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x2log/X2Log.JsonDataObjects.pas

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(*****************************************************************************
The MIT License (MIT)
Copyright (c) 2015-2016 Andreas Hausladen
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
*****************************************************************************)
{$A8,B-,C+,E-,F-,G+,H+,I+,J-,K-,M-,N-,O+,P+,Q-,R-,S-,T-,U-,V+,W-,X+,Z1}
{$WARN WIDECHAR_REDUCED OFF} // All sets only use ASCII chars (<=#127) and the compiler generates the >=#128 check itself
{$STRINGCHECKS OFF} // It only slows down Delphi strings, doesn't help C++Builder migration and is finally gone in XE+
{$WARN SYMBOL_DEPRECATED OFF} // for StrLen/StrLComp
{$POINTERMATH ON}
unit X2Log.JsonDataObjects;
{$IFDEF VER200}
// Delphi 2009's ErrorInsight parser uses the CompilerVersion's memory address instead of 20.0, failing all the
// IF CompilerVersion compiler directives
{$DEFINE CPUX86}
{$ELSE}
{$IF CompilerVersion >= 24.0} // XE3 or newer
{$LEGACYIFEND ON}
{$IFEND}
{$IF CompilerVersion >= 23.0}
{$DEFINE HAS_UNIT_SCOPE}
{$DEFINE HAS_RETURN_ADDRESS}
{$IFEND}
{$IF CompilerVersion <= 22.0} // XE or older
{$DEFINE CPUX86}
{$IFEND}
{$ENDIF VER200}
{$IFDEF NEXTGEN}
{$IF CompilerVersion >= 31.0} // 10.1 Berlin or newer
{$DEFINE SUPPORTS_UTF8STRING} // Delphi 10.1 Berlin supports UTF8String for mobile compilers
{$IFEND}
{$ELSE}
{$DEFINE SUPPORTS_UTF8STRING}
{$ENDIF}
{$IFDEF CPUX64}
{$IFNDEF LINUX64} // Linux 64 compiler doesn't support ASM for x64 code => LLVM
{$DEFINE ASMSUPPORT}
{$ENDIF ~LINUX64}
{$ENDIF CPUX64}
{$IFDEF CPUX86}
{$DEFINE ASMSUPPORT}
{$ENDIF CPUX86}
{$IFDEF EXTERNALLINKER} // implicates LLVM
{$UNDEF ASMSUPPORT}
{$ENDIF EXTERNALLINKER}
// Enables the progress callback feature
{$DEFINE SUPPORT_PROGRESS}
// Sanity checks all array index accesses and raise an EListError exception.
{$DEFINE CHECK_ARRAY_INDEX}
// JSON allows the slash to be escaped. This is only necessary if you plan to put the JSON string
// into a <script>-Tag because then "</" can't be used and must be escaped to "<\/". This switch
// enables the special handling for "</" but makes the parser slightly slower.
{.$DEFINE ESCAPE_SLASH_AFTER_LESSTHAN}
// When parsing a JSON string the pair names are interned to reduce the memory foot print. This
// slightly slows down the parser but saves a lot of memory if the JSON string contains repeating
// pair names. The interning uses a hashset to store the strings.
{$DEFINE USE_STRINGINTERN_FOR_NAMES}
// Use an optimized NewInstance implementation. It skips the initialization of the interface table.
// and seals the TJsonArray and TJsonObject classes because it isn't safe to derive from them.
{$DEFINE USE_FAST_NEWINSTANCE}
//{$IF CompilerVersion < 28.0} // XE6 or older
// The XE7 compiler is broken. It doesn't collapse duplicate string literals anymore. (RSP-10015)
// But if the string literals are used in loops this optimization still helps.
// Optimizes the following pattern:
// O['Name'][MyPropStr]
// O['Name']['MyProp'].
// where the second O['Name'] is handled very fast by caching the pointer to the 'Name' string literal.
{$DEFINE USE_LAST_NAME_STRING_LITERAL_CACHE}
//{$IFEND}
// When parsing the JSON string, the UStrAsg calls are skipped for internal strings what eliminates
// the CPU locks for those string assignments.
{$DEFINE USE_FAST_STRASG_FOR_INTERNAL_STRINGS}
{$IFDEF AUTOREFCOUNT}
// Delphi's ARC is slow (RSP-9712). This switch enables a faster ARC handling and even skips memory
// barrier were possible.
{$DEFINE USE_FAST_AUTOREFCOUNT}
{$ENDIF AUTOREFCOUNT}
{$IFDEF MSWINDOWS}
// When adding JSON object properties with string literals, the string literals are stored directly
// in the "Name" field instead of using UStrAsg that creates a new heap string. This improves the
// performance as no string is copied and it slighly reduces the memory usage.
// The string literals are only used if they are in the main instance or the DLL that contains the
// JsonDataObjects unit. Other string literals are copied using UStrAsg because unloading the DLL
// that holds them would cause access violations.
// This has no effect when parsing JSON strings because then there are no string literals.
{$DEFINE USE_NAME_STRING_LITERAL}
// Reading a large file >64 MB from a network drive in Windows 2003 Server or older can lead to
// an INSUFFICIENT RESOURCES error. By enabling this switch, large files are read in 20 MB blocks.
{$DEFINE WORKAROUND_NETWORK_FILE_INSUFFICIENT_RESOURCES}
// If defined, the TzSpecificLocalTimeToSystemTime is imported with GetProcAddress and if it is
// not available (Windows 2000) an alternative implementation is used.
{$DEFINE SUPPORT_WINDOWS2000}
{$ENDIF MSWINDOWS}
interface
uses
{$IFDEF HAS_UNIT_SCOPE}
System.SysUtils, System.Classes;
{$ELSE}
SysUtils, Classes;
{$ENDIF HAS_UNIT_SCOPE}
type
TJsonBaseObject = class;
TJsonObject = class;
TJsonArray = class;
{$IFDEF NEXTGEN}
// Mobile compilers have PAnsiChar but it is hidden and then published under a new name. This alias
// allows us to remove some IFDEFs.
PAnsiChar = MarshaledAString;
{$ENDIF NEXTGEN}
EJsonException = class(Exception);
EJsonCastException = class(EJsonException);
EJsonPathException = class(EJsonException);
EJsonParserException = class(EJsonException)
private
FColumn: NativeInt;
FPosition: NativeInt;
FLineNum: NativeInt;
public
constructor CreateResFmt(ResStringRec: PResStringRec; const Args: array of const; ALineNum, AColumn, APosition: NativeInt);
constructor CreateRes(ResStringRec: PResStringRec; ALineNum, AColumn, APosition: NativeInt);
property LineNum: NativeInt read FLineNum; // base 1
property Column: NativeInt read FColumn; // base 1
property Position: NativeInt read FPosition; // base 0 Utf8Char/WideChar index
end;
{$IFDEF SUPPORT_PROGRESS}
TJsonReaderProgressProc = procedure(Data: Pointer; Percentage: Integer; Position, Size: NativeInt);
PJsonReaderProgressRec = ^TJsonReaderProgressRec;
TJsonReaderProgressRec = record
Data: Pointer; // used for the first Progress() parameter
Threshold: NativeInt; // 0: Call only if percentage changed; greater than 0: call after n processed bytes
Progress: TJsonReaderProgressProc;
function Init(AProgress: TJsonReaderProgressProc; AData: Pointer = nil; AThreshold: NativeInt = 0): PJsonReaderProgressRec;
end;
{$ENDIF SUPPORT_PROGRESS}
// TJsonOutputWriter is used to write the JSON data to a string, stream or TStrings in a compact
// or human readable format.
TJsonOutputWriter = record
private type
TLastType = (ltInitial, ltIndent, ltUnindent, ltIntro, ltValue, ltSeparator);
PJsonStringArray = ^TJsonStringArray;
TJsonStringArray = array[0..MaxInt div SizeOf(string) - 1] of string;
PJsonStringBuilder = ^TJsonStringBuilder;
TJsonStringBuilder = record
private
FData: PChar;
FCapacity: Integer;
FLen: Integer;
procedure Grow(MinLen: Integer);
public
procedure Init;
procedure Done;
procedure DoneConvertToString(var S: string);
function FlushToBytes(var Bytes: PByte; var Size: NativeInt; Encoding: TEncoding): NativeInt;
procedure FlushToMemoryStream(Stream: TMemoryStream; Encoding: TEncoding);
procedure FlushToStringBuffer(var Buffer: TJsonStringBuilder);
procedure FlushToString(var S: string);
function Append(const S: string): PJsonStringBuilder; overload;
procedure Append(P: PChar; Len: Integer); overload;
function Append2(const S1: string; S2: PChar; S2Len: Integer): PJsonStringBuilder; overload;
procedure Append2(Ch1: Char; Ch2: Char); overload;
procedure Append3(Ch1: Char; const S2, S3: string); overload;
procedure Append3(Ch1: Char; const S2: string; Ch3: Char); overload; inline;
procedure Append3(Ch1: Char; const P2: PChar; P2Len: Integer; Ch3: Char); overload;
property Len: Integer read FLen;
property Data: PChar read FData;
end;
private
FLastType: TLastType;
FCompact: Boolean;
FStringBuffer: TJsonStringBuilder;
FLines: TStrings;
FLastLine: TJsonStringBuilder;
FStreamEncodingBuffer: PByte;
FStreamEncodingBufferLen: NativeInt;
FStream: TStream; // used when writing to a stream
FEncoding: TEncoding; // used when writing to a stream
FIndents: PJsonStringArray; // buffer for line indention strings
FIndentsLen: Integer;
FIndent: Integer; // current indention level
procedure StreamFlushPossible; inline; // checks if StreamFlush must be called
procedure StreamFlush; // writes the buffer to the stream
procedure ExpandIndents;
procedure AppendLine(AppendOn: TLastType; const S: string); overload; inline;
procedure AppendLine(AppendOn: TLastType; P: PChar; Len: Integer); overload; inline;
procedure FlushLastLine;
private // unit private
procedure Init(ACompact: Boolean; AStream: TStream; AEncoding: TEncoding; ALines: TStrings);
function Done: string;
procedure StreamDone;
procedure LinesDone;
procedure Indent(const S: string);
procedure Unindent(const S: string);
procedure AppendIntro(P: PChar; Len: Integer);
procedure AppendValue(const S: string); overload;
procedure AppendValue(P: PChar; Len: Integer); overload;
procedure AppendStrValue(P: PChar; Len: Integer);
procedure AppendSeparator(const S: string);
procedure FreeIndents;
end;
TJsonDataType = (
jdtNone, jdtString, jdtInt, jdtLong, jdtULong, jdtFloat, jdtDateTime, jdtBool, jdtArray, jdtObject
);
// TJsonDataValue holds the actual value
PJsonDataValue = ^TJsonDataValue;
TJsonDataValue = packed record
private type
TJsonDataValueRec = record
case TJsonDataType of
jdtNone: (P: PChar); // helps when debugging
jdtString: (S: Pointer); // We manage the string ourself. Delphi doesn't allow "string" in a
// variant record and if we have no string, we don't need to clean
// it up, anyway.
jdtInt: (I: Integer);
jdtLong: (L: Int64);
jdtULong: (U: UInt64);
jdtFloat: (F: Double);
jdtDateTime: (D: TDateTime);
jdtBool: (B: Boolean);
jdtArray: (A: Pointer); // owned by TJsonDataValue
jdtObject: (O: Pointer); // owned by TJsonDataValue
end;
private
FValue: TJsonDataValueRec;
FTyp: TJsonDataType;
function GetValue: string;
function GetIntValue: Integer;
function GetLongValue: Int64;
function GetULongValue: UInt64;
function GetFloatValue: Double;
function GetDateTimeValue: TDateTime;
function GetBoolValue: Boolean;
function GetArrayValue: TJsonArray;
function GetObjectValue: TJsonObject;
function GetVariantValue: Variant;
procedure SetValue(const AValue: string);
procedure SetIntValue(const AValue: Integer);
procedure SetLongValue(const AValue: Int64);
procedure SetULongValue(const AValue: UInt64);
procedure SetFloatValue(const AValue: Double);
procedure SetDateTimeValue(const AValue: TDateTime);
procedure SetBoolValue(const AValue: Boolean);
procedure SetArrayValue(const AValue: TJsonArray);
procedure SetObjectValue(const AValue: TJsonObject);
procedure SetVariantValue(const AValue: Variant);
procedure InternToJSON(var Writer: TJsonOutputWriter);
procedure InternSetValue(const AValue: string); // skips the call to Clear()
procedure InternSetValueTransfer(var AValue: string); // skips the call to Clear() and transfers the string without going through UStrAsg+UStrClr
procedure InternSetArrayValue(const AValue: TJsonArray);
procedure InternSetObjectValue(const AValue: TJsonObject);
procedure Clear;
procedure TypeCastError(ExpectedType: TJsonDataType);
public
property Typ: TJsonDataType read FTyp;
property Value: string read GetValue write SetValue;
property IntValue: Integer read GetIntValue write SetIntValue;
property LongValue: Int64 read GetLongValue write SetLongValue;
property ULongValue: UInt64 read GetULongValue write SetULongValue;
property FloatValue: Double read GetFloatValue write SetFloatValue;
property DateTimeValue: TDateTime read GetDateTimeValue write SetDateTimeValue;
property BoolValue: Boolean read GetBoolValue write SetBoolValue;
property ArrayValue: TJsonArray read GetArrayValue write SetArrayValue;
property ObjectValue: TJsonObject read GetObjectValue write SetObjectValue;
property VariantValue: Variant read GetVariantValue write SetVariantValue;
end;
// TJsonDataValueHelper is used to implement the "easy access" functionality. It is
// slightly slower than using the direct indexed properties.
TJsonDataValueHelper = record
private
function GetValue: string; inline;
function GetIntValue: Integer; inline;
function GetLongValue: Int64; inline;
function GetULongValue: UInt64; //inline; no implicit operator due to conflict with Int64
function GetFloatValue: Double; inline;
function GetDateTimeValue: TDateTime; inline;
function GetBoolValue: Boolean; inline;
function GetArrayValue: TJsonArray; inline;
function GetObjectValue: TJsonObject; inline;
function GetVariantValue: Variant; inline;
procedure SetValue(const Value: string);
procedure SetIntValue(const Value: Integer);
procedure SetLongValue(const Value: Int64);
procedure SetULongValue(const Value: UInt64);
procedure SetFloatValue(const Value: Double);
procedure SetDateTimeValue(const Value: TDateTime);
procedure SetBoolValue(const Value: Boolean);
procedure SetArrayValue(const Value: TJsonArray);
procedure SetObjectValue(const Value: TJsonObject);
procedure SetVariantValue(const Value: Variant);
function GetArrayItem(Index: Integer): TJsonDataValueHelper; inline;
function GetArrayCount: Integer; inline;
function GetObjectString(const Name: string): string; inline;
function GetObjectInt(const Name: string): Integer; inline;
function GetObjectLong(const Name: string): Int64; inline;
function GetObjectULong(const Name: string): UInt64; inline;
function GetObjectFloat(const Name: string): Double; inline;
function GetObjectDateTime(const Name: string): TDateTime; inline;
function GetObjectBool(const Name: string): Boolean; inline;
function GetArray(const Name: string): TJsonArray; inline;
function GetObject(const Name: string): TJsonDataValueHelper; inline;
function GetObjectVariant(const Name: string): Variant; inline;
procedure SetObjectString(const Name, Value: string); inline;
procedure SetObjectInt(const Name: string; const Value: Integer); inline;
procedure SetObjectLong(const Name: string; const Value: Int64); inline;
procedure SetObjectULong(const Name: string; const Value: UInt64); inline;
procedure SetObjectFloat(const Name: string; const Value: Double); inline;
procedure SetObjectDateTime(const Name: string; const Value: TDateTime); inline;
procedure SetObjectBool(const Name: string; const Value: Boolean); inline;
procedure SetArray(const Name: string; const Value: TJsonArray); inline;
procedure SetObject(const Name: string; const Value: TJsonDataValueHelper); inline;
procedure SetObjectVariant(const Name: string; const Value: Variant); inline;
function GetObjectPath(const Name: string): TJsonDataValueHelper; inline;
procedure SetObjectPath(const Name: string; const Value: TJsonDataValueHelper); inline;
function GetTyp: TJsonDataType;
procedure ResolveName;
class procedure SetInternValue(Item: PJsonDataValue; const Value: TJsonDataValueHelper); static;
public
class operator Implicit(const Value: string): TJsonDataValueHelper; overload;
class operator Implicit(const Value: TJsonDataValueHelper): string; overload;
class operator Implicit(const Value: Integer): TJsonDataValueHelper; overload;
class operator Implicit(const Value: TJsonDataValueHelper): Integer; overload;
class operator Implicit(const Value: Int64): TJsonDataValueHelper; overload;
class operator Implicit(const Value: TJsonDataValueHelper): Int64; overload;
//class operator Implicit(const Value: UInt64): TJsonDataValueHelper; overload; conflicts with Int64 operator
//class operator Implicit(const Value: TJsonDataValueHelper): UInt64; overload; conflicts with Int64 operator
class operator Implicit(const Value: Double): TJsonDataValueHelper; overload;
class operator Implicit(const Value: TJsonDataValueHelper): Double; overload;
class operator Implicit(const Value: Extended): TJsonDataValueHelper; overload;
class operator Implicit(const Value: TJsonDataValueHelper): Extended; overload;
class operator Implicit(const Value: TDateTime): TJsonDataValueHelper; overload;
class operator Implicit(const Value: TJsonDataValueHelper): TDateTime; overload;
class operator Implicit(const Value: Boolean): TJsonDataValueHelper; overload;
class operator Implicit(const Value: TJsonDataValueHelper): Boolean; overload;
class operator Implicit(const Value: TJsonArray): TJsonDataValueHelper; overload;
class operator Implicit(const Value: TJsonDataValueHelper): TJsonArray; overload;
class operator Implicit(const Value: TJsonObject): TJsonDataValueHelper; overload;
class operator Implicit(const Value: TJsonDataValueHelper): TJsonObject; overload;
class operator Implicit(const Value: Pointer): TJsonDataValueHelper; overload;
class operator Implicit(const Value: TJsonDataValueHelper): Variant; overload;
class operator Implicit(const Value: Variant): TJsonDataValueHelper; overload;
property Typ: TJsonDataType read GetTyp;
property Value: string read GetValue write SetValue;
property IntValue: Integer read GetIntValue write SetIntValue;
property LongValue: Int64 read GetLongValue write SetLongValue;
property ULongValue: UInt64 read GetULongValue write SetULongValue;
property FloatValue: Double read GetFloatValue write SetFloatValue;
property DateTimeValue: TDateTime read GetDateTimeValue write SetDateTimeValue;
property BoolValue: Boolean read GetBoolValue write SetBoolValue;
property ArrayValue: TJsonArray read GetArrayValue write SetArrayValue;
property ObjectValue: TJsonObject read GetObjectValue write SetObjectValue;
property VariantValue: Variant read GetVariantValue write SetVariantValue;
// Access to array item count
property Count: Integer read GetArrayCount;
// Access to array items
property Items[Index: Integer]: TJsonDataValueHelper read GetArrayItem;
property S[const Name: string]: string read GetObjectString write SetObjectString; // returns '' if property doesn't exist, auto type-cast except for array/object
property I[const Name: string]: Integer read GetObjectInt write SetObjectInt; // returns 0 if property doesn't exist, auto type-cast except for array/object
property L[const Name: string]: Int64 read GetObjectLong write SetObjectLong; // returns 0 if property doesn't exist, auto type-cast except for array/object
property U[const Name: string]: UInt64 read GetObjectULong write SetObjectULong; // returns 0 if property doesn't exist, auto type-cast except for array/object
property F[const Name: string]: Double read GetObjectFloat write SetObjectFloat; // returns 0 if property doesn't exist, auto type-cast except for array/object
property D[const Name: string]: TDateTime read GetObjectDateTime write SetObjectDateTime; // returns 0 if property doesn't exist, auto type-cast except for array/object
property B[const Name: string]: Boolean read GetObjectBool write SetObjectBool; // returns false if property doesn't exist, auto type-cast with "<>'true'" and "<>0" except for array/object
// Used to auto create arrays
property A[const Name: string]: TJsonArray read GetArray write SetArray;
// Used to auto create objects and as default property where no Implicit operator matches
property O[const Name: string]: TJsonDataValueHelper read GetObject write SetObject; default;
property V[const Name: string]: Variant read GetObjectVariant write SetObjectVariant;
property Path[const Name: string]: TJsonDataValueHelper read GetObjectPath write SetObjectPath;
private
FData: record // hide the data from CodeInsight (bug in CodeInsight)
FIntern: PJsonDataValue;
FName: string;
FNameResolver: TJsonObject;
FValue: string; // must be managed by Delphi otherwise we have a memory leak
{$IFDEF AUTOREFCOUNT}
FObj: TJsonBaseObject;
{$ENDIF AUTOREFCOUNT}
case FTyp: TJsonDataType of
jdtInt: (FIntValue: Integer);
jdtLong: (FLongValue: Int64);
jdtULong: (FULongValue: UInt64);
jdtFloat: (FFloatValue: Double);
jdtDateTime: (FDateTimeValue: TDateTime);
jdtBool: (FBoolValue: Boolean);
{$IFNDEF AUTOREFCOUNT}
jdtObject: (FObj: TJsonBaseObject); // used for both Array and Object
//jdtArray: (FArrayValue: TJsonArray);
//jdtObject: (FObjectValue: TJsonObject);
{$ENDIF AUTOREFCOUNT}
end;
end;
// TJsonBaseObject is the base class for TJsonArray and TJsonObject
TJsonBaseObject = class abstract(TObject)
private type
TWriterAppendMethod = procedure(P: PChar; Len: Integer) of object;
TStreamInfo = record
Buffer: PByte;
Size: NativeInt;
AllocationBase: Pointer;
end;
private
class procedure StrToJSONStr(const AppendMethod: TWriterAppendMethod; const S: string); static;
class procedure EscapeStrToJSONStr(F, P, EndP: PChar; const AppendMethod: TWriterAppendMethod); static;
class procedure DateTimeToJSONStr(const AppendMethod: TWriterAppendMethod;
const Value: TDateTime); static;
class procedure InternInitAndAssignItem(Dest, Source: PJsonDataValue); static;
class procedure GetStreamBytes(Stream: TStream; var Encoding: TEncoding; Utf8WithoutBOM: Boolean;
var StreamInfo: TStreamInfo); static;
{$IFDEF USE_FAST_AUTOREFCOUNT}
function ARCObjRelease: Integer; inline;
function ARCObjAddRef: Integer; inline;
{$ENDIF USE_FAST_AUTOREFCOUNT}
protected
procedure InternToJSON(var Writer: TJsonOutputWriter); virtual; abstract;
public
const DataTypeNames: array[TJsonDataType] of string = (
'null', 'String', 'Integer', 'Long', 'ULong', 'Float', 'DateTime', 'Bool', 'Array', 'Object'
);
{$IFDEF USE_FAST_NEWINSTANCE}
class function NewInstance: TObject {$IFDEF AUTOREFCOUNT} unsafe {$ENDIF}; override;
{$ENDIF USE_FAST_NEWINSTANCE}
// ParseXxx returns nil if the JSON string is empty or consists only of white chars.
