif
# ifndef YAML_CPP_NO_EXPORT
# define YAML_CPP_NO_EXPORT
# endif
# else /* No _MSC_VER */
# ifndef YAML_CPP_API
# ifdef yaml_cpp_EXPORTS
/* We are building this library */
# define YAML_CPP_API __attribute__((visibility("default")))
# else
/* We are using this library */
# define YAML_CPP_API __attribute__((visibility("default")))
# endif
# endif
# ifndef YAML_CPP_NO_EXPORT
# define YAML_CPP_NO_EXPORT __attribute__((visibility("hidden")))
# endif
# endif /* _MSC_VER */
#endif /* YAML_CPP_STATIC_DEFINE */
#ifndef YAML_CPP_DEPRECATED
# ifdef _MSC_VER
# define YAML_CPP_DEPRECATED __declspec(deprecated)
# else
# define YAML_CPP_DEPRECATED __attribute__ ((__deprecated__))
# endif
#endif
#ifndef YAML_CPP_DEPRECATED_EXPORT
# define YAML_CPP_DEPRECATED_EXPORT YAML_CPP_API YAML_CPP_DEPRECATED
#endif
#ifndef YAML_CPP_DEPRECATED_NO_EXPORT
# define YAML_CPP_DEPRECATED_NO_EXPORT YAML_CPP_NO_EXPORT YAML_CPP_DEPRECATED
#endif
#endif /* DLL_H_62B23520_7C8E_11DE_8A39_0800200C9A66 */

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third_party/yaml-cpp/include/yaml-cpp/emitfromevents.h vendored Normal file
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#ifndef EMITFROMEVENTS_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define EMITFROMEVENTS_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include <stack>
#include "yaml-cpp/anchor.h"
#include "yaml-cpp/emitterstyle.h"
#include "yaml-cpp/eventhandler.h"
namespace YAML {
struct Mark;
} // namespace YAML
namespace YAML {
class Emitter;
class EmitFromEvents : public EventHandler {
public:
EmitFromEvents(Emitter& emitter);
void OnDocumentStart(const Mark& mark) override;
void OnDocumentEnd() override;
void OnNull(const Mark& mark, anchor_t anchor) override;
void OnAlias(const Mark& mark, anchor_t anchor) override;
void OnScalar(const Mark& mark, const std::string& tag,
anchor_t anchor, const std::string& value) override;
void OnSequenceStart(const Mark& mark, const std::string& tag,
anchor_t anchor, EmitterStyle::value style) override;
void OnSequenceEnd() override;
void OnMapStart(const Mark& mark, const std::string& tag,
anchor_t anchor, EmitterStyle::value style) override;
void OnMapEnd() override;
private:
void BeginNode();
void EmitProps(const std::string& tag, anchor_t anchor);
private:
Emitter& m_emitter;
struct State {
enum value { WaitingForSequenceEntry, WaitingForKey, WaitingForValue };
};
std::stack<State::value> m_stateStack;
};
}
#endif // EMITFROMEVENTS_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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third_party/yaml-cpp/include/yaml-cpp/emitter.h vendored Normal file
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#ifndef EMITTER_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define EMITTER_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include <cmath>
#include <cstddef>
#include <limits>
#include <memory>
#include <sstream>
#include <string>
#include <type_traits>
#include "yaml-cpp/binary.h"
#include "yaml-cpp/dll.h"
#include "yaml-cpp/emitterdef.h"
#include "yaml-cpp/emittermanip.h"
#include "yaml-cpp/null.h"
#include "yaml-cpp/ostream_wrapper.h"
namespace YAML {
class Binary;
struct _Null;
} // namespace YAML
namespace YAML {
class EmitterState;
class YAML_CPP_API Emitter {
public:
Emitter();
explicit Emitter(std::ostream& stream);
Emitter(const Emitter&) = delete;
Emitter& operator=(const Emitter&) = delete;
~Emitter();
// output
const char* c_str() const;
std::size_t size() const;
// state checking
bool good() const;
const std::string GetLastError() const;
// global setters
bool SetOutputCharset(EMITTER_MANIP value);
bool SetStringFormat(EMITTER_MANIP value);
bool SetBoolFormat(EMITTER_MANIP value);
bool SetNullFormat(EMITTER_MANIP value);
bool SetIntBase(EMITTER_MANIP value);
bool SetSeqFormat(EMITTER_MANIP value);
bool SetMapFormat(EMITTER_MANIP value);
bool SetIndent(std::size_t n);
bool SetPreCommentIndent(std::size_t n);
bool SetPostCommentIndent(std::size_t n);
bool SetFloatPrecision(std::size_t n);
bool SetDoublePrecision(std::size_t n);
void RestoreGlobalModifiedSettings();
// local setters
Emitter& SetLocalValue(EMITTER_MANIP value);
Emitter& SetLocalIndent(const _Indent& indent);
Emitter& SetLocalPrecision(const _Precision& precision);
// overloads of write
Emitter& Write(const std::string& str);
Emitter& Write(bool b);
Emitter& Write(char ch);
Emitter& Write(const _Alias& alias);
Emitter& Write(const _Anchor& anchor);
Emitter& Write(const _Tag& tag);
Emitter& Write(const _Comment& comment);
Emitter& Write(const _Null& n);
Emitter& Write(const Binary& binary);
template <typename T>
Emitter& WriteIntegralType(T value);
template <typename T>
Emitter& WriteStreamable(T value);
private:
template <typename T>
void SetStreamablePrecision(std::stringstream&) {}
std::size_t GetFloatPrecision() const;
std::size_t GetDoublePrecision() const;
void PrepareIntegralStream(std::stringstream& stream) const;
void StartedScalar();
private:
void EmitBeginDoc();
void EmitEndDoc();
void EmitBeginSeq();
void EmitEndSeq();
void EmitBeginMap();
void EmitEndMap();
void EmitNewline();
void EmitKindTag();
void EmitTag(bool verbatim, const _Tag& tag);
void PrepareNode(EmitterNodeType::value child);
void PrepareTopNode(EmitterNodeType::value child);
void FlowSeqPrepareNode(EmitterNodeType::value child);
void BlockSeqPrepareNode(EmitterNodeType::value child);
void FlowMapPrepareNode(EmitterNodeType::value child);
void FlowMapPrepareLongKey(EmitterNodeType::value child);
void FlowMapPrepareLongKeyValue(EmitterNodeType::value child);
void FlowMapPrepareSimpleKey(EmitterNodeType::value child);
void FlowMapPrepareSimpleKeyValue(EmitterNodeType::value child);
void BlockMapPrepareNode(EmitterNodeType::value child);
void BlockMapPrepareLongKey(EmitterNodeType::value child);
void BlockMapPrepareLongKeyValue(EmitterNodeType::value child);
void BlockMapPrepareSimpleKey(EmitterNodeType::value child);
void BlockMapPrepareSimpleKeyValue(EmitterNodeType::value child);
void SpaceOrIndentTo(bool requireSpace, std::size_t indent);
const char* ComputeFullBoolName(bool b) const;
const char* ComputeNullName() const;
bool CanEmitNewline() const;
private:
std::unique_ptr<EmitterState> m_pState;
ostream_wrapper m_stream;
};
template <typename T>
inline Emitter& Emitter::WriteIntegralType(T value) {
if (!good())
return *this;
PrepareNode(EmitterNodeType::Scalar);
std::stringstream stream;
PrepareIntegralStream(stream);
stream << value;
m_stream << stream.str();
StartedScalar();
return *this;
}
template <typename T>
inline Emitter& Emitter::WriteStreamable(T value) {
if (!good())
return *this;
PrepareNode(EmitterNodeType::Scalar);
std::stringstream stream;
SetStreamablePrecision<T>(stream);
bool special = false;
if (std::is_floating_point<T>::value) {
if ((std::numeric_limits<T>::has_quiet_NaN ||
std::numeric_limits<T>::has_signaling_NaN) &&
std::isnan(value)) {
special = true;
stream << ".nan";
} else if (std::numeric_limits<T>::has_infinity && std::isinf(value)) {
special = true;
if (std::signbit(value)) {
stream << "-.inf";
} else {
stream << ".inf";
}
}
}
if (!special) {
stream << value;
}
m_stream << stream.str();
StartedScalar();
return *this;
}
template <>
inline void Emitter::SetStreamablePrecision<float>(std::stringstream& stream) {
stream.precision(static_cast<std::streamsize>(GetFloatPrecision()));
}
template <>
inline void Emitter::SetStreamablePrecision<double>(std::stringstream& stream) {
stream.precision(static_cast<std::streamsize>(GetDoublePrecision()));
}
// overloads of insertion
inline Emitter& operator<<(Emitter& emitter, const std::string& v) {
return emitter.Write(v);
}
inline Emitter& operator<<(Emitter& emitter, bool v) {
return emitter.Write(v);
}
inline Emitter& operator<<(Emitter& emitter, char v) {
return emitter.Write(v);
}
inline Emitter& operator<<(Emitter& emitter, unsigned char v) {
return emitter.Write(static_cast<char>(v));
}
inline Emitter& operator<<(Emitter& emitter, const _Alias& v) {
return emitter.Write(v);
}
inline Emitter& operator<<(Emitter& emitter, const _Anchor& v) {
return emitter.Write(v);
}
inline Emitter& operator<<(Emitter& emitter, const _Tag& v) {
return emitter.Write(v);
}
inline Emitter& operator<<(Emitter& emitter, const _Comment& v) {
return emitter.Write(v);
}
inline Emitter& operator<<(Emitter& emitter, const _Null& v) {
return emitter.Write(v);
}
inline Emitter& operator<<(Emitter& emitter, const Binary& b) {
return emitter.Write(b);
}
inline Emitter& operator<<(Emitter& emitter, const char* v) {
return emitter.Write(std::string(v));
}
inline Emitter& operator<<(Emitter& emitter, int v) {
return emitter.WriteIntegralType(v);
}
inline Emitter& operator<<(Emitter& emitter, unsigned int v) {
return emitter.WriteIntegralType(v);
}
inline Emitter& operator<<(Emitter& emitter, short v) {
return emitter.WriteIntegralType(v);
}
inline Emitter& operator<<(Emitter& emitter, unsigned short v) {
return emitter.WriteIntegralType(v);
}
inline Emitter& operator<<(Emitter& emitter, long v) {
return emitter.WriteIntegralType(v);
}
inline Emitter& operator<<(Emitter& emitter, unsigned long v) {
return emitter.WriteIntegralType(v);
}
inline Emitter& operator<<(Emitter& emitter, long long v) {
return emitter.WriteIntegralType(v);
}
inline Emitter& operator<<(Emitter& emitter, unsigned long long v) {
return emitter.WriteIntegralType(v);
}
inline Emitter& operator<<(Emitter& emitter, float v) {
return emitter.WriteStreamable(v);
}
inline Emitter& operator<<(Emitter& emitter, double v) {
return emitter.WriteStreamable(v);
}
inline Emitter& operator<<(Emitter& emitter, EMITTER_MANIP value) {
return emitter.SetLocalValue(value);
}
inline Emitter& operator<<(Emitter& emitter, _Indent indent) {
return emitter.SetLocalIndent(indent);
}
inline Emitter& operator<<(Emitter& emitter, _Precision precision) {
return emitter.SetLocalPrecision(precision);
}
} // namespace YAML
#endif // EMITTER_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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third_party/yaml-cpp/include/yaml-cpp/emitterdef.h vendored Normal file
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#ifndef EMITTERDEF_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define EMITTERDEF_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
namespace YAML {
struct EmitterNodeType {
enum value { NoType, Property, Scalar, FlowSeq, BlockSeq, FlowMap, BlockMap };
};
}
