llvm-6502/lib/Support/JSONParser.cpp

//===--- JSONParser.cpp - Simple JSON parser ------------------------------===//
//
//                     The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
//  This file implements a JSON parser.
//
//===----------------------------------------------------------------------===//

#include "llvm/Support/JSONParser.h"

#include "llvm/ADT/Twine.h"
#include "llvm/Support/Casting.h"
#include "llvm/Support/MemoryBuffer.h"

using namespace llvm;

JSONParser::JSONParser(StringRef Input, SourceMgr *SM)
  : SM(SM), Failed(false) {
  InputBuffer = MemoryBuffer::getMemBuffer(Input, "JSON");
  SM->AddNewSourceBuffer(InputBuffer, SMLoc());
  End = InputBuffer->getBuffer().end();
  Position = InputBuffer->getBuffer().begin();
}

JSONValue *JSONParser::parseRoot() {
  if (Position != InputBuffer->getBuffer().begin())
    report_fatal_error("Cannot reuse JSONParser.");
  if (isWhitespace())
    nextNonWhitespace();
  if (errorIfAtEndOfFile("'[' or '{' at start of JSON text"))
    return 0;
  switch (*Position) {
    case '[':
      return new (ValueAllocator.Allocate<JSONArray>(1)) JSONArray(this);
    case '{':
      return new (ValueAllocator.Allocate<JSONObject>(1)) JSONObject(this);
    default:
      setExpectedError("'[' or '{' at start of JSON text", *Position);
      return 0;
  }
}

bool JSONParser::validate() {
  JSONValue *Root = parseRoot();
  if (Root == NULL) {
    return false;
  }
  return skip(*Root);
}

bool JSONParser::skip(const JSONAtom &Atom) {
  switch(Atom.getKind()) {
    case JSONAtom::JK_Array:
    case JSONAtom::JK_Object:
      return skipContainer(*cast<JSONContainer>(&Atom));
    case JSONAtom::JK_String:
      return true;
    case JSONAtom::JK_KeyValuePair:
      return skip(*cast<JSONKeyValuePair>(&Atom)->Value);
  }
  llvm_unreachable("Impossible enum value.");
}

// Sets the current error to:
// "expected <Expected>, but found <Found>".
void JSONParser::setExpectedError(StringRef Expected, StringRef Found) {
  SM->PrintMessage(SMLoc::getFromPointer(Position), SourceMgr::DK_Error,
    "expected " + Expected + ", but found " + Found + ".", ArrayRef<SMRange>());
  Failed = true;
}

// Sets the current error to:
// "expected <Expected>, but found <Found>".
void JSONParser::setExpectedError(StringRef Expected, char Found) {
  setExpectedError(Expected, ("'" + StringRef(&Found, 1) + "'").str());
}

// If there is no character available, returns true and sets the current error
// to: "expected <Expected>, but found EOF.".
bool JSONParser::errorIfAtEndOfFile(StringRef Expected) {
  if (Position == End) {
    setExpectedError(Expected, "EOF");
    return true;
  }
  return false;
}

// Sets the current error if the current character is not C to:
// "expected 'C', but got <current character>".
bool JSONParser::errorIfNotAt(char C, StringRef Message) {
  if (*Position != C) {
    std::string Expected =
      ("'" + StringRef(&C, 1) + "' " + Message).str();
    if (Position == End)
      setExpectedError(Expected, "EOF");
    else
      setExpectedError(Expected, *Position);
    return true;
  }
  return false;
}

// Forbidding inlining improves performance by roughly 20%.
// FIXME: Remove once llvm optimizes this to the faster version without hints.
LLVM_ATTRIBUTE_NOINLINE static bool
wasEscaped(StringRef::iterator First, StringRef::iterator Position);

// Returns whether a character at 'Position' was escaped with a leading '\'.
// 'First' specifies the position of the first character in the string.
static bool wasEscaped(StringRef::iterator First,
                       StringRef::iterator Position) {
  assert(Position - 1 >= First);
  StringRef::iterator I = Position - 1;
  // We calulate the number of consecutive '\'s before the current position
  // by iterating backwards through our string.
  while (I >= First && *I == '\\') --I;
  // (Position - 1 - I) now contains the number of '\'s before the current
  // position. If it is odd, the character at 'Positon' was escaped.
  return (Position - 1 - I) % 2 == 1;
}

// Parses a JSONString, assuming that the current position is on a quote.
JSONString *JSONParser::parseString() {
  assert(Position != End);
  assert(!isWhitespace());
  if (errorIfNotAt('"', "at start of string"))
    return 0;
  StringRef::iterator First = Position + 1;