// If the JSON string starts with a "[" then the returned object is a TJsonArray otherwise
// it is a TJsonObject.
class function ParseUtf8(S: PAnsiChar; Len: Integer = -1{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec = nil{$ENDIF}): TJsonBaseObject; overload; static; inline;
{$IFDEF SUPPORTS_UTF8STRING}
class function ParseUtf8(const S: UTF8String{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec = nil{$ENDIF}): TJsonBaseObject; overload; static; inline;
{$ENDIF SUPPORTS_UTF8STRING}
class function ParseUtf8Bytes(S: PByte; Len: Integer = -1{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec = nil{$ENDIF}): TJsonBaseObject; static;
class function Parse(S: PWideChar; Len: Integer = -1{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec = nil{$ENDIF}): TJsonBaseObject; overload; static;
class function Parse(const S: UnicodeString{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec = nil{$ENDIF}): TJsonBaseObject; overload; static; inline;
class function Parse(const Bytes: TBytes; Encoding: TEncoding = nil; ByteIndex: Integer = 0;
ByteCount: Integer = -1{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec = nil{$ENDIF}): TJsonBaseObject; overload; static;
class function ParseFromFile(const FileName: string; Utf8WithoutBOM: Boolean = True{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec = nil{$ENDIF}): TJsonBaseObject; static;
class function ParseFromStream(Stream: TStream; Encoding: TEncoding = nil; Utf8WithoutBOM: Boolean = True{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec = nil{$ENDIF}): TJsonBaseObject; static;
procedure LoadFromFile(const FileName: string; Utf8WithoutBOM: Boolean = True{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec = nil{$ENDIF});
procedure LoadFromStream(Stream: TStream; Encoding: TEncoding = nil; Utf8WithoutBOM: Boolean = True{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec = nil{$ENDIF});
procedure SaveToFile(const FileName: string; Compact: Boolean = True; Encoding: TEncoding = nil; Utf8WithoutBOM: Boolean = True);
procedure SaveToStream(Stream: TStream; Compact: Boolean = True; Encoding: TEncoding = nil; Utf8WithoutBOM: Boolean = True);
procedure SaveToLines(Lines: TStrings);
// FromXxxJSON() raises an EJsonParserException if you try to parse an array JSON string into a
// TJsonObject or a object JSON string into a TJsonArray.
{$IFDEF SUPPORTS_UTF8STRING}
procedure FromUtf8JSON(const S: UTF8String{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec = nil{$ENDIF}); overload; inline;
{$ENDIF SUPPORTS_UTF8STRING}
procedure FromUtf8JSON(S: PAnsiChar; Len: Integer = -1{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec = nil{$ENDIF}); overload; inline;
procedure FromUtf8JSON(S: PByte; Len: Integer = -1{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec = nil{$ENDIF}); overload;
procedure FromJSON(const S: UnicodeString{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec = nil{$ENDIF}); overload;
procedure FromJSON(S: PWideChar; Len: Integer = -1{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec = nil{$ENDIF}); overload;
function ToJSON(Compact: Boolean = True): string;
{$IFDEF SUPPORTS_UTF8STRING}
function ToUtf8JSON(Compact: Boolean = True): UTF8String; overload;
{$ENDIF SUPPORTS_UTF8STRING}
procedure ToUtf8JSON(var Bytes: TBytes; Compact: Boolean = True); {$IFDEF SUPPORTS_UTF8STRING}overload;{$ENDIF}
// ToString() returns a compact JSON string
function ToString: string; override;
class function JSONToDateTime(const Value: string): TDateTime; static;
class function DateTimeToJSON(const Value: TDateTime; UseUtcTime: Boolean): string; static;
end;
PJsonDataValueArray = ^TJsonDataValueArray;
TJsonDataValueArray = array[0..MaxInt div SizeOf(TJsonDataValue) - 1] of TJsonDataValue;
TJsonArrayEnumerator = class(TObject)
private
FIndex: Integer;
FArray: TJsonArray;
public
constructor Create(AArray: TJSonArray);
function GetCurrent: TJsonDataValueHelper; inline;
function MoveNext: Boolean;
property Current: TJsonDataValueHelper read GetCurrent;
end;
// TJsonArray hold a JSON array and manages the array elements.
TJsonArray = class {$IFDEF USE_FAST_NEWINSTANCE}sealed{$ENDIF}(TJsonBaseObject)
private
FItems: PJsonDataValueArray;
FCapacity: Integer;
FCount: Integer;
function GetString(Index: Integer): string; inline;
function GetInt(Index: Integer): Integer; inline;
function GetLong(Index: Integer): Int64; inline;
function GetULong(Index: Integer): UInt64; inline;
function GetFloat(Index: Integer): Double; inline;
function GetDateTime(Index: Integer): TDateTime; inline;
function GetBool(Index: Integer): Boolean; inline;
function GetArray(Index: Integer): TJsonArray; inline;
function GetObject(Index: Integer): TJsonObject; inline;
function GetVariant(Index: Integer): Variant; inline;
procedure SetString(Index: Integer; const Value: string); inline;
procedure SetInt(Index: Integer; const Value: Integer); inline;
procedure SetLong(Index: Integer; const Value: Int64); inline;
procedure SetULong(Index: Integer; const Value: UInt64); inline;
procedure SetFloat(Index: Integer; const Value: Double); inline;
procedure SetDateTime(Index: Integer; const Value: TDateTime); inline;
procedure SetBool(Index: Integer; const Value: Boolean); inline;
procedure SetArray(Index: Integer; const Value: TJsonArray); inline;
procedure SetObject(Index: Integer; const Value: TJsonObject); inline;
procedure SetVariant(Index: Integer; const Value: Variant); inline;
function GetItem(Index: Integer): PJsonDataValue; inline;
function GetType(Index: Integer): TJsonDataType; inline;
function GetValue(Index: Integer): TJsonDataValueHelper;
procedure SetValue(Index: Integer; const Value: TJsonDataValueHelper);
function AddItem: PJsonDataValue;
function InsertItem(Index: Integer): PJsonDataValue;
procedure Grow;
procedure InternApplyCapacity; inline;
procedure SetCapacity(const Value: Integer);
procedure SetCount(const Value: Integer);
protected
procedure InternToJSON(var Writer: TJsonOutputWriter); override;
class procedure RaiseListError(Index: Integer); static;
public
destructor Destroy; override;
procedure Clear;
procedure Delete(Index: Integer);
// Extract removes the object/array from the array and transfers the ownership to the caller.
function Extract(Index: Integer): TJsonBaseObject;
function ExtractArray(Index: Integer): TJsonArray;
function ExtractObject(Index: Integer): TJsonObject;
procedure Assign(ASource: TJsonArray);
procedure Add(const AValue: string); overload;
procedure Add(const AValue: Integer); overload;
procedure Add(const AValue: Int64); overload;
procedure Add(const AValue: UInt64); overload;
procedure Add(const AValue: Double); overload;
procedure Add(const AValue: TDateTime); overload;
procedure Add(const AValue: Boolean); overload;
procedure Add(const AValue: TJsonArray); overload;
procedure Add(const AValue: TJsonObject); overload;
procedure Add(const AValue: Variant); overload;
function AddArray: TJsonArray;
function AddObject: TJsonObject; overload;
procedure AddObject(const Value: TJsonObject); overload; inline; // makes it easier to add "null"
procedure Insert(Index: Integer; const AValue: string); overload;
procedure Insert(Index: Integer; const AValue: Integer); overload;
procedure Insert(Index: Integer; const AValue: Int64); overload;
procedure Insert(Index: Integer; const AValue: UInt64); overload;
procedure Insert(Index: Integer; const AValue: Double); overload;
procedure Insert(Index: Integer; const AValue: TDateTime); overload;
procedure Insert(Index: Integer; const AValue: Boolean); overload;
procedure Insert(Index: Integer; const AValue: TJsonArray); overload;
procedure Insert(Index: Integer; const AValue: TJsonObject); overload;
procedure Insert(Index: Integer; const AValue: Variant); overload;
function InsertArray(Index: Integer): TJsonArray;
function InsertObject(Index: Integer): TJsonObject; overload;
procedure InsertObject(Index: Integer; const Value: TJsonObject); overload; inline; // makes it easier to insert "null"
function GetEnumerator: TJsonArrayEnumerator;
property Types[Index: Integer]: TJsonDataType read GetType;
property Values[Index: Integer]: TJsonDataValueHelper read GetValue write SetValue; default;
// Short names
property S[Index: Integer]: string read GetString write SetString;
property I[Index: Integer]: Integer read GetInt write SetInt;
property L[Index: Integer]: Int64 read GetLong write SetLong;
property U[Index: Integer]: UInt64 read GetULong write SetULong;
property F[Index: Integer]: Double read GetFloat write SetFloat;
property D[Index: Integer]: TDateTime read GetDateTime write SetDateTime;
property B[Index: Integer]: Boolean read GetBool write SetBool;
property A[Index: Integer]: TJsonArray read GetArray write SetArray;
property O[Index: Integer]: TJsonObject read GetObject write SetObject;
property V[Index: Integer]: Variant read GetVariant write SetVariant;
property Items[Index: Integer]: PJsonDataValue read GetItem;
property Count: Integer read FCount write SetCount;
property Capacity: Integer read FCapacity write SetCapacity;
end;
TJsonNameValuePair = record
Name: string;
Value: TJsonDataValueHelper;
end;
TJsonObjectEnumerator = class(TObject)
protected
FIndex: Integer;
FObject: TJsonObject;
public
constructor Create(AObject: TJsonObject);
function GetCurrent: TJsonNameValuePair; inline;
function MoveNext: Boolean;
property Current: TJsonNameValuePair read GetCurrent;
end;
// TJsonObject hold a JSON object and manages the JSON object properties
TJsonObject = class {$IFDEF USE_FAST_NEWINSTANCE}sealed{$ENDIF}(TJsonBaseObject)
private type
PJsonStringArray = ^TJsonStringArray;
TJsonStringArray = array[0..MaxInt div SizeOf(string) - 1] of string;
private
FItems: PJsonDataValueArray;
FNames: PJsonStringArray;
FCapacity: Integer;
FCount: Integer;
{$IFDEF USE_LAST_NAME_STRING_LITERAL_CACHE}
FLastValueItem: PJsonDataValue;
FLastValueItemNamePtr: Pointer;
procedure UpdateLastValueItem(const Name: string; Item: PJsonDataValue);
{$ENDIF USE_LAST_NAME_STRING_LITERAL_CACHE}
function FindItem(const Name: string; var Item: PJsonDataValue): Boolean;
function RequireItem(const Name: string): PJsonDataValue;
function GetString(const Name: string): string;
function GetBool(const Name: string): Boolean;
function GetInt(const Name: string): Integer;
function GetLong(const Name: string): Int64;
function GetULong(const Name: string): UInt64;
function GetFloat(const Name: string): Double;
function GetDateTime(const Name: string): TDateTime;
function GetObject(const Name: string): TJsonObject;
function GetArray(const Name: string): TJsonArray;
procedure SetString(const Name, Value: string);
procedure SetBool(const Name: string; const Value: Boolean);
procedure SetInt(const Name: string; const Value: Integer);
procedure SetLong(const Name: string; const Value: Int64);
procedure SetULong(const Name: string; const Value: UInt64);
procedure SetFloat(const Name: string; const Value: Double);
procedure SetDateTime(const Name: string; const Value: TDateTime);
procedure SetObject(const Name: string; const Value: TJsonObject);
procedure SetArray(const Name: string; const Value: TJsonArray);
function GetType(const Name: string): TJsonDataType;
function GetName(Index: Integer): string; inline;
function GetItem(Index: Integer): PJsonDataValue; inline;
procedure SetValue(const Name: string; const Value: TJsonDataValueHelper);
function GetValue(const Name: string): TJsonDataValueHelper;
{ Used from the reader, never every use them outside the reader, they may crash your strings }
procedure InternAdd(var AName: string; const AValue: string); overload;
procedure InternAdd(var AName: string; const AValue: Integer); overload;
procedure InternAdd(var AName: string; const AValue: Int64); overload;
procedure InternAdd(var AName: string; const AValue: UInt64); overload;
procedure InternAdd(var AName: string; const AValue: Double); overload;
procedure InternAdd(var AName: string; const AValue: TDateTime); overload;
procedure InternAdd(var AName: string; const AValue: Boolean); overload;
procedure InternAdd(var AName: string; const AValue: TJsonArray); overload;
procedure InternAdd(var AName: string; const AValue: TJsonObject); overload;
function InternAddArray(var AName: string): TJsonArray;
function InternAddObject(var AName: string): TJsonObject;
function InternAddItem(var Name: string): PJsonDataValue;
function AddItem(const Name: string): PJsonDataValue;
procedure Grow;
procedure InternApplyCapacity;
procedure SetCapacity(const Value: Integer);
function GetPath(const NamePath: string): TJsonDataValueHelper;
procedure SetPath(const NamePath: string; const Value: TJsonDataValueHelper);
function IndexOfPChar(S: PChar; Len: Integer): Integer;
procedure PathError(P, EndP: PChar);
procedure PathNullError(P, EndP: PChar);
procedure PathIndexError(P, EndP: PChar; Count: Integer);
protected
procedure InternToJSON(var Writer: TJsonOutputWriter); override;
function FindCaseInsensitiveItem(const ACaseInsensitiveName: string): PJsonDataValue;
public
destructor Destroy; override;
procedure Assign(ASource: TJsonObject);
// ToSimpleObject() maps the JSON object properties to the Delphi object by using the object's
// TypeInfo.
// The object's class must be compiled with the $M+ compiler switch or derive from TPersistent.
procedure ToSimpleObject(AObject: TObject; ACaseSensitive: Boolean = True);
// FromSimpleObject() clears the JSON object and adds the Delphi object's properties.
// The object's class must be compiled with the $M+ compiler switch or derive from TPersistent.
procedure FromSimpleObject(AObject: TObject; ALowerCamelCase: Boolean = False);
procedure Clear;
procedure Remove(const Name: string);
procedure Delete(Index: Integer);
function IndexOf(const Name: string): Integer;
function Contains(const Name: string): Boolean;
// Extract removes the object/array from the object and transfers the ownership to the caller.
function Extract(const Name: string): TJsonBaseObject;
function ExtractArray(const Name: string): TJsonArray;
function ExtractObject(const Name: string): TJsonObject;
function GetEnumerator: TJsonObjectEnumerator;
property Types[const Name: string]: TJsonDataType read GetType;
property Values[const Name: string]: TJsonDataValueHelper read GetValue write SetValue; default;
// Short names
property S[const Name: string]: string read GetString write SetString; // returns '' if property doesn't exist, auto type-cast except for array/object
property I[const Name: string]: Integer read GetInt write SetInt; // returns 0 if property doesn't exist, auto type-cast except for array/object
property L[const Name: string]: Int64 read GetLong write SetLong; // returns 0 if property doesn't exist, auto type-cast except for array/object
property U[const Name: string]: UInt64 read GetULong write SetULong; // returns 0 if property doesn't exist, auto type-cast except for array/object
property F[const Name: string]: Double read GetFloat write SetFloat; // returns 0 if property doesn't exist, auto type-cast except for array/object
property D[const Name: string]: TDateTime read GetDateTime write SetDateTime; // returns 0 if property doesn't exist, auto type-cast except for array/object
property B[const Name: string]: Boolean read GetBool write SetBool; // returns false if property doesn't exist, auto type-cast with "<>'true'" and "<>0" except for array/object
property A[const Name: string]: TJsonArray read GetArray write SetArray; // auto creates array on first access
property O[const Name: string]: TJsonObject read GetObject write SetObject; // auto creates object on first access
property Path[const NamePath: string]: TJsonDataValueHelper read GetPath write SetPath;
// Indexed access to the named properties
property Names[Index: Integer]: string read GetName;
property Items[Index: Integer]: PJsonDataValue read GetItem;
property Count: Integer read FCount;
property Capacity: Integer read FCapacity write SetCapacity;
end;
TJsonSerializationConfig = record
LineBreak: string;
IndentChar: string;
UseUtcTime: Boolean;
NullConvertsToValueTypes: Boolean;
end;
// Rename classes because RTL classes have the same name
TJDOJsonBaseObject = TJsonBaseObject;
TJDOJsonObject = TJsonObject;
TJDOJsonArray = TJsonArray;
var
JsonSerializationConfig: TJsonSerializationConfig = ( // not thread-safe
LineBreak: #10;
IndentChar: #9;
UseUtcTime: True;
NullConvertsToValueTypes: False; // If True and an object is nil/null, a convertion to String, Int, Long, Float, DateTime, Boolean will return ''/0/False
);
implementation
uses
{$IFDEF HAS_UNIT_SCOPE}
{$IFDEF MSWINDOWS}
Winapi.Windows,
{$ELSE}
System.DateUtils,
{$ENDIF MSWINDOWS}
System.Variants, System.RTLConsts, System.TypInfo, System.Math, System.SysConst;
{$ELSE}
{$IFDEF MSWINDOWS}
Windows,
{$ELSE}
DateUtils,
{$ENDIF MSWINDOWS}
Variants, RTLConsts, TypInfo, Math, SysConst;
{$ENDIF HAS_UNIT_SCOPE}
{$IF SizeOf(LongWord) <> 4}
// Make LongWord on all platforms a UInt32.
type
LongWord = UInt32;
PLongWord = ^LongWord;
{$IFEND}
resourcestring
RsUnsupportedFileEncoding = 'File encoding is not supported';
RsUnexpectedEndOfFile = 'Unexpected end of file where %s was expected';
RsUnexpectedToken = 'Expected %s but found %s';
RsInvalidStringCharacter = 'Invalid character in string';
RsStringNotClosed = 'String not closed';
RsInvalidHexNumber = 'Invalid hex number "%s"';
RsTypeCastError = 'Cannot cast %s into %s';
RsMissingClassInfo = 'Class "%s" doesn''t have type information. {$M+} was not specified';
RsInvalidJsonPath = 'Invalid JSON path "%s"';
RsJsonPathContainsNullValue = 'JSON path contains null value ("%s")';
RsJsonPathIndexError = 'JSON path index out of bounds (%d) "%s"';
RsVarTypeNotSupported = 'VarType %d is not supported';
{$IFDEF USE_FAST_STRASG_FOR_INTERNAL_STRINGS}
{$IFDEF DEBUG}
//RsInternAsgStringUsageError = 'InternAsgString was called on a string literal';
{$ENDIF DEBUG}
{$ENDIF USE_FAST_STRASG_FOR_INTERNAL_STRINGS}
type
TJsonTokenKind = (
jtkEof, jtkInvalidSymbol,
jtkLBrace, jtkRBrace, jtkLBracket, jtkRBracket, jtkComma, jtkColon,
jtkIdent,
jtkValue, jtkString, jtkInt, jtkLong, jtkULong, jtkFloat, jtkTrue, jtkFalse, jtkNull
);
const
JsonTokenKindToStr: array[TJsonTokenKind] of string = (
'end of file', 'invalid symbol',
'"{"', '"}"', '"["', '"]"', '","', '":"',
'identifier',
'value', 'value', 'value', 'value', 'value', 'value', 'value', 'value', 'value'
);
Power10: array[0..18] of Double = (
1E0, 1E1, 1E2, 1E3, 1E4, 1E5, 1E6, 1E7, 1E8, 1E9,
1E10, 1E11, 1E12, 1E13, 1E14, 1E15, 1E16, 1E17, 1E18
);
// XE7 broke string literal collapsing
var
sTrue: string = 'true';
sFalse: string = 'false';
const
sNull = 'null';
sQuoteChar = '"';
{$IF not declared(varObject)}
varObject = $0049;
{$IFEND}
type
PStrRec = ^TStrRec;
TStrRec = packed record
{$IF defined(CPUX64) or defined(CPU64BITS)} // XE2-XE7 (CPUX64), XE8+ (CPU64BITS)
_Padding: Integer;
{$IFEND}
CodePage: Word;
ElemSize: Word;
RefCnt: Integer;
Length: Integer;
end;
// TEncodingStrictAccess gives us access to the strict protected functions which are much easier
// to use with TJsonStringBuilder than converting FData to a dynamic TCharArray.
