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|
#pragma once
#include <util/generic/yexception.h>
#include <util/system/compiler.h>
#include <util/system/yassert.h>
#include <util/stream/str.h>
#include <util/generic/hash_set.h>
#include <util/generic/vector.h>
#include <memory>
#include <optional>
#define ENSURE_NODE_NOT_EMPTY(NODE) Y_ENSURE_EX(NODE, TFyamlEx() << "Expected non-empty Node")
#define ENSURE_DOCUMENT_NOT_EMPTY(NODE) Y_ENSURE_EX(NODE, TFyamlEx() << "Expected non-empty Document")
struct fy_parser;
struct fy_node;
struct fy_document;
struct fy_diag;
struct fy_document_iterator;
struct fy_node_pair;
extern "C" struct fy_node *fy_node_buildf(struct fy_document *fyd, const char *fmt, ...);
namespace NFyaml {
namespace NDetail {
template <class T>
class TNodeOps;
}
class TNodeRef;
class TNode;
}
bool operator==(const fy_node* node1, const NFyaml::NDetail::TNodeOps<NFyaml::TNodeRef>& node2);
bool operator==(const fy_node* node1, const NFyaml::NDetail::TNodeOps<NFyaml::TNode>& node2);
namespace NFyaml {
struct TStringPtrHashT {
size_t operator()(const TSimpleSharedPtr<TString>& str) const {
return (size_t)str.Get();
}
};
// do TFyaml(str) instead of TFyaml() << str;
class TFyamlEx : public yexception {
public:
TFyamlEx() {}
TFyamlEx(TString error) : Errors_({error}) {}
TFyamlEx(std::initializer_list<TString> errors) : Errors_(errors) {}
const TVector<TString>& Errors() {
return Errors_;
}
const char* what() const noexcept override {
What_ = TString(yexception::what());
for (auto& err : Errors_) {
What_.push_back('\n');
What_.append(err);
}
return What_.c_str();
}
TFyamlEx& AddError(TString error) {
Errors_.push_back(error);
return *this;
}
TStringBuf AsStrBuf() const {
return what();
}
private:
TVector<TString> Errors_;
mutable TString What_;
};
enum class ENodeType {
Scalar,
Sequence,
Mapping,
};
enum class ENodeStyle {
Any = -1,
Flow,
Block,
Plain,
SingleQuoted,
DoubleQuoted,
Literal,
Folded,
Alias,
};
class TNodeRef;
class TDocumentIterator;
class TDocument;
class TNode;
class TMappingIterator;
class TReverseMappingIterator;
class TMapping;
class TSequenceIterator;
class TReverseSequenceIterator;
class TSequence;
class TJsonEmitter;
class TParser;
struct TMark;
namespace NDetail {
class IBasicUserData {
public:
virtual ~IBasicUserData() = default;
};
template <class T>
class TUserDataHolder : public IBasicUserData {
public:
TUserDataHolder(IBasicUserData* next, T* data)
: Next_(next)
, Data_(data)
{}
private:
std::unique_ptr<IBasicUserData> Next_ = nullptr;
std::unique_ptr<T> Data_ = nullptr;
};
void ThrowAllExceptionsIfAny(fy_diag* diag);
void RethrowError(fy_diag* diag);
void RethrowOnError(bool isError, fy_node* node);
void RethrowOnError(bool isError, fy_node_pair* pair);
void RethrowOnError(bool isError, fy_diag* diag);
void FreeChar(char* mem);
bool IsComplexType(ENodeType type);
class TNodeOpsBase {
protected:
TString Path(fy_node* node) const;
ENodeType Type(fy_node* node) const;
fy_node* Copy(fy_node* node) const;
fy_node* Copy(fy_node* node, fy_document* to) const;
bool IsAlias(fy_node* node) const;
fy_node* ResolveAlias(fy_node* node) const;
fy_node* CreateReference(fy_node* node) const;
fy_node* Sequence(fy_node* node) const;
fy_node* Map(fy_node* node) const;
TString Scalar(fy_node* node) const;