#endif // EMITTERDEF_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef EMITTERMANIP_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define EMITTERMANIP_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include <string>
namespace YAML {
enum EMITTER_MANIP {
// general manipulators
Auto,
TagByKind,
Newline,
// output character set
EmitNonAscii,
EscapeNonAscii,
EscapeAsJson,
// string manipulators
// Auto, // duplicate
SingleQuoted,
DoubleQuoted,
Literal,
// null manipulators
LowerNull,
UpperNull,
CamelNull,
TildeNull,
// bool manipulators
YesNoBool, // yes, no
TrueFalseBool, // true, false
OnOffBool, // on, off
UpperCase, // TRUE, N
LowerCase, // f, yes
CamelCase, // No, Off
LongBool, // yes, On
ShortBool, // y, t
// int manipulators
Dec,
Hex,
Oct,
// document manipulators
BeginDoc,
EndDoc,
// sequence manipulators
BeginSeq,
EndSeq,
Flow,
Block,
// map manipulators
BeginMap,
EndMap,
Key,
Value,
// Flow, // duplicate
// Block, // duplicate
// Auto, // duplicate
LongKey
};
struct _Indent {
_Indent(int value_) : value(value_) {}
int value;
};
inline _Indent Indent(int value) { return _Indent(value); }
struct _Alias {
_Alias(const std::string& content_) : content(content_) {}
std::string content;
};
inline _Alias Alias(const std::string& content) { return _Alias(content); }
struct _Anchor {
_Anchor(const std::string& content_) : content(content_) {}
std::string content;
};
inline _Anchor Anchor(const std::string& content) { return _Anchor(content); }
struct _Tag {
struct Type {
enum value { Verbatim, PrimaryHandle, NamedHandle };
};
explicit _Tag(const std::string& prefix_, const std::string& content_,
Type::value type_)
: prefix(prefix_), content(content_), type(type_) {}
std::string prefix;
std::string content;
Type::value type;
};
inline _Tag VerbatimTag(const std::string& content) {
return _Tag("", content, _Tag::Type::Verbatim);
}
inline _Tag LocalTag(const std::string& content) {
return _Tag("", content, _Tag::Type::PrimaryHandle);
}
inline _Tag LocalTag(const std::string& prefix, const std::string content) {
return _Tag(prefix, content, _Tag::Type::NamedHandle);
}
inline _Tag SecondaryTag(const std::string& content) {
return _Tag("", content, _Tag::Type::NamedHandle);
}
struct _Comment {
_Comment(const std::string& content_) : content(content_) {}
std::string content;
};
inline _Comment Comment(const std::string& content) { return _Comment(content); }
struct _Precision {
_Precision(int floatPrecision_, int doublePrecision_)
: floatPrecision(floatPrecision_), doublePrecision(doublePrecision_) {}
int floatPrecision;
int doublePrecision;
};
inline _Precision FloatPrecision(int n) { return _Precision(n, -1); }
inline _Precision DoublePrecision(int n) { return _Precision(-1, n); }
inline _Precision Precision(int n) { return _Precision(n, n); }
}
#endif // EMITTERMANIP_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef EMITTERSTYLE_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define EMITTERSTYLE_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
namespace YAML {
struct EmitterStyle {
enum value { Default, Block, Flow };
};
}
#endif // EMITTERSTYLE_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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third_party/yaml-cpp/include/yaml-cpp/eventhandler.h vendored Normal file
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#ifndef EVENTHANDLER_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define EVENTHANDLER_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include <string>
#include "yaml-cpp/anchor.h"
#include "yaml-cpp/emitterstyle.h"
namespace YAML {
struct Mark;
class EventHandler {
public:
virtual ~EventHandler() = default;
virtual void OnDocumentStart(const Mark& mark) = 0;
virtual void OnDocumentEnd() = 0;
virtual void OnNull(const Mark& mark, anchor_t anchor) = 0;
virtual void OnAlias(const Mark& mark, anchor_t anchor) = 0;
virtual void OnScalar(const Mark& mark, const std::string& tag,
anchor_t anchor, const std::string& value) = 0;
virtual void OnSequenceStart(const Mark& mark, const std::string& tag,
anchor_t anchor, EmitterStyle::value style) = 0;
virtual void OnSequenceEnd() = 0;
virtual void OnMapStart(const Mark& mark, const std::string& tag,
anchor_t anchor, EmitterStyle::value style) = 0;
virtual void OnMapEnd() = 0;
virtual void OnAnchor(const Mark& /*mark*/,
const std::string& /*anchor_name*/) {
// empty default implementation for compatibility
}
};
} // namespace YAML
#endif // EVENTHANDLER_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef EXCEPTIONS_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define EXCEPTIONS_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include "yaml-cpp/mark.h"
#include "yaml-cpp/noexcept.h"
#include "yaml-cpp/traits.h"
#include <sstream>
#include <stdexcept>
#include <string>
namespace YAML {
// error messages
namespace ErrorMsg {
const char* const YAML_DIRECTIVE_ARGS =
"YAML directives must have exactly one argument";
const char* const YAML_VERSION = "bad YAML version: ";
const char* const YAML_MAJOR_VERSION = "YAML major version too large";
const char* const REPEATED_YAML_DIRECTIVE = "repeated YAML directive";
const char* const TAG_DIRECTIVE_ARGS =
"TAG directives must have exactly two arguments";
const char* const REPEATED_TAG_DIRECTIVE = "repeated TAG directive";
const char* const CHAR_IN_TAG_HANDLE =
"illegal character found while scanning tag handle";
const char* const TAG_WITH_NO_SUFFIX = "tag handle with no suffix";
const char* const END_OF_VERBATIM_TAG = "end of verbatim tag not found";
const char* const END_OF_MAP = "end of map not found";
const char* const END_OF_MAP_FLOW = "end of map flow not found";
const char* const END_OF_SEQ = "end of sequence not found";
const char* const END_OF_SEQ_FLOW = "end of sequence flow not found";
const char* const MULTIPLE_TAGS =
"cannot assign multiple tags to the same node";
const char* const MULTIPLE_ANCHORS =
"cannot assign multiple anchors to the same node";
const char* const MULTIPLE_ALIASES =
"cannot assign multiple aliases to the same node";
const char* const ALIAS_CONTENT =
"aliases can't have any content, *including* tags";
const char* const INVALID_HEX = "bad character found while scanning hex number";
const char* const INVALID_UNICODE = "invalid unicode: ";
const char* const INVALID_ESCAPE = "unknown escape character: ";
const char* const UNKNOWN_TOKEN = "unknown token";
const char* const DOC_IN_SCALAR = "illegal document indicator in scalar";
const char* const EOF_IN_SCALAR = "illegal EOF in scalar";
const char* const CHAR_IN_SCALAR = "illegal character in scalar";
const char* const TAB_IN_INDENTATION =
"illegal tab when looking for indentation";
const char* const FLOW_END = "illegal flow end";
const char* const BLOCK_ENTRY = "illegal block entry";
const char* const MAP_KEY = "illegal map key";
const char* const MAP_VALUE = "illegal map value";
const char* const ALIAS_NOT_FOUND = "alias not found after *";
const char* const ANCHOR_NOT_FOUND = "anchor not found after &";
const char* const CHAR_IN_ALIAS =
"illegal character found while scanning alias";
const char* const CHAR_IN_ANCHOR =
"illegal character found while scanning anchor";
const char* const ZERO_INDENT_IN_BLOCK =
"cannot set zero indentation for a block scalar";
const char* const CHAR_IN_BLOCK = "unexpected character in block scalar";
const char* const AMBIGUOUS_ANCHOR =
"cannot assign the same alias to multiple nodes";
const char* const UNKNOWN_ANCHOR = "the referenced anchor is not defined: ";
const char* const INVALID_NODE =
"invalid node; this may result from using a map iterator as a sequence "
"iterator, or vice-versa";
const char* const INVALID_SCALAR = "invalid scalar";
const char* const KEY_NOT_FOUND = "key not found";
const char* const BAD_CONVERSION = "bad conversion";
const char* const BAD_DEREFERENCE = "bad dereference";
const char* const BAD_SUBSCRIPT = "operator[] call on a scalar";
const char* const BAD_PUSHBACK = "appending to a non-sequence";
const char* const BAD_INSERT = "inserting in a non-convertible-to-map";
const char* const UNMATCHED_GROUP_TAG = "unmatched group tag";
const char* const UNEXPECTED_END_SEQ = "unexpected end sequence token";
const char* const UNEXPECTED_END_MAP = "unexpected end map token";
const char* const SINGLE_QUOTED_CHAR =
"invalid character in single-quoted string";
const char* const INVALID_ANCHOR = "invalid anchor";
const char* const INVALID_ALIAS = "invalid alias";
const char* const INVALID_TAG = "invalid tag";
const char* const BAD_FILE = "bad file";
template <typename T>
inline const std::string KEY_NOT_FOUND_WITH_KEY(
const T&, typename disable_if<is_numeric<T>>::type* = 0) {
return KEY_NOT_FOUND;
}
inline const std::string KEY_NOT_FOUND_WITH_KEY(const std::string& key) {
std::stringstream stream;
stream << KEY_NOT_FOUND << ": " << key;
return stream.str();
}
inline const std::string KEY_NOT_FOUND_WITH_KEY(const char* key) {
std::stringstream stream;
stream << KEY_NOT_FOUND << ": " << key;
return stream.str();
}
template <typename T>
inline const std::string KEY_NOT_FOUND_WITH_KEY(
const T& key, typename enable_if<is_numeric<T>>::type* = 0) {
std::stringstream stream;
stream << KEY_NOT_FOUND << ": " << key;
return stream.str();
}
template <typename T>
inline const std::string BAD_SUBSCRIPT_WITH_KEY(
const T&, typename disable_if<is_numeric<T>>::type* = nullptr) {
return BAD_SUBSCRIPT;
}
inline const std::string BAD_SUBSCRIPT_WITH_KEY(const std::string& key) {
std::stringstream stream;
stream << BAD_SUBSCRIPT << " (key: \"" << key << "\")";
return stream.str();
}
inline const std::string BAD_SUBSCRIPT_WITH_KEY(const char* key) {
std::stringstream stream;
stream << BAD_SUBSCRIPT << " (key: \"" << key << "\")";
return stream.str();
}
template <typename T>
inline const std::string BAD_SUBSCRIPT_WITH_KEY(
const T& key, typename enable_if<is_numeric<T>>::type* = nullptr) {
std::stringstream stream;
stream << BAD_SUBSCRIPT << " (key: \"" << key << "\")";
return stream.str();
}
inline const std::string INVALID_NODE_WITH_KEY(const std::string& key) {
std::stringstream stream;
if (key.empty()) {
return INVALID_NODE;
}
stream << "invalid node; first invalid key: \"" << key << "\"";
return stream.str();
}
} // namespace ErrorMsg
class YAML_CPP_API Exception : public std::runtime_error {
public:
Exception(const Mark& mark_, const std::string& msg_)
: std::runtime_error(build_what(mark_, msg_)), mark(mark_), msg(msg_) {}
~Exception() YAML_CPP_NOEXCEPT override;
Exception(const Exception&) = default;
Mark mark;
std::string msg;
private:
static const std::string build_what(const Mark& mark,