TEncodingStrictAccess = class(TEncoding)
public
function GetByteCountEx(Chars: PChar; CharCount: Integer): Integer; inline;
function GetBytesEx(Chars: PChar; CharCount: Integer; Bytes: PByte; ByteCount: Integer): Integer; inline;
function GetCharCountEx(Bytes: PByte; ByteCount: Integer): Integer; inline;
function GetCharsEx(Bytes: PByte; ByteCount: Integer; Chars: PChar; CharCount: Integer): Integer; inline;
end;
{$IFDEF USE_STRINGINTERN_FOR_NAMES}
TStringIntern = record
private type
PJsonStringEntry = ^TJsonStringEntry;
TJsonStringEntry = record
Next: Integer;
Hash: Integer;
Name: string;
end;
PJsonStringEntryArray = ^TJsonStringEntryArray;
TJsonStringEntryArray = array[0..MaxInt div SizeOf(TJsonStringEntry) - 1] of TJsonStringEntry;
PJsonIntegerArray = ^TJsonIntegerArray;
TJsonIntegerArray = array[0..MaxInt div SizeOf(Integer) - 1] of Integer;
private
FStrings: PJsonStringEntryArray;
FBuckets: PJsonIntegerArray;
FCapacity: Integer;
FCount: Integer;
class function GetHash(const Name: string): Integer; static;
procedure Grow;
function Find(Hash: Integer; const S: string): Integer;
procedure InternAdd(AHash: Integer; const S: string);
public
procedure Init;
procedure Done;
procedure Intern(var S: string; var PropName: string);
end;
{$ENDIF USE_STRINGINTERN_FOR_NAMES}
TJsonToken = record
Kind: TJsonTokenKind;
S: string; // jtkIdent/jtkString
case Integer of
0: (I: Integer; HI: Integer);
1: (L: Int64);
2: (U: UInt64);
3: (F: Double);
end;
TJsonReader = class(TObject)
private
{$IFDEF USE_STRINGINTERN_FOR_NAMES}
FIdents: TStringIntern;
{$ENDIF USE_STRINGINTERN_FOR_NAMES}
FPropName: string;
procedure Accept(TokenKind: TJsonTokenKind);
procedure ParseObjectBody(const Data: TJsonObject);
procedure ParseObjectProperty(const Data: TJsonObject);
procedure ParseObjectPropertyValue(const Data: TJsonObject);
procedure ParseArrayBody(const Data: TJsonArray);
procedure ParseArrayPropertyValue(const Data: TJsonArray);
procedure AcceptFailed(TokenKind: TJsonTokenKind);
protected
FLook: TJsonToken;
FLineNum: Integer;
FStart: Pointer;
FLineStart: Pointer;
{$IFDEF SUPPORT_PROGRESS}
FLastProgressValue: NativeInt;
FSize: NativeInt;
FProgress: PJsonReaderProgressRec;
procedure CheckProgress(Position: Pointer);
{$ENDIF SUPPORT_PROGRESS}
function GetLineColumn: NativeInt;
function GetPosition: NativeInt;
function GetCharOffset(StartPos: Pointer): NativeInt; virtual; abstract;
function Next: Boolean; virtual; abstract;
class procedure InvalidStringCharacterError(const Reader: TJsonReader); static;
class procedure StringNotClosedError(const Reader: TJsonReader); static;
class procedure JSONStrToStr(P, EndP: PChar; FirstEscapeIndex: Integer; var S: string;
const Reader: TJsonReader); static;
class procedure JSONUtf8StrToStr(P, EndP: PByte; FirstEscapeIndex: Integer; var S: string;
const Reader: TJsonReader); static;
public
{$IFDEF USE_FAST_NEWINSTANCE}
class function NewInstance: TObject {$IFDEF AUTOREFCOUNT} unsafe {$ENDIF}; override;
procedure FreeInstance; override;
{$ENDIF USE_FAST_NEWINSTANCE}
constructor Create(AStart: Pointer{$IFDEF SUPPORT_PROGRESS}; ASize: NativeInt; AProgress: PJsonReaderProgressRec{$ENDIF});
destructor Destroy; override;
procedure Parse(Data: TJsonBaseObject);
end;
TUtf8JsonReader = class sealed(TJsonReader)
private
FText: PByte;
FTextEnd: PByte;
protected
function GetCharOffset(StartPos: Pointer): NativeInt; override; final;
function Next: Boolean; override; final;
// ARM optimization: Next() already has EndP in a local variable so don't use the slow indirect
// access to FTextEnd.
procedure LexString(P: PByte{$IFDEF CPUARM}; EndP: PByte{$ENDIF});
procedure LexNumber(P: PByte{$IFDEF CPUARM}; EndP: PByte{$ENDIF});
procedure LexIdent(P: PByte{$IFDEF CPUARM}; EndP: PByte{$ENDIF});
public
constructor Create(S: PByte; Len: NativeInt{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF});
end;
TStringJsonReader = class sealed(TJsonReader)
private
FText: PChar;
FTextEnd: PChar;
protected
function GetCharOffset(StartPos: Pointer): NativeInt; override; final;
function Next: Boolean; override; final;
// ARM optimization: Next() already has EndP in a local variable so don't use the slow indirect
// access to FTextEnd.
procedure LexString(P: PChar{$IFDEF CPUARM}; EndP: PChar{$ENDIF});
procedure LexNumber(P: PChar{$IFDEF CPUARM}; EndP: PChar{$ENDIF});
procedure LexIdent(P: PChar{$IFDEF CPUARM}; EndP: PChar{$ENDIF});
public
constructor Create(S: PChar; Len: Integer{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF});
end;
TMemoryStreamAccess = class(TMemoryStream);
{$IFDEF SUPPORTS_UTF8STRING}
TJsonUTF8StringStream = class(TMemoryStream)
private
FDataString: UTF8String;
protected
function Realloc(var NewCapacity: Longint): Pointer; override;
public
constructor Create;
property DataString: UTF8String read FDataString;
end;
{$ENDIF SUPPORTS_UTF8STRING}
TJsonBytesStream = class(TMemoryStream)
private
FBytes: TBytes;
protected
function Realloc(var NewCapacity: Longint): Pointer; override;
public
constructor Create;
property Bytes: TBytes read FBytes;
end;
var
JSONFormatSettings: TFormatSettings;
{$IFDEF USE_NAME_STRING_LITERAL}
JsonMemInfoInitialized: Boolean = False;
JsonMemInfoBlockStart: PByte = nil;
JsonMemInfoBlockEnd: PByte = nil;
JsonMemInfoMainBlockStart: PByte = nil;
JsonMemInfoMainBlockEnd: PByte = nil;
{$ENDIF USE_NAME_STRING_LITERAL}
{$IFDEF MSWINDOWS}
{$IFDEF SUPPORT_WINDOWS2000}
var
TzSpecificLocalTimeToSystemTime: function(lpTimeZoneInformation: PTimeZoneInformation;
var lpLocalTime, lpUniversalTime: TSystemTime): BOOL; stdcall;
function TzSpecificLocalTimeToSystemTimeWin2000(lpTimeZoneInformation: PTimeZoneInformation;
var lpLocalTime, lpUniversalTime: TSystemTime): BOOL; stdcall;
var
TimeZoneInfo: TTimeZoneInformation;
begin
if lpTimeZoneInformation <> nil then
TimeZoneInfo := lpTimeZoneInformation^
else
GetTimeZoneInformation(TimeZoneInfo);
// Reverse the bias so that SystemTimeToTzSpecificLocalTime becomes TzSpecificLocalTimeToSystemTime
TimeZoneInfo.Bias := -TimeZoneInfo.Bias;
TimeZoneInfo.StandardBias := -TimeZoneInfo.StandardBias;
TimeZoneInfo.DaylightBias := -TimeZoneInfo.DaylightBias;
Result := SystemTimeToTzSpecificLocalTime(@TimeZoneInfo, lpLocalTime, lpUniversalTime);
end;
{$ELSE}
function TzSpecificLocalTimeToSystemTime(lpTimeZoneInformation: PTimeZoneInformation;
var lpLocalTime, lpUniversalTime: TSystemTime): BOOL; stdcall;
external kernel32 name 'TzSpecificLocalTimeToSystemTime';
{$ENDIF SUPPORT_WINDOWS2000}
{$ENDIF MSWINDOWS}
{$IFDEF USE_NAME_STRING_LITERAL}
procedure InitializeJsonMemInfo;
var
MemInfo: TMemoryBasicInformation;
begin
JsonMemInfoInitialized := True;
if VirtualQuery(PByte(HInstance + $1000), MemInfo, SizeOf(MemInfo)) = SizeOf(MemInfo) then
begin
JsonMemInfoBlockStart := MemInfo.AllocationBase;
JsonMemInfoBlockEnd := JsonMemInfoBlockStart + MemInfo.RegionSize;
end;
if HInstance <> MainInstance then
begin
if VirtualQuery(PByte(MainInstance + $1000), MemInfo, SizeOf(MemInfo)) = SizeOf(MemInfo) then
begin
JsonMemInfoMainBlockStart := MemInfo.AllocationBase;
JsonMemInfoMainBlockEnd := JsonMemInfoBlockStart + MemInfo.RegionSize;
end;
end;
end;
{$ENDIF USE_NAME_STRING_LITERAL}
{ EJsonParserSyntaxException }
constructor EJsonParserException.CreateResFmt(ResStringRec: PResStringRec; const Args: array of const;
ALineNum, AColumn, APosition: NativeInt);
begin
inherited CreateResFmt(ResStringRec, Args);
FLineNum := ALineNum;
FColumn := AColumn;
FPosition := APosition;
if FLineNum > 0 then
Message := Format('%s (%d, %d)', [Message, FLineNum, FColumn]);
end;
constructor EJsonParserException.CreateRes(ResStringRec: PResStringRec; ALineNum, AColumn, APosition: NativeInt);
begin
inherited CreateRes(ResStringRec);
FLineNum := ALineNum;
FColumn := AColumn;
FPosition := APosition;
if FLineNum > 0 then
Message := Format('%s (%d, %d)', [Message, FLineNum, FColumn]);
end;
procedure ListError(Msg: PResStringRec; Data: Integer);
begin
raise EStringListError.CreateFmt(LoadResString(Msg), [Data])
{$IFDEF HAS_RETURN_ADDRESS} at ReturnAddress{$ENDIF};
end;
procedure ErrorNoMappingForUnicodeCharacter;
begin
{$IF not declared(SNoMappingForUnicodeCharacter)}
RaiseLastOSError;
{$ELSE}
raise EEncodingError.CreateRes(@SNoMappingForUnicodeCharacter)
{$IFDEF HAS_RETURN_ADDRESS} at ReturnAddress{$ENDIF};
{$IFEND}
end;
procedure ErrorUnsupportedVariantType(VarType: TVarType);
begin
raise EJsonCastException.CreateResFmt(@RsVarTypeNotSupported, [VarType]);
end;
{$IFDEF USE_NAME_STRING_LITERAL}
procedure AsgString(var Dest: string; const Source: string);
begin
if (Pointer(Source) <> nil) and (PInteger(@PByte(Source)[-8])^ = -1) and // string literal
(((PByte(Source) < JsonMemInfoBlockEnd) and (PByte(Source) >= JsonMemInfoBlockStart)) or
((PByte(Source) < JsonMemInfoMainBlockEnd) and (PByte(Source) >= JsonMemInfoMainBlockStart))) then
begin
// Save memory by just using the string literal but only if it is in the EXE's or this DLL's
// code segment. Otherwise the memory could be released by a FreeLibrary call without us knowning.
Pointer(Dest) := Pointer(Source);
end
else
Dest := Source;
end;
{$ENDIF USE_NAME_STRING_LITERAL}
{$IFDEF USE_FAST_STRASG_FOR_INTERNAL_STRINGS}
{$IFDEF DEBUG}
//procedure InternAsgStringUsageError;
//begin
// raise EJsonException.CreateRes(@RsInternAsgStringUsageError);
//end;
{$ENDIF DEBUG}
{$ENDIF USE_FAST_STRASG_FOR_INTERNAL_STRINGS}
procedure AnsiLowerCamelCaseString(var S: string);
begin
S := AnsiLowerCase(PChar(S)^) + Copy(S, 2);
end;
{$IF not declared(TryStrToUInt64)}
function TryStrToUInt64(const S: string; out Value: UInt64): Boolean;
var
P, EndP: PChar;
V: UInt64;
Digit: Integer;
begin
// No support for hexadecimal strings
P := PChar(S);
EndP := P + Length(S);
// skip spaces
while (P < EndP) and (P^ = ' ') do
Inc(P);
if P^ = '-' then
Result := False // UInt64 cannot be negative
else
begin
V := 0;
while P < EndP do
begin
Digit := Integer(Ord(P^)) - Ord('0');
if (Cardinal(Digit) >= 10) or (V > High(UInt64) div 10) then
Break;
//V := V * 10 + Digit;
V := (V shl 3) + (V shl 1) + Digit;
Inc(P);
end;
Result := P = EndP;
if Result then
Value := V;
end;
end;
{$IFEND}
function GetHexDigitsUtf8(P: PByte; Count: Integer; const Reader: TJsonReader): LongWord;
var
Ch: Byte;
begin
Result := 0;
while Count > 0 do
begin
Ch := P^;
case P^ of
Ord('0')..Ord('9'): Result := (Result shl 4) or LongWord(Ch - Ord('0'));
Ord('A')..Ord('F'): Result := (Result shl 4) or LongWord(Ch - (Ord('A') - 10));
Ord('a')..Ord('f'): Result := (Result shl 4) or LongWord(Ch - (Ord('a') - 10));
else
Break;
end;
Inc(P);
Dec(Count);
end;
if Count > 0 then
raise EJsonParserException.CreateResFmt(@RsInvalidHexNumber, [P^], Reader.FLineNum, Reader.GetLineColumn, Reader.GetPosition);
end;
function GetHexDigits(P: PChar; Count: Integer; const Reader: TJsonReader): LongWord;
var
Ch: Char;
begin
Result := 0;
while Count > 0 do
begin
Ch := P^;
case P^ of
'0'..'9': Result := (Result shl 4) or LongWord(Ord(Ch) - Ord('0'));
'A'..'F': Result := (Result shl 4) or LongWord(Ord(Ch) - (Ord('A') - 10));
'a'..'f': Result := (Result shl 4) or LongWord(Ord(Ch) - (Ord('a') - 10));
else
Break;
end;
Inc(P);
Dec(Count);
end;
if Count > 0 then
raise EJsonParserException.CreateResFmt(@RsInvalidHexNumber, [P^], Reader.FLineNum, Reader.GetLineColumn, Reader.GetPosition);
end;
function UtcDateTimeToLocalDateTime(UtcDateTime: TDateTime): TDateTime;
{$IFDEF MSWINDOWS}
var
UtcTime, LocalTime: TSystemTime;
begin
DateTimeToSystemTime(UtcDateTime, UtcTime);
if SystemTimeToTzSpecificLocalTime(nil, UtcTime, LocalTime) then
Result := SystemTimeToDateTime(LocalTime)
else
Result := UtcDateTime;
end;
{$ELSE}
begin
Result := TTimeZone.Local.ToLocalTime(UtcDateTime);
end;
{$ENDIF MSWINDOWS}
function DateTimeToISO8601(Value: TDateTime): string;
{$IFDEF MSWINDOWS}
var
LocalTime, UtcTime: TSystemTime;
Offset: TDateTime;
Hour, Min, Sec, MSec: Word;
begin
DateTimeToSystemTime(Value, LocalTime);
Result := Format('%.4d-%.2d-%.2dT%.2d:%.2d:%.2d.%d',
[LocalTime.wYear, LocalTime.wMonth, LocalTime.wDay,
LocalTime.wHour, LocalTime.wMinute, LocalTime.wSecond, LocalTime.wMilliseconds]);
if TzSpecificLocalTimeToSystemTime(nil, LocalTime, UtcTime) then
begin
Offset := Value - SystemTimeToDateTime(UtcTime);
DecodeTime(Offset, Hour, Min, Sec, MSec);
if Offset < 0 then
Result := Format('%s-%.2d:%.2d', [Result, Hour, Min])
else if Offset > 0 then
Result := Format('%s+%.2d:%.2d', [Result, Hour, Min])
else
Result := Result + 'Z';
end;
end;
{$ELSE}
var
Offset: TDateTime;
Year, Month, Day, Hour, Minute, Second, Milliseconds: Word;
begin
DecodeDate(Value, Year, Month, Day);
DecodeTime(Value, Hour, Minute, Second, MilliSeconds);
Result := Format('%.4d-%.2d-%.2dT%.2d:%.2d:%.2d.%d', [Year, Month, Day, Hour, Minute, Second, Milliseconds]);
Offset := Value - TTimeZone.Local.ToUniversalTime(Value);
DecodeTime(Offset, Hour, Minute, Second, MilliSeconds);
if Offset < 0 then
Result := Format('%s-%.2d:%.2d', [Result, Hour, Minute])
else if Offset > 0 then
Result := Format('%s+%.2d:%.2d', [Result, Hour, Minute])
else
Result := Result + 'Z';
end;
{$ENDIF MSWINDOWS}
class function TJsonBaseObject.DateTimeToJSON(const Value: TDateTime; UseUtcTime: Boolean): string;
{$IFDEF MSWINDOWS}
var
LocalTime, UtcTime: TSystemTime;
begin
if UseUtcTime then
begin
DateTimeToSystemTime(Value, LocalTime);
if not TzSpecificLocalTimeToSystemTime(nil, LocalTime, UtcTime) then
UtcTime := LocalTime;
Result := Format('%.4d-%.2d-%.2dT%.2d:%.2d:%.2d.%dZ',
[UtcTime.wYear, UtcTime.wMonth, UtcTime.wDay,
UtcTime.wHour, UtcTime.wMinute, UtcTime.wSecond, UtcTime.wMilliseconds]);
end
else
Result := DateTimeToISO8601(Value);
end;
{$ELSE}
var
UtcTime: TDateTime;
Year, Month, Day, Hour, Minute, Second, Milliseconds: Word;
begin
if UseUtcTime then
begin
UtcTime := TTimeZone.Local.ToUniversalTime(Value);
DecodeDate(UtcTime, Year, Month, Day);
DecodeTime(UtcTime, Hour, Minute, Second, MilliSeconds);
Result := Format('%.4d-%.2d-%.2dT%.2d:%.2d:%.2d.%dZ', [Year, Month, Day, Hour, Minute, Second, Milliseconds]);
end
else
Result := DateTimeToISO8601(Value);
end;
{$ENDIF MSWINDOWS}
function ParseDateTimePart(P: PChar; var Value: Integer; MaxLen: Integer): PChar;
var
V: Integer;
begin
Result := P;
V := 0;
while (Result^ in ['0'..'9']) and (MaxLen > 0) do
begin
V := V * 10 + (Ord(Result^) - Ord('0'));
Inc(Result);
Dec(MaxLen);
end;
Value := V;
end;
function VarTypeToJsonDataType(AVarType: TVarType): TJsonDataType;
begin
case AVarType of
varNull:
Result := jdtObject;
varOleStr, varString, varUString:
Result := jdtString;
