using System;
namespace UniJSON
{
public static class JsonParser
{
static ValueNodeType GetValueType(Utf8String segment)
{
switch (Char.ToLower((char)segment[0]))
{
case '{': return ValueNodeType.Object;
case '[': return ValueNodeType.Array;
case '"': return ValueNodeType.String;
case 't': return ValueNodeType.Boolean;
case 'f': return ValueNodeType.Boolean;
case 'n':
if (segment.ByteLength >= 2 && Char.ToLower((char)segment[1]) == 'a')
{
return ValueNodeType.NaN;
}
return ValueNodeType.Null;
case 'i':
return ValueNodeType.Infinity;
case '-':
if (segment.ByteLength >= 2 && Char.ToLower((char)segment[1]) == 'i')
{
return ValueNodeType.MinusInfinity;
}
goto case '0';// fall through
case '0': // fall through
case '1': // fall through
case '2': // fall through
case '3': // fall through
case '4': // fall through
case '5': // fall through
case '6': // fall through
case '7': // fall through
case '8': // fall through
case '9': // fall through
{
if (segment.IsInt)
{
return ValueNodeType.Integer;
}
else
{
return ValueNodeType.Number;
}
}
default:
throw new ParserException(segment + " is not valid json start");
}
}
///
/// Expected null, boolean, integer, number
///
///
///
///
///
static JsonNode ParsePrimitive(JsonNode tree, Utf8String segment, ValueNodeType valueType)
{
int i = 1;
for (; i < segment.ByteLength; ++i)
{
if (Char.IsWhiteSpace((char)segment[i])
|| segment[i] == '}'
|| segment[i] == ']'
|| segment[i] == ','
|| segment[i] == ':'
)
{
break;
}
}
return tree.AddValue(segment.Subbytes(0, i).Bytes, valueType);
}
static JsonNode ParseString(JsonNode tree, Utf8String segment)
{
int pos;
if (segment.TrySearchAscii((Byte)'"', 1, out pos))
{
return tree.AddValue(segment.Subbytes(0, pos + 1).Bytes, ValueNodeType.String);
}
else
{
throw new ParserException("no close string: " + segment);
}
}
static JsonNode ParseArray(JsonNode tree, Utf8String segment)
{
var array = tree.AddValue(segment.Bytes, ValueNodeType.Array);
var closeChar = ']';
bool isFirst = true;
var current = segment.Subbytes(1);
while (true)
{
{
// skip white space
int nextToken;
if (!current.TrySearchByte(x => !Char.IsWhiteSpace((char)x), out nextToken))
{
throw new ParserException("no white space expected");
}
current = current.Subbytes(nextToken);
}
{
if (current[0] == closeChar)
{
// end
break;
}
}
if (isFirst)
{
isFirst = false;
}
else
{
// search ',' or closeChar
int keyPos;
if (!current.TrySearchByte(x => x == ',', out keyPos))
{
throw new ParserException("',' expected");
}
current = current.Subbytes(keyPos + 1);
}
{
// skip white space
int nextToken;
if (!current.TrySearchByte(x => !Char.IsWhiteSpace((char)x), out nextToken))
{
throw new ParserException("not whitespace expected");
}
current = current.Subbytes(nextToken);
}
// value
var child = Parse(array, current);
current = current.Subbytes(child.Value.Segment.ByteLength);
}
// fix array range
var count = current.Bytes.Offset + 1 - segment.Bytes.Offset;
array.SetValueBytesCount(count);
return array;
}
static JsonNode ParseObject(JsonNode tree, Utf8String segment)
{
var obj = tree.AddValue(segment.Bytes, ValueNodeType.Object);
var closeChar = '}';
bool isFirst = true;
var current = segment.Subbytes(1);
while (true)
{
{
// skip white space
int nextToken;
if (!current.TrySearchByte(x => !Char.IsWhiteSpace((char)x), out nextToken))
{
throw new ParserException("no white space expected");
}
current = current.Subbytes(nextToken);
}
{
if (current[0] == closeChar)
{
break;
}
}
if (isFirst)
{
isFirst = false;
}
else
{
// search ',' or closeChar
int keyPos;
if (!current.TrySearchByte(x => x == ',', out keyPos))
{
throw new ParserException("',' expected");
}
current = current.Subbytes(keyPos + 1);
}
{
// skip white space
int nextToken;
if (!current.TrySearchByte(x => !Char.IsWhiteSpace((char)x), out nextToken))
{
throw new ParserException("not whitespace expected");
}
current = current.Subbytes(nextToken);
}
// key
var key = Parse(obj, current);
if (!key.IsString())
{
throw new ParserException("object key must string: " + key.Value.Segment);
}
current = current.Subbytes(key.Value.Segment.ByteLength);
// search ':'
int valuePos;
if (!current.TrySearchByte(x => x == ':', out valuePos))
{
throw new ParserException(": is not found");
}
current = current.Subbytes(valuePos + 1);
{
// skip white space
int nextToken;
if (!current.TrySearchByte(x => !Char.IsWhiteSpace((char)x), out nextToken))
{
throw new ParserException("not whitespace expected");
}
current = current.Subbytes(nextToken);
}
// value
var value = Parse(obj, current);
current = current.Subbytes(value.Value.Segment.ByteLength);
}
// fix obj range
var count = current.Bytes.Offset + 1 - segment.Bytes.Offset;
obj.SetValueBytesCount(count);
return obj;
}
public static JsonNode Parse(JsonNode tree, Utf8String segment)
{
// skip white space
int pos;
if (!segment.TrySearchByte(x => !char.IsWhiteSpace((char)x), out pos))
{
throw new ParserException("only whitespace");
}
segment = segment.Subbytes(pos);
var valueType = GetValueType(segment);
switch (valueType)
{
case ValueNodeType.Boolean:
case ValueNodeType.Integer:
case ValueNodeType.Number:
case ValueNodeType.Null:
case ValueNodeType.NaN:
case ValueNodeType.Infinity:
case ValueNodeType.MinusInfinity:
return ParsePrimitive(tree, segment, valueType);
case ValueNodeType.String:
return ParseString(tree, segment);
case ValueNodeType.Array: // fall through
return ParseArray(tree, segment);
case ValueNodeType.Object: // fall through
return ParseObject(tree, segment);
default:
throw new NotImplementedException();
}
}
public static JsonNode Parse(String json)
{
return Parse(Utf8String.From(json));
}
public static JsonNode Parse(Utf8String json)
{
return Parse(default(JsonNode), json);
}
}
}