mirror of
https://github.com/c64scene-ar/llvm-6502.git
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47b284ce35
allocation libraries, may allow more efficient allocation and deallocation. It at least makes the interface implementable by the JIT memory manager. However, this highlights problematic overloading between the void* and the T* deallocation functions. I'm looking into a better way to do this, but as it happens, it comes up rarely in the codebase. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@206265 91177308-0d34-0410-b5e6-96231b3b80d8
558 lines
15 KiB
C++
558 lines
15 KiB
C++
//===--- YAMLParser.h - Simple YAML parser --------------------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This is a YAML 1.2 parser.
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//
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// See http://www.yaml.org/spec/1.2/spec.html for the full standard.
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//
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// This currently does not implement the following:
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// * Multi-line literal folding.
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// * Tag resolution.
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// * UTF-16.
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// * BOMs anywhere other than the first Unicode scalar value in the file.
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//
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// The most important class here is Stream. This represents a YAML stream with
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// 0, 1, or many documents.
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//
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// SourceMgr sm;
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// StringRef input = getInput();
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// yaml::Stream stream(input, sm);
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//
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// for (yaml::document_iterator di = stream.begin(), de = stream.end();
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// di != de; ++di) {
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// yaml::Node *n = di->getRoot();
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// if (n) {
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// // Do something with n...
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// } else
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// break;
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// }
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_SUPPORT_YAMLPARSER_H
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#define LLVM_SUPPORT_YAMLPARSER_H
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#include "llvm/ADT/SmallString.h"
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#include "llvm/ADT/StringRef.h"
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#include "llvm/Support/Allocator.h"
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#include "llvm/Support/SMLoc.h"
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#include <limits>
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#include <map>
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#include <utility>
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namespace llvm {
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class MemoryBuffer;
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class SourceMgr;
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class raw_ostream;
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class Twine;
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namespace yaml {
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class document_iterator;
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class Document;
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class Node;
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class Scanner;
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struct Token;
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/// \brief Dump all the tokens in this stream to OS.
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/// \returns true if there was an error, false otherwise.
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bool dumpTokens(StringRef Input, raw_ostream &);
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/// \brief Scans all tokens in input without outputting anything. This is used
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/// for benchmarking the tokenizer.
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/// \returns true if there was an error, false otherwise.
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bool scanTokens(StringRef Input);
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/// \brief Escape \a Input for a double quoted scalar.
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std::string escape(StringRef Input);
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/// \brief This class represents a YAML stream potentially containing multiple
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/// documents.
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class Stream {
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public:
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/// \brief This keeps a reference to the string referenced by \p Input.
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Stream(StringRef Input, SourceMgr &);
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/// \brief This takes ownership of \p InputBuffer.
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Stream(MemoryBuffer *InputBuffer, SourceMgr &);
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~Stream();
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document_iterator begin();
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document_iterator end();
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void skip();
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bool failed();
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bool validate() {
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skip();
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return !failed();
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}
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void printError(Node *N, const Twine &Msg);
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private:
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std::unique_ptr<Scanner> scanner;
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std::unique_ptr<Document> CurrentDoc;
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friend class Document;
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};
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/// \brief Abstract base class for all Nodes.
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class Node {
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virtual void anchor();
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public:
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enum NodeKind {
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NK_Null,
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NK_Scalar,
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NK_KeyValue,
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NK_Mapping,
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NK_Sequence,
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NK_Alias
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};
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Node(unsigned int Type, std::unique_ptr<Document> &, StringRef Anchor,
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StringRef Tag);
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/// \brief Get the value of the anchor attached to this node. If it does not
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/// have one, getAnchor().size() will be 0.
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StringRef getAnchor() const { return Anchor; }
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/// \brief Get the tag as it was written in the document. This does not
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/// perform tag resolution.
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StringRef getRawTag() const { return Tag; }
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/// \brief Get the verbatium tag for a given Node. This performs tag resoluton
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/// and substitution.
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std::string getVerbatimTag() const;
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SMRange getSourceRange() const { return SourceRange; }
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void setSourceRange(SMRange SR) { SourceRange = SR; }
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// These functions forward to Document and Scanner.