varSmallInt, varInteger, varShortInt, varByte, varWord, varLongWord:
Result := jdtInt;
varInt64:
Result := jdtLong;
varUInt64:
Result := jdtULong;
varSingle, varDouble, varCurrency:
Result := jdtFloat;
varDate:
Result := jdtDateTime;
varBoolean:
Result := jdtBool;
else
ErrorUnsupportedVariantType(AVarType);
Result := jdtNone;
end;
end;
class function TJsonBaseObject.JSONToDateTime(const Value: string): TDateTime;
var
P: PChar;
MSecsSince1970: Int64;
Year, Month, Day, Hour, Min, Sec, MSec: Integer;
OffsetHour, OffsetMin: Integer;
Sign: Double;
begin
Result := 0;
if Value = '' then
Exit;
P := PChar(Value);
if (P^ = '/') and (StrLComp('Date(', P + 1, 5) = 0) then // .NET: milliseconds since 1970-01-01
begin
Inc(P, 6);
MSecsSince1970 := 0;
while (P^ <> #0) and (P^ in ['0'..'9']) do
begin
MSecsSince1970 := MSecsSince1970 * 10 + (Ord(P^) - Ord('0'));
Inc(P);
end;
if (P^ = '+') or (P^ = '-') then // timezone information
begin
Inc(P);
while (P^ <> #0) and (P^ in ['0'..'9']) do
Inc(P);
end;
if (P[0] = ')') and (P[1] = '/') and (P[2] = #0) then
Result := UtcDateTimeToLocalDateTime(UnixDateDelta + (MSecsSince1970 / MSecsPerDay))
else
Result := 0; // invalid format
end
else
begin
// "2015-02-01T16:08:19.202Z"
if P^ = '-' then // negative year
Inc(P);
P := ParseDateTimePart(P, Year, 4);
if P^ <> '-' then
Exit; // invalid format
P := ParseDateTimePart(P + 1, Month, 2);
if P^ <> '-' then
Exit; // invalid format
P := ParseDateTimePart(P + 1, Day, 2);
Hour := 0;
Min := 0;
Sec := 0;
MSec := 0;
Result := EncodeDate(Year, Month, Day);
if P^ = 'T' then
begin
P := ParseDateTimePart(P + 1, Hour, 2);
if P^ <> ':' then
Exit; // invalid format
P := ParseDateTimePart(P + 1, Min, 2);
if P^ = ':' then
begin
P := ParseDateTimePart(P + 1, Sec, 2);
if P^ = '.' then
P := ParseDateTimePart(P + 1, MSec, 3);
end;
Result := Result + EncodeTime(Hour, Min, Sec, MSec);
if P^ <> 'Z' then
begin
if (P^ = '+') or (P^ = '-') then
begin
if P^ = '+' then
Sign := -1 // +0100 means that the time is 1 hour later than UTC
else
Sign := 1;
P := ParseDateTimePart(P + 1, OffsetHour, 2);
if P^ = ':' then
Inc(P);
ParseDateTimePart(P, OffsetMin, 2);
Result := Result + (EncodeTime(OffsetHour, OffsetMin, 0, 0) * Sign);
end
else
begin
Result := 0; // invalid format
Exit;
end;
end;
Result := UtcDateTimeToLocalDateTime(Result);
end;
end;
end;
{$IFDEF NEXTGEN}
function Utf8StrLen(P: PByte): Integer;
begin
Result := 0;
if P <> nil then
while P[Result] <> 0 do
Inc(Result);
end;
{$ENDIF NEXTGEN}
procedure SetStringUtf8(var S: string; P: PByte; Len: Integer);
var
L: Integer;
begin
if S <> '' then
S := '';
if (P = nil) or (Len = 0) then
Exit;
SetLength(S, Len);
L := Utf8ToUnicode(PWideChar(Pointer(S)), Len + 1, PAnsiChar(P), Len);
if L > 0 then
begin
if L - 1 <> Len then
SetLength(S, L - 1);
end
else
S := '';
end;
procedure AppendString(var S: string; P: PChar; Len: Integer);
var
OldLen: Integer;
begin
if (P = nil) or (Len = 0) then
Exit;
OldLen := Length(S);
SetLength(S, OldLen + Len);
Move(P^, PChar(Pointer(S))[OldLen], Len * SizeOf(Char));
end;
procedure AppendStringUtf8(var S: string; P: PByte; Len: Integer);
var
L, OldLen: Integer;
begin
if (P = nil) or (Len = 0) then
Exit;
OldLen := Length(S);
SetLength(S, OldLen + Len);
L := Utf8ToUnicode(PWideChar(Pointer(S)) + OldLen, Len + 1, PAnsiChar(P), Len);
if L > 0 then
begin
if L - 1 <> Len then
SetLength(S, OldLen + L - 1);
end
else
SetLength(S, OldLen);
end;
{$IFDEF SUPPORT_PROGRESS}
{ TJsonReaderProgressRec }
function TJsonReaderProgressRec.Init(AProgress: TJsonReaderProgressProc; AData: Pointer = nil; AThreshold: NativeInt = 0): PJsonReaderProgressRec;
begin
Self.Data := AData;
Self.Threshold := AThreshold;
Self.Progress := AProgress;
Result := @Self;
end;
{$ENDIF SUPPORT_PROGRESS}
{ TJsonReader }
{$IFDEF USE_FAST_NEWINSTANCE}
class function TJsonReader.NewInstance: TObject;
begin
GetMem(Pointer(Result), InstanceSize);
PPointer(Result)^ := Self;
{$IFDEF AUTOREFCOUNT}
TJsonReader(Result).FRefCount := 1;
{$ENDIF AUTOREFCOUNT}
end;
procedure TJsonReader.FreeInstance;
begin
// We have no WeakRef => faster cleanup
FreeMem(Pointer(Self));
end;
{$ENDIF ~USE_FAST_NEWINSTANCE}
constructor TJsonReader.Create(AStart: Pointer{$IFDEF SUPPORT_PROGRESS}; ASize: NativeInt; AProgress: PJsonReaderProgressRec{$ENDIF});
begin
//inherited Create;
{$IFDEF USE_FAST_NEWINSTANCE}
Pointer(FPropName) := nil;
Pointer(FLook.S) := nil;
{$ENDIF USE_FAST_NEWINSTANCE}
{$IFDEF USE_STRINGINTERN_FOR_NAMES}
FIdents.Init;
{$ENDIF USE_STRINGINTERN_FOR_NAMES}
FStart := AStart;
FLineNum := 1; // base 1
FLineStart := nil;
{$IFDEF SUPPORT_PROGRESS}
FSize := ASize;
FProgress := AProgress;
FLastProgressValue := 0; // class is not zero-filled
if (FProgress <> nil) and Assigned(FProgress.Progress) then
FProgress.Progress(FProgress.Data, 0, 0, FSize);
{$ENDIF SUPPORT_PROGRESS}
end;
destructor TJsonReader.Destroy;
begin
{$IFDEF USE_FAST_NEWINSTANCE}
FPropName := '';
FLook.S := '';
{$ENDIF USE_FAST_NEWINSTANCE}
{$IFDEF USE_STRINGINTERN_FOR_NAMES}
FIdents.Done;
{$ENDIF USE_STRINGINTERN_FOR_NAMES}
{$IFDEF SUPPORT_PROGRESS}
if (FLook.Kind = jtkEof) and (FProgress <> nil) and Assigned(FProgress.Progress) then
FProgress.Progress(FProgress.Data, 100, FSize, FSize);
{$ENDIF SUPPORT_PROGRESS}
//inherited Destroy;
end;
{$IFDEF SUPPORT_PROGRESS}
procedure TJsonReader.CheckProgress(Position: Pointer);
var
NewPercentage: NativeInt;
Ps: NativeInt;
begin
if {(FProgress <> nil) and} Assigned(FProgress.Progress) then
begin
Ps := PByte(Position) - PByte(FStart);
if FProgress.Threshold = 0 then
begin
NewPercentage := Ps * 100 div FSize;
if NewPercentage <> FLastProgressValue then
begin
FLastProgressValue := NewPercentage;
FProgress.Progress(FProgress.Data, NewPercentage, Ps, FSize);
end;
end
else if FProgress.Threshold > 0 then
begin
if Ps - FLastProgressValue >= FProgress.Threshold then
begin
FLastProgressValue := Ps;
NewPercentage := 0;
if FSize > 0 then
NewPercentage := Ps * 100 div FSize;
FProgress.Progress(FProgress.Data, NewPercentage, Ps, FSize);
end;
end;
end;
end;
{$ENDIF SUPPORT_PROGRESS}
function TJsonReader.GetLineColumn: NativeInt;
begin
if FLineStart = nil then
FLineStart := FStart;
Result := GetCharOffset(FLineStart) + 1; // base 1
end;
function TJsonReader.GetPosition: NativeInt;
begin
Result := GetCharOffset(FStart);
end;
class procedure TJsonReader.InvalidStringCharacterError(const Reader: TJsonReader);
begin
raise EJsonParserException.CreateRes(@RsInvalidStringCharacter,
Reader.FLineNum, Reader.GetLineColumn, Reader.GetPosition);
end;
class procedure TJsonReader.StringNotClosedError(const Reader: TJsonReader);
begin
raise EJsonParserException.CreateRes(@RsStringNotClosed,
Reader.FLineNum, Reader.GetLineColumn, Reader.GetPosition);
end;
class procedure TJsonReader.JSONStrToStr(P, EndP: PChar; FirstEscapeIndex: Integer; var S: string;
const Reader: TJsonReader);
const
MaxBufPos = 127;
var
Buf: array[0..MaxBufPos] of Char;
F: PChar;
BufPos, Len: Integer;
begin
Dec(FirstEscapeIndex);
if FirstEscapeIndex > 0 then
begin
SetString(S, P, FirstEscapeIndex);
Inc(P, FirstEscapeIndex);
end
else
S := '';
while True do
begin
BufPos := 0;
while (P < EndP) and (P^ = '\') do
begin
Inc(P);
if P = EndP then // broken escaped character
Break;
case P^ of
'"': Buf[BufPos] := '"';
'\': Buf[BufPos] := '\';
'/': Buf[BufPos] := '/';
'b': Buf[BufPos] := #8;
'f': Buf[BufPos] := #12;
'n': Buf[BufPos] := #10;
'r': Buf[BufPos] := #13;
't': Buf[BufPos] := #9;
'u':
begin
Inc(P);
if P + 3 >= EndP then
Break;
Buf[BufPos] := Char(GetHexDigits(P, 4, TJsonReader(Reader)));
Inc(P, 3);
end;
else
Break;
end;
Inc(P);
Inc(BufPos);
if BufPos > MaxBufPos then
begin
Len := Length(S);
SetLength(S, Len + BufPos);
Move(Buf[0], PChar(Pointer(S))[Len], BufPos * SizeOf(Char));
BufPos := 0;
end;
end;
// append remaining buffer
if BufPos > 0 then
begin
Len := Length(S);
SetLength(S, Len + BufPos);
Move(Buf[0], PChar(Pointer(S))[Len], BufPos * SizeOf(Char));
end;
// fast forward
F := P;
while (P < EndP) and (P^ <> '\') do
Inc(P);
if P > F then
AppendString(S, F, P - F);
if P >= EndP then
Break;
end;
end;
class procedure TJsonReader.JSONUtf8StrToStr(P, EndP: PByte; FirstEscapeIndex: Integer; var S: string;
const Reader: TJsonReader);
const
MaxBufPos = 127;
var
Buf: array[0..MaxBufPos] of Char;
F: PByte;
BufPos, Len: Integer;
begin
Dec(FirstEscapeIndex);
if FirstEscapeIndex > 0 then
begin
SetStringUtf8(S, P, FirstEscapeIndex);
Inc(P, FirstEscapeIndex);
end
else
S := '';
while True do
begin
BufPos := 0;
while (P < EndP) and (P^ = Byte(Ord('\'))) do
begin
Inc(P);
if P = EndP then // broken escaped character
Break;
case P^ of
Ord('"'): Buf[BufPos] := '"';
Ord('\'): Buf[BufPos] := '\';
Ord('/'): Buf[BufPos] := '/';
Ord('b'): Buf[BufPos] := #8;
Ord('f'): Buf[BufPos] := #12;
Ord('n'): Buf[BufPos] := #10;
Ord('r'): Buf[BufPos] := #13;
Ord('t'): Buf[BufPos] := #9;
Ord('u'):
begin
Inc(P);
if P + 3 >= EndP then
Break;
Buf[BufPos] := Char(GetHexDigitsUtf8(P, 4, TJsonReader(Reader)));
Inc(P, 3);
end;
else
Break;
end;
Inc(P);
Inc(BufPos);
if BufPos > MaxBufPos then
begin
Len := Length(S);
SetLength(S, Len + BufPos);
Move(Buf[0], PChar(Pointer(S))[Len], BufPos * SizeOf(Char));
BufPos := 0;
end;
end;
// append remaining buffer
if BufPos > 0 then
begin
Len := Length(S);
SetLength(S, Len + BufPos);
Move(Buf[0], PChar(Pointer(S))[Len], BufPos * SizeOf(Char));
end;
// fast forward
F := P;
while (P < EndP) and (P^ <> Byte(Ord('\'))) do
Inc(P);
if P > F then
AppendStringUtf8(S, F, P - F);
if P >= EndP then
Break;
end;
end;
procedure TJsonReader.Parse(Data: TJsonBaseObject);
begin
if Data is TJsonObject then
begin
TJsonObject(Data).Clear;
Next; // initialize Lexer
Accept(jtkLBrace);
ParseObjectBody(TJsonObject(Data));
Accept(jtkRBrace);
end
else if Data is TJsonArray then
begin
TJsonArray(Data).Clear;
Next; // initialize Lexer
Accept(jtkLBracket);
ParseArrayBody(TJsonArray(Data));
Accept(jtkRBracket)
end;
end;
procedure TJsonReader.ParseObjectBody(const Data: TJsonObject);
// ObjectBody ::= [ ObjectProperty [ "," ObjectProperty ]* ]
begin
if FLook.Kind <> jtkRBrace then
begin
while FLook.Kind <> jtkEof do
begin
ParseObjectProperty(Data);
if FLook.Kind = jtkRBrace then
Break;
Accept(jtkComma);
end;
end;
end;
procedure TJsonReader.ParseObjectProperty(const Data: TJsonObject);
// Property ::= IDENT ":" ObjectPropertyValue
begin
if FLook.Kind >= jtkIdent then // correct JSON would be "tkString" only
begin
{$IFDEF USE_STRINGINTERN_FOR_NAMES}
FIdents.Intern(FLook.S, FPropName);
{$ELSE}
FPropName := '';
// transfer the string without going through UStrAsg and UStrClr
Pointer(FPropName) := Pointer(FLook.S);
Pointer(FLook.S) := nil;
{$ENDIF USE_STRINGINTERN_FOR_NAMES}
Next;
end
else
Accept(jtkString);
Accept(jtkColon);
ParseObjectPropertyValue(Data);
end;
procedure TJsonReader.ParseObjectPropertyValue(const Data: TJsonObject);
// ObjectPropertyValue ::= Object | Array | Value
begin
case FLook.Kind of
jtkLBrace:
begin
Accept(jtkLBrace);
ParseObjectBody(Data.InternAddObject(FPropName));
Accept(jtkRBrace);
end;
jtkLBracket:
begin
Accept(jtkLBracket);
ParseArrayBody(Data.InternAddArray(FPropName));
Accept(jtkRBracket);
end;
jtkNull:
begin
Data.InternAdd(FPropName, TJsonObject(nil));
Next;
end;
jtkIdent,
jtkString:
begin
Data.InternAddItem(FPropName).InternSetValueTransfer(FLook.S);
Next;
end;
jtkInt:
begin
Data.InternAdd(FPropName, FLook.I);
Next;
end;
jtkLong:
begin
Data.InternAdd(FPropName, FLook.L);
Next;
end;
jtkULong:
begin
Data.InternAdd(FPropName, FLook.U);
Next;
end;
jtkFloat:
begin
Data.InternAdd(FPropName, FLook.F);
Next;
end;
jtkTrue:
begin
Data.InternAdd(FPropName, True);
Next;
end;
jtkFalse:
begin
Data.InternAdd(FPropName, False);
Next;
end
else
Accept(jtkValue);
end;
end;
procedure TJsonReader.ParseArrayBody(const Data: TJsonArray);
// ArrayBody ::= [ ArrayPropertyValue [ "," ArrayPropertyValue ]* ]
begin
if FLook.Kind <> jtkRBracket then
begin
while FLook.Kind <> jtkEof do
begin
ParseArrayPropertyValue(Data);
if FLook.Kind = jtkRBracket then
Break;
Accept(jtkComma);
end;
end;
end;
procedure TJsonReader.ParseArrayPropertyValue(const Data: TJsonArray);
// ArrayPropertyValue ::= Object | Array | Value
begin
case FLook.Kind of
jtkLBrace:
begin
Accept(jtkLBrace);
ParseObjectBody(Data.AddObject);
Accept(jtkRBrace);
end;
jtkLBracket:
begin
Accept(jtkLBracket);
ParseArrayBody(Data.AddArray);
Accept(jtkRBracket);
end;
jtkNull:
begin
Data.Add(TJsonObject(nil));
Next;
end;
jtkIdent,
jtkString:
begin
Data.Add(FLook.S);
Next;
end;
jtkInt:
begin
Data.Add(FLook.I);
Next;
end;
jtkLong:
begin
Data.Add(FLook.L);
Next;
end;
jtkULong:
begin
Data.Add(FLook.U);
Next;
end;
jtkFloat:
begin
Data.Add(FLook.F);
Next;
end;
jtkTrue:
begin
Data.Add(True);
Next;
end;
jtkFalse:
begin
Data.Add(False);
Next;
end;
else
Accept(jtkValue);
end;
end;
procedure TJsonReader.AcceptFailed(TokenKind: TJsonTokenKind);
var
Col, Position: NativeInt;
begin
Col := GetLineColumn;
Position := GetPosition;
if FLook.Kind = jtkEof then
raise EJsonParserException.CreateResFmt(@RsUnexpectedEndOfFile, [JsonTokenKindToStr[TokenKind]], FLineNum, Col, Position);
raise EJsonParserException.CreateResFmt(@RsUnexpectedToken, [JsonTokenKindToStr[TokenKind], JsonTokenKindToStr[FLook.Kind]], FLineNum, Col, Position);
end;
procedure TJsonReader.Accept(TokenKind: TJsonTokenKind);
begin
if FLook.Kind <> TokenKind then
AcceptFailed(TokenKind);
Next;
end;
{ TJsonDataValue }
procedure TJsonDataValue.Clear;
{$IFDEF USE_FAST_AUTOREFCOUNT}
var
P: Pointer;
{$ENDIF USE_FAST_AUTOREFCOUNT}
begin
// All types must clear their value because if a value changes the type we need a zero-ed value
case FTyp of
jdtString:
string(FValue.S) := '';
jdtInt:
FValue.I := 0;
jdtLong:
FValue.L := 0;
jdtULong:
FValue.U := 0;
jdtFloat:
FValue.F := 0;
jdtDateTime:
FValue.D := 0;
jdtBool:
FValue.B := False;
jdtArray,
jdtObject:
begin
{$IFDEF USE_FAST_AUTOREFCOUNT}
P := FValue.O;
if P <> nil then
begin
FValue.O := nil;
TJsonBaseObject(P).ARCObjRelease;
end;
{$ELSE}
{$IFNDEF AUTOREFCOUNT}
TJsonBaseObject(FValue.O).Free;
{$ENDIF ~AUTOREFCOUNT}
TJsonBaseObject(FValue.O) := nil;
{$ENDIF USE_FAST_AUTOREFCOUNT}
end;
end;
FTyp := jdtNone;
end;
function TJsonDataValue.GetArrayValue: TJsonArray;
begin
if FTyp = jdtArray then
Result := TJsonArray(FValue.A)
else if FTyp = jdtNone then
Result := nil
else
begin
TypeCastError(jdtArray);
Result := nil;
end;
end;
procedure TJsonDataValue.SetArrayValue(const AValue: TJsonArray);
var
LTyp: TJsonDataType;
begin
LTyp := FTyp;
if (LTyp <> jdtArray) or (AValue <> FValue.A) then
begin
if LTyp <> jdtNone then
Clear;