const std::string& msg) {
if (mark.is_null()) {
return msg;
}
std::stringstream output;
output << "yaml-cpp: error at line " << mark.line + 1 << ", column "
<< mark.column + 1 << ": " << msg;
return output.str();
}
};
class YAML_CPP_API ParserException : public Exception {
public:
ParserException(const Mark& mark_, const std::string& msg_)
: Exception(mark_, msg_) {}
ParserException(const ParserException&) = default;
~ParserException() YAML_CPP_NOEXCEPT override;
};
class YAML_CPP_API RepresentationException : public Exception {
public:
RepresentationException(const Mark& mark_, const std::string& msg_)
: Exception(mark_, msg_) {}
RepresentationException(const RepresentationException&) = default;
~RepresentationException() YAML_CPP_NOEXCEPT override;
};
// representation exceptions
class YAML_CPP_API InvalidScalar : public RepresentationException {
public:
InvalidScalar(const Mark& mark_)
: RepresentationException(mark_, ErrorMsg::INVALID_SCALAR) {}
InvalidScalar(const InvalidScalar&) = default;
~InvalidScalar() YAML_CPP_NOEXCEPT override;
};
class YAML_CPP_API KeyNotFound : public RepresentationException {
public:
template <typename T>
KeyNotFound(const Mark& mark_, const T& key_)
: RepresentationException(mark_, ErrorMsg::KEY_NOT_FOUND_WITH_KEY(key_)) {
}
KeyNotFound(const KeyNotFound&) = default;
~KeyNotFound() YAML_CPP_NOEXCEPT override;
};
template <typename T>
class YAML_CPP_API TypedKeyNotFound : public KeyNotFound {
public:
TypedKeyNotFound(const Mark& mark_, const T& key_)
: KeyNotFound(mark_, key_), key(key_) {}
~TypedKeyNotFound() YAML_CPP_NOEXCEPT override = default;
T key;
};
template <typename T>
inline TypedKeyNotFound<T> MakeTypedKeyNotFound(const Mark& mark,
const T& key) {
return TypedKeyNotFound<T>(mark, key);
}
class YAML_CPP_API InvalidNode : public RepresentationException {
public:
InvalidNode(const std::string& key)
: RepresentationException(Mark::null_mark(),
ErrorMsg::INVALID_NODE_WITH_KEY(key)) {}
InvalidNode(const InvalidNode&) = default;
~InvalidNode() YAML_CPP_NOEXCEPT override;
};
class YAML_CPP_API BadConversion : public RepresentationException {
public:
explicit BadConversion(const Mark& mark_)
: RepresentationException(mark_, ErrorMsg::BAD_CONVERSION) {}
BadConversion(const BadConversion&) = default;
~BadConversion() YAML_CPP_NOEXCEPT override;
};
template <typename T>
class TypedBadConversion : public BadConversion {
public:
explicit TypedBadConversion(const Mark& mark_) : BadConversion(mark_) {}
};
class YAML_CPP_API BadDereference : public RepresentationException {
public:
BadDereference()
: RepresentationException(Mark::null_mark(), ErrorMsg::BAD_DEREFERENCE) {}
BadDereference(const BadDereference&) = default;
~BadDereference() YAML_CPP_NOEXCEPT override;
};
class YAML_CPP_API BadSubscript : public RepresentationException {
public:
template <typename Key>
BadSubscript(const Mark& mark_, const Key& key)
: RepresentationException(mark_, ErrorMsg::BAD_SUBSCRIPT_WITH_KEY(key)) {}
BadSubscript(const BadSubscript&) = default;
~BadSubscript() YAML_CPP_NOEXCEPT override;
};
class YAML_CPP_API BadPushback : public RepresentationException {
public:
BadPushback()
: RepresentationException(Mark::null_mark(), ErrorMsg::BAD_PUSHBACK) {}
BadPushback(const BadPushback&) = default;
~BadPushback() YAML_CPP_NOEXCEPT override;
};
class YAML_CPP_API BadInsert : public RepresentationException {
public:
BadInsert()
: RepresentationException(Mark::null_mark(), ErrorMsg::BAD_INSERT) {}
BadInsert(const BadInsert&) = default;
~BadInsert() YAML_CPP_NOEXCEPT override;
};
class YAML_CPP_API EmitterException : public Exception {
public:
EmitterException(const std::string& msg_)
: Exception(Mark::null_mark(), msg_) {}
EmitterException(const EmitterException&) = default;
~EmitterException() YAML_CPP_NOEXCEPT override;
};
class YAML_CPP_API BadFile : public Exception {
public:
explicit BadFile(const std::string& filename)
: Exception(Mark::null_mark(),
std::string(ErrorMsg::BAD_FILE) + ": " + filename) {}
BadFile(const BadFile&) = default;
~BadFile() YAML_CPP_NOEXCEPT override;
};
} // namespace YAML
#endif // EXCEPTIONS_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef MARK_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define MARK_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include "yaml-cpp/dll.h"
namespace YAML {
struct YAML_CPP_API Mark {
Mark() : pos(0), line(0), column(0) {}
static const Mark null_mark() { return Mark(-1, -1, -1); }
bool is_null() const { return pos == -1 && line == -1 && column == -1; }
int pos;
int line, column;
private:
Mark(int pos_, int line_, int column_)
: pos(pos_), line(line_), column(column_) {}
};
}
#endif // MARK_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef NODE_CONVERT_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define NODE_CONVERT_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include <array>
#include <cmath>
#include <limits>
#include <list>
#include <map>
#include <unordered_map>
#include <sstream>
#include <type_traits>
#include <vector>
#include "yaml-cpp/binary.h"
#include "yaml-cpp/node/impl.h"
#include "yaml-cpp/node/iterator.h"
#include "yaml-cpp/node/node.h"
#include "yaml-cpp/node/type.h"
#include "yaml-cpp/null.h"
namespace YAML {
class Binary;
struct _Null;
template <typename T>
struct convert;
} // namespace YAML
namespace YAML {
namespace conversion {
inline bool IsInfinity(const std::string& input) {
return input == ".inf" || input == ".Inf" || input == ".INF" ||
input == "+.inf" || input == "+.Inf" || input == "+.INF";
}
inline bool IsNegativeInfinity(const std::string& input) {
return input == "-.inf" || input == "-.Inf" || input == "-.INF";
}
inline bool IsNaN(const std::string& input) {
return input == ".nan" || input == ".NaN" || input == ".NAN";
}
}
// Node
template <>
struct convert<Node> {
static Node encode(const Node& rhs) { return rhs; }
static bool decode(const Node& node, Node& rhs) {
rhs.reset(node);
return true;
}
};
// std::string
template <>
struct convert<std::string> {
static Node encode(const std::string& rhs) { return Node(rhs); }
static bool decode(const Node& node, std::string& rhs) {
if (!node.IsScalar())
return false;
rhs = node.Scalar();
return true;
}
};
// C-strings can only be encoded
template <>
struct convert<const char*> {
static Node encode(const char* rhs) { return Node(rhs); }
};
template <>
struct convert<char*> {
static Node encode(const char* rhs) { return Node(rhs); }
};
template <std::size_t N>
struct convert<char[N]> {
static Node encode(const char* rhs) { return Node(rhs); }
};
template <>
struct convert<_Null> {
static Node encode(const _Null& /* rhs */) { return Node(); }
static bool decode(const Node& node, _Null& /* rhs */) {
return node.IsNull();
}
};
namespace conversion {
template <typename T>
typename std::enable_if< std::is_floating_point<T>::value, void>::type
inner_encode(const T& rhs, std::stringstream& stream){
if (std::isnan(rhs)) {
stream << ".nan";
} else if (std::isinf(rhs)) {
if (std::signbit(rhs)) {
stream << "-.inf";
} else {
stream << ".inf";
}
} else {
stream << rhs;
}
}
template <typename T>
typename std::enable_if<!std::is_floating_point<T>::value, void>::type
inner_encode(const T& rhs, std::stringstream& stream){
stream << rhs;
}
template <typename T>
typename std::enable_if<(std::is_same<T, unsigned char>::value ||
std::is_same<T, signed char>::value), bool>::type
ConvertStreamTo(std::stringstream& stream, T& rhs) {
int num;
if ((stream >> std::noskipws >> num) && (stream >> std::ws).eof()) {
if (num >= (std::numeric_limits<T>::min)() &&
num <= (std::numeric_limits<T>::max)()) {
rhs = static_cast<T>(num);
return true;
}
}
return false;
}
template <typename T>
typename std::enable_if<!(std::is_same<T, unsigned char>::value ||
std::is_same<T, signed char>::value), bool>::type
ConvertStreamTo(std::stringstream& stream, T& rhs) {
if ((stream >> std::noskipws >> rhs) && (stream >> std::ws).eof()) {
return true;
}
return false;
}
}
#define YAML_DEFINE_CONVERT_STREAMABLE(type, negative_op) \
template <> \
struct convert<type> { \
\
static Node encode(const type& rhs) { \
std::stringstream stream; \
stream.precision(std::numeric_limits<type>::max_digits10); \
conversion::inner_encode(rhs, stream); \
return Node(stream.str()); \
} \
\
static bool decode(const Node& node, type& rhs) { \
if (node.Type() != NodeType::Scalar) { \
return false; \
} \
const std::string& input = node.Scalar(); \
std::stringstream stream(input); \
stream.unsetf(std::ios::dec); \
if ((stream.peek() == '-') && std::is_unsigned<type>::value) { \
return false; \
} \
if (conversion::ConvertStreamTo(stream, rhs)) { \
return true; \
} \
if (std::numeric_limits<type>::has_infinity) { \
if (conversion::IsInfinity(input)) { \
rhs = std::numeric_limits<type>::infinity(); \
return true; \
} else if (conversion::IsNegativeInfinity(input)) { \
rhs = negative_op std::numeric_limits<type>::infinity(); \
return true; \
} \
} \
\
if (std::numeric_limits<type>::has_quiet_NaN) { \
if (conversion::IsNaN(input)) { \
rhs = std::numeric_limits<type>::quiet_NaN(); \
return true; \
} \
} \
\
return false; \
} \
}
#define YAML_DEFINE_CONVERT_STREAMABLE_SIGNED(type) \
YAML_DEFINE_CONVERT_STREAMABLE(type, -)
#define YAML_DEFINE_CONVERT_STREAMABLE_UNSIGNED(type) \
YAML_DEFINE_CONVERT_STREAMABLE(type, +)
YAML_DEFINE_CONVERT_STREAMABLE_SIGNED(int);
YAML_DEFINE_CONVERT_STREAMABLE_SIGNED(short);
YAML_DEFINE_CONVERT_STREAMABLE_SIGNED(long);
YAML_DEFINE_CONVERT_STREAMABLE_SIGNED(long long);
YAML_DEFINE_CONVERT_STREAMABLE_UNSIGNED(unsigned);
YAML_DEFINE_CONVERT_STREAMABLE_UNSIGNED(unsigned short);
YAML_DEFINE_CONVERT_STREAMABLE_UNSIGNED(unsigned long);
YAML_DEFINE_CONVERT_STREAMABLE_UNSIGNED(unsigned long long);
YAML_DEFINE_CONVERT_STREAMABLE_SIGNED(char);
YAML_DEFINE_CONVERT_STREAMABLE_SIGNED(signed char);
YAML_DEFINE_CONVERT_STREAMABLE_UNSIGNED(unsigned char);
YAML_DEFINE_CONVERT_STREAMABLE_SIGNED(float);
YAML_DEFINE_CONVERT_STREAMABLE_SIGNED(double);
YAML_DEFINE_CONVERT_STREAMABLE_SIGNED(long double);
#undef YAML_DEFINE_CONVERT_STREAMABLE_SIGNED
#undef YAML_DEFINE_CONVERT_STREAMABLE_UNSIGNED
#undef YAML_DEFINE_CONVERT_STREAMABLE
// bool
template <>
struct convert<bool> {
static Node encode(bool rhs) { return rhs ? Node("true") : Node("false"); }
YAML_CPP_API static bool decode(const Node& node, bool& rhs);
};
// std::map
template <typename K, typename V, typename C, typename A>
struct convert<std::map<K, V, C, A>> {
static Node encode(const std::map<K, V, C, A>& rhs) {