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Token &peekNext();
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Token getNext();
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Node *parseBlockNode();
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BumpPtrAllocator &getAllocator();
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void setError(const Twine &Message, Token &Location) const;
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bool failed() const;
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virtual void skip() {}
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unsigned int getType() const { return TypeID; }
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void *operator new(size_t Size, BumpPtrAllocator &Alloc,
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size_t Alignment = 16) throw() {
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return Alloc.Allocate(Size, Alignment);
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}
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void operator delete(void *Ptr, BumpPtrAllocator &Alloc, size_t Size) throw() {
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Alloc.Deallocate(Ptr, Size);
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}
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protected:
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std::unique_ptr<Document> &Doc;
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SMRange SourceRange;
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void operator delete(void *) throw() {}
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virtual ~Node() {}
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private:
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unsigned int TypeID;
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StringRef Anchor;
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/// \brief The tag as typed in the document.
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StringRef Tag;
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};
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/// \brief A null value.
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///
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/// Example:
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/// !!null null
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class NullNode : public Node {
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void anchor() override;
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public:
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NullNode(std::unique_ptr<Document> &D)
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: Node(NK_Null, D, StringRef(), StringRef()) {}
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static inline bool classof(const Node *N) { return N->getType() == NK_Null; }
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};
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/// \brief A scalar node is an opaque datum that can be presented as a
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/// series of zero or more Unicode scalar values.
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///
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/// Example:
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/// Adena
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class ScalarNode : public Node {
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void anchor() override;
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public:
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ScalarNode(std::unique_ptr<Document> &D, StringRef Anchor, StringRef Tag,
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StringRef Val)
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: Node(NK_Scalar, D, Anchor, Tag), Value(Val) {
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SMLoc Start = SMLoc::getFromPointer(Val.begin());
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SMLoc End = SMLoc::getFromPointer(Val.end());
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SourceRange = SMRange(Start, End);
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}
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// Return Value without any escaping or folding or other fun YAML stuff. This
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// is the exact bytes that are contained in the file (after conversion to
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// utf8).
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StringRef getRawValue() const { return Value; }
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/// \brief Gets the value of this node as a StringRef.
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///
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/// \param Storage is used to store the content of the returned StringRef iff
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/// it requires any modification from how it appeared in the source.
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/// This happens with escaped characters and multi-line literals.
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StringRef getValue(SmallVectorImpl<char> &Storage) const;
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static inline bool classof(const Node *N) {
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return N->getType() == NK_Scalar;
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}
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private:
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StringRef Value;
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StringRef unescapeDoubleQuoted(StringRef UnquotedValue,
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StringRef::size_type Start,
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SmallVectorImpl<char> &Storage) const;
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};
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/// \brief A key and value pair. While not technically a Node under the YAML
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/// representation graph, it is easier to treat them this way.
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///
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/// TODO: Consider making this not a child of Node.
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///
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/// Example:
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/// Section: .text
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class KeyValueNode : public Node {
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void anchor() override;
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public:
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KeyValueNode(std::unique_ptr<Document> &D)
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: Node(NK_KeyValue, D, StringRef(), StringRef()), Key(nullptr),
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Value(nullptr) {}
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/// \brief Parse and return the key.
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///
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/// This may be called multiple times.
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///
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/// \returns The key, or nullptr if failed() == true.
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Node *getKey();
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/// \brief Parse and return the value.
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///
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/// This may be called multiple times.
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///
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/// \returns The value, or nullptr if failed() == true.
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Node *getValue();
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void skip() override {
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getKey()->skip();
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getValue()->skip();
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}
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static inline bool classof(const Node *N) {
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return N->getType() == NK_KeyValue;
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}
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private:
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Node *Key;
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Node *Value;
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};
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/// \brief This is an iterator abstraction over YAML collections shared by both
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/// sequences and maps.
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///
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/// BaseT must have a ValueT* member named CurrentEntry and a member function
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/// increment() which must set CurrentEntry to 0 to create an end iterator.