FTyp := jdtArray;
{$IFDEF USE_FAST_AUTOREFCOUNT}
// Assert(FValue.A = nil);
if AValue <> nil then
AValue.ARCObjAddRef;
FValue.A := Pointer(AValue);
{$ELSE}
TJsonArray(FValue.A) := AValue;
{$ENDIF USE_FAST_AUTOREFCOUNT}
end;
end;
function TJsonDataValue.GetObjectValue: TJsonObject;
begin
if FTyp = jdtObject then
Result := TJsonObject(FValue.O)
else if FTyp = jdtNone then
Result := nil
else
begin
TypeCastError(jdtObject);
Result := nil;
end;
end;
procedure TJsonDataValue.SetObjectValue(const AValue: TJsonObject);
var
LTyp: TJsonDataType;
begin
LTyp := FTyp;
if (LTyp <> jdtObject) or (AValue <> FValue.O) then
begin
if LTyp <> jdtNone then
Clear;
FTyp := jdtObject;
{$IFDEF USE_FAST_AUTOREFCOUNT}
// Assert(FValue.O = nil);
if AValue <> nil then
AValue.ARCObjAddRef;
FValue.O := Pointer(AValue);
{$ELSE}
TJsonObject(FValue.O) := AValue;
{$ENDIF USE_FAST_AUTOREFCOUNT}
end;
end;
function TJsonDataValue.GetVariantValue: Variant;
begin
case FTyp of
jdtNone:
Result := Unassigned;
jdtString:
Result := string(FValue.S);
jdtInt:
Result := FValue.I;
jdtLong:
Result := FValue.L;
jdtULong:
Result := FValue.U;
jdtFloat:
Result := FValue.F;
jdtDateTime:
Result := FValue.D;
jdtBool:
Result := FValue.B;
jdtArray:
ErrorUnsupportedVariantType(varArray);
jdtObject:
if FValue.O = nil then
Result := Null // special handling for "null"
else
ErrorUnsupportedVariantType(varObject);
else
ErrorUnsupportedVariantType(varAny);
end;
end;
procedure TJsonDataValue.SetVariantValue(const AValue: Variant);
var
LTyp: TJsonDataType;
begin
if FTyp <> jdtNone then
Clear;
LTyp := VarTypeToJsonDataType(VarType(AValue));
if LTyp <> jdtNone then
begin
FTyp := LTyp;
case LTyp of
jdtString:
string(FValue.S) := AValue;
jdtInt:
FValue.I := AValue;
jdtLong:
FValue.L := AValue;
jdtULong:
FValue.U := AValue;
jdtFloat:
FValue.F := AValue;
jdtDateTime:
FValue.D := AValue;
jdtBool:
FValue.B := AValue;
// else
// ErrorUnsupportedVariantType; handled by VarTypeToJsonDataType
end;
end;
end;
procedure TJsonDataValue.InternSetArrayValue(const AValue: TJsonArray);
begin
FTyp := jdtArray;
{$IFDEF USE_FAST_AUTOREFCOUNT}
// Assert(FValue.A = nil);
if AValue <> nil then
Inc(AValue.FRefCount); // AValue.ARCObjAddRef; no other thread knows about this object right now
FValue.A := Pointer(AValue);
{$ELSE}
TJsonArray(FValue.A) := AValue;
{$ENDIF USE_FAST_AUTOREFCOUNT}
end;
procedure TJsonDataValue.InternSetObjectValue(const AValue: TJsonObject);
begin
FTyp := jdtObject;
{$IFDEF USE_FAST_AUTOREFCOUNT}
// Assert(FValue.O = nil);
if AValue <> nil then
Inc(AValue.FRefCount); // AValue.ARCObjAddRef; no other thread knows about this object right now
FValue.O := Pointer(AValue);
{$ELSE}
TJsonObject(FValue.O) := AValue;
{$ENDIF USE_FAST_AUTOREFCOUNT}
end;
function TJsonDataValue.GetValue: string;
begin
case FTyp of
jdtNone:
Result := '';
jdtString:
Result := string(FValue.S);
jdtInt:
Result := IntToStr(FValue.I);
jdtLong:
Result := IntToStr(FValue.L);
jdtULong:
Result := UIntToStr(FValue.U);
jdtFloat:
Result := FloatToStr(FValue.F, JSONFormatSettings);
jdtDateTime:
Result := TJsonBaseObject.DateTimeToJson(FValue.F, JsonSerializationConfig.UseUtcTime);
jdtBool:
if FValue.B then
Result := sTrue
else
Result := sFalse;
jdtObject:
begin
if not JsonSerializationConfig.NullConvertsToValueTypes or (FValue.O <> nil) then
TypeCastError(jdtString);
Result := '';
end;
else
TypeCastError(jdtString);
Result := '';
end;
end;
procedure TJsonDataValue.SetValue(const AValue: string);
var
LTyp: TJsonDataType;
begin
LTyp := FTyp;
if (LTyp <> jdtString) or (AValue <> string(FValue.S)) then
begin
if LTyp <> jdtNone then
Clear;
FTyp := jdtString;
string(FValue.S) := AValue;
end;
end;
procedure TJsonDataValue.InternSetValue(const AValue: string);
begin
FTyp := jdtString;
string(FValue.S) := AValue;
end;
procedure TJsonDataValue.InternSetValueTransfer(var AValue: string);
begin
FTyp := jdtString;
// transfer the string without going through UStrAsg and UStrClr
FValue.S := Pointer(AValue);
Pointer(AValue) := nil;
end;
function TJsonDataValue.GetIntValue: Integer;
begin
case FTyp of
jdtNone:
Result := 0;
jdtString:
if not TryStrToInt(string(FValue.S), Result) then
Result := Trunc(StrToFloat(string(FValue.S), JSONFormatSettings));
jdtInt:
Result := FValue.I;
jdtLong:
Result := FValue.L;
jdtULong:
Result := FValue.U;
jdtFloat:
Result := Trunc(FValue.F);
jdtDateTime:
Result := Trunc(FValue.D);
jdtBool:
Result := Ord(FValue.B);
jdtObject:
begin
if not JsonSerializationConfig.NullConvertsToValueTypes or (FValue.O <> nil) then
TypeCastError(jdtInt);
Result := 0;
end;
else
TypeCastError(jdtInt);
Result := 0;
end;
end;
procedure TJsonDataValue.SetIntValue(const AValue: Integer);
var
LTyp: TJsonDataType;
begin
LTyp := FTyp;
if (LTyp <> jdtInt) or (AValue <> FValue.I) then
begin
if LTyp <> jdtNone then
Clear;
FTyp := jdtInt;
FValue.I := AValue;
end;
end;
function TJsonDataValue.GetLongValue: Int64;
begin
case FTyp of
jdtNone:
Result := 0;
jdtString:
if not TryStrToInt64(string(FValue.S), Result) then
Result := Trunc(StrToFloat(string(FValue.S), JSONFormatSettings));
jdtInt:
Result := FValue.I;
jdtLong:
Result := FValue.L;
jdtULong:
Result := FValue.U;
jdtFloat:
Result := Trunc(FValue.F);
jdtDateTime:
Result := Trunc(FValue.D);
jdtBool:
Result := Ord(FValue.B);
jdtObject:
begin
if not JsonSerializationConfig.NullConvertsToValueTypes or (FValue.O <> nil) then
TypeCastError(jdtLong);
Result := 0;
end;
else
TypeCastError(jdtLong);
Result := 0;
end;
end;
procedure TJsonDataValue.SetLongValue(const AValue: Int64);
var
LTyp: TJsonDataType;
begin
LTyp := FTyp;
if (LTyp <> jdtLong) or (AValue <> FValue.L) then
begin
if LTyp <> jdtNone then
Clear;
FTyp := jdtLong;
FValue.L := AValue;
end;
end;
function TJsonDataValue.GetULongValue: UInt64;
begin
case FTyp of
jdtNone:
Result := 0;
jdtString:
if not TryStrToUInt64(string(FValue.S), Result) then
Result := Trunc(StrToFloat(string(FValue.S), JSONFormatSettings));
jdtInt:
Result := FValue.I;
jdtLong:
Result := FValue.L;
jdtULong:
Result := FValue.U;
jdtFloat:
Result := Trunc(FValue.F);
jdtDateTime:
Result := Trunc(FValue.D);
jdtBool:
Result := Ord(FValue.B);
jdtObject:
begin
if not JsonSerializationConfig.NullConvertsToValueTypes or (FValue.O <> nil) then
TypeCastError(jdtULong);
Result := 0;
end;
else
TypeCastError(jdtULong);
Result := 0;
end;
end;
procedure TJsonDataValue.SetULongValue(const AValue: UInt64);
var
LTyp: TJsonDataType;
begin
LTyp := FTyp;
if (LTyp <> jdtULong) or (AValue <> FValue.U) then
begin
if LTyp <> jdtNone then
Clear;
FTyp := jdtULong;
FValue.U := AValue;
end;
end;
function TJsonDataValue.GetFloatValue: Double;
begin
case FTyp of
jdtNone:
Result := 0;
jdtString:
Result := StrToFloat(string(FValue.S), JSONFormatSettings);
jdtInt:
Result := FValue.I;
jdtLong:
Result := FValue.L;
jdtULong:
Result := FValue.U;
jdtFloat:
Result := FValue.F;
jdtDateTime:
Result := FValue.D;
jdtBool:
Result := Ord(FValue.B);
jdtObject:
begin
if not JsonSerializationConfig.NullConvertsToValueTypes or (FValue.O <> nil) then
TypeCastError(jdtFloat);
Result := 0;
end;
else
TypeCastError(jdtFloat);
Result := 0;
end;
end;
procedure TJsonDataValue.SetFloatValue(const AValue: Double);
var
LTyp: TJsonDataType;
begin
LTyp := FTyp;
if (LTyp <> jdtFloat) or (AValue <> FValue.F) then
begin
if LTyp <> jdtNone then
Clear;
FTyp := jdtFloat;
FValue.F := AValue;
end;
end;
function TJsonDataValue.GetDateTimeValue: TDateTime;
begin
case FTyp of
jdtNone:
Result := 0;
jdtString:
Result := TJsonBaseObject.JSONToDateTime(string(FValue.S));
jdtInt:
Result := FValue.I;
jdtLong:
Result := FValue.L;
jdtULong:
Result := FValue.U;
jdtFloat:
Result := FValue.F;
jdtDateTime:
Result := FValue.D;
jdtBool:
Result := Ord(FValue.B);
jdtObject:
begin
if not JsonSerializationConfig.NullConvertsToValueTypes or (FValue.O <> nil) then
TypeCastError(jdtDateTime);
Result := 0;
end;
else
TypeCastError(jdtDateTime);
Result := 0;
end;
end;
procedure TJsonDataValue.SetDateTimeValue(const AValue: TDateTime);
var
LTyp: TJsonDataType;
begin
LTyp := FTyp;
if (LTyp <> jdtDateTime) or (AValue <> FValue.D) then
begin
if LTyp <> jdtNone then
Clear;
FTyp := jdtDateTime;
FValue.D := AValue;
end;
end;
function TJsonDataValue.GetBoolValue: Boolean;
begin
case FTyp of
jdtNone:
Result := False;
jdtString:
Result := string(FValue.S) = 'true';
jdtInt:
Result := FValue.I <> 0;
jdtLong:
Result := FValue.L <> 0;
jdtULong:
Result := FValue.U <> 0;
jdtFloat:
Result := FValue.F <> 0;
jdtDateTime:
Result := FValue.D <> 0;
jdtBool:
Result := FValue.B;
jdtObject:
begin
if not JsonSerializationConfig.NullConvertsToValueTypes or (FValue.O <> nil) then
TypeCastError(jdtBool);
Result := False;
end;
else
TypeCastError(jdtBool);
Result := False;
end;
end;
procedure TJsonDataValue.SetBoolValue(const AValue: Boolean);
var
LTyp: TJsonDataType;
begin
LTyp := FTyp;
if (LTyp <> jdtBool) or (AValue <> FValue.B) then
begin
if LTyp <> jdtNone then
Clear;
FTyp := jdtBool;
FValue.B := AValue;
end;
end;
function DoubleToText(Buffer: PChar; const Value: Extended): Integer; inline;
begin
Result := FloatToText(Buffer, Value, fvExtended, ffGeneral, 15, 0, JSONFormatSettings);
end;
const
DoubleDigits: array[0..99] of array[0..1] of Char = (
'00', '01', '02', '03', '04', '05', '06', '07', '08', '09',
'10', '11', '12', '13', '14', '15', '16', '17', '18', '19',
'20', '21', '22', '23', '24', '25', '26', '27', '28', '29',
'30', '31', '32', '33', '34', '35', '36', '37', '38', '39',
'40', '41', '42', '43', '44', '45', '46', '47', '48', '49',
'50', '51', '52', '53', '54', '55', '56', '57', '58', '59',
'60', '61', '62', '63', '64', '65', '66', '67', '68', '69',
'70', '71', '72', '73', '74', '75', '76', '77', '78', '79',
'80', '81', '82', '83', '84', '85', '86', '87', '88', '89',
'90', '91', '92', '93', '94', '95', '96', '97', '98', '99'
);
function InternIntToText(Value: Cardinal; Negative: Boolean; EndP: PChar): PChar;
var
I, Quotient, K: Cardinal;
begin
I := Value;
Result := EndP;
while I >= 100 do
begin
Quotient := I div 100;
K := Quotient * 100;
K := I - K;
I := Quotient;
Dec(Result, 2);
PLongWord(Result)^ := LongWord(DoubleDigits[K]);
end;
if I >= 10 then
begin
Dec(Result, 2);
PLongWord(Result)^ := LongWord(DoubleDigits[I]);
end
else
begin
Dec(Result);
Result^ := Char(I or Ord('0'));
end;
if Negative then
begin
Dec(Result);
Result^ := '-';
end;
end;
function IntToText(Value: Integer; EndP: PChar): PChar; inline;
begin
if Value < 0 then
Result := InternIntToText(Cardinal(-Value), True, EndP)
else
Result := InternIntToText(Cardinal(Value), False, EndP);
end;
function UInt64ToText(Value: UInt64; EndP: PChar): PChar;
var
Quotient: UInt64;
Remainder: Cardinal;
begin
Result := EndP;
while Value > High(Integer) do
begin
Quotient := Value div 100;
//Remainder := Value - (Quotient * 100);
Remainder := Value - (Quotient shl 6 + Quotient shl 5 + Quotient shl 2);
Value := Quotient;
Dec(Result, 2);
PLongWord(Result)^ := LongWord(DoubleDigits[Remainder]);
end;
Result := InternIntToText(Cardinal(Value), False, Result);
end;
function Int64ToText(Value: Int64; EndP: PChar): PChar;
var
Neg: Boolean;
begin
Neg := Value < 0;
if Neg then
Value := -Value;
Result := UInt64ToText(UInt64(Value), EndP);
if Neg then
begin
Dec(Result);
Result^ := '-';
end;
end;
procedure TJsonDataValue.InternToJSON(var Writer: TJsonOutputWriter);
var
Buffer: array[0..63] of Char;
P, BufEnd: PChar;
begin
case FTyp of
jdtNone:
Writer.AppendValue(sNull);
jdtString:
TJsonBaseObject.StrToJSONStr(Writer.AppendStrValue, string(FValue.S));
jdtInt:
begin
BufEnd := @PChar(@Buffer[0])[Length(Buffer)]; // extra typecast to work around a compiler bug (fixed in XE3)
P := IntToText(FValue.I, BufEnd);
Writer.AppendValue(P, BufEnd - P);
end;
jdtLong:
begin
BufEnd := @PChar(@Buffer[0])[Length(Buffer)]; // extra typecast to work around a compiler bug (fixed in XE3)
P := Int64ToText(FValue.L, BufEnd);
Writer.AppendValue(P, BufEnd - P);
end;
jdtULong:
begin
BufEnd := @PChar(@Buffer[0])[Length(Buffer)]; // extra typecast to work around a compiler bug (fixed in XE3)
P := UInt64ToText(FValue.U, BufEnd);
Writer.AppendValue(P, BufEnd - P);
end;
jdtFloat:
Writer.AppendValue(Buffer, DoubleToText(Buffer, FValue.F));
jdtDateTime:
TJsonBaseObject.DateTimeToJSONStr(Writer.AppendStrValue, FValue.D); // do the conversion in a function to prevent the compiler from creating a string intermediate in this method
jdtBool:
if FValue.B then
Writer.AppendValue(sTrue)
else
Writer.AppendValue(sFalse);
jdtArray:
if (FValue.A = nil) or (TJsonArray(FValue.A).Count = 0) then
Writer.AppendValue('[]')
else
TJsonArray(FValue.A).InternToJSON(Writer);
jdtObject:
if FValue.O = nil then
Writer.AppendValue(sNull)
else
TJsonObject(FValue.O).InternToJSON(Writer);
end;
end;
{ TJsonBaseObject }
{$IFDEF USE_FAST_NEWINSTANCE}
class function TJsonBaseObject.NewInstance: TObject;
begin
Result := AllocMem(InstanceSize); // zeroes the new memory
PPointer(Result)^ := Self; // VMT
{$IFDEF AUTOREFCOUNT}
TJsonBaseObject(Result).FRefCount := 1;
{$ENDIF AUTOREFCOUNT}
end;
{$ENDIF ~USE_FAST_NEWINSTANCE}
{$IFDEF USE_FAST_AUTOREFCOUNT}
function TJsonBaseObject.ARCObjRelease: Integer;
begin
// Use a static call instead of the virtual method call
Result := inherited __ObjRelease;
end;
function TJsonBaseObject.ARCObjAddRef: Integer;
begin
// Inline __ObjAddRef to skip the virtual method call
Result := AtomicIncrement(FRefCount);
//Result := inherited __ObjAddRef;
end;
{$ENDIF USE_FAST_AUTOREFCOUNT}
class procedure TJsonBaseObject.StrToJSONStr(const AppendMethod: TWriterAppendMethod; const S: string);
var
P, EndP, F: PChar;
begin
P := PChar(Pointer(S));
if P <> nil then
begin
//EndP := P + Length(S); inlined Length introduces too much unnecessary code
EndP := P + PInteger(@PByte(S)[-4])^;
// find the first char that must be escaped
F := P;
// DCC64 generates "bt mem,reg" code
// while (P < EndP) and not (P^ in [#0..#31, '\', '"' {$IFDEF ESCAPE_SLASH_AFTER_LESSTHAN}, '/'{$ENDIF}]) do
// Inc(P);
while P < EndP do
case P^ of
#0..#31, '\', '"' {$IFDEF ESCAPE_SLASH_AFTER_LESSTHAN}, '/'{$ENDIF}: Break;
else
Inc(P);
end;
// nothing found, than it is easy
if P = EndP then
AppendMethod(PChar(S), Length(S))
else
EscapeStrToJSONStr(F, P, EndP, AppendMethod);
end
else
AppendMethod(nil, 0);
end;
class procedure TJsonBaseObject.DateTimeToJSONStr(const AppendMethod: TWriterAppendMethod; const Value: TDateTime);
var
S: string;
begin
S := TJsonBaseObject.DateTimeToJSON(Value, JsonSerializationConfig.UseUtcTime);
// StrToJSONStr isn't necessary because the date-time string doesn't contain any char
// that must be escaped.
