llvm-6502/include/llvm/Support/YAMLParser.h
David Blaikie 453f4f0130 Use only explicit bool conversion operators
BitVector/SmallBitVector::reference::operator bool remain implicit since
they model more exactly a bool, rather than something else that can be
boolean tested.

The most common (non-buggy) case are where such objects are used as
return expressions in bool-returning functions or as boolean function
arguments. In those cases I've used (& added if necessary) a named
function to provide the equivalent (or sometimes negative, depending on
convenient wording) test.

One behavior change (YAMLParser) was made, though no test case is
included as I'm not sure how to reach that code path. Essentially any
comparison of llvm::yaml::document_iterators would be invalid if neither
iterator was at the end.

This helped uncover a couple of bugs in Clang - test cases provided for
those in a separate commit along with similar changes to `operator bool`
instances in Clang.

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@181868 91177308-0d34-0410-b5e6-96231b3b80d8
2013-05-15 07:36:59 +00:00

556 lines
14 KiB
C++

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