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template <class BaseT, class ValueT>
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class basic_collection_iterator
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: public std::iterator<std::forward_iterator_tag, ValueT> {
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public:
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basic_collection_iterator() : Base(nullptr) {}
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basic_collection_iterator(BaseT *B) : Base(B) {}
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ValueT *operator->() const {
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assert(Base && Base->CurrentEntry && "Attempted to access end iterator!");
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return Base->CurrentEntry;
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}
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ValueT &operator*() const {
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assert(Base && Base->CurrentEntry &&
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"Attempted to dereference end iterator!");
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return *Base->CurrentEntry;
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}
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operator ValueT *() const {
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assert(Base && Base->CurrentEntry && "Attempted to access end iterator!");
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return Base->CurrentEntry;
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}
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bool operator!=(const basic_collection_iterator &Other) const {
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if (Base != Other.Base)
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return true;
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return (Base && Other.Base) &&
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Base->CurrentEntry != Other.Base->CurrentEntry;
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}
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basic_collection_iterator &operator++() {
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assert(Base && "Attempted to advance iterator past end!");
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Base->increment();
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// Create an end iterator.
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if (!Base->CurrentEntry)
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Base = nullptr;
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return *this;
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}
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private:
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BaseT *Base;
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};
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// The following two templates are used for both MappingNode and Sequence Node.
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template <class CollectionType>
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typename CollectionType::iterator begin(CollectionType &C) {
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assert(C.IsAtBeginning && "You may only iterate over a collection once!");
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C.IsAtBeginning = false;
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typename CollectionType::iterator ret(&C);
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++ret;
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return ret;
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}
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template <class CollectionType> void skip(CollectionType &C) {
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// TODO: support skipping from the middle of a parsed collection ;/
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assert((C.IsAtBeginning || C.IsAtEnd) && "Cannot skip mid parse!");
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if (C.IsAtBeginning)
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for (typename CollectionType::iterator i = begin(C), e = C.end(); i != e;
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++i)
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i->skip();
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}
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/// \brief Represents a YAML map created from either a block map for a flow map.
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///
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/// This parses the YAML stream as increment() is called.
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///
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/// Example:
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/// Name: _main
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/// Scope: Global
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class MappingNode : public Node {
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void anchor() override;
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public:
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enum MappingType {
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MT_Block,
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MT_Flow,
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MT_Inline ///< An inline mapping node is used for "[key: value]".
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};
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MappingNode(std::unique_ptr<Document> &D, StringRef Anchor, StringRef Tag,
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MappingType MT)
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: Node(NK_Mapping, D, Anchor, Tag), Type(MT), IsAtBeginning(true),
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IsAtEnd(false), CurrentEntry(nullptr) {}
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friend class basic_collection_iterator<MappingNode, KeyValueNode>;
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typedef basic_collection_iterator<MappingNode, KeyValueNode> iterator;
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template <class T> friend typename T::iterator yaml::begin(T &);
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template <class T> friend void yaml::skip(T &);
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iterator begin() { return yaml::begin(*this); }
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iterator end() { return iterator(); }
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void skip() override { yaml::skip(*this); }
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static inline bool classof(const Node *N) {
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return N->getType() == NK_Mapping;
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}
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private:
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MappingType Type;
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bool IsAtBeginning;
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bool IsAtEnd;
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KeyValueNode *CurrentEntry;
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void increment();
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};
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/// \brief Represents a YAML sequence created from either a block sequence for a
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/// flow sequence.
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///
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/// This parses the YAML stream as increment() is called.
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///
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/// Example:
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/// - Hello
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/// - World
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class SequenceNode : public Node {
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void anchor() override;
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public:
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enum SequenceType {
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ST_Block,
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ST_Flow,
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// Use for:
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//
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// key:
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// - val1
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// - val2
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//
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// As a BlockMappingEntry and BlockEnd are not created in this case.
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ST_Indentless
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};
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SequenceNode(std::unique_ptr<Document> &D, StringRef Anchor, StringRef Tag,
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SequenceType ST)
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: Node(NK_Sequence, D, Anchor, Tag), SeqType(ST), IsAtBeginning(true),
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IsAtEnd(false),
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WasPreviousTokenFlowEntry(true), // Start with an imaginary ','.
