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84cbb6f00d
Diagnostics are now emitted via the SourceMgr and we use MemoryBuffer for buffer management. Switched the code to make use of the trailing '0' that MemoryBuffer guarantees where it makes sense. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@147063 91177308-0d34-0410-b5e6-96231b3b80d8
228 lines
7.5 KiB
C++
228 lines
7.5 KiB
C++
//===--- JSONParser.cpp - Simple JSON 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 file implements a JSON parser.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Support/JSONParser.h"
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#include "llvm/ADT/Twine.h"
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#include "llvm/Support/Casting.h"
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#include "llvm/Support/MemoryBuffer.h"
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using namespace llvm;
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JSONParser::JSONParser(StringRef Input, SourceMgr *SM)
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: SM(SM), Failed(false) {
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InputBuffer = MemoryBuffer::getMemBuffer(Input, "JSON");
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SM->AddNewSourceBuffer(InputBuffer, SMLoc());
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End = InputBuffer->getBuffer().end();
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Position = InputBuffer->getBuffer().begin();
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}
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JSONValue *JSONParser::parseRoot() {
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if (Position != InputBuffer->getBuffer().begin())
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report_fatal_error("Cannot resuse JSONParser.");
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if (isWhitespace())
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nextNonWhitespace();
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if (errorIfAtEndOfFile("'[' or '{' at start of JSON text"))
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return 0;
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switch (*Position) {
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case '[':
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return new (ValueAllocator.Allocate<JSONArray>(1)) JSONArray(this);
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case '{':
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return new (ValueAllocator.Allocate<JSONObject>(1)) JSONObject(this);
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default:
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setExpectedError("'[' or '{' at start of JSON text", *Position);
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return 0;
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}
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}
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bool JSONParser::validate() {
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JSONValue *Root = parseRoot();
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if (Root == NULL) {
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return false;
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}
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return skip(*Root);
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}
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bool JSONParser::skip(const JSONAtom &Atom) {
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switch(Atom.getKind()) {
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case JSONAtom::JK_Array: return skipContainer(*cast<JSONArray>(&Atom));
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case JSONAtom::JK_Object: return skipContainer(*cast<JSONObject>(&Atom));
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case JSONAtom::JK_String: return true;
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case JSONAtom::JK_KeyValuePair:
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return skip(*cast<JSONKeyValuePair>(&Atom)->Value);
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}
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llvm_unreachable("Impossible enum value.");
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}
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// Sets the current error to:
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// "expected <Expected>, but found <Found>".
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void JSONParser::setExpectedError(StringRef Expected, StringRef Found) {
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SM->PrintMessage(SMLoc::getFromPointer(Position), SourceMgr::DK_Error,
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"expected " + Expected + ", but found " + Found + ".", ArrayRef<SMRange>());
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Failed = true;
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}
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// Sets the current error to:
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// "expected <Expected>, but found <Found>".
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void JSONParser::setExpectedError(StringRef Expected, char Found) {
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setExpectedError(Expected, ("'" + StringRef(&Found, 1) + "'").str());
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}
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// If there is no character available, returns true and sets the current error
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// to: "expected <Expected>, but found EOF.".
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bool JSONParser::errorIfAtEndOfFile(StringRef Expected) {
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if (Position == End) {
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setExpectedError(Expected, "EOF");
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return true;
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}
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return false;
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}
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// Sets the current error if the current character is not C to:
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// "expected 'C', but got <current character>".
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bool JSONParser::errorIfNotAt(char C, StringRef Message) {
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if (*Position != C) {
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std::string Expected =
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("'" + StringRef(&C, 1) + "' " + Message).str();
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if (Position == End)
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setExpectedError(Expected, "EOF");
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else
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setExpectedError(Expected, *Position);
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return true;
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}
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return false;
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}
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// Forbidding inlining improves performance by roughly 20%.
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// FIXME: Remove once llvm optimizes this to the faster version without hints.
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LLVM_ATTRIBUTE_NOINLINE static bool
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wasEscaped(StringRef::iterator First, StringRef::iterator Position);
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// Returns whether a character at 'Position' was escaped with a leading '\'.