AppendMethod(PChar(S), Length(S));
end;
class procedure TJsonBaseObject.EscapeStrToJSONStr(F, P, EndP: PChar; const AppendMethod: TWriterAppendMethod);
const
HexChars: array[0..15] of Char = '0123456789abcdef';
var
Buf: TJsonOutputWriter.TJsonStringBuilder;
Ch: Char;
{$IFDEF ESCAPE_SLASH_AFTER_LESSTHAN}
StartP: PChar;
{$ENDIF ESCAPE_SLASH_AFTER_LESSTHAN}
begin
{$IFDEF ESCAPE_SLASH_AFTER_LESSTHAN}
StartP := F;
{$ENDIF ESCAPE_SLASH_AFTER_LESSTHAN}
Buf.Init;
try
repeat
if P <> F then
Buf.Append(F, P - F); // append the string part that doesn't need an escape sequence
if P < EndP then
begin
Ch := P^;
case Ch of
#0..#7, #11, #14..#31:
begin
Buf.Append('\u00', 4);
Buf.Append2(HexChars[Word(Ch) shr 4], HexChars[Word(Ch) and $F]);
end;
#8: Buf.Append('\b', 2);
#9: Buf.Append('\t', 2);
#10: Buf.Append('\n', 2);
#12: Buf.Append('\f', 2);
#13: Buf.Append('\r', 2);
'\': Buf.Append('\\', 2);
'"': Buf.Append('\"', 2);
{$IFDEF ESCAPE_SLASH_AFTER_LESSTHAN}
'/':
begin
if (P > StartP) and (P[-1] = '<') then // escape '/' only if we have '</' to support HTML <script>-Tag
Buf.Append('\/', 2)
else
Buf.Append('/', 1);
end;
{$ENDIF ESCAPE_SLASH_AFTER_LESSTHAN}
end;
Inc(P);
F := P;
// DCC64 generates "bt mem,reg" code
// while (P < EndP) and not (P^ in [#0..#31, '\', '"' {$IFDEF ESCAPE_SLASH_AFTER_LESSTHAN}, '/'{$ENDIF}]) do
// Inc(P);
while P < EndP do
case P^ of
#0..#31, '\', '"' {$IFDEF ESCAPE_SLASH_AFTER_LESSTHAN}, '/'{$ENDIF}: Break;
else
Inc(P);
end;
end
else
Break;
until False;
AppendMethod(Buf.Data, Buf.Len);
finally
Buf.Done;
end;
end;
class function TJsonBaseObject.ParseUtf8(S: PAnsiChar; Len: Integer{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF}): TJsonBaseObject;
begin
Result := ParseUtf8Bytes(PByte(S), Len{$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF});
end;
{$IFDEF SUPPORTS_UTF8STRING}
class function TJsonBaseObject.ParseUtf8(const S: UTF8String{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF}): TJsonBaseObject;
begin
Result := ParseUtf8Bytes(PByte(S), Length(S){$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF});
end;
{$ENDIF SUPPORTS_UTF8STRING}
class function TJsonBaseObject.ParseUtf8Bytes(S: PByte; Len: Integer{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF}): TJsonBaseObject;
var
P: PByte;
L: Integer;
begin
if (S = nil) or (Len = 0) then
Result := nil
else
begin
if Len < 0 then
begin
{$IFDEF NEXTGEN}
Len := Utf8StrLen(S);
{$ELSE}
Len := StrLen(PAnsiChar(S));
{$ENDIF NEXTGEN}
end;
P := S;
L := Len;
while (L > 0) and (P^ <= 32) do
begin
Inc(P);
Dec(L);
end;
if L = 0 then
Result := nil
else
begin
if (L > 0) and (P^ = Byte(Ord('['))) then
Result := TJsonArray.Create
else
Result := TJsonObject.Create;
{$IFDEF AUTOREFCOUNT}
Result.FromUtf8JSON(S, Len{$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF});
{$ELSE}
try
Result.FromUtf8JSON(S, Len{$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF});
except
Result.Free;
raise;
end;
{$ENDIF AUTOREFCOUNT}
end;
end;
end;
class function TJsonBaseObject.Parse(const S: UnicodeString{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF}): TJsonBaseObject;
begin
Result := Parse(PWideChar(Pointer(S)), Length(S){$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF});
end;
class function TJsonBaseObject.Parse(S: PWideChar; Len: Integer{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF}): TJsonBaseObject;
var
P: PWideChar;
L: Integer;
begin
if (S = nil) or (Len = 0) then
Result := nil
else
begin
if Len < 0 then
Len := StrLen(S);
P := S;
L := Len;
while (L > 0) and (P^ <= #32) do
begin
Inc(P);
Dec(L);
end;
if L = 0 then
Result := nil
else
begin
if (L > 0) and (P^ = '[') then
Result := TJsonArray.Create
else
Result := TJsonObject.Create;
{$IFDEF AUTOREFCOUNT}
Result.FromJSON(S, Len{$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF});
{$ELSE}
try
Result.FromJSON(S, Len{$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF});
except
Result.Free;
raise;
end;
{$ENDIF AUTOREFCOUNT}
end;
end;
end;
class function TJsonBaseObject.Parse(const Bytes: TBytes; Encoding: TEncoding; ByteIndex: Integer;
ByteCount: Integer{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF}): TJsonBaseObject;
var
L: Integer;
begin
L := Length(Bytes);
if ByteCount = -1 then
ByteCount := L - ByteIndex;
if (ByteCount <= 0) or (ByteIndex + ByteCount > L) then
Result := nil
else
begin
if (Encoding = TEncoding.UTF8) or (Encoding = nil) then
Result := ParseUtf8Bytes(PByte(@Bytes[ByteIndex]), ByteCount{$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF})
else if Encoding = TEncoding.Unicode then
Result := Parse(PWideChar(@Bytes[ByteIndex]), ByteCount div SizeOf(WideChar){$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF})
else
Result := Parse(Encoding.GetString(Bytes, ByteIndex, ByteCount){$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF});
end;
end;
class function TJsonBaseObject.ParseFromFile(const FileName: string; Utf8WithoutBOM: Boolean{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF}): TJsonBaseObject;
var
Stream: TFileStream;
begin
Stream := TFileStream.Create(FileName, fmOpenRead or fmShareDenyWrite);
try
Result := ParseFromStream(Stream, nil, Utf8WithoutBOM{$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF});
finally
Stream.Free;
end;
end;
class function TJsonBaseObject.ParseFromStream(Stream: TStream; Encoding: TEncoding; Utf8WithoutBOM: Boolean{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF}): TJsonBaseObject;
var
StreamInfo: TStreamInfo;
S: string;
L: Integer;
begin
GetStreamBytes(Stream, Encoding, Utf8WithoutBOM, StreamInfo);
try
if Encoding = TEncoding.UTF8 then
Result := ParseUtf8Bytes(StreamInfo.Buffer, StreamInfo.Size{$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF})
else if Encoding = TEncoding.Unicode then
Result := Parse(PWideChar(Pointer(StreamInfo.Buffer)), StreamInfo.Size div SizeOf(WideChar){$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF})
else
begin
L := TEncodingStrictAccess(Encoding).GetCharCountEx(StreamInfo.Buffer, StreamInfo.Size);
SetLength(S, L);
if L > 0 then
TEncodingStrictAccess(Encoding).GetCharsEx(StreamInfo.Buffer, StreamInfo.Size, PChar(Pointer(S)), L)
else if StreamInfo.Size > 0 then
ErrorNoMappingForUnicodeCharacter;
// release memory
FreeMem(StreamInfo.AllocationBase);
StreamInfo.AllocationBase := nil;
Result := Parse(S{$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF});
end;
finally
FreeMem(StreamInfo.AllocationBase);
end;
end;
{$IFDEF SUPPORTS_UTF8STRING}
procedure TJsonBaseObject.FromUtf8JSON(const S: UTF8String{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF});
begin
FromUtf8JSON(PAnsiChar(Pointer(S)), Length(S){$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF});
end;
{$ENDIF SUPPORTS_UTF8STRING}
procedure TJsonBaseObject.FromUtf8JSON(S: PAnsiChar; Len: Integer{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF});
begin
FromUtf8JSON(PByte(S), Len{$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF});
end;
procedure TJsonBaseObject.FromUtf8JSON(S: PByte; Len: Integer{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF});
var
Reader: TJsonReader;
begin
if Len < 0 then
begin
{$IFDEF NEXTGEN}
Len := Utf8StrLen(S);
{$ELSE}
Len := StrLen(PAnsiChar(S));
{$ENDIF NEXTGEN}
end;
Reader := TUtf8JsonReader.Create(S, Len{$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF});
try
Reader.Parse(Self);
finally
Reader.Free;
end;
end;
procedure TJsonBaseObject.FromJSON(const S: UnicodeString{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF});
begin
FromJSON(PWideChar(S), Length(S){$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF});
end;
procedure TJsonBaseObject.FromJSON(S: PWideChar; Len: Integer{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF});
var
Reader: TJsonReader;
begin
if Len < 0 then
Len := StrLen(S);
Reader := TStringJsonReader.Create(S, Len{$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF});
try
Reader.Parse(Self);
finally
Reader.Free;
end;
end;
procedure TJsonBaseObject.LoadFromFile(const FileName: string; Utf8WithoutBOM: Boolean{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF});
var
Stream: TFileStream;
begin
Stream := TFileStream.Create(FileName, fmOpenRead or fmShareDenyWrite);
try
LoadFromStream(Stream, nil, Utf8WithoutBOM{$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF});
finally
Stream.Free;
end;
end;
class procedure TJsonBaseObject.GetStreamBytes(Stream: TStream; var Encoding: TEncoding; Utf8WithoutBOM: Boolean;
var StreamInfo: TStreamInfo);
{$IFDEF WORKAROUND_NETWORK_FILE_INSUFFICIENT_RESOURCES}
const
MaxBufSize = 20 * 1024 * 1024;
var
ReadCount, ReadBufSize: NativeInt;
{$ENDIF WORKAROUND_NETWORK_FILE_INSUFFICIENT_RESOURCES}
var
Position: Int64;
Size: NativeInt;
Bytes: PByte;
BufStart: Integer;
begin
BufStart := 0;
Position := Stream.Position;
Size := Stream.Size - Position;
StreamInfo.Buffer := nil;
StreamInfo.Size := 0;
StreamInfo.AllocationBase := nil;
try
Bytes := nil;
if Size > 0 then
begin
if Stream is TCustomMemoryStream then
begin
Bytes := TCustomMemoryStream(Stream).Memory;
TCustomMemoryStream(Stream).Position := Position + Size;
Inc(Bytes, Position);
end
else
begin
GetMem(StreamInfo.AllocationBase, Size);
Bytes := StreamInfo.AllocationBase;
{$IFDEF WORKAROUND_NETWORK_FILE_INSUFFICIENT_RESOURCES}
if (Stream is THandleStream) and (Size > MaxBufSize) then
begin
ReadCount := Size;
// Read in 20 MB blocks to work around a network limitation in Windows 2003 or older (INSUFFICIENT RESOURCES)
while ReadCount > 0 do
begin
ReadBufSize := ReadCount;
if ReadBufSize > MaxBufSize then
ReadBufSize := MaxBufSize;
Stream.ReadBuffer(Bytes[Size - ReadCount], ReadBufSize);
Dec(ReadCount, ReadBufSize);
end;
end
else
{$ENDIF WORKAROUND_NETWORK_FILE_INSUFFICIENT_RESOURCES}
Stream.ReadBuffer(StreamInfo.AllocationBase^, Size);
end;
end;
if Encoding = nil then
begin
// Determine the encoding from the BOM
if Utf8WithoutBOM then
Encoding := TEncoding.UTF8
else
Encoding := TEncoding.Default;
if Size >= 2 then
begin
if (Bytes[0] = $EF) and (Bytes[1] = $BB) then
begin
if Bytes[2] = $BF then
begin
Encoding := TEncoding.UTF8;
BufStart := 3;
end;
end
else if (Bytes[0] = $FF) and (Bytes[1] = $FE) then
begin
if (Bytes[2] = 0) and (Bytes[3] = 0) then
begin
raise EJsonException.CreateRes(@RsUnsupportedFileEncoding);
//Result := bomUtf32LE;
//BufStart := 4;
end
else
begin
Encoding := TEncoding.Unicode;
BufStart := 2;
end;
end
else if (Bytes[0] = $FE) and (Bytes[1] = $FF) then
begin
Encoding := TEncoding.BigEndianUnicode;
BufStart := 2;
end
else if (Bytes[0] = 0) and (Bytes[1] = 0) and (Size >= 4) then
begin
if (Bytes[2] = $FE) and (Bytes[3] = $FF) then
begin
raise EJsonException.CreateRes(@RsUnsupportedFileEncoding);
//Result := bomUtf32BE;
//BufStart := 4;
end;
end;
end;
end;
Inc(Bytes, BufStart);
StreamInfo.Buffer := Bytes;
StreamInfo.Size := Size - BufStart;
except
FreeMem(StreamInfo.AllocationBase);
raise;
end;
end;
procedure TJsonBaseObject.LoadFromStream(Stream: TStream; Encoding: TEncoding; Utf8WithoutBOM: Boolean{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF});
var
StreamInfo: TStreamInfo;
S: string;
L: Integer;
begin
GetStreamBytes(Stream, Encoding, Utf8WithoutBOM, StreamInfo);
try
if Encoding = TEncoding.UTF8 then
FromUtf8JSON(StreamInfo.Buffer, StreamInfo.Size{$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF})
else if Encoding = TEncoding.Unicode then
FromJSON(PWideChar(Pointer(StreamInfo.Buffer)), StreamInfo.Size div SizeOf(WideChar){$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF})
else
begin
L := TEncodingStrictAccess(Encoding).GetCharCountEx(StreamInfo.Buffer, StreamInfo.Size);
SetLength(S, L);
if L > 0 then
TEncodingStrictAccess(Encoding).GetCharsEx(StreamInfo.Buffer, StreamInfo.Size, PChar(Pointer(S)), L)
else if StreamInfo.Size > 0 then
ErrorNoMappingForUnicodeCharacter;
// release memory
FreeMem(StreamInfo.AllocationBase);
StreamInfo.AllocationBase := nil;
FromJSON(S{$IFDEF SUPPORT_PROGRESS}, AProgress{$ENDIF});
end;
finally
FreeMem(StreamInfo.AllocationBase);
end;
end;
procedure TJsonBaseObject.SaveToFile(const FileName: string; Compact: Boolean; Encoding: TEncoding; Utf8WithoutBOM: Boolean);
var
Stream: TStream;
begin
Stream := TFileStream.Create(FileName, fmCreate or fmShareDenyWrite);
try
SaveToStream(Stream, Compact, Encoding, Utf8WithoutBOM);
finally
Stream.Free;
end;
end;
procedure TJsonBaseObject.SaveToStream(Stream: TStream; Compact: Boolean; Encoding: TEncoding; Utf8WithoutBOM: Boolean);
var
Preamble: TBytes;
Writer: TJsonOutputWriter;
begin
if Utf8WithoutBOM and ((Encoding = TEncoding.UTF8) or (Encoding = nil)) then
Encoding := TEncoding.UTF8
else
begin
if Encoding = nil then
Encoding := TEncoding.Default;
Preamble := Encoding.GetPreamble;
if Preamble <> nil then
Stream.Write(Preamble[0], Length(Preamble));
end;
Writer.Init(Compact, Stream, Encoding, nil);
try
InternToJSON(Writer);
finally
Writer.StreamDone;
end;
end;
procedure TJsonBaseObject.SaveToLines(Lines: TStrings);
var
Writer: TJsonOutputWriter;
begin
Writer.Init(False, nil, nil, Lines);
try
InternToJSON(Writer);
finally
Writer.LinesDone;
end;
end;
function TJsonBaseObject.ToJSON(Compact: Boolean): string;
var
Writer: TJsonOutputWriter;
begin
Writer.Init(Compact, nil, nil, nil);
try
InternToJSON(Writer);
finally
Result := Writer.Done;
end;
end;
{$IFDEF SUPPORTS_UTF8STRING}
function TJsonBaseObject.ToUtf8JSON(Compact: Boolean = True): UTF8String;
var
Stream: TJsonUtf8StringStream;
Size: NativeInt;
begin
Stream := TJsonUtf8StringStream.Create;
try
SaveToStream(Stream, Compact, nil, True);
Result := Stream.DataString;
Size := Stream.Size;
finally
Stream.Free;
end;
if Length(Result) <> Size then
SetLength(Result, Size);
end;
{$ENDIF SUPPORTS_UTF8STRING}
procedure TJsonBaseObject.ToUtf8JSON(var Bytes: TBytes; Compact: Boolean = True);
var
Stream: TJsonBytesStream;
Size: NativeInt;
begin
Stream := TJsonBytesStream.Create;
try
SaveToStream(Stream, Compact, nil, True);
Size := Stream.Size;
Bytes := Stream.Bytes;
finally
Stream.Free;
end;
if Length(Bytes) <> Size then
SetLength(Bytes, Size);
end;
function TJsonBaseObject.ToString: string;
begin
Result := ToJSON;
end;
class procedure TJsonBaseObject.InternInitAndAssignItem(Dest, Source: PJsonDataValue);
begin
Dest.FTyp := Source.FTyp;
case Source.Typ of
jdtString:
begin
Dest.FValue.P := nil;
string(Dest.FValue.S) := string(Source.FValue.S);
end;
jdtInt:
Dest.FValue.I := Source.FValue.I;
jdtLong:
Dest.FValue.L := Source.FValue.L;
jdtULong:
Dest.FValue.U := Source.FValue.U;
jdtFloat:
Dest.FValue.F := Source.FValue.F;
jdtDateTime:
Dest.FValue.D := Source.FValue.D;
jdtBool:
Dest.FValue.B := Source.FValue.B;
jdtArray:
begin
{$IFDEF AUTOREFCOUNT}
Dest.FValue.A := nil;
{$ENDIF AUTOREFCOUNT}
if Source.FValue.A <> nil then
begin
{$IFDEF USE_FAST_AUTOREFCOUNT}
Dest.FValue.A := TJsonArray.Create;
TJsonArray(Dest.FValue.A).ARCObjAddRef;
{$ELSE}
TJsonArray(Dest.FValue.A) := TJsonArray.Create;
{$ENDIF USE_FAST_AUTOREFCOUNT}
TJsonArray(Dest.FValue.A).Assign(TJsonArray(Source.FValue.A));
end
{$IFNDEF AUTOREFCOUNT}
else
Dest.FValue.A := nil;
{$ENDIF ~AUTOREFCOUNT}
end;
jdtObject:
begin
{$IFDEF AUTOREFCOUNT}
Dest.FValue.O := nil;
{$ENDIF AUTOREFCOUNT}
if Source.FValue.O <> nil then
begin
{$IFDEF USE_FAST_AUTOREFCOUNT}
Dest.FValue.O := TJsonObject.Create;
TJsonObject(Dest.FValue.O).ARCObjAddRef;
{$ELSE}
TJsonObject(Dest.FValue.O) := TJsonObject.Create;
{$ENDIF USE_FAST_AUTOREFCOUNT}
TJsonObject(Dest.FValue.O).Assign(TJsonObject(Source.FValue.O));
end
{$IFNDEF AUTOREFCOUNT}
else
Dest.FValue.O := nil;
{$ENDIF ~AUTOREFCOUNT}
end;
end;
end;
procedure TJsonDataValue.TypeCastError(ExpectedType: TJsonDataType);
begin
raise EJsonCastException.CreateResFmt(@RsTypeCastError,
[TJsonBaseObject.DataTypeNames[FTyp], TJsonBaseObject.DataTypeNames[ExpectedType]])
{$IFDEF HAS_RETURN_ADDRESS} at ReturnAddress{$ENDIF};
end;
{ TJsonArrayEnumerator }
constructor TJsonArrayEnumerator.Create(AArray: TJSonArray);
begin
inherited Create;
FIndex := -1;
FArray := AArray;
end;
function TJsonArrayEnumerator.GetCurrent: TJsonDataValueHelper;
begin
Result := FArray[FIndex];
end;
function TJsonArrayEnumerator.MoveNext: Boolean;
begin
Result := FIndex < FArray.Count - 1;
if Result then
Inc(FIndex);
end;
{ TJsonArray }
destructor TJsonArray.Destroy;
begin
Clear;
FreeMem(FItems);
FItems := nil;
//inherited Destroy;
end;
procedure TJsonArray.Clear;
var
I: Integer;
begin
for I := 0 to FCount - 1 do
FItems[I].Clear;
FCount := 0;
end;
procedure TJsonArray.Delete(Index: Integer);
begin
if (Index < 0) or (Index >= FCount) then
ListError(@SListIndexError, Index);
FItems[Index].Clear;
Dec(FCount);
if Index < FCount then
Move(FItems[Index + 1], FItems[Index], (FCount - Index) * SizeOf(TJsonDataValue));
end;
function TJsonArray.AddItem: PJsonDataValue;
begin
if FCount = FCapacity then
Grow;
Result := @FItems[FCount];