TMark BeginMark(fy_node* node) const;
TMark EndMark(fy_node* node) const;
void Insert(fy_node* thisNode, fy_node* node);
std::optional<TString> Tag(fy_node* node) const;
void SetTag(fy_node* node, const TString& tag);
bool RemoveTag(fy_node* node);
bool HasAnchor(fy_node* node) const;
void SetAnchor(fy_node* node, const TString& anchor);
bool DeepEqual(fy_node* thisNode, fy_node* other);
std::unique_ptr<char, void(*)(char*)> EmitToCharArray(fy_node* node) const;
void SetStyle(fy_node* node, ENodeStyle style);
ENodeStyle Style(fy_node* node) const;
protected:
void SetUserData(fy_node* node, NDetail::IBasicUserData* data);
NDetail::IBasicUserData* UserData(fy_node* node) const;
void ClearUserData(fy_node* node);
};
template <class T>
class TNodeOps : public TNodeOpsBase {
friend class ::NFyaml::TNodeRef;
public:
template <class OtherT>
bool operator==(const TNodeOps<OtherT>& other) const { return Node() == other.Node(); }
bool operator==(const fy_node* node) const { return Node() == node; }
friend bool ::operator==(const fy_node* node1, const TNodeOps<NFyaml::TNodeRef>& node2);
friend bool ::operator==(const fy_node* node1, const TNodeOps<NFyaml::TNode>& node2);
explicit operator bool() const { return Node() != nullptr; }
TString Path() const;
ENodeType Type() const;
TNode Copy() const;
TNode Copy(TDocument& to) const;
bool IsAlias() const;
TNodeRef ResolveAlias() const;
TNode CreateReference() const;
TSequence Sequence() const;
TMapping Map() const;
TString Scalar() const;
TMark BeginMark() const;
TMark EndMark() const;
void Insert(const TNodeRef& node);
bool Empty() const { return Node() == nullptr; }
std::optional<TString> Tag() const;
void SetTag(const TString& tag);
bool RemoveTag();
bool HasAnchor() const;
void SetAnchor(const TString& anchor);
bool DeepEqual(const TNodeRef& other);
std::unique_ptr<char, void(*)(char*)> EmitToCharArray() const;
void SetStyle(ENodeStyle style);
ENodeStyle Style() const;
protected:
const T& AsDerived() const;
fy_node* Node() const;
fy_node* Node();
void SetUserData(NDetail::IBasicUserData* data);
NDetail::IBasicUserData* UserData() const;
void ClearUserData();
};
} // namespace NDetail
class TDocumentIterator {
friend class TDocument;
public:
explicit TDocumentIterator(fy_document_iterator* iterator = nullptr);
protected:
std::unique_ptr<fy_document_iterator, void(*)(fy_document_iterator*)> Iterator_;
};
class TNodeRef : public NDetail::TNodeOps<TNodeRef> {
friend class TNodeOps<TNodeRef>;
friend class TNodeOpsBase;
friend class TDocument;
friend class TDocumentNodeIterator;
friend class TMapping;
friend class TMappingIterator;
friend class TReverseMappingIterator;
friend class TNodePairRef;
friend class TSequence;
friend class TSequenceIterator;
friend class TReverseSequenceIterator;
friend class TJsonEmitter;
public:
TNodeRef() = default;
template <class T>
TNodeRef(const TNodeOps<T>& other) : Node_(other.Node()) {}
explicit TNodeRef(const TNodeRef& other) : Node_(other.Node_) {}
TNodeRef(fy_node* node);
TNodeRef& operator=(const TNodeRef& other) { Node_ = other.Node_; return *this; }
TNodeRef& operator=(fy_node* node) { Node_ = node; return *this; }
protected:
fy_node* Node_ = nullptr;
private:
fy_node* NodeRawPointer() const;
};
class TNode : public NDetail::TNodeOps<TNode> {
friend class TNodeOps<TNode>;
public:
TNode(fy_node* node = nullptr);
template <class T>
explicit TNode(const TNodeOps<T>& other) : Node_(other.Node_) {}
TNodeRef Ref() { return TNodeRef(*this); }
private:
std::shared_ptr<fy_node> Node_;
TNode& operator=(fy_node* node);
fy_node* NodeRawPointer() const {
return Node_.get();
}
};
class TNodePairRef {
friend class TMappingIterator;
friend class TReverseMappingIterator;
friend class TMapping;
public:
TNodePairRef(fy_node_pair* pair = nullptr) : Pair_(pair) {}
bool operator==(const TNodePairRef& other) const { return Pair_ == other.Pair_; }
explicit operator bool() const { return Pair_ != nullptr; }
TNodeRef Key() const;
int Index(const TNodeRef& node) const;
void SetKey(const TNodeRef& node);
TNodeRef Value() const;
void SetValue(const TNodeRef& node);
private:
fy_node_pair* Pair_ = nullptr;
};
class TMappingIterator {
friend class TMapping;
public:
explicit TMappingIterator(const TNodeRef& node, bool end = false);
TMappingIterator(const TMappingIterator& other) {
Node_ = other.Node_;
NodePair_ = other.NodePair_;
}
TMappingIterator& operator=(const TMappingIterator& other) {
Node_ = other.Node_;
NodePair_ = other.NodePair_;
return *this;
}
TMappingIterator& operator++();
const TNodePairRef* operator->() const { return &NodePair_; }
TMappingIterator operator++(int) {
TMappingIterator retval = *this;
++(*this);
return retval;
}
bool operator==(TMappingIterator other) const { return Node_ == other.Node_ && NodePair_ == other.NodePair_; }
const TNodePairRef& operator*() const { return NodePair_; }
private:
TNodeRef Node_;
TNodePairRef NodePair_;
};
class TReverseMappingIterator {
friend class TMapping;
public:
explicit TReverseMappingIterator(const TNodeRef& node, bool end = false);
TReverseMappingIterator(const TReverseMappingIterator& other) {
Node_ = other.Node_;
NodePair_ = other.NodePair_;
}
TReverseMappingIterator& operator=(const TReverseMappingIterator& other) {
Node_ = other.Node_;
NodePair_ = other.NodePair_;
return *this;
}
TReverseMappingIterator& operator++();
const TNodePairRef* operator->() const { return &NodePair_; }
TReverseMappingIterator operator++(int) {
TReverseMappingIterator retval = *this;
++(*this);
return retval;
}
bool operator==(TReverseMappingIterator other) const { return Node_ == other.Node_ && NodePair_ == other.NodePair_; }
bool operator!=(TReverseMappingIterator other) const { return !(*this == other); }
const TNodePairRef& operator*() const { return NodePair_; }
private:
TNodeRef Node_;
TNodePairRef NodePair_;
};
class TMapping : public TNodeRef {
public:
template <class T>
explicit TMapping(const TNodeOps<T>& node)
: TNodeRef(node)
{
Y_DEBUG_ABORT_UNLESS(Type() == ENodeType::Mapping);
}
TMappingIterator begin() const {
return TMappingIterator(*this);
}
TMappingIterator end() const {
return TMappingIterator(*this, true);
}
TReverseMappingIterator rbegin() const {
return TReverseMappingIterator(*this);
}
TReverseMappingIterator rend() const {
return TReverseMappingIterator(*this, true);
}
size_t size() const;
size_t empty() const;
TNodePairRef at(int index) const;
TNodePairRef operator[](int index) const;
TNodeRef at(const TString& index) const;
TNodePairRef pair_at(const TString& index) const;
TNodePairRef pair_at_opt(const TString& index) const;
TNodeRef operator[](const TString& index) const;