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// 'First' specifies the position of the first character in the string.
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static bool wasEscaped(StringRef::iterator First,
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StringRef::iterator Position) {
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assert(Position - 1 >= First);
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StringRef::iterator I = Position - 1;
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// We calulate the number of consecutive '\'s before the current position
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// by iterating backwards through our string.
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while (I >= First && *I == '\\') --I;
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// (Position - 1 - I) now contains the number of '\'s before the current
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// position. If it is odd, the character at 'Positon' was escaped.
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return (Position - 1 - I) % 2 == 1;
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}
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// Parses a JSONString, assuming that the current position is on a quote.
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JSONString *JSONParser::parseString() {
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assert(Position != End);
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assert(!isWhitespace());
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if (errorIfNotAt('"', "at start of string"))
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return 0;
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StringRef::iterator First = Position + 1;
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// Benchmarking shows that this loop is the hot path of the application with
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// about 2/3rd of the runtime cycles. Since escaped quotes are not the common
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// case, and multiple escaped backslashes before escaped quotes are very rare,
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// we pessimize this case to achieve a smaller inner loop in the common case.
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// We're doing that by having a quick inner loop that just scans for the next
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// quote. Once we find the quote we check the last character to see whether
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// the quote might have been escaped. If the last character is not a '\', we
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// know the quote was not escaped and have thus found the end of the string.
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// If the immediately preceding character was a '\', we have to scan backwards
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// to see whether the previous character was actually an escaped backslash, or
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// an escape character for the quote. If we find that the current quote was
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// escaped, we continue parsing for the next quote and repeat.
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// This optimization brings around 30% performance improvements.
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do {
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// Step over the current quote.
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++Position;
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// Find the next quote.
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while (Position != End && *Position != '"')
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++Position;
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if (errorIfAtEndOfFile("'\"' at end of string"))
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return 0;
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// Repeat until the previous character was not a '\' or was an escaped
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// backslash.
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} while (*(Position - 1) == '\\' && wasEscaped(First, Position));
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return new (ValueAllocator.Allocate<JSONString>())
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JSONString(StringRef(First, Position - First));
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}
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// Advances the position to the next non-whitespace position.
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void JSONParser::nextNonWhitespace() {
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do {
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++Position;
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} while (isWhitespace());
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}
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// Checks if there is a whitespace character at the current position.
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bool JSONParser::isWhitespace() {
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return *Position == ' ' || *Position == '\t' ||
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*Position == '\n' || *Position == '\r';
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}
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bool JSONParser::failed() const {
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return Failed;
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}
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// Parses a JSONValue, assuming that the current position is at the first
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// character of the value.
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JSONValue *JSONParser::parseValue() {
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assert(Position != End);
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assert(!isWhitespace());
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switch (*Position) {
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case '[':
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return new (ValueAllocator.Allocate<JSONArray>(1)) JSONArray(this);
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case '{':
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return new (ValueAllocator.Allocate<JSONObject>(1)) JSONObject(this);
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case '"':
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return parseString();
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default:
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setExpectedError("'[', '{' or '\"' at start of value", *Position);
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return 0;
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}
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}
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// Parses a JSONKeyValuePair, assuming that the current position is at the first
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// character of the key, value pair.
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JSONKeyValuePair *JSONParser::parseKeyValuePair() {
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assert(Position != End);
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assert(!isWhitespace());
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JSONString *Key = parseString();
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if (Key == 0)
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return 0;
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nextNonWhitespace();
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if (errorIfNotAt(':', "between key and value"))
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return 0;
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nextNonWhitespace();
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const JSONValue *Value = parseValue();
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if (Value == 0)
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return 0;
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return new (ValueAllocator.Allocate<JSONKeyValuePair>(1))
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JSONKeyValuePair(Key, Value);
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}
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template <> JSONValue *JSONParser::parseElement() {
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return parseValue();
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}
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template <> JSONKeyValuePair *JSONParser::parseElement() {
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return parseKeyValuePair();
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}
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