Node node(NodeType::Map);
for (const auto& element : rhs)
node.force_insert(element.first, element.second);
return node;
}
static bool decode(const Node& node, std::map<K, V, C, A>& rhs) {
if (!node.IsMap())
return false;
rhs.clear();
for (const auto& element : node)
#if defined(__GNUC__) && __GNUC__ < 4
// workaround for GCC 3:
rhs[element.first.template as<K>()] = element.second.template as<V>();
#else
rhs[element.first.as<K>()] = element.second.as<V>();
#endif
return true;
}
};
// std::unordered_map
template <typename K, typename V, typename H, typename P, typename A>
struct convert<std::unordered_map<K, V, H, P, A>> {
static Node encode(const std::unordered_map<K, V, H, P, A>& rhs) {
Node node(NodeType::Map);
for (const auto& element : rhs)
node.force_insert(element.first, element.second);
return node;
}
static bool decode(const Node& node, std::unordered_map<K, V, H, P, A>& rhs) {
if (!node.IsMap())
return false;
rhs.clear();
for (const auto& element : node)
#if defined(__GNUC__) && __GNUC__ < 4
// workaround for GCC 3:
rhs[element.first.template as<K>()] = element.second.template as<V>();
#else
rhs[element.first.as<K>()] = element.second.as<V>();
#endif
return true;
}
};
// std::vector
template <typename T, typename A>
struct convert<std::vector<T, A>> {
static Node encode(const std::vector<T, A>& rhs) {
Node node(NodeType::Sequence);
for (const auto& element : rhs)
node.push_back(element);
return node;
}
static bool decode(const Node& node, std::vector<T, A>& rhs) {
if (!node.IsSequence())
return false;
rhs.clear();
for (const auto& element : node)
#if defined(__GNUC__) && __GNUC__ < 4
// workaround for GCC 3:
rhs.push_back(element.template as<T>());
#else
rhs.push_back(element.as<T>());
#endif
return true;
}
};
// std::list
template <typename T, typename A>
struct convert<std::list<T,A>> {
static Node encode(const std::list<T,A>& rhs) {
Node node(NodeType::Sequence);
for (const auto& element : rhs)
node.push_back(element);
return node;
}
static bool decode(const Node& node, std::list<T,A>& rhs) {
if (!node.IsSequence())
return false;
rhs.clear();
for (const auto& element : node)
#if defined(__GNUC__) && __GNUC__ < 4
// workaround for GCC 3:
rhs.push_back(element.template as<T>());
#else
rhs.push_back(element.as<T>());
#endif
return true;
}
};
// std::array
template <typename T, std::size_t N>
struct convert<std::array<T, N>> {
static Node encode(const std::array<T, N>& rhs) {
Node node(NodeType::Sequence);
for (const auto& element : rhs) {
node.push_back(element);
}
return node;
}
static bool decode(const Node& node, std::array<T, N>& rhs) {
if (!isNodeValid(node)) {
return false;
}
for (auto i = 0u; i < node.size(); ++i) {
#if defined(__GNUC__) && __GNUC__ < 4
// workaround for GCC 3:
rhs[i] = node[i].template as<T>();
#else
rhs[i] = node[i].as<T>();
#endif
}
return true;
}
private:
static bool isNodeValid(const Node& node) {
return node.IsSequence() && node.size() == N;
}
};
// std::pair
template <typename T, typename U>
struct convert<std::pair<T, U>> {
static Node encode(const std::pair<T, U>& rhs) {
Node node(NodeType::Sequence);
node.push_back(rhs.first);
node.push_back(rhs.second);
return node;
}
static bool decode(const Node& node, std::pair<T, U>& rhs) {
if (!node.IsSequence())
return false;
if (node.size() != 2)
return false;
#if defined(__GNUC__) && __GNUC__ < 4
// workaround for GCC 3:
rhs.first = node[0].template as<T>();
#else
rhs.first = node[0].as<T>();
#endif
#if defined(__GNUC__) && __GNUC__ < 4
// workaround for GCC 3:
rhs.second = node[1].template as<U>();
#else
rhs.second = node[1].as<U>();
#endif
return true;
}
};
// binary
template <>
struct convert<Binary> {
static Node encode(const Binary& rhs) {
return Node(EncodeBase64(rhs.data(), rhs.size()));
}
static bool decode(const Node& node, Binary& rhs) {
if (!node.IsScalar())
return false;
std::vector<unsigned char> data = DecodeBase64(node.Scalar());
if (data.empty() && !node.Scalar().empty())
return false;
rhs.swap(data);
return true;
}
};
}
#endif // NODE_CONVERT_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef NODE_DETAIL_IMPL_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define NODE_DETAIL_IMPL_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include "yaml-cpp/node/detail/node.h"
#include "yaml-cpp/node/detail/node_data.h"
#include <algorithm>
#include <type_traits>
namespace YAML {
namespace detail {
template <typename Key, typename Enable = void>
struct get_idx {
static node* get(const std::vector<node*>& /* sequence */,
const Key& /* key */, shared_memory_holder /* pMemory */) {
return nullptr;
}
};
template <typename Key>
struct get_idx<Key,
typename std::enable_if<std::is_unsigned<Key>::value &&
!std::is_same<Key, bool>::value>::type> {
static node* get(const std::vector<node*>& sequence, const Key& key,
shared_memory_holder /* pMemory */) {
return key < sequence.size() ? sequence[key] : nullptr;
}
static node* get(std::vector<node*>& sequence, const Key& key,
shared_memory_holder pMemory) {
if (key > sequence.size() || (key > 0 && !sequence[key - 1]->is_defined()))
return nullptr;
if (key == sequence.size())
sequence.push_back(&pMemory->create_node());
return sequence[key];
}
};
template <typename Key>
struct get_idx<Key, typename std::enable_if<std::is_signed<Key>::value>::type> {
static node* get(const std::vector<node*>& sequence, const Key& key,
shared_memory_holder pMemory) {
return key >= 0 ? get_idx<std::size_t>::get(
sequence, static_cast<std::size_t>(key), pMemory)
: nullptr;
}
static node* get(std::vector<node*>& sequence, const Key& key,
shared_memory_holder pMemory) {
return key >= 0 ? get_idx<std::size_t>::get(
sequence, static_cast<std::size_t>(key), pMemory)
: nullptr;
}
};
template <typename Key, typename Enable = void>
struct remove_idx {
static bool remove(std::vector<node*>&, const Key&, std::size_t&) {
return false;
}
};
template <typename Key>
struct remove_idx<
Key, typename std::enable_if<std::is_unsigned<Key>::value &&
!std::is_same<Key, bool>::value>::type> {
static bool remove(std::vector<node*>& sequence, const Key& key,
std::size_t& seqSize) {
if (key >= sequence.size()) {
return false;
} else {
sequence.erase(sequence.begin() + key);
if (seqSize > key) {
--seqSize;
}
return true;
}
}
};
template <typename Key>
struct remove_idx<Key,
typename std::enable_if<std::is_signed<Key>::value>::type> {
static bool remove(std::vector<node*>& sequence, const Key& key,
std::size_t& seqSize) {
return key >= 0 ? remove_idx<std::size_t>::remove(
sequence, static_cast<std::size_t>(key), seqSize)
: false;
}
};
template <typename T>
inline bool node::equals(const T& rhs, shared_memory_holder pMemory) {
T lhs;
if (convert<T>::decode(Node(*this, pMemory), lhs)) {
return lhs == rhs;
}
return false;
}
inline bool node::equals(const char* rhs, shared_memory_holder pMemory) {
std::string lhs;
if (convert<std::string>::decode(Node(*this, std::move(pMemory)), lhs)) {
return lhs == rhs;
}
return false;
}
// indexing
template <typename Key>
inline node* node_data::get(const Key& key,
shared_memory_holder pMemory) const {
switch (m_type) {
case NodeType::Map:
break;
case NodeType::Undefined:
case NodeType::Null:
return nullptr;
case NodeType::Sequence:
if (node* pNode = get_idx<Key>::get(m_sequence, key, pMemory))
return pNode;
return nullptr;
case NodeType::Scalar:
throw BadSubscript(m_mark, key);
}
auto it = std::find_if(m_map.begin(), m_map.end(), [&](const kv_pair m) {
return m.first->equals(key, pMemory);
});
return it != m_map.end() ? it->second : nullptr;
}
template <typename Key>
inline node& node_data::get(const Key& key, shared_memory_holder pMemory) {
switch (m_type) {
case NodeType::Map:
break;
case NodeType::Undefined:
case NodeType::Null:
case NodeType::Sequence:
if (node* pNode = get_idx<Key>::get(m_sequence, key, pMemory)) {
m_type = NodeType::Sequence;
return *pNode;
}
convert_to_map(pMemory);
break;
case NodeType::Scalar:
throw BadSubscript(m_mark, key);
}
auto it = std::find_if(m_map.begin(), m_map.end(), [&](const kv_pair m) {
return m.first->equals(key, pMemory);
});
if (it != m_map.end()) {
return *it->second;
}
node& k = convert_to_node(key, pMemory);
node& v = pMemory->create_node();
insert_map_pair(k, v);
return v;
}
template <typename Key>
inline bool node_data::remove(const Key& key, shared_memory_holder pMemory) {
if (m_type == NodeType::Sequence) {
return remove_idx<Key>::remove(m_sequence, key, m_seqSize);
}
if (m_type == NodeType::Map) {
kv_pairs::iterator it = m_undefinedPairs.begin();
while (it != m_undefinedPairs.end()) {
kv_pairs::iterator jt = std::next(it);
if (it->first->equals(key, pMemory)) {
m_undefinedPairs.erase(it);
}
it = jt;
}
auto iter = std::find_if(m_map.begin(), m_map.end(), [&](const kv_pair m) {
return m.first->equals(key, pMemory);
});
if (iter != m_map.end()) {
m_map.erase(iter);
return true;
}
}
return false;
}
// map
template <typename Key, typename Value>
inline void node_data::force_insert(const Key& key, const Value& value,
shared_memory_holder pMemory) {
switch (m_type) {
case NodeType::Map:
break;
case NodeType::Undefined:
case NodeType::Null:
case NodeType::Sequence:
convert_to_map(pMemory);
break;
case NodeType::Scalar:
throw BadInsert();
}
node& k = convert_to_node(key, pMemory);
node& v = convert_to_node(value, pMemory);
insert_map_pair(k, v);
}
template <typename T>
inline node& node_data::convert_to_node(const T& rhs,
shared_memory_holder pMemory) {
Node value = convert<T>::encode(rhs);
value.EnsureNodeExists();
pMemory->merge(*value.m_pMemory);
return *value.m_pNode;
}
}
}
#endif // NODE_DETAIL_IMPL_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef VALUE_DETAIL_ITERATOR_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define VALUE_DETAIL_ITERATOR_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include "yaml-cpp/dll.h"
#include "yaml-cpp/node/detail/node_iterator.h"
#include "yaml-cpp/node/node.h"
#include "yaml-cpp/node/ptr.h"
#include <cstddef>
#include <iterator>
namespace YAML {
namespace detail {
struct iterator_value;
template <typename V>
class iterator_base {
private:
template <typename>
friend class iterator_base;
struct enabler {};
using base_type = node_iterator;
struct proxy {
explicit proxy(const V& x) : m_ref(x) {}
V* operator->() { return std::addressof(m_ref); }
operator V*() { return std::addressof(m_ref); }
V m_ref;
};
public:
using iterator_category = std::forward_iterator_tag;
using value_type = V;
using difference_type = std::ptrdiff_t;
using pointer = V*;
using reference = V;
public:
iterator_base() : m_iterator(), m_pMemory() {}
explicit iterator_base(base_type rhs, shared_memory_holder pMemory)
: m_iterator(rhs), m_pMemory(pMemory) {}
template <class W>
iterator_base(const iterator_base<W>& rhs,
typename std::enable_if<std::is_convertible<W*, V*>::value,
enabler>::type = enabler())
: m_iterator(rhs.m_iterator), m_pMemory(rhs.m_pMemory) {}
iterator_base<V>& operator++() {
++m_iterator;
return *this;
}
iterator_base<V> operator++(int) {
iterator_base<V> iterator_pre(*this);
++(*this);
return iterator_pre;
}
template <typename W>
bool operator==(const iterator_base<W>& rhs) const {
return m_iterator == rhs.m_iterator;
}
template <typename W>
bool operator!=(const iterator_base<W>& rhs) const {
return m_iterator != rhs.m_iterator;
}
value_type operator*() const {
const typename base_type::value_type& v = *m_iterator;
if (v.pNode)
return value_type(Node(*v, m_pMemory));
if (v.first && v.second)
return value_type(Node(*v.first, m_pMemory), Node(*v.second, m_pMemory));
return value_type();
}
proxy operator->() const { return proxy(**this); }
private:
base_type m_iterator;
shared_memory_holder m_pMemory;
};
} // namespace detail
} // namespace YAML
#endif // VALUE_DETAIL_ITERATOR_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef VALUE_DETAIL_ITERATOR_FWD_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define VALUE_DETAIL_ITERATOR_FWD_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include "yaml-cpp/dll.h"
#include <list>
#include <utility>
#include <vector>
namespace YAML {
namespace detail {
struct iterator_value;
template <typename V>
class iterator_base;
}
using iterator = detail::iterator_base<detail::iterator_value>;
using const_iterator = detail::iterator_base<const detail::iterator_value>;
}
#endif // VALUE_DETAIL_ITERATOR_FWD_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef VALUE_DETAIL_MEMORY_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define VALUE_DETAIL_MEMORY_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include <set>
#include "yaml-cpp/dll.h"
#include "yaml-cpp/node/ptr.h"
namespace YAML {
namespace detail {
class node;
} // namespace detail
} // namespace YAML
namespace YAML {
namespace detail {
class YAML_CPP_API memory {
public:
memory() : m_nodes{} {}
node& create_node();
void merge(const memory& rhs);
private:
using Nodes = std::set<shared_node>;
Nodes m_nodes;
};
class YAML_CPP_API memory_holder {
public:
memory_holder() : m_pMemory(new memory) {}
node& create_node() { return m_pMemory->create_node(); }
void merge(memory_holder& rhs);
private:
shared_memory m_pMemory;
};
} // namespace detail
} // namespace YAML
#endif // VALUE_DETAIL_MEMORY_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef NODE_DETAIL_NODE_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define NODE_DETAIL_NODE_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include "yaml-cpp/dll.h"
#include "yaml-cpp/emitterstyle.h"
#include "yaml-cpp/node/detail/node_ref.h"
#include "yaml-cpp/node/ptr.h"
#include "yaml-cpp/node/type.h"
#include <set>
#include <atomic>
namespace YAML {
namespace detail {
class node {
private:
struct less {
bool operator ()(const node* l, const node* r) const {return l->m_index < r->m_index;}
};
public:
node() : m_pRef(new node_ref), m_dependencies{}, m_index{} {}
node(const node&) = delete;
node& operator=(const node&) = delete;
bool is(const node& rhs) const { return m_pRef == rhs.m_pRef; }
const node_ref* ref() const { return m_pRef.get(); }
bool is_defined() const { return m_pRef->is_defined(); }
const Mark& mark() const { return m_pRef->mark(); }
NodeType::value type() const { return m_pRef->type(); }
const std::string& scalar() const { return m_pRef->scalar(); }
const std::string& tag() const { return m_pRef->tag(); }
EmitterStyle::value style() const { return m_pRef->style(); }
template <typename T>
bool equals(const T& rhs, shared_memory_holder pMemory);
bool equals(const char* rhs, shared_memory_holder pMemory);
void mark_defined() {
if (is_defined())
return;
m_pRef->mark_defined();
for (node* dependency : m_dependencies)
dependency->mark_defined();
m_dependencies.clear();
}
void add_dependency(node& rhs) {
if (is_defined())
rhs.mark_defined();
else
m_dependencies.insert(&rhs);
}
void set_ref(const node& rhs) {
if (rhs.is_defined())
mark_defined();
m_pRef = rhs.m_pRef;
}
void set_data(const node& rhs) {
if (rhs.is_defined())
mark_defined();
m_pRef->set_data(*rhs.m_pRef);
}
void set_mark(const Mark& mark) { m_pRef->set_mark(mark); }
void set_type(NodeType::value type) {
if (type != NodeType::Undefined)
mark_defined();
m_pRef->set_type(type);
}
void set_null() {
mark_defined();
m_pRef->set_null();
}
void set_scalar(const std::string& scalar) {
mark_defined();
m_pRef->set_scalar(scalar);
}
void set_tag(const std::string& tag) {
mark_defined();
m_pRef->set_tag(tag);
}
// style
void set_style(EmitterStyle::value style) {
mark_defined();
m_pRef->set_style(style);
}
// size/iterator
std::size_t size() const { return m_pRef->size(); }
const_node_iterator begin() const {
return static_cast<const node_ref&>(*m_pRef).begin();
}
node_iterator begin() { return m_pRef->begin(); }
const_node_iterator end() const {
return static_cast<const node_ref&>(*m_pRef).end();
}
node_iterator end() { return m_pRef->end(); }
// sequence
void push_back(node& input, shared_memory_holder pMemory) {
m_pRef->push_back(input, pMemory);
input.add_dependency(*this);
m_index = m_amount.fetch_add(1);
}
void insert(node& key, node& value, shared_memory_holder pMemory) {
m_pRef->insert(key, value, pMemory);
key.add_dependency(*this);
value.add_dependency(*this);
}
// indexing
template <typename Key>
node* get(const Key& key, shared_memory_holder pMemory) const {
// NOTE: this returns a non-const node so that the top-level Node can wrap
// it, and returns a pointer so that it can be nullptr (if there is no such
// key).
return static_cast<const node_ref&>(*m_pRef).get(key, pMemory);
}
template <typename Key>
node& get(const Key& key, shared_memory_holder pMemory) {
node& value = m_pRef->get(key, pMemory);
value.add_dependency(*this);
return value;
}
template <typename Key>
bool remove(const Key& key, shared_memory_holder pMemory) {
return m_pRef->remove(key, pMemory);
}
node* get(node& key, shared_memory_holder pMemory) const {
// NOTE: this returns a non-const node so that the top-level Node can wrap
// it, and returns a pointer so that it can be nullptr (if there is no such
// key).
return static_cast<const node_ref&>(*m_pRef).get(key, pMemory);
}
node& get(node& key, shared_memory_holder pMemory) {
node& value = m_pRef->get(key, pMemory);
key.add_dependency(*this);
value.add_dependency(*this);
return value;
}
bool remove(node& key, shared_memory_holder pMemory) {
return m_pRef->remove(key, pMemory);
}
// map
template <typename Key, typename Value>
void force_insert(const Key& key, const Value& value,
shared_memory_holder pMemory) {
m_pRef->force_insert(key, value, pMemory);
}
private:
shared_node_ref m_pRef;
using nodes = std::set<node*, less>;
nodes m_dependencies;
size_t m_index;
static YAML_CPP_API std::atomic<size_t> m_amount;
};
} // namespace detail
} // namespace YAML
#endif // NODE_DETAIL_NODE_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef VALUE_DETAIL_NODE_DATA_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define VALUE_DETAIL_NODE_DATA_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include <list>
#include <map>
#include <string>
#include <utility>
#include <vector>
#include "yaml-cpp/dll.h"
#include "yaml-cpp/node/detail/node_iterator.h"
#include "yaml-cpp/node/iterator.h"
#include "yaml-cpp/node/ptr.h"
#include "yaml-cpp/node/type.h"
namespace YAML {
namespace detail {
class node;
} // namespace detail
} // namespace YAML
namespace YAML {
namespace detail {
class YAML_CPP_API node_data {
public:
node_data();
node_data(const node_data&) = delete;
node_data& operator=(const node_data&) = delete;
void mark_defined();
void set_mark(const Mark& mark);
void set_type(NodeType::value type);
void set_tag(const std::string& tag);
void set_null();
void set_scalar(const std::string& scalar);
void set_style(EmitterStyle::value style);
bool is_defined() const { return m_isDefined; }
const Mark& mark() const { return m_mark; }
NodeType::value type() const {
return m_isDefined ? m_type : NodeType::Undefined;
}
const std::string& scalar() const { return m_scalar; }
const std::string& tag() const { return m_tag; }
EmitterStyle::value style() const { return m_style; }
// size/iterator
std::size_t size() const;
const_node_iterator begin() const;
node_iterator begin();
const_node_iterator end() const;
node_iterator end();
// sequence
void push_back(node& node, const shared_memory_holder& pMemory);
void insert(node& key, node& value, const shared_memory_holder& pMemory);
// indexing
template <typename Key>
node* get(const Key& key, shared_memory_holder pMemory) const;
template <typename Key>
node& get(const Key& key, shared_memory_holder pMemory);
template <typename Key>
bool remove(const Key& key, shared_memory_holder pMemory);
node* get(node& key, const shared_memory_holder& pMemory) const;
node& get(node& key, const shared_memory_holder& pMemory);
bool remove(node& key, const shared_memory_holder& pMemory);
// map
template <typename Key, typename Value>
void force_insert(const Key& key, const Value& value,
shared_memory_holder pMemory);
public:
static const std::string& empty_scalar();
private:
void compute_seq_size() const;
void compute_map_size() const;
void reset_sequence();
void reset_map();
void insert_map_pair(node& key, node& value);
void convert_to_map(const shared_memory_holder& pMemory);
void convert_sequence_to_map(const shared_memory_holder& pMemory);
template <typename T>
static node& convert_to_node(const T& rhs, shared_memory_holder pMemory);
private:
bool m_isDefined;
Mark m_mark;
NodeType::value m_type;
std::string m_tag;
EmitterStyle::value m_style;
// scalar
std::string m_scalar;
// sequence
using node_seq = std::vector<node *>;
node_seq m_sequence;
mutable std::size_t m_seqSize;
// map
using node_map = std::vector<std::pair<node*, node*>>;
node_map m_map;
using kv_pair = std::pair<node*, node*>;
using kv_pairs = std::list<kv_pair>;
mutable kv_pairs m_undefinedPairs;
};
}
}
#endif // VALUE_DETAIL_NODE_DATA_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef VALUE_DETAIL_NODE_ITERATOR_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define VALUE_DETAIL_NODE_ITERATOR_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include "yaml-cpp/dll.h"