TNodeRef operator[](const char* str) const;
void Append(const TNodeRef& key, const TNodeRef& value);
void Prepend(const TNodeRef& key, const TNodeRef& value);
void Remove(const TNodePairRef& toRemove);
bool Has(TString key) const;
TMappingIterator Remove(const TMappingIterator& toRemove);
void Remove(const TNodeRef& key);
};
class TSequenceIterator {
friend class TSequence;
public:
explicit TSequenceIterator(const TNodeRef& node, bool end = false);
TSequenceIterator(const TSequenceIterator& other) {
Node_ = other.Node_;
IterNode_ = other.IterNode_;
Iter_ = other.Iter_;
}
TSequenceIterator& operator=(const TSequenceIterator& other) {
Node_ = other.Node_;
IterNode_ = other.IterNode_;
Iter_ = other.Iter_;
return *this;
}
TSequenceIterator& operator++();
const TNodeRef* operator->() const {
return &IterNode_;
}
TSequenceIterator operator++(int) {
TSequenceIterator retval = *this;
++(*this);
return retval;
}
bool operator==(TSequenceIterator other) const { return Node_ == other.Node_ && Iter_ == other.Iter_; }
bool operator!=(TSequenceIterator other) const { return !(*this == other); }
const TNodeRef& operator*() const { return IterNode_; }
void InsertBefore(const TNodeRef& node);
void InsertAfter(const TNodeRef& node);
private:
TNodeRef Node_;
TNodeRef IterNode_;
void* Iter_ = nullptr;
};
class TReverseSequenceIterator {
friend class TSequence;
public:
explicit TReverseSequenceIterator(const TNodeRef& node, bool end = false);
TReverseSequenceIterator(const TReverseSequenceIterator& other) {
Node_ = other.Node_;
IterNode_ = other.IterNode_;
Iter_ = other.Iter_;
}
TReverseSequenceIterator& operator=(const TReverseSequenceIterator& other) {
Node_ = other.Node_;
IterNode_ = other.IterNode_;
Iter_ = other.Iter_;
return *this;
}
TReverseSequenceIterator& operator++();
const TNodeRef* operator->() const {
return &IterNode_;
}
TReverseSequenceIterator operator++(int) {
TReverseSequenceIterator retval = *this;
++(*this);
return retval;
}
bool operator==(TReverseSequenceIterator other) const { return Node_ == other.Node_ && Iter_ == other.Iter_; }
bool operator!=(TReverseSequenceIterator other) const { return !(*this == other); }
const TNodeRef& operator*() const { return IterNode_; }
void InsertBefore(const TNodeRef& node);
void InsertAfter(const TNodeRef& node);
private:
TNodeRef Node_;
TNodeRef IterNode_;
void* Iter_ = nullptr;
};
class TSequence : public TNodeRef {
public:
explicit TSequence(const TNodeRef& node)
: TNodeRef(node)
{
Y_DEBUG_ABORT_UNLESS(Type() == ENodeType::Sequence);
}
TSequenceIterator begin() const {
return TSequenceIterator(*this);
}
TSequenceIterator end() const {
return TSequenceIterator(*this, true);
}
TReverseSequenceIterator rbegin() const {
return TReverseSequenceIterator(*this);
}
TReverseSequenceIterator rend() const {
return TReverseSequenceIterator(*this, true);
}
size_t size() const;
size_t empty() const;
TNodeRef at(int index) const;
TNodeRef operator[](int index) const;
void Append(const TNodeRef& node);
void Prepend(const TNodeRef& node);
void InsertBefore(const TNodeRef& mark, const TNodeRef& node);
void InsertAfter(const TNodeRef& mark, const TNodeRef& node);
TNode Remove(const TNodeRef& toRemove);
TSequenceIterator Remove(const TSequenceIterator& toRemove);
TReverseSequenceIterator Remove(const TReverseSequenceIterator& toRemove);