  // Benchmarking shows that this loop is the hot path of the application with
  // about 2/3rd of the runtime cycles. Since escaped quotes are not the common
  // case, and multiple escaped backslashes before escaped quotes are very rare,
  // we pessimize this case to achieve a smaller inner loop in the common case.
  // We're doing that by having a quick inner loop that just scans for the next
  // quote. Once we find the quote we check the last character to see whether
  // the quote might have been escaped. If the last character is not a '\', we
  // know the quote was not escaped and have thus found the end of the string.
  // If the immediately preceding character was a '\', we have to scan backwards
  // to see whether the previous character was actually an escaped backslash, or
  // an escape character for the quote. If we find that the current quote was
  // escaped, we continue parsing for the next quote and repeat.
  // This optimization brings around 30% performance improvements.
  do {
    // Step over the current quote.
    ++Position;
    // Find the next quote.
    while (Position != End && *Position != '"')
      ++Position;
    if (errorIfAtEndOfFile("'\"' at end of string"))
      return 0;
    // Repeat until the previous character was not a '\' or was an escaped
    // backslash.
  } while (*(Position - 1) == '\\' && wasEscaped(First, Position));

  return new (ValueAllocator.Allocate<JSONString>())
      JSONString(StringRef(First, Position - First));
}


// Advances the position to the next non-whitespace position.
void JSONParser::nextNonWhitespace() {
  do {
    ++Position;
  } while (isWhitespace());
}

// Checks if there is a whitespace character at the current position.
bool JSONParser::isWhitespace() {
  return *Position == ' ' || *Position == '\t' ||
         *Position == '\n' || *Position == '\r';
}

bool JSONParser::failed() const {
  return Failed;
}

// Parses a JSONValue, assuming that the current position is at the first
// character of the value.
JSONValue *JSONParser::parseValue() {
  assert(Position != End);
  assert(!isWhitespace());
  switch (*Position) {
    case '[':
      return new (ValueAllocator.Allocate<JSONArray>(1)) JSONArray(this);
    case '{':
      return new (ValueAllocator.Allocate<JSONObject>(1)) JSONObject(this);
    case '"':
      return parseString();
    default:
      setExpectedError("'[', '{' or '\"' at start of value", *Position);
      return 0;
  }
}

// Parses a JSONKeyValuePair, assuming that the current position is at the first
// character of the key, value pair.
JSONKeyValuePair *JSONParser::parseKeyValuePair() {
  assert(Position != End);
  assert(!isWhitespace());

  JSONString *Key = parseString();
  if (Key == 0)
    return 0;

  nextNonWhitespace();
  if (errorIfNotAt(':', "between key and value"))
    return 0;

  nextNonWhitespace();
  const JSONValue *Value = parseValue();
  if (Value == 0)
    return 0;

  return new (ValueAllocator.Allocate<JSONKeyValuePair>(1))
    JSONKeyValuePair(Key, Value);
}

/// \brief Parses the first element of a JSON array or object, or closes the
/// array.
///
/// The method assumes that the current position is before the first character
/// of the element, with possible white space in between. When successful, it
/// returns the new position after parsing the element. Otherwise, if there is
/// no next value, it returns a default constructed StringRef::iterator.
StringRef::iterator JSONParser::parseFirstElement(JSONAtom::Kind ContainerKind,
                                                  char StartChar, char EndChar,
                                                  const JSONAtom *&Element) {
  assert(*Position == StartChar);
  Element = 0;
  nextNonWhitespace();
  if (errorIfAtEndOfFile("value or end of container at start of container"))
    return StringRef::iterator();

  if (*Position == EndChar)
    return StringRef::iterator();

  Element = parseElement(ContainerKind);
  if (Element == 0)
    return StringRef::iterator();

  return Position;
}

/// \brief Parses the next element of a JSON array or object, or closes the
/// array.
///
/// The method assumes that the current position is before the ',' which
/// separates the next element from the current element. When successful, it
/// returns the new position after parsing the element. Otherwise, if there is
/// no next value, it returns a default constructed StringRef::iterator.
StringRef::iterator JSONParser::parseNextElement(JSONAtom::Kind ContainerKind,
                                                 char EndChar,
                                                 const JSONAtom *&Element) {
  Element = 0;
  nextNonWhitespace();
  if (errorIfAtEndOfFile("',' or end of container for next element"))
    return 0;

  if (*Position == ',') {
    nextNonWhitespace();
    if (errorIfAtEndOfFile("element in container"))
      return StringRef::iterator();

    Element = parseElement(ContainerKind);
    if (Element == 0)
      return StringRef::iterator();

    return Position;
  } else if (*Position == EndChar) {
      return StringRef::iterator();
  } else {
    setExpectedError("',' or end of container for next element", *Position);
    return StringRef::iterator();
  }
}

const JSONAtom *JSONParser::parseElement(JSONAtom::Kind ContainerKind) {
  switch (ContainerKind) {
    case JSONAtom::JK_Array:
      return parseValue();
    case JSONAtom::JK_Object:
      return parseKeyValuePair();
    default:
      llvm_unreachable("Impossible code path");
  }
}

bool JSONParser::skipContainer(const JSONContainer &Container) {
  for (JSONContainer::AtomIterator I = Container.atom_current(),
                                   E = Container.atom_end();
       I != E; ++I) {
    assert(*I != 0);
    if (!skip(**I))
      return false;
  }
  return !failed();
}