#include "yaml-cpp/node/ptr.h"
#include <cstddef>
#include <iterator>
#include <memory>
#include <map>
#include <utility>
#include <vector>
namespace YAML {
namespace detail {
struct iterator_type {
enum value { NoneType, Sequence, Map };
};
template <typename V>
struct node_iterator_value : public std::pair<V*, V*> {
using kv = std::pair<V*, V*>;
node_iterator_value() : kv(), pNode(nullptr) {}
explicit node_iterator_value(V& rhs) : kv(), pNode(&rhs) {}
explicit node_iterator_value(V& key, V& value) : kv(&key, &value), pNode(nullptr) {}
V& operator*() const { return *pNode; }
V& operator->() const { return *pNode; }
V* pNode;
};
using node_seq = std::vector<node *>;
using node_map = std::vector<std::pair<node*, node*>>;
template <typename V>
struct node_iterator_type {
using seq = node_seq::iterator;
using map = node_map::iterator;
};
template <typename V>
struct node_iterator_type<const V> {
using seq = node_seq::const_iterator;
using map = node_map::const_iterator;
};
template <typename V>
class node_iterator_base {
private:
struct enabler {};
struct proxy {
explicit proxy(const node_iterator_value<V>& x) : m_ref(x) {}
node_iterator_value<V>* operator->() { return std::addressof(m_ref); }
operator node_iterator_value<V>*() { return std::addressof(m_ref); }
node_iterator_value<V> m_ref;
};
public:
using iterator_category = std::forward_iterator_tag;
using value_type = node_iterator_value<V>;
using difference_type = std::ptrdiff_t;
using pointer = node_iterator_value<V>*;
using reference = node_iterator_value<V>;
using SeqIter = typename node_iterator_type<V>::seq;
using MapIter = typename node_iterator_type<V>::map;
node_iterator_base()
: m_type(iterator_type::NoneType), m_seqIt(), m_mapIt(), m_mapEnd() {}
explicit node_iterator_base(SeqIter seqIt)
: m_type(iterator_type::Sequence),
m_seqIt(seqIt),
m_mapIt(),
m_mapEnd() {}
explicit node_iterator_base(MapIter mapIt, MapIter mapEnd)
: m_type(iterator_type::Map),
m_seqIt(),
m_mapIt(mapIt),
m_mapEnd(mapEnd) {
m_mapIt = increment_until_defined(m_mapIt);
}
template <typename W>
node_iterator_base(const node_iterator_base<W>& rhs,
typename std::enable_if<std::is_convertible<W*, V*>::value,
enabler>::type = enabler())
: m_type(rhs.m_type),
m_seqIt(rhs.m_seqIt),
m_mapIt(rhs.m_mapIt),
m_mapEnd(rhs.m_mapEnd) {}
template <typename>
friend class node_iterator_base;
template <typename W>
bool operator==(const node_iterator_base<W>& rhs) const {
if (m_type != rhs.m_type)
return false;
switch (m_type) {
case iterator_type::NoneType:
return true;
case iterator_type::Sequence:
return m_seqIt == rhs.m_seqIt;
case iterator_type::Map:
return m_mapIt == rhs.m_mapIt;
}
return true;
}
template <typename W>
bool operator!=(const node_iterator_base<W>& rhs) const {
return !(*this == rhs);
}
node_iterator_base<V>& operator++() {
switch (m_type) {
case iterator_type::NoneType:
break;
case iterator_type::Sequence:
++m_seqIt;
break;
case iterator_type::Map:
++m_mapIt;
m_mapIt = increment_until_defined(m_mapIt);
break;
}
return *this;
}
node_iterator_base<V> operator++(int) {
node_iterator_base<V> iterator_pre(*this);
++(*this);
return iterator_pre;
}
value_type operator*() const {
switch (m_type) {
case iterator_type::NoneType:
return value_type();
case iterator_type::Sequence:
return value_type(**m_seqIt);
case iterator_type::Map:
return value_type(*m_mapIt->first, *m_mapIt->second);
}
return value_type();
}
proxy operator->() const { return proxy(**this); }
MapIter increment_until_defined(MapIter it) {
while (it != m_mapEnd && !is_defined(it))
++it;
return it;
}
bool is_defined(MapIter it) const {
return it->first->is_defined() && it->second->is_defined();
}
private:
typename iterator_type::value m_type;
SeqIter m_seqIt;
MapIter m_mapIt, m_mapEnd;
};
using node_iterator = node_iterator_base<node>;
using const_node_iterator = node_iterator_base<const node>;
}
}
#endif // VALUE_DETAIL_NODE_ITERATOR_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef VALUE_DETAIL_NODE_REF_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define VALUE_DETAIL_NODE_REF_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include "yaml-cpp/dll.h"
#include "yaml-cpp/node/type.h"
#include "yaml-cpp/node/ptr.h"
#include "yaml-cpp/node/detail/node_data.h"
namespace YAML {
namespace detail {
class node_ref {
public:
node_ref() : m_pData(new node_data) {}
node_ref(const node_ref&) = delete;
node_ref& operator=(const node_ref&) = delete;
bool is_defined() const { return m_pData->is_defined(); }
const Mark& mark() const { return m_pData->mark(); }
NodeType::value type() const { return m_pData->type(); }
const std::string& scalar() const { return m_pData->scalar(); }
const std::string& tag() const { return m_pData->tag(); }
EmitterStyle::value style() const { return m_pData->style(); }
void mark_defined() { m_pData->mark_defined(); }
void set_data(const node_ref& rhs) { m_pData = rhs.m_pData; }
void set_mark(const Mark& mark) { m_pData->set_mark(mark); }
void set_type(NodeType::value type) { m_pData->set_type(type); }
void set_tag(const std::string& tag) { m_pData->set_tag(tag); }
void set_null() { m_pData->set_null(); }
void set_scalar(const std::string& scalar) { m_pData->set_scalar(scalar); }
void set_style(EmitterStyle::value style) { m_pData->set_style(style); }
// size/iterator
std::size_t size() const { return m_pData->size(); }
const_node_iterator begin() const {
return static_cast<const node_data&>(*m_pData).begin();
}
node_iterator begin() { return m_pData->begin(); }
const_node_iterator end() const {
return static_cast<const node_data&>(*m_pData).end();
}
node_iterator end() { return m_pData->end(); }
// sequence
void push_back(node& node, shared_memory_holder pMemory) {
m_pData->push_back(node, pMemory);
}
void insert(node& key, node& value, shared_memory_holder pMemory) {
m_pData->insert(key, value, pMemory);
}
// indexing
template <typename Key>
node* get(const Key& key, shared_memory_holder pMemory) const {
return static_cast<const node_data&>(*m_pData).get(key, pMemory);
}
template <typename Key>
node& get(const Key& key, shared_memory_holder pMemory) {
return m_pData->get(key, pMemory);
}
template <typename Key>
bool remove(const Key& key, shared_memory_holder pMemory) {
return m_pData->remove(key, pMemory);
}
node* get(node& key, shared_memory_holder pMemory) const {
return static_cast<const node_data&>(*m_pData).get(key, pMemory);
}
node& get(node& key, shared_memory_holder pMemory) {
return m_pData->get(key, pMemory);
}
bool remove(node& key, shared_memory_holder pMemory) {
return m_pData->remove(key, pMemory);
}
// map
template <typename Key, typename Value>
void force_insert(const Key& key, const Value& value,
shared_memory_holder pMemory) {
m_pData->force_insert(key, value, pMemory);
}
private:
shared_node_data m_pData;
};
}
}
#endif // VALUE_DETAIL_NODE_REF_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef NODE_EMIT_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define NODE_EMIT_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include <string>
#include <iosfwd>
#include "yaml-cpp/dll.h"
namespace YAML {
class Emitter;
class Node;
/**
* Emits the node to the given {@link Emitter}. If there is an error in writing,
* {@link Emitter#good} will return false.
*/
YAML_CPP_API Emitter& operator<<(Emitter& out, const Node& node);
/** Emits the node to the given output stream. */
YAML_CPP_API std::ostream& operator<<(std::ostream& out, const Node& node);
/** Converts the node to a YAML string. */
YAML_CPP_API std::string Dump(const Node& node);
} // namespace YAML
#endif // NODE_EMIT_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef NODE_IMPL_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define NODE_IMPL_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include "yaml-cpp/exceptions.h"
#include "yaml-cpp/node/detail/memory.h"
#include "yaml-cpp/node/detail/node.h"
#include "yaml-cpp/node/iterator.h"
#include "yaml-cpp/node/node.h"
#include <sstream>
#include <string>
namespace YAML {
inline Node::Node()
: m_isValid(true), m_invalidKey{}, m_pMemory(nullptr), m_pNode(nullptr) {}
inline Node::Node(NodeType::value type)
: m_isValid(true),
m_invalidKey{},
m_pMemory(new detail::memory_holder),
m_pNode(&m_pMemory->create_node()) {
m_pNode->set_type(type);
}
template <typename T>
inline Node::Node(const T& rhs)
: m_isValid(true),
m_invalidKey{},
m_pMemory(new detail::memory_holder),
m_pNode(&m_pMemory->create_node()) {
Assign(rhs);
}
inline Node::Node(const detail::iterator_value& rhs)
: m_isValid(rhs.m_isValid),
m_invalidKey(rhs.m_invalidKey),
m_pMemory(rhs.m_pMemory),
m_pNode(rhs.m_pNode) {}
inline Node::Node(const Node&) = default;
inline Node::Node(Zombie)
: m_isValid(false), m_invalidKey{}, m_pMemory{}, m_pNode(nullptr) {}
inline Node::Node(Zombie, const std::string& key)
: m_isValid(false), m_invalidKey(key), m_pMemory{}, m_pNode(nullptr) {}
inline Node::Node(detail::node& node, detail::shared_memory_holder pMemory)
: m_isValid(true), m_invalidKey{}, m_pMemory(pMemory), m_pNode(&node) {}
inline Node::~Node() = default;
inline void Node::EnsureNodeExists() const {
if (!m_isValid)
throw InvalidNode(m_invalidKey);
if (!m_pNode) {
m_pMemory.reset(new detail::memory_holder);
m_pNode = &m_pMemory->create_node();
m_pNode->set_null();
}
}
inline bool Node::IsDefined() const {
if (!m_isValid) {
return false;
}
return m_pNode ? m_pNode->is_defined() : true;
}
inline Mark Node::Mark() const {
if (!m_isValid) {
throw InvalidNode(m_invalidKey);
}
return m_pNode ? m_pNode->mark() : Mark::null_mark();
}
inline NodeType::value Node::Type() const {
if (!m_isValid)
throw InvalidNode(m_invalidKey);
return m_pNode ? m_pNode->type() : NodeType::Null;
}
// access
// template helpers
template <typename T, typename S>
struct as_if {
explicit as_if(const Node& node_) : node(node_) {}
const Node& node;
T operator()(const S& fallback) const {
if (!node.m_pNode)
return fallback;
T t;
if (convert<T>::decode(node, t))
return t;
return fallback;
}
};
template <typename S>
struct as_if<std::string, S> {
explicit as_if(const Node& node_) : node(node_) {}
const Node& node;
std::string operator()(const S& fallback) const {
if (node.Type() == NodeType::Null)
return "null";
if (node.Type() != NodeType::Scalar)
return fallback;
return node.Scalar();
}
};
template <typename T>
struct as_if<T, void> {
explicit as_if(const Node& node_) : node(node_) {}
const Node& node;
T operator()() const {
if (!node.m_pNode)
throw TypedBadConversion<T>(node.Mark());
T t;
if (convert<T>::decode(node, t))