Result.FTyp := jdtNone;
Result.FValue.P := nil;
Inc(FCount);
end;
function TJsonArray.InsertItem(Index: Integer): PJsonDataValue;
begin
if Cardinal(Index) > Cardinal(FCount) then
RaiseListError(Index);
if FCount = FCapacity then
Grow;
Result := @FItems[Index];
if Index < FCount then
Move(Result^, FItems[Index + 1], (FCount - Index) * SizeOf(TJsonDataValue));
Result.FTyp := jdtNone;
Result.FValue.P := nil;
Inc(FCount);
end;
procedure TJsonArray.Grow;
var
C, Delta: Integer;
begin
C := FCapacity;
if C > 64 then
Delta := C div 4
else if C > 8 then
Delta := 16
else
Delta := 4;
FCapacity := C + Delta;
InternApplyCapacity;
end;
procedure TJsonArray.InternApplyCapacity;
begin
ReallocMem(Pointer(FItems), FCapacity * SizeOf(TJsonDataValue));
end;
procedure TJsonArray.SetCapacity(const Value: Integer);
var
I: Integer;
begin
if Value <> FCapacity then
begin
if FCapacity < FCount then
begin
// delete all overlapping items
for I := FCapacity to FCount - 1 do
FItems[I].Clear;
FCount := FCapacity;
end;
FCapacity := Value;
InternApplyCapacity;
end;
end;
function TJsonArray.Extract(Index: Integer): TJsonBaseObject;
begin
if Items[Index].FTyp in [jdtNone, jdtArray, jdtObject] then
begin
Result := TJsonBaseObject(FItems[Index].FValue.O);
TJsonBaseObject(FItems[Index].FValue.O) := nil;
end
else
Result := nil;
Delete(Index);
end;
function TJsonArray.ExtractArray(Index: Integer): TJsonArray;
begin
Result := Extract(Index) as TJsonArray;
end;
function TJsonArray.ExtractObject(Index: Integer): TJsonObject;
begin
Result := Extract(Index) as TJsonObject;
end;
function TJsonArray.GetArray(Index: Integer): TJsonArray;
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
Result := FItems[Index].ArrayValue;
end;
function TJsonArray.GetBool(Index: Integer): Boolean;
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
Result := FItems[Index].BoolValue;
end;
function TJsonArray.GetObject(Index: Integer): TJsonObject;
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
Result := FItems[Index].ObjectValue;
end;
function TJsonArray.GetVariant(Index: Integer): Variant;
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
Result := FItems[Index].VariantValue;
end;
function TJsonArray.GetInt(Index: Integer): Integer;
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
Result := FItems[Index].IntValue;
end;
function TJsonArray.GetLong(Index: Integer): Int64;
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
Result := FItems[Index].LongValue;
end;
function TJsonArray.GetULong(Index: Integer): UInt64;
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
Result := FItems[Index].ULongValue;
end;
function TJsonArray.GetFloat(Index: Integer): Double;
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
Result := FItems[Index].FloatValue;
end;
function TJsonArray.GetDateTime(Index: Integer): TDateTime;
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
Result := FItems[Index].DateTimeValue;
end;
function TJsonArray.GetItem(Index: Integer): PJsonDataValue;
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
Result := @FItems[Index];
end;
function TJsonArray.GetString(Index: Integer): string;
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
Result := FItems[Index].Value;
end;
procedure TJsonArray.Add(const AValue: TJsonObject);
var
Data: PJsonDataValue;
begin
Data := AddItem;
Data.ObjectValue := AValue;
end;
procedure TJsonArray.Add(const AValue: TJsonArray);
var
Data: PJsonDataValue;
begin
Data := AddItem;
Data.ArrayValue := AValue;
end;
procedure TJsonArray.Add(const AValue: Boolean);
var
Data: PJsonDataValue;
begin
Data := AddItem;
Data.BoolValue := AValue;
end;
procedure TJsonArray.Add(const AValue: Integer);
var
Data: PJsonDataValue;
begin
Data := AddItem;
Data.IntValue := AValue;
end;
procedure TJsonArray.Add(const AValue: Int64);
var
Data: PJsonDataValue;
begin
Data := AddItem;
Data.LongValue := AValue;
end;
procedure TJsonArray.Add(const AValue: UInt64);
var
Data: PJsonDataValue;
begin
Data := AddItem;
Data.ULongValue := AValue;
end;
procedure TJsonArray.Add(const AValue: Double);
var
Data: PJsonDataValue;
begin
Data := AddItem;
Data.FloatValue := AValue;
end;
procedure TJsonArray.Add(const AValue: TDateTime);
var
Data: PJsonDataValue;
begin
Data := AddItem;
Data.DateTimeValue := AValue;
end;
procedure TJsonArray.Add(const AValue: string);
var
Data: PJsonDataValue;
begin
Data := AddItem;
Data.Value := AValue;
end;
procedure TJsonArray.Add(const AValue: Variant);
var
Data: PJsonDataValue;
begin
VarTypeToJsonDataType(VarType(AValue)); // Handle type-check exception before adding the item
Data := AddItem;
Data.VariantValue := AValue;
end;
function TJsonArray.AddArray: TJsonArray;
begin
{$IFDEF USE_FAST_AUTOREFCOUNT}
if Result <> nil then
Result.ARCObjRelease;
Pointer(Result) := TJsonArray.Create;
Result.ARCObjAddRef;
{$ELSE}
Result := TJsonArray.Create;
{$ENDIF USE_FAST_AUTOREFCOUNT}
Add(Result);
end;
function TJsonArray.AddObject: TJsonObject;
begin
{$IFDEF USE_FAST_AUTOREFCOUNT}
if Result <> nil then
Result.ARCObjRelease;
Pointer(Result) := TJsonObject.Create;
Result.ARCObjAddRef;
{$ELSE}
Result := TJsonObject.Create;
{$ENDIF USE_FAST_AUTOREFCOUNT}
Add(Result);
end;
procedure TJsonArray.AddObject(const Value: TJsonObject);
begin
Add(Value);
end;
procedure TJsonArray.Insert(Index: Integer; const AValue: TJsonObject);
var
Data: PJsonDataValue;
begin
Data := InsertItem(Index);
Data.ObjectValue := AValue;
end;
procedure TJsonArray.Insert(Index: Integer; const AValue: TJsonArray);
var
Data: PJsonDataValue;
begin
Data := InsertItem(Index);
Data.ArrayValue := AValue;
end;
procedure TJsonArray.Insert(Index: Integer; const AValue: Boolean);
var
Data: PJsonDataValue;
begin
Data := InsertItem(Index);
Data.BoolValue := AValue;
end;
procedure TJsonArray.Insert(Index: Integer; const AValue: Integer);
var
Data: PJsonDataValue;
begin
Data := InsertItem(Index);
Data.IntValue := AValue;
end;
procedure TJsonArray.Insert(Index: Integer; const AValue: Int64);
var
Data: PJsonDataValue;
begin
Data := InsertItem(Index);
Data.LongValue := AValue;
end;
procedure TJsonArray.Insert(Index: Integer; const AValue: UInt64);
var
Data: PJsonDataValue;
begin
Data := InsertItem(Index);
Data.ULongValue := AValue;
end;
procedure TJsonArray.Insert(Index: Integer; const AValue: Double);
var
Data: PJsonDataValue;
begin
Data := InsertItem(Index);
Data.FloatValue := AValue;
end;
procedure TJsonArray.Insert(Index: Integer; const AValue: TDateTime);
var
Data: PJsonDataValue;
begin
Data := InsertItem(Index);
Data.DateTimeValue := AValue;
end;
procedure TJsonArray.Insert(Index: Integer; const AValue: string);
var
Data: PJsonDataValue;
begin
Data := InsertItem(Index);
Data.Value := AValue;
end;
procedure TJsonArray.Insert(Index: Integer; const AValue: Variant);
var
Data: PJsonDataValue;
begin
VarTypeToJsonDataType(VarType(AValue)); // Handle type-check exception before inserting the item
Data := InsertItem(Index);
Data.VariantValue := AValue;
end;
function TJsonArray.InsertArray(Index: Integer): TJsonArray;
begin
Result := TJsonArray.Create;
{$IFDEF AUTOREFCOUNT}
Insert(Index, Result);
{$ELSE}
try
Insert(Index, Result);
except
Result.Free;
raise;
end;
{$ENDIF AUTOREFCOUNT}
end;
function TJsonArray.InsertObject(Index: Integer): TJsonObject;
begin
Result := TJsonObject.Create;
{$IFDEF AUTOREFCOUNT}
Insert(Index, Result);
{$ELSE}
try
Insert(Index, Result);
except
Result.Free;
raise;
end;
{$ENDIF AUTOREFCOUNT}
end;
procedure TJsonArray.InsertObject(Index: Integer; const Value: TJsonObject);
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
Insert(Index, Value);
end;
function TJsonArray.GetEnumerator: TJsonArrayEnumerator;
begin
Result := TJsonArrayEnumerator.Create(Self);
end;
procedure TJsonArray.SetString(Index: Integer; const Value: string);
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
FItems[Index].Value := Value;
end;
procedure TJsonArray.SetInt(Index: Integer; const Value: Integer);
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
FItems[Index].IntValue := Value;
end;
procedure TJsonArray.SetLong(Index: Integer; const Value: Int64);
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
FItems[Index].LongValue := Value;
end;
procedure TJsonArray.SetULong(Index: Integer; const Value: UInt64);
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
FItems[Index].ULongValue := Value;
end;
procedure TJsonArray.SetFloat(Index: Integer; const Value: Double);
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
FItems[Index].FloatValue := Value;
end;
procedure TJsonArray.SetDateTime(Index: Integer; const Value: TDateTime);
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
FItems[Index].DateTimeValue := Value;
end;
procedure TJsonArray.SetBool(Index: Integer; const Value: Boolean);
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
FItems[Index].BoolValue := Value;
end;
procedure TJsonArray.SetArray(Index: Integer; const Value: TJsonArray);
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
FItems[Index].ArrayValue := Value;
end;
procedure TJsonArray.SetObject(Index: Integer; const Value: TJsonObject);
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
FItems[Index].ObjectValue := Value;
end;
procedure TJsonArray.SetVariant(Index: Integer; const Value: Variant);
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
FItems[Index].VariantValue := Value;
end;
function TJsonArray.GetType(Index: Integer): TJsonDataType;
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
Result := FItems[Index].Typ;
end;
function TJsonArray.GetValue(Index: Integer): TJsonDataValueHelper;
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
Result.FData.FIntern := @FItems[Index];
Result.FData.FTyp := jdtNone;
end;
procedure TJsonArray.SetValue(Index: Integer; const Value: TJsonDataValueHelper);
begin
{$IFDEF CHECK_ARRAY_INDEX}
if Cardinal(Index) >= Cardinal(FCount) then
RaiseListError(Index);
{$ENDIF CHECK_ARRAY_INDEX}
TJsonDataValueHelper.SetInternValue(@FItems[Index], Value);
end;
procedure TJsonArray.InternToJSON(var Writer: TJsonOutputWriter);
var
I: Integer;
begin
if FCount = 0 then
Writer.AppendValue('[]')
else
begin
Writer.Indent('[');
FItems[0].InternToJSON(Writer);
for I := 1 to FCount - 1 do
begin
Writer.AppendSeparator(',');
FItems[I].InternToJSON(Writer);
end;
Writer.Unindent(']');
end;
end;
procedure TJsonArray.Assign(ASource: TJsonArray);
var
I: Integer;
begin
Clear;
if ASource <> nil then
begin
if FCapacity < ASource.Count then
begin
FCapacity := ASource.Count;
ReallocMem(FItems, ASource.Count * SizeOf(TJsonDataValue));
end;
FCount := ASource.Count;
for I := 0 to ASource.Count - 1 do
InternInitAndAssignItem(@FItems[I], @ASource.FItems[I]);
end
else
begin
FreeMem(FItems);
FCapacity := 0;
end;
end;
class procedure TJsonArray.RaiseListError(Index: Integer);
begin
ListError(@SListIndexError, Index);
end;
procedure TJsonArray.SetCount(const Value: Integer);
var
I: Integer;
begin
if Value <> FCount then
begin
SetCapacity(Value);
// Initialize new Items to "null"
for I := FCount to Value - 1 do
begin
FItems[I].FTyp := jdtObject;
FItems[I].FValue.P := nil;
end;
FCount := Value;
end;
end;
{ TJsonObjectEnumerator }
constructor TJsonObjectEnumerator.Create(AObject: TJsonObject);
begin
inherited Create;
FIndex := -1;
FObject := AObject;
end;
function TJsonObjectEnumerator.MoveNext: Boolean;
begin
Result := FIndex < FObject.Count - 1;
if Result then
Inc(FIndex);
end;
function TJsonObjectEnumerator.GetCurrent: TJsonNameValuePair;
begin
Result.Name := FObject.Names[FIndex];
Result.Value.FData.FIntern := FObject.Items[FIndex];
Result.Value.FData.FTyp := jdtNone;
end;
{ TJsonObject }
destructor TJsonObject.Destroy;
begin
Clear;
FreeMem(FItems);
FreeMem(FNames);
//inherited Destroy;
end;
{$IFDEF USE_LAST_NAME_STRING_LITERAL_CACHE}
procedure TJsonObject.UpdateLastValueItem(const Name: string; Item: PJsonDataValue);
begin
if (Pointer(Name) <> nil) and (PInteger(@PByte(Name)[-8])^ = -1) then // string literal
begin
FLastValueItem := Item;
FLastValueItemNamePtr := Pointer(Name);
end
else
FLastValueItem := nil;
end;
{$ENDIF USE_LAST_NAME_STRING_LITERAL_CACHE}
procedure TJsonObject.Grow;
var
C, Delta: Integer;
begin
C := FCapacity;
if C > 64 then
Delta := C div 4
else if C > 8 then
Delta := 16
else
Delta := 4;
FCapacity := C + Delta;
InternApplyCapacity;
end;
procedure TJsonObject.InternApplyCapacity;
begin
{$IFDEF USE_LAST_NAME_STRING_LITERAL_CACHE}
FLastValueItem := nil;
{$ENDIF USE_LAST_NAME_STRING_LITERAL_CACHE}
ReallocMem(Pointer(FItems), FCapacity * SizeOf(FItems[0]));
ReallocMem(Pointer(FNames), FCapacity * SizeOf(FNames[0]));
end;
procedure TJsonObject.SetCapacity(const Value: Integer);
var
I: Integer;
begin
if Value <> FCapacity then
begin
if FCapacity < FCount then
begin
// delete all overlapping items
for I := FCapacity to FCount - 1 do
begin
FNames[I] := '';
FItems[I].Clear;
end;
FCount := FCapacity;
end;
FCapacity := Value;
InternApplyCapacity;
end;
end;
procedure TJsonObject.Clear;
var
I: Integer;
begin
{$IFDEF USE_LAST_NAME_STRING_LITERAL_CACHE}
FLastValueItem := nil;
{$ENDIF USE_LAST_NAME_STRING_LITERAL_CACHE}
for I := 0 to FCount - 1 do
begin
FNames[I] := '';
FItems[I].Clear;
end;
FCount := 0;
end;
procedure TJsonObject.Remove(const Name: string);
var
Idx: Integer;
begin
Idx := IndexOf(Name);
if Idx <> -1 then
Delete(Idx);
end;
function TJsonObject.Extract(const Name: string): TJsonBaseObject;
var
Index: Integer;
begin
Index := IndexOf(Name);
if Index <> -1 then
begin
if FItems[Index].FTyp in [jdtNone, jdtArray, jdtObject] then
begin
Result := TJsonBaseObject(FItems[Index].FValue.O);
TJsonBaseObject(FItems[Index].FValue.O) := nil;
end
else
Result := nil;
Delete(Index);
end
else
Result := nil;
end;
function TJsonObject.ExtractArray(const Name: string): TJsonArray;
begin
Result := Extract(Name) as TJsonArray;
end;
function TJsonObject.ExtractObject(const Name: string): TJsonObject;
begin
Result := Extract(Name) as TJsonObject;
end;
function TJsonObject.GetEnumerator: TJsonObjectEnumerator;
begin
Result := TJsonObjectEnumerator.Create(Self);
end;
function TJsonObject.AddItem(const Name: string): PJsonDataValue;
var
P: PString;
begin
if FCount = FCapacity then
Grow;
Result := @FItems[FCount];
P := @FNames[FCount];
Inc(FCount);
Pointer(P^) := nil; // initialize the string
{$IFDEF USE_NAME_STRING_LITERAL}
AsgString(P^, Name);
{$ELSE}
P^ := Name;
{$ENDIF USE_NAME_STRING_LITERAL}
Result.FValue.P := nil;
Result.FTyp := jdtNone;
end;
function TJsonObject.InternAddItem(var Name: string): PJsonDataValue;
var
P: PString;
begin
if FCount = FCapacity then
Grow;
Result := @FItems[FCount];
P := @FNames[FCount];
Inc(FCount);
// Transfer the string without going through UStrAsg and UStrClr
Pointer(P^) := Pointer(Name);
Pointer(Name) := nil;
Result.FValue.P := nil;
Result.FTyp := jdtNone;
end;
function TJsonObject.GetArray(const Name: string): TJsonArray;
var
Item: PJsonDataValue;
begin
if FindItem(Name, Item) then
Result := Item.ArrayValue
else
begin
Result := TJsonArray.Create;
AddItem(Name).ArrayValue := Result;
{$IFDEF USE_LAST_NAME_STRING_LITERAL_CACHE}
UpdateLastValueItem(Name, Item);
{$ENDIF USE_LAST_NAME_STRING_LITERAL_CACHE}
end;
end;
function TJsonObject.GetBool(const Name: string): Boolean;
var
Item: PJsonDataValue;
begin
if FindItem(Name, Item) then
Result := Item.BoolValue
else
Result := False;
end;
function TJsonObject.GetInt(const Name: string): Integer;
var
Item: PJsonDataValue;
begin
if FindItem(Name, Item) then
Result := Item.IntValue
else
Result := 0;
end;
function TJsonObject.GetLong(const Name: string): Int64;
var
Item: PJsonDataValue;
begin
if FindItem(Name, Item) then
Result := Item.LongValue
else
Result := 0;
end;
function TJsonObject.GetULong(const Name: string): UInt64;
var
Item: PJsonDataValue;
begin
if FindItem(Name, Item) then
Result := Item.ULongValue
else
Result := 0;
end;
function TJsonObject.GetFloat(const Name: string): Double;
var
Item: PJsonDataValue;
begin
if FindItem(Name, Item) then
Result := Item.FloatValue
else
Result := 0;
end;
function TJsonObject.GetDateTime(const Name: string): TDateTime;
var
Item: PJsonDataValue;
begin
if FindItem(Name, Item) then
Result := Item.DateTimeValue
else
Result := 0;
end;
function TJsonObject.GetObject(const Name: string): TJsonObject;
var
Item: PJsonDataValue;
begin
if FindItem(Name, Item) then
Result := Item.ObjectValue
else
begin
Result := TJsonObject.Create;
AddItem(Name).ObjectValue := Result;
{$IFDEF USE_LAST_NAME_STRING_LITERAL_CACHE}
UpdateLastValueItem(Name, Item);
{$ENDIF USE_LAST_NAME_STRING_LITERAL_CACHE}
end;
end;
function TJsonObject.GetString(const Name: string): string;
var
Item: PJsonDataValue;
begin
if FindItem(Name, Item) then
Result := Item.Value
else
Result := '';
end;
procedure TJsonObject.SetArray(const Name: string; const Value: TJsonArray);
begin
RequireItem(Name).ArrayValue := Value;
end;