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CurrentEntry(nullptr) {}
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friend class basic_collection_iterator<SequenceNode, Node>;
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typedef basic_collection_iterator<SequenceNode, Node> iterator;
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template <class T> friend typename T::iterator yaml::begin(T &);
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template <class T> friend void yaml::skip(T &);
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void increment();
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iterator begin() { return yaml::begin(*this); }
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iterator end() { return iterator(); }
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void skip() override { yaml::skip(*this); }
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static inline bool classof(const Node *N) {
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return N->getType() == NK_Sequence;
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}
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private:
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SequenceType SeqType;
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bool IsAtBeginning;
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bool IsAtEnd;
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bool WasPreviousTokenFlowEntry;
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Node *CurrentEntry;
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};
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/// \brief Represents an alias to a Node with an anchor.
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///
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/// Example:
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/// *AnchorName
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class AliasNode : public Node {
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void anchor() override;
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public:
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AliasNode(std::unique_ptr<Document> &D, StringRef Val)
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: Node(NK_Alias, D, StringRef(), StringRef()), Name(Val) {}
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StringRef getName() const { return Name; }
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Node *getTarget();
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static inline bool classof(const Node *N) { return N->getType() == NK_Alias; }
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private:
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StringRef Name;
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};
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/// \brief A YAML Stream is a sequence of Documents. A document contains a root
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/// node.
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class Document {
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public:
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/// \brief Root for parsing a node. Returns a single node.
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Node *parseBlockNode();
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Document(Stream &ParentStream);
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/// \brief Finish parsing the current document and return true if there are
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/// more. Return false otherwise.
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bool skip();
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/// \brief Parse and return the root level node.
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Node *getRoot() {
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if (Root)
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return Root;
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return Root = parseBlockNode();
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}
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const std::map<StringRef, StringRef> &getTagMap() const { return TagMap; }
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private:
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friend class Node;
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friend class document_iterator;
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/// \brief Stream to read tokens from.
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Stream &stream;
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/// \brief Used to allocate nodes to. All are destroyed without calling their
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/// destructor when the document is destroyed.
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BumpPtrAllocator NodeAllocator;
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/// \brief The root node. Used to support skipping a partially parsed
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/// document.
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Node *Root;
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/// \brief Maps tag prefixes to their expansion.
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std::map<StringRef, StringRef> TagMap;
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Token &peekNext();
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Token getNext();
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void setError(const Twine &Message, Token &Location) const;
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bool failed() const;
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/// \brief Parse %BLAH directives and return true if any were encountered.
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bool parseDirectives();
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/// \brief Parse %YAML
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void parseYAMLDirective();
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/// \brief Parse %TAG
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void parseTAGDirective();
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/// \brief Consume the next token and error if it is not \a TK.
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bool expectToken(int TK);
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};
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/// \brief Iterator abstraction for Documents over a Stream.
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class document_iterator {
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public:
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document_iterator() : Doc(nullptr) {}
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document_iterator(std::unique_ptr<Document> &D) : Doc(&D) {}
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bool operator==(const document_iterator &Other) {
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if (isAtEnd() || Other.isAtEnd())
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return isAtEnd() && Other.isAtEnd();
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return Doc == Other.Doc;
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}
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bool operator!=(const document_iterator &Other) { return !(*this == Other); }
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document_iterator operator++() {
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assert(Doc && "incrementing iterator past the end.");
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if (!(*Doc)->skip()) {
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Doc->reset(nullptr);
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} else {
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Stream &S = (*Doc)->stream;
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Doc->reset(new Document(S));
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}
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return *this;
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}
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Document &operator*() { return *Doc->get(); }
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std::unique_ptr<Document> &operator->() { return *Doc; }
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private:
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bool isAtEnd() const { return !Doc || !*Doc; }
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std::unique_ptr<Document> *Doc;
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};
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} // End namespace yaml.
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} // End namespace llvm.
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#endif
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