return t;
throw TypedBadConversion<T>(node.Mark());
}
};
template <>
struct as_if<std::string, void> {
explicit as_if(const Node& node_) : node(node_) {}
const Node& node;
std::string operator()() const {
if (node.Type() == NodeType::Null)
return "null";
if (node.Type() != NodeType::Scalar)
throw TypedBadConversion<std::string>(node.Mark());
return node.Scalar();
}
};
// access functions
template <typename T>
inline T Node::as() const {
if (!m_isValid)
throw InvalidNode(m_invalidKey);
return as_if<T, void>(*this)();
}
template <typename T, typename S>
inline T Node::as(const S& fallback) const {
if (!m_isValid)
return fallback;
return as_if<T, S>(*this)(fallback);
}
inline const std::string& Node::Scalar() const {
if (!m_isValid)
throw InvalidNode(m_invalidKey);
return m_pNode ? m_pNode->scalar() : detail::node_data::empty_scalar();
}
inline const std::string& Node::Tag() const {
if (!m_isValid)
throw InvalidNode(m_invalidKey);
return m_pNode ? m_pNode->tag() : detail::node_data::empty_scalar();
}
inline void Node::SetTag(const std::string& tag) {
EnsureNodeExists();
m_pNode->set_tag(tag);
}
inline EmitterStyle::value Node::Style() const {
if (!m_isValid)
throw InvalidNode(m_invalidKey);
return m_pNode ? m_pNode->style() : EmitterStyle::Default;
}
inline void Node::SetStyle(EmitterStyle::value style) {
EnsureNodeExists();
m_pNode->set_style(style);
}
// assignment
inline bool Node::is(const Node& rhs) const {
if (!m_isValid || !rhs.m_isValid)
throw InvalidNode(m_invalidKey);
if (!m_pNode || !rhs.m_pNode)
return false;
return m_pNode->is(*rhs.m_pNode);
}
template <typename T>
inline Node& Node::operator=(const T& rhs) {
Assign(rhs);
return *this;
}
inline Node& Node::operator=(const Node& rhs) {
if (is(rhs))
return *this;
AssignNode(rhs);
return *this;
}
inline void Node::reset(const YAML::Node& rhs) {
if (!m_isValid || !rhs.m_isValid)
throw InvalidNode(m_invalidKey);
m_pMemory = rhs.m_pMemory;
m_pNode = rhs.m_pNode;
}
template <typename T>
inline void Node::Assign(const T& rhs) {
if (!m_isValid)
throw InvalidNode(m_invalidKey);
AssignData(convert<T>::encode(rhs));
}
template <>
inline void Node::Assign(const std::string& rhs) {
EnsureNodeExists();
m_pNode->set_scalar(rhs);
}
inline void Node::Assign(const char* rhs) {
EnsureNodeExists();
m_pNode->set_scalar(rhs);
}
inline void Node::Assign(char* rhs) {
EnsureNodeExists();
m_pNode->set_scalar(rhs);
}
inline void Node::AssignData(const Node& rhs) {
EnsureNodeExists();
rhs.EnsureNodeExists();
m_pNode->set_data(*rhs.m_pNode);
m_pMemory->merge(*rhs.m_pMemory);
}
inline void Node::AssignNode(const Node& rhs) {
if (!m_isValid)
throw InvalidNode(m_invalidKey);
rhs.EnsureNodeExists();
if (!m_pNode) {
m_pNode = rhs.m_pNode;
m_pMemory = rhs.m_pMemory;
return;
}
m_pNode->set_ref(*rhs.m_pNode);
m_pMemory->merge(*rhs.m_pMemory);
m_pNode = rhs.m_pNode;
}
// size/iterator
inline std::size_t Node::size() const {
if (!m_isValid)
throw InvalidNode(m_invalidKey);
return m_pNode ? m_pNode->size() : 0;
}
inline const_iterator Node::begin() const {
if (!m_isValid)
return const_iterator();
return m_pNode ? const_iterator(m_pNode->begin(), m_pMemory)
: const_iterator();
}
inline iterator Node::begin() {
if (!m_isValid)
return iterator();
return m_pNode ? iterator(m_pNode->begin(), m_pMemory) : iterator();
}
inline const_iterator Node::end() const {
if (!m_isValid)
return const_iterator();
return m_pNode ? const_iterator(m_pNode->end(), m_pMemory) : const_iterator();
}
inline iterator Node::end() {
if (!m_isValid)
return iterator();
return m_pNode ? iterator(m_pNode->end(), m_pMemory) : iterator();
}
// sequence
template <typename T>
inline void Node::push_back(const T& rhs) {
if (!m_isValid)
throw InvalidNode(m_invalidKey);
push_back(Node(rhs));
}
inline void Node::push_back(const Node& rhs) {
EnsureNodeExists();
rhs.EnsureNodeExists();
m_pNode->push_back(*rhs.m_pNode, m_pMemory);
m_pMemory->merge(*rhs.m_pMemory);
}
template<typename Key>
std::string key_to_string(const Key& key) {
return streamable_to_string<Key, is_streamable<std::stringstream, Key>::value>().impl(key);
}
// indexing
template <typename Key>
inline const Node Node::operator[](const Key& key) const {
EnsureNodeExists();
detail::node* value =
static_cast<const detail::node&>(*m_pNode).get(key, m_pMemory);
if (!value) {
return Node(ZombieNode, key_to_string(key));
}
return Node(*value, m_pMemory);
}
template <typename Key>
inline Node Node::operator[](const Key& key) {
EnsureNodeExists();
detail::node& value = m_pNode->get(key, m_pMemory);
return Node(value, m_pMemory);
}
template <typename Key>
inline bool Node::remove(const Key& key) {
EnsureNodeExists();
return m_pNode->remove(key, m_pMemory);
}
inline const Node Node::operator[](const Node& key) const {
EnsureNodeExists();
key.EnsureNodeExists();
m_pMemory->merge(*key.m_pMemory);
detail::node* value =
static_cast<const detail::node&>(*m_pNode).get(*key.m_pNode, m_pMemory);
if (!value) {
return Node(ZombieNode, key_to_string(key));
}
return Node(*value, m_pMemory);
}
inline Node Node::operator[](const Node& key) {
EnsureNodeExists();
key.EnsureNodeExists();
m_pMemory->merge(*key.m_pMemory);
detail::node& value = m_pNode->get(*key.m_pNode, m_pMemory);
return Node(value, m_pMemory);
}
inline bool Node::remove(const Node& key) {
EnsureNodeExists();
key.EnsureNodeExists();
return m_pNode->remove(*key.m_pNode, m_pMemory);
}
// map
template <typename Key, typename Value>
inline void Node::force_insert(const Key& key, const Value& value) {
EnsureNodeExists();
m_pNode->force_insert(key, value, m_pMemory);
}
// free functions
inline bool operator==(const Node& lhs, const Node& rhs) { return lhs.is(rhs); }
} // namespace YAML
#endif // NODE_IMPL_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef VALUE_ITERATOR_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define VALUE_ITERATOR_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include "yaml-cpp/dll.h"
#include "yaml-cpp/node/node.h"
#include "yaml-cpp/node/detail/iterator_fwd.h"
#include "yaml-cpp/node/detail/iterator.h"
#include <list>
#include <utility>
#include <vector>
// Assert in place so gcc + libc++ combination properly builds
static_assert(std::is_constructible<YAML::Node, const YAML::Node&>::value, "Node must be copy constructable");
namespace YAML {
namespace detail {
struct iterator_value : public Node, std::pair<Node, Node> {
iterator_value() = default;
explicit iterator_value(const Node& rhs)
: Node(rhs),
std::pair<Node, Node>(Node(Node::ZombieNode), Node(Node::ZombieNode)) {}
explicit iterator_value(const Node& key, const Node& value)
: Node(Node::ZombieNode), std::pair<Node, Node>(key, value) {}
};
}
}
#endif // VALUE_ITERATOR_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef NODE_NODE_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define NODE_NODE_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include <stdexcept>
#include <string>
#include "yaml-cpp/dll.h"
#include "yaml-cpp/emitterstyle.h"
#include "yaml-cpp/mark.h"
#include "yaml-cpp/node/detail/iterator_fwd.h"
#include "yaml-cpp/node/ptr.h"
#include "yaml-cpp/node/type.h"
namespace YAML {
namespace detail {
class node;
class node_data;
struct iterator_value;
} // namespace detail
} // namespace YAML
namespace YAML {
class YAML_CPP_API Node {
public:
friend class NodeBuilder;
friend class NodeEvents;
friend struct detail::iterator_value;
friend class detail::node;
friend class detail::node_data;
template <typename>
friend class detail::iterator_base;
template <typename T, typename S>
friend struct as_if;
using iterator = YAML::iterator;
using const_iterator = YAML::const_iterator;
Node();
explicit Node(NodeType::value type);
template <typename T>
explicit Node(const T& rhs);
explicit Node(const detail::iterator_value& rhs);
Node(const Node& rhs);
~Node();
YAML::Mark Mark() const;
NodeType::value Type() const;
bool IsDefined() const;
bool IsNull() const { return Type() == NodeType::Null; }
bool IsScalar() const { return Type() == NodeType::Scalar; }
bool IsSequence() const { return Type() == NodeType::Sequence; }
bool IsMap() const { return Type() == NodeType::Map; }
// bool conversions
explicit operator bool() const { return IsDefined(); }
bool operator!() const { return !IsDefined(); }
// access
template <typename T>
T as() const;
template <typename T, typename S>
T as(const S& fallback) const;
const std::string& Scalar() const;
const std::string& Tag() const;
void SetTag(const std::string& tag);
// style
// WARNING: This API might change in future releases.
EmitterStyle::value Style() const;
void SetStyle(EmitterStyle::value style);
// assignment
bool is(const Node& rhs) const;
template <typename T>
Node& operator=(const T& rhs);
Node& operator=(const Node& rhs);
void reset(const Node& rhs = Node());
// size/iterator
std::size_t size() const;
const_iterator begin() const;
iterator begin();
const_iterator end() const;
iterator end();
// sequence
template <typename T>
void push_back(const T& rhs);
void push_back(const Node& rhs);
// indexing
template <typename Key>
const Node operator[](const Key& key) const;
template <typename Key>
Node operator[](const Key& key);
template <typename Key>
bool remove(const Key& key);
const Node operator[](const Node& key) const;
Node operator[](const Node& key);
bool remove(const Node& key);
// map
template <typename Key, typename Value>
void force_insert(const Key& key, const Value& value);
private:
enum Zombie { ZombieNode };
explicit Node(Zombie);
explicit Node(Zombie, const std::string&);
explicit Node(detail::node& node, detail::shared_memory_holder pMemory);
void EnsureNodeExists() const;
template <typename T>
void Assign(const T& rhs);
void Assign(const char* rhs);
void Assign(char* rhs);
void AssignData(const Node& rhs);
void AssignNode(const Node& rhs);
private:
bool m_isValid;
// String representation of invalid key, if the node is invalid.
std::string m_invalidKey;
mutable detail::shared_memory_holder m_pMemory;
mutable detail::node* m_pNode;
};
YAML_CPP_API bool operator==(const Node& lhs, const Node& rhs);
YAML_CPP_API Node Clone(const Node& node);
template <typename T>
struct convert;
}
#endif // NODE_NODE_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef VALUE_PARSE_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define VALUE_PARSE_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include <iosfwd>
#include <string>
#include <vector>
#include "yaml-cpp/dll.h"
namespace YAML {
class Node;
/**
* Loads the input string as a single YAML document.