};
class TDocumentNodeIterator
: public TDocumentIterator
{
public:
explicit TDocumentNodeIterator(TNodeRef&& node);
TDocumentNodeIterator(const TDocumentNodeIterator& other)
: TDocumentIterator(other.Iterator_.get())
, Node_(other.Node_)
{}
TDocumentNodeIterator& operator=(const TDocumentNodeIterator& other) {
Iterator_.reset(other.Iterator_.get());
Node_ = other.Node_;
return *this;
}
TDocumentNodeIterator& operator++();
TNodeRef* operator->() {
return &Node_;
}
TDocumentNodeIterator operator++(int) {
TDocumentNodeIterator retval = *this;
++(*this);
return retval;
}
bool operator==(TDocumentNodeIterator other) const { return Node_ == other.Node_; }
bool operator!=(TDocumentNodeIterator other) const { return !(*this == other); }
TNodeRef& operator*() { return Node_; }
private:
TNodeRef Node_;
};
class TDocument {
friend class NDetail::TNodeOps<TNodeRef>;
friend class NDetail::TNodeOps<TNode>;
friend class TParser;
explicit TDocument(TString str, fy_document* doc = nullptr, fy_diag* diag = nullptr);
explicit TDocument(fy_document* doc = nullptr, fy_diag* diag = nullptr);
public:
TDocument(TDocument&& other)
: Document_(std::move(other.Document_))
, Diag_(std::move(other.Diag_))
{}
static TDocument Parse(TString cstr);
TDocument Clone() const;
template <class... Args>
size_t Scanf(const char* fmt, Args&& ...args) {
Y_DEBUG_ABORT_UNLESS(Document_);
return fy_document_scanf(Document_.get(), fmt, std::forward<Args>(args)...);
}
void InsertAt(const char* path, const TNodeRef& node);
template <class... Args>
TNodeRef Buildf(const char* fmt, Args&& ...args) {
Y_DEBUG_ABORT_UNLESS(Document_);
return fy_node_buildf(Document_.get(), fmt, std::forward<Args>(args)...);
}
TNodeRef Buildf(const char* content);
void Resolve();
bool HasDirectives();
bool HasExplicitDocumentStart();
bool HasExplicitDocumentEnd();
void SetParent(const TDocument& doc);
TNodeRef Root();
void SetRoot(const TNodeRef& node);
TDocumentNodeIterator begin() {
auto it = TDocumentNodeIterator(Root());
++it;
return it;
}
TDocumentNodeIterator end() {
return TDocumentNodeIterator(TNodeRef(nullptr));
}
TNodeRef CreateAlias(const TString& name);
std::unique_ptr<char, void(*)(char*)> EmitToCharArray() const;
TMark BeginMark() const;
TMark EndMark() const;
private:
std::unique_ptr<fy_document, void(*)(fy_document*)> Document_;
std::unique_ptr<fy_diag, void(*)(fy_diag*)> Diag_;
static void DestroyUserData(fy_node *fyn, void *meta, void *user) {
Y_UNUSED(fyn);
Y_UNUSED(user);
if (meta) {
auto* data = reinterpret_cast<NDetail::IBasicUserData*>(meta);
delete data;
}
}
static void DestroyDocumentStrings(fy_document *fyd, void *user) {
Y_UNUSED(fyd);
if (user) {
auto* data = reinterpret_cast<THashSet<TSimpleSharedPtr<TString>, TStringPtrHashT>*>(user);
delete data;
}
}
bool RegisterUserDataCleanup();
void UnregisterUserDataCleanup();
};
class TJsonEmitter {
public:
explicit TJsonEmitter(TDocument& doc) : Node_(doc.Root()) {}
explicit TJsonEmitter(const TNodeRef& node) : Node_(node) {}
std::unique_ptr<char, void(*)(char*)> EmitToCharArray() const;
private:
const TNodeRef Node_;
};
class TParser {
TParser(TString rawStream, fy_parser* doc, fy_diag* diag);
public:
static TParser Create(TString str);
std::optional<TDocument> NextDocument();
private:
TString RawDocumentStream_;