*
* @throws {@link ParserException} if it is malformed.
*/
YAML_CPP_API Node Load(const std::string& input);
/**
* Loads the input string as a single YAML document.
*
* @throws {@link ParserException} if it is malformed.
*/
YAML_CPP_API Node Load(const char* input);
/**
* Loads the input stream as a single YAML document.
*
* @throws {@link ParserException} if it is malformed.
*/
YAML_CPP_API Node Load(std::istream& input);
/**
* Loads the input file as a single YAML document.
*
* @throws {@link ParserException} if it is malformed.
* @throws {@link BadFile} if the file cannot be loaded.
*/
YAML_CPP_API Node LoadFile(const std::string& filename);
/**
* Loads the input string as a list of YAML documents.
*
* @throws {@link ParserException} if it is malformed.
*/
YAML_CPP_API std::vector<Node> LoadAll(const std::string& input);
/**
* Loads the input string as a list of YAML documents.
*
* @throws {@link ParserException} if it is malformed.
*/
YAML_CPP_API std::vector<Node> LoadAll(const char* input);
/**
* Loads the input stream as a list of YAML documents.
*
* @throws {@link ParserException} if it is malformed.
*/
YAML_CPP_API std::vector<Node> LoadAll(std::istream& input);
/**
* Loads the input file as a list of YAML documents.
*
* @throws {@link ParserException} if it is malformed.
* @throws {@link BadFile} if the file cannot be loaded.
*/
YAML_CPP_API std::vector<Node> LoadAllFromFile(const std::string& filename);
} // namespace YAML
#endif // VALUE_PARSE_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef VALUE_PTR_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define VALUE_PTR_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include <memory>
namespace YAML {
namespace detail {
class node;
class node_ref;
class node_data;
class memory;
class memory_holder;
using shared_node = std::shared_ptr<node>;
using shared_node_ref = std::shared_ptr<node_ref>;
using shared_node_data = std::shared_ptr<node_data>;
using shared_memory_holder = std::shared_ptr<memory_holder>;
using shared_memory = std::shared_ptr<memory>;
}
}
#endif // VALUE_PTR_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef VALUE_TYPE_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define VALUE_TYPE_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
namespace YAML {
struct NodeType {
enum value { Undefined, Null, Scalar, Sequence, Map };
};
}
#endif // VALUE_TYPE_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef NOEXCEPT_H_768872DA_476C_11EA_88B8_90B11C0C0FF8
#define NOEXCEPT_H_768872DA_476C_11EA_88B8_90B11C0C0FF8
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
// This is here for compatibility with older versions of Visual Studio
// which don't support noexcept.
#if defined(_MSC_VER) && _MSC_VER < 1900
#define YAML_CPP_NOEXCEPT _NOEXCEPT
#else
#define YAML_CPP_NOEXCEPT noexcept
#endif
#endif

26
third_party/yaml-cpp/include/yaml-cpp/null.h vendored Normal file
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#ifndef NULL_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define NULL_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include "yaml-cpp/dll.h"
#include <string>
namespace YAML {
class Node;
struct YAML_CPP_API _Null {};
inline bool operator==(const _Null&, const _Null&) { return true; }
inline bool operator!=(const _Null&, const _Null&) { return false; }
YAML_CPP_API bool IsNull(const Node& node); // old API only
YAML_CPP_API bool IsNullString(const std::string& str);
extern YAML_CPP_API _Null Null;
}
#endif // NULL_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef OSTREAM_WRAPPER_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define OSTREAM_WRAPPER_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include <string>
#include <vector>
#include "yaml-cpp/dll.h"
namespace YAML {
class YAML_CPP_API ostream_wrapper {
public:
ostream_wrapper();
explicit ostream_wrapper(std::ostream& stream);
ostream_wrapper(const ostream_wrapper&) = delete;
ostream_wrapper(ostream_wrapper&&) = delete;
ostream_wrapper& operator=(const ostream_wrapper&) = delete;
ostream_wrapper& operator=(ostream_wrapper&&) = delete;
~ostream_wrapper();
void write(const std::string& str);
void write(const char* str, std::size_t size);
void set_comment() { m_comment = true; }
const char* str() const {
if (m_pStream) {
return nullptr;
} else {
m_buffer[m_pos] = '\0';
return &m_buffer[0];
}
}
std::size_t row() const { return m_row; }
std::size_t col() const { return m_col; }
std::size_t pos() const { return m_pos; }
bool comment() const { return m_comment; }
private:
void update_pos(char ch);
private:
mutable std::vector<char> m_buffer;
std::ostream* const m_pStream;
std::size_t m_pos;
std::size_t m_row, m_col;
bool m_comment;
};
template <std::size_t N>
inline ostream_wrapper& operator<<(ostream_wrapper& stream,
const char (&str)[N]) {
stream.write(str, N - 1);
return stream;
}
inline ostream_wrapper& operator<<(ostream_wrapper& stream,
const std::string& str) {
stream.write(str);
return stream;
}
inline ostream_wrapper& operator<<(ostream_wrapper& stream, char ch) {
stream.write(&ch, 1);
return stream;
}
} // namespace YAML
#endif // OSTREAM_WRAPPER_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef PARSER_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define PARSER_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include <ios>
#include <memory>
#include "yaml-cpp/dll.h"
namespace YAML {
class EventHandler;
class Node;
class Scanner;
struct Directives;
struct Token;
/**
* A parser turns a stream of bytes into one stream of "events" per YAML
* document in the input stream.
*/
class YAML_CPP_API Parser {
public:
/** Constructs an empty parser (with no input. */
Parser();
Parser(const Parser&) = delete;
Parser(Parser&&) = delete;
Parser& operator=(const Parser&) = delete;
Parser& operator=(Parser&&) = delete;
/**
* Constructs a parser from the given input stream. The input stream must
* live as long as the parser.
*/
explicit Parser(std::istream& in);
~Parser();
/** Evaluates to true if the parser has some valid input to be read. */
explicit operator bool() const;
/**
* Resets the parser with the given input stream. Any existing state is
* erased.
*/
void Load(std::istream& in);
/**
* Handles the next document by calling events on the {@code eventHandler}.
*
* @throw a ParserException on error.
* @return false if there are no more documents
*/
bool HandleNextDocument(EventHandler& eventHandler);
void PrintTokens(std::ostream& out);
private:
/**
* Reads any directives that are next in the queue, setting the internal
* {@code m_pDirectives} state.
*/
void ParseDirectives();
void HandleDirective(const Token& token);
/**
* Handles a "YAML" directive, which should be of the form 'major.minor' (like
* a version number).
*/
void HandleYamlDirective(const Token& token);
/**
* Handles a "TAG" directive, which should be of the form 'handle prefix',
* where 'handle' is converted to 'prefix' in the file.
*/
void HandleTagDirective(const Token& token);
private:
std::unique_ptr<Scanner> m_pScanner;
std::unique_ptr<Directives> m_pDirectives;
};
} // namespace YAML
#endif // PARSER_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef STLEMITTER_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define STLEMITTER_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include <vector>
#include <list>
#include <set>
#include <map>
namespace YAML {
template <typename Seq>
inline Emitter& EmitSeq(Emitter& emitter, const Seq& seq) {
emitter << BeginSeq;
for (const auto& v : seq)
emitter << v;
emitter << EndSeq;
return emitter;
}
template <typename T>
inline Emitter& operator<<(Emitter& emitter, const std::vector<T>& v) {
return EmitSeq(emitter, v);
}
template <typename T>
inline Emitter& operator<<(Emitter& emitter, const std::list<T>& v) {
return EmitSeq(emitter, v);
}
template <typename T>
inline Emitter& operator<<(Emitter& emitter, const std::set<T>& v) {
return EmitSeq(emitter, v);
}
template <typename K, typename V>
inline Emitter& operator<<(Emitter& emitter, const std::map<K, V>& m) {
emitter << BeginMap;
for (const auto& v : m)
emitter << Key << v.first << Value << v.second;
emitter << EndMap;
return emitter;
}
}
#endif // STLEMITTER_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef TRAITS_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define TRAITS_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include <type_traits>
#include <utility>
#include <string>
#include <sstream>
namespace YAML {
template <typename>
struct is_numeric {
enum { value = false };
};
template <>
struct is_numeric<char> {
enum { value = true };
};
template <>
struct is_numeric<unsigned char> {
enum { value = true };
};
template <>
struct is_numeric<int> {
enum { value = true };
};
template <>
struct is_numeric<unsigned int> {
enum { value = true };
};
template <>
struct is_numeric<long int> {
enum { value = true };
};
template <>
struct is_numeric<unsigned long int> {
enum { value = true };
};
template <>
struct is_numeric<short int> {
enum { value = true };
};
template <>
struct is_numeric<unsigned short int> {
enum { value = true };
};
#if defined(_MSC_VER) && (_MSC_VER < 1310)
template <>
struct is_numeric<__int64> {
enum { value = true };
};
template <>
struct is_numeric<unsigned __int64> {
enum { value = true };
};
#else
template <>
struct is_numeric<long long> {
enum { value = true };
};
template <>
struct is_numeric<unsigned long long> {
enum { value = true };
};
#endif
template <>
struct is_numeric<float> {
enum { value = true };
};
template <>
struct is_numeric<double> {
enum { value = true };
};
template <>
struct is_numeric<long double> {
enum { value = true };
};
template <bool, class T = void>
struct enable_if_c {
using type = T;
};
template <class T>
struct enable_if_c<false, T> {};
template <class Cond, class T = void>
struct enable_if : public enable_if_c<Cond::value, T> {};
template <bool, class T = void>
struct disable_if_c {
using type = T;
};
template <class T>
struct disable_if_c<true, T> {};
template <class Cond, class T = void>
struct disable_if : public disable_if_c<Cond::value, T> {};
}
template <typename S, typename T>
struct is_streamable {
template <typename SS, typename TT>
static auto test(int)
-> decltype(std::declval<SS&>() << std::declval<TT>(), std::true_type());
template <typename, typename>
static auto test(...) -> std::false_type;
static const bool value = decltype(test<S, T>(0))::value;
};
template<typename Key, bool Streamable>
struct streamable_to_string {
static std::string impl(const Key& key) {
std::stringstream ss;
ss << key;
return ss.str();
}
};
template<typename Key>
struct streamable_to_string<Key, false> {
static std::string impl(const Key&) {
return "";
}
};
#endif // TRAITS_H_62B23520_7C8E_11DE_8A39_0800200C9A66

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#ifndef YAML_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#define YAML_H_62B23520_7C8E_11DE_8A39_0800200C9A66
#if defined(_MSC_VER) || \
(defined(__GNUC__) && (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) || \
(__GNUC__ >= 4)) // GCC supports "pragma once" correctly since 3.4
#pragma once
#endif
#include "yaml-cpp/parser.h"
#include "yaml-cpp/emitter.h"
#include "yaml-cpp/emitterstyle.h"
#include "yaml-cpp/stlemitter.h"
#include "yaml-cpp/exceptions.h"
#include "yaml-cpp/node/node.h"
#include "yaml-cpp/node/impl.h"
#include "yaml-cpp/node/convert.h"
#include "yaml-cpp/node/iterator.h"
#include "yaml-cpp/node/detail/impl.h"
#include "yaml-cpp/node/parse.h"
#include "yaml-cpp/node/emit.h"
#endif // YAML_H_62B23520_7C8E_11DE_8A39_0800200C9A66