std::unique_ptr<fy_parser, void(*)(fy_parser*)> Parser_;
std::unique_ptr<fy_diag, void(*)(fy_diag*)> Diag_;
};
struct TMark {
size_t InputPos;
int Line;
int Column;
};
namespace NDetail {
template <class T>
TNode TNodeOps<T>::CreateReference() const {
return TNode(TNodeOpsBase::CreateReference(Node()));
}
template <class T>
TNode TNodeOps<T>::Copy() const {
return TNode(TNodeOpsBase::Copy(Node()));
}
template <class T>
TNode TNodeOps<T>::Copy(TDocument& to) const {
return TNode(TNodeOpsBase::Copy(Node(), to.Document_.get()));
}
template <class T>
TString TNodeOps<T>::Path() const {
return TNodeOpsBase::Path(Node());
}
template <class T>
ENodeType TNodeOps<T>::Type() const {
return TNodeOpsBase::Type(Node());
}
template <class T>
bool TNodeOps<T>::IsAlias() const {
return TNodeOpsBase::IsAlias(Node());
}
template <class T>
TNodeRef TNodeOps<T>::ResolveAlias() const {
return TNodeRef(TNodeOpsBase::ResolveAlias(Node()));
}
template <class T>
TString TNodeOps<T>::Scalar() const {
return TNodeOpsBase::Scalar(Node());
}
template <class T>
TMark TNodeOps<T>::BeginMark() const {
return TNodeOpsBase::BeginMark(Node());
}
template <class T>
TMark TNodeOps<T>::EndMark() const {
return TNodeOpsBase::EndMark(Node());
}
template <class T>
TMapping TNodeOps<T>::Map() const {
return TMapping(TNodeRef(TNodeOpsBase::Map(Node())));
}
template <class T>
TSequence TNodeOps<T>::Sequence() const {
return TSequence(TNodeRef(TNodeOpsBase::Sequence(Node())));
}
template <class T>
void TNodeOps<T>::Insert(const TNodeRef& node) {
return TNodeOpsBase::Insert(Node(), node.Node_);
}
template <class T>
std::optional<TString> TNodeOps<T>::Tag() const {
return TNodeOpsBase::Tag(Node());
}
template <class T>
void TNodeOps<T>::SetTag(const TString& tag) {
return TNodeOpsBase::SetTag(Node(), tag);
}
template <class T>
bool TNodeOps<T>::RemoveTag() {
return TNodeOpsBase::RemoveTag(Node());
}
template <class T>
bool TNodeOps<T>::HasAnchor() const {
return TNodeOpsBase::HasAnchor(Node());
}
template <class T>
void TNodeOps<T>::SetAnchor(const TString& anchor) {
return TNodeOpsBase::SetAnchor(Node(), anchor);
}
template <class T>
bool TNodeOps<T>::DeepEqual(const TNodeRef& other) {
return TNodeOpsBase::DeepEqual(Node(), other.Node_);
}
template <class T>
std::unique_ptr<char, void(*)(char*)> TNodeOps<T>::EmitToCharArray() const {
return TNodeOpsBase::EmitToCharArray(Node());
}
template <class T>
void TNodeOps<T>::SetStyle(ENodeStyle style) {
return TNodeOpsBase::SetStyle(Node(), style);
}
template <class T>
ENodeStyle TNodeOps<T>::Style() const {
return TNodeOpsBase::Style(Node());
}
template <class T>
const T& TNodeOps<T>::AsDerived() const {
return static_cast<const T&>(*this);
}
template <class T>
fy_node* TNodeOps<T>::Node() const {
return AsDerived().NodeRawPointer();
}
template <class T>
fy_node* TNodeOps<T>::Node() {
return AsDerived().NodeRawPointer();
}
template <class T>
void TNodeOps<T>::SetUserData(IBasicUserData* data) {
return TNodeOpsBase::SetUserData(Node(), data);
}
template <class T>
IBasicUserData* TNodeOps<T>::UserData() const {
return TNodeOpsBase::UserData(Node());
}
template <class T>
void TNodeOps<T>::ClearUserData() {
return TNodeOpsBase::ClearUserData(Node());
}
} // namespace NDetail
} // namesapce NFyaml
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