procedure TJsonObject.SetBool(const Name: string; const Value: Boolean);
begin
RequireItem(Name).BoolValue := Value;
end;
procedure TJsonObject.SetInt(const Name: string; const Value: Integer);
begin
RequireItem(Name).IntValue := Value;
end;
procedure TJsonObject.SetLong(const Name: string; const Value: Int64);
begin
RequireItem(Name).LongValue := Value;
end;
procedure TJsonObject.SetULong(const Name: string; const Value: UInt64);
begin
RequireItem(Name).ULongValue := Value;
end;
procedure TJsonObject.SetFloat(const Name: string; const Value: Double);
begin
RequireItem(Name).FloatValue := Value;
end;
procedure TJsonObject.SetDateTime(const Name: string; const Value: TDateTime);
begin
RequireItem(Name).DateTimeValue := Value;
end;
procedure TJsonObject.SetObject(const Name: string; const Value: TJsonObject);
begin
RequireItem(Name).ObjectValue := Value;
end;
procedure TJsonObject.SetString(const Name, Value: string);
begin
RequireItem(Name).Value := Value;
end;
function TJsonObject.GetType(const Name: string): TJsonDataType;
var
Item: PJsonDataValue;
begin
if FindItem(Name, Item) then
Result := Item.Typ
else
Result := jdtNone;
end;
function TJsonObject.Contains(const Name: string): Boolean;
{$IFDEF USE_LAST_NAME_STRING_LITERAL_CACHE}
var
Item: PJsonDataValue;
{$ENDIF USE_LAST_NAME_STRING_LITERAL_CACHE}
begin
{$IFDEF USE_LAST_NAME_STRING_LITERAL_CACHE}
Result := FindItem(Name, Item);
{$ELSE}
Result := IndexOf(Name) <> -1;
{$ENDIF USE_LAST_NAME_STRING_LITERAL_CACHE}
end;
function TJsonObject.IndexOfPChar(S: PChar; Len: Integer): Integer;
var
P: PJsonStringArray;
begin
P := FNames;
if Len = 0 then
begin
for Result := 0 to FCount - 1 do
if P[Result] = '' then
Exit;
end
else
begin
for Result := 0 to FCount - 1 do
if (Length(P[Result]) = Len) and CompareMem(S, Pointer(P[Result]), Len * SizeOf(Char)) then
Exit;
end;
Result := -1;
end;
function TJsonObject.IndexOf(const Name: string): Integer;
var
P: PJsonStringArray;
begin
P := FNames;
for Result := 0 to FCount - 1 do
if {(Pointer(Name) = Pointer(P[Result])) or} (Name = P[Result]) then
Exit;
Result := -1;
end;
function TJsonObject.FindItem(const Name: string; var Item: PJsonDataValue): Boolean;
var
Idx: Integer;
begin
{$IFDEF USE_LAST_NAME_STRING_LITERAL_CACHE}
{ If "Name" is a string literal we can compare the pointer of the last stored value instead of
searching the list. }
if (FLastValueItem <> nil) and (Pointer(Name) = FLastValueItemNamePtr) then
begin
Item := FLastValueItem;
Result := True;
end
else
{$ENDIF USE_LAST_NAME_STRING_LITERAL_CACHE}
begin
Idx := IndexOf(Name);
Result := Idx <> -1;
if Result then
begin
Item := @FItems[Idx];
{$IFDEF USE_LAST_NAME_STRING_LITERAL_CACHE}
UpdateLastValueItem(Name, Item);
{$ENDIF USE_LAST_NAME_STRING_LITERAL_CACHE}
end
else
Item := nil;
end;
end;
function TJsonObject.RequireItem(const Name: string): PJsonDataValue;
begin
if not FindItem(Name, Result) then
begin
Result := AddItem(Name);
{$IFDEF USE_LAST_NAME_STRING_LITERAL_CACHE}
UpdateLastValueItem(Name, Result);
{$ENDIF USE_LAST_NAME_STRING_LITERAL_CACHE}
end;
end;
procedure TJsonObject.InternToJSON(var Writer: TJsonOutputWriter);
var
I: Integer;
begin
if Count = 0 then
Writer.AppendValue('{}')
else
begin
Writer.Indent('{');
TJsonBaseObject.StrToJSONStr(Writer.AppendIntro, FNames[0]);
FItems[0].InternToJSON(Writer);
for I := 1 to FCount - 1 do
begin
Writer.AppendSeparator(',');
TJsonBaseObject.StrToJSONStr(Writer.AppendIntro, FNames[I]);
FItems[I].InternToJSON(Writer);
end;
Writer.Unindent('}');
end;
end;
function TJsonObject.GetName(Index: Integer): string;
begin
Result := FNames[Index];
end;
function TJsonObject.GetItem(Index: Integer): PJsonDataValue;
begin
Result := @FItems[Index];
end;
procedure TJsonObject.Delete(Index: Integer);
begin
if (Index < 0) or (Index >= FCount) then
ListError(@SListIndexError, Index);
{$IFDEF USE_LAST_NAME_STRING_LITERAL_CACHE}
if @FItems[Index] = FLastValueItem then
begin
FLastValueItem := nil;
//FLastValueItemNamePtr := nil;
end;
{$ENDIF USE_LAST_NAME_STRING_LITERAL_CACHE}
FNames[Index] := '';
FItems[Index].Clear;
Dec(FCount);
if Index < FCount then
begin
Move(FItems[Index + 1], FItems[Index], (FCount - Index) * SizeOf(FItems[0]));
Move(FNames[Index + 1], FNames[Index], (FCount - Index) * SizeOf(FNames[0]));
end;
end;
function TJsonObject.GetValue(const Name: string): TJsonDataValueHelper;
begin
if not FindItem(Name, Result.FData.FIntern) then
begin
Result.FData.FIntern := nil;
Result.FData.FNameResolver := Self;
Result.FData.FName := Name;
end;
Result.FData.FTyp := jdtNone;
end;
procedure TJsonObject.SetValue(const Name: string; const Value: TJsonDataValueHelper);
var
Item: PJsonDataValue;
begin
Item := RequireItem(Name);
TJsonDataValueHelper.SetInternValue(Item, Value);
end;
procedure TJsonObject.InternAdd(var AName: string; const AValue: TJsonArray);
var
Data: PJsonDataValue;
begin
Data := InternAddItem(AName);
Data.InternSetArrayValue(AValue);
end;
procedure TJsonObject.InternAdd(var AName: string; const AValue: TJsonObject);
var
Data: PJsonDataValue;
begin
Data := InternAddItem(AName);
Data.InternSetObjectValue(AValue);
end;
procedure TJsonObject.InternAdd(var AName: string; const AValue: Boolean);
var
Data: PJsonDataValue;
begin
Data := InternAddItem(AName);
Data.BoolValue := AValue;
end;
procedure TJsonObject.InternAdd(var AName: string; const AValue: Integer);
var
Data: PJsonDataValue;
begin
Data := InternAddItem(AName);
Data.IntValue := AValue;
end;
procedure TJsonObject.InternAdd(var AName: string; const AValue: Int64);
var
Data: PJsonDataValue;
begin
Data := InternAddItem(AName);
Data.LongValue := AValue;
end;
procedure TJsonObject.InternAdd(var AName: string; const AValue: UInt64);
var
Data: PJsonDataValue;
begin
Data := InternAddItem(AName);
Data.ULongValue := AValue;
end;
procedure TJsonObject.InternAdd(var AName: string; const AValue: Double);
var
Data: PJsonDataValue;
begin
Data := InternAddItem(AName);
Data.FloatValue := AValue;
end;
procedure TJsonObject.InternAdd(var AName: string; const AValue: TDateTime);
var
Data: PJsonDataValue;
begin
Data := InternAddItem(AName);
Data.DateTimeValue := AValue;
end;
procedure TJsonObject.InternAdd(var AName: string; const AValue: string);
var
Data: PJsonDataValue;
begin
Data := InternAddItem(AName);
Data.InternSetValue(AValue);
end;
function TJsonObject.InternAddArray(var AName: string): TJsonArray;
begin
{$IFDEF USE_FAST_AUTOREFCOUNT}
if Result <> nil then
Result.ARCObjRelease;
Pointer(Result) := TJsonArray.Create;
Inc(Result.FRefCount); //Result.ARCObjAddRef;
{$ELSE}
Result := TJsonArray.Create;
{$ENDIF USE_FAST_AUTOREFCOUNT}
InternAdd(AName, Result);
end;
function TJsonObject.InternAddObject(var AName: string): TJsonObject;
begin
{$IFDEF USE_FAST_AUTOREFCOUNT}
if Result <> nil then
Result.ARCObjRelease;
Pointer(Result) := TJsonObject.Create;
Inc(Result.FRefCount); //Result.ARCObjAddRef;
{$ELSE}
Result := TJsonObject.Create;
{$ENDIF USE_FAST_AUTOREFCOUNT}
InternAdd(AName, Result);
end;
procedure TJsonObject.ToSimpleObject(AObject: TObject; ACaseSensitive: Boolean);
var
Index, Count: Integer;
PropList: PPropList;
PropType: PTypeInfo;
PropName: string;
Item: PJsonDataValue;
V: Variant;
begin
if AObject = nil then
Exit;
if AObject.ClassInfo = nil then
raise EJsonException.CreateResFmt(@RsMissingClassInfo, [AObject.ClassName]);
Count := GetPropList(AObject, PropList);
if Count > 0 then
begin
try
for Index := 0 to Count - 1 do
begin
if (PropList[Index].StoredProc = Pointer($1)) or IsStoredProp(AObject, PropList[Index]) then
begin
PropName := UTF8ToString(PropList[Index].Name);
if not ACaseSensitive then
Item := FindCaseInsensitiveItem(PropName)
else if not FindItem(PropName, Item) then
Item := nil;
if Item <> nil then
begin
case PropList[Index].PropType^.Kind of
tkInteger, tkChar, tkWChar:
SetOrdProp(AObject, PropList[Index], Item.IntValue);
tkEnumeration:
SetOrdProp(AObject, PropList[Index], Item.IntValue);
tkFloat:
begin
PropType := PropList[Index].PropType^;
if (PropType = TypeInfo(TDateTime)) or (PropType = TypeInfo(TDate)) or (PropType = TypeInfo(TTime)) then
SetFloatProp(AObject, PropList[Index], Item.DateTimeValue)
else
SetFloatProp(AObject, PropList[Index], Item.FloatValue);
end;
tkInt64:
SetInt64Prop(AObject, PropList[Index], Item.LongValue);
tkString, tkLString, tkWString, tkUString:
SetStrProp(AObject, PropList[Index], Item.Value);
tkSet:
SetSetProp(AObject, PropList[Index], Item.Value);
tkVariant:
begin
case Types[PropName] of
jdtObject, jdtArray:
V := Null;
jdtInt:
V := Item.IntValue;
jdtLong:
V := Item.LongValue;
jdtULong:
V := Item.ULongValue;
jdtFloat:
V := Item.FloatValue;
jdtDateTime:
V := Item.DateTimeValue;
jdtBool:
V := Item.BoolValue;
else
V := Item.Value;
end;
SetVariantProp(AObject, PropList[Index], V);
end;
end;
end;
end;
end;
finally
FreeMem(PropList);
end;
end;
end;
procedure TJsonObject.FromSimpleObject(AObject: TObject; ALowerCamelCase: Boolean);
var
Index, Count: Integer;
PropList: PPropList;
PropType: PTypeInfo;
PropName: string;
V: Variant;
D: Double;
Ch: Char;
begin
Clear;
if AObject = nil then
Exit;
if AObject.ClassInfo = nil then
raise EJsonException.CreateResFmt(@RsMissingClassInfo, [AObject.ClassName]);
Count := GetPropList(AObject, PropList);
if Count > 0 then
begin
try
for Index := 0 to Count - 1 do
begin
if (PropList[Index].StoredProc = Pointer($1)) or IsStoredProp(AObject, PropList[Index]) then
begin
PropName := UTF8ToString(PropList[Index].Name);
if ALowerCamelCase and (PropName <> '') then
begin
Ch := PChar(Pointer(PropName))^;
if Ord(Ch) < 128 then
begin
case Ch of
'A'..'Z':
PChar(Pointer(PropName))^ := Char(Ord(Ch) xor $20);
end;
end
else // Delphi 2005+ compilers allow unicode identifiers, even if that is a very bad idea
AnsiLowerCamelCaseString(PropName);
end;
case PropList[Index].PropType^.Kind of
tkInteger, tkChar, tkWChar:
InternAdd(PropName, GetOrdProp(AObject, PropList[Index]));
tkEnumeration:
begin
PropType := PropList[Index].PropType^;
if (PropType = TypeInfo(Boolean)) or (PropType = TypeInfo(ByteBool)) or
(PropType = TypeInfo(WordBool)) or (PropType = TypeInfo(LongBool)) then
InternAdd(PropName, GetOrdProp(AObject, PropList[Index]) <> 0)
else
InternAdd(PropName, GetOrdProp(AObject, PropList[Index]));
end;
tkFloat:
begin
PropType := PropList[Index].PropType^;
D := GetFloatProp(AObject, PropList[Index]);
if (PropType = TypeInfo(TDateTime)) or (PropType = TypeInfo(TDate)) or (PropType = TypeInfo(TTime)) then
InternAdd(PropName, TDateTime(D))
else
InternAdd(PropName, D);
end;
tkInt64:
InternAdd(PropName, GetInt64Prop(AObject, PropList[Index]));
tkString, tkLString, tkWString, tkUString:
InternAdd(PropName, GetStrProp(AObject, PropList[Index]));
tkSet:
InternAdd(PropName, GetSetProp(AObject, PropList[Index]));
tkVariant:
begin
V := GetVariantProp(AObject, PropList[Index]);
if VarIsNull(V) or VarIsEmpty(V) then
InternAdd(PropName, TJsonObject(nil))
else
begin
case VarType(V) and varTypeMask of
varSingle, varDouble, varCurrency:
InternAdd(PropName, Double(V));
varShortInt, varSmallint, varInteger, varByte, varWord:
InternAdd(PropName, Integer(V));
varLongWord:
InternAdd(PropName, Int64(LongWord(V)));
{$IF CompilerVersion >= 23.0} // XE2+
varInt64:
InternAdd(PropName, Int64(V));
{$IFEND}
varBoolean:
InternAdd(PropName, Boolean(V));
else
InternAdd(PropName, VarToStr(V));
end;
end;
end;
end;
end;
end;
finally
FreeMem(PropList);
end;
end;
end;
function TJsonObject.FindCaseInsensitiveItem(const ACaseInsensitiveName: string): PJsonDataValue;
var
I: Integer;
begin
for I := 0 to Count - 1 do
begin
if AnsiSameText(FNames[I], ACaseInsensitiveName) then
begin
Result := @FItems[I];
Exit;
end;
end;
Result := nil;
end;
procedure TJsonObject.Assign(ASource: TJsonObject);
var
I: Integer;
begin
Clear;
if ASource <> nil then
begin
FCapacity := ASource.Count;
InternApplyCapacity;
FCount := ASource.Count;
for I := 0 to ASource.Count - 1 do
begin
Pointer(FNames[I]) := nil;
{$IFDEF USE_NAME_STRING_LITERAL}
AsgString(FNames[I], ASource.FNames[I]);
{$ELSE}
FNames[I] := ASource.FNames[I];
{$ENDIF USE_NAME_STRING_LITERAL}
InternInitAndAssignItem(@FItems[I], @ASource.FItems[I]);
end;
end
else
begin
FreeMem(FItems);
FreeMem(FNames);
FCapacity := 0;
end;
end;
procedure TJsonObject.PathError(P, EndP: PChar);
var
S: string;
begin
System.SetString(S, P, EndP - P);
raise EJsonPathException.CreateResFmt(@RsInvalidJsonPath, [S]);
end;
procedure TJsonObject.PathNullError(P, EndP: PChar);
var
S: string;
begin
System.SetString(S, P, EndP - P);
raise EJsonPathException.CreateResFmt(@RsJsonPathContainsNullValue, [S]);
end;
procedure TJsonObject.PathIndexError(P, EndP: PChar; Count: Integer);
var
S: string;
begin
System.SetString(S, P, EndP - P);
raise EJsonPathException.CreateResFmt(@RsJsonPathIndexError, [Count, S]);
end;
function TJsonObject.GetPath(const NamePath: string): TJsonDataValueHelper;
var
F, P, EndF, LastEndF: PChar;
Ch: Char;
Idx: Integer;
Obj: TJsonObject;
Arr: TJsonArray;
Item: PJsonDataValue;
S: string;
begin
P := PChar(NamePath);
// empty string => Self
if P^ = #0 then
begin
Result := Self;
Exit;
end;
Result.FData.FIntern := nil;
Result.FData.FTyp := jdtNone;
Obj := Self;
Item := nil;
LastEndF := nil;
while True do
begin
F := P;
// fast forward
Ch := P^;
// DCC64 generates "bt mem,reg" code
// while not (Ch in [#0, '[', '.']) do
// begin
// Inc(P);
// Ch := P^;
// end;
while True do
case Ch of
#0, '[', '.': Break;
else
Inc(P);
Ch := P^;
end;
EndF := P;
if F = EndF then
PathError(PChar(Pointer(NamePath)), P + 1);
Inc(P);
case Ch of
#0:
begin
if Obj <> nil then
begin
Idx := Obj.IndexOfPChar(F, EndF - F);
if Idx <> -1 then
Result.FData.FIntern := @Obj.FItems[Idx]
else
begin
Result.FData.FNameResolver := Obj;
System.SetString(Result.FData.FName, F, EndF - F);
end;
end
else
Result.FData.FIntern := Item;
Break;
end;
'.': // object access
begin
if Obj = nil then
PathNullError(PChar(Pointer(NamePath)), LastEndF);
Idx := Obj.IndexOfPChar(F, EndF - F);
if Idx <> -1 then
Obj := Obj.FItems[Idx].ObjectValue
else
begin
// auto create object
System.SetString(S, F, EndF - F);
Obj := Obj.InternAddObject(S);
end;
end;
'[': // array access
begin
if Obj = nil then
PathNullError(PChar(Pointer(NamePath)), LastEndF);
Idx := Obj.IndexOfPChar(F, EndF - F);
if Idx <> -1 then
begin
Arr := Obj.FItems[Idx].ArrayValue;
if Arr = nil then
begin
// Shouldn't happen => auto create array
Arr := TJsonArray.Create;
Obj.FItems[Idx].ArrayValue := Arr;
end;
end
else
begin
// auto create array
System.SetString(S, F, EndF - F);
Arr := Obj.InternAddArray(S);
end;
Ch := P^;
// parse array index
Idx := 0;
while Ch in ['0'..'9'] do
begin
Idx := Idx * 10 + (Word(Ch) - Ord('0'));
Inc(P);
Ch := P^;
end;
if P^ <> ']' then
PathError(PChar(Pointer(NamePath)), P + 1);
Inc(P);
if Idx >= Arr.Count then
PathIndexError(PChar(Pointer(NamePath)), P, Arr.Count); // P is already incremented
Item := @Arr.FItems[Idx];
if P^ = '.' then
begin
Inc(P);
Obj := Item.ObjectValue;
Item := nil;
end
else if P^ = #0 then
begin
// return array element
Result.FData.FIntern := Item;
Break;
end;
end;
end;
LastEndF := EndF;
end;
end;
procedure TJsonObject.SetPath(const NamePath: string; const Value: TJsonDataValueHelper);
var
PathValue: TJsonDataValueHelper;
begin
PathValue := Path[NamePath];
PathValue.ResolveName;
TJsonDataValueHelper.SetInternValue(PathValue.FData.FIntern, Value);
end;
{ TStringIntern }
{$IFDEF USE_STRINGINTERN_FOR_NAMES}
procedure TStringIntern.Init;
begin
FCount := 0;
FCapacity := 17;
GetMem(FStrings, FCapacity * SizeOf(FStrings[0]));
GetMem(FBuckets, FCapacity * SizeOf(FBuckets[0]));
FillChar(FBuckets[0], FCapacity * SizeOf(FBuckets[0]), $FF);
end;
procedure TStringIntern.Done;
var
I: Integer;
begin
for I := 0 to FCount - 1 do
FStrings[I].Name := '';
FreeMem(FStrings);
FreeMem(FBuckets);
end;
procedure TStringIntern.Intern(var S: string; var PropName: string);
var
Index: Integer;
Hash: Integer;
{$IFDEF USE_FAST_STRASG_FOR_INTERNAL_STRINGS}
Source: Pointer;
{$ENDIF USE_FAST_STRASG_FOR_INTERNAL_STRINGS}
begin
if PropName <> '' then
PropName := ''; // guarantee that Pointer(FPropName) = nil because InternTransfer steals FLook.S and overwrites FPropName
if S <> '' then
begin
Hash := GetHash(S);
Index := Find(Hash, S);
if Index <> -1 then
begin
{$IFDEF USE_FAST_STRASG_FOR_INTERNAL_STRINGS}
Source := Pointer(FStrings[Index].Name);
if Source <> nil then
begin
{$IFDEF DEBUG}
//if PInteger(@PByte(Source)[-8])^ = -1 then
// InternAsgStringUsageError;
{$ENDIF DEBUG}
Pointer(PropName) := Source;
// We are parsing JSON, no other thread knowns about the string => skip the CPU lock
Inc(PInteger(@PByte(Source)[-8])^);
end;
{$ELSE}
PropName := FStrings[Index].Name;
{$ENDIF USE_FAST_STRASG_FOR_INTERNAL_STRINGS}
S := '';
end
else
begin
// Transfer the string without going through UStrAsg and UStrClr
Pointer(PropName) := Pointer(S);
Pointer(S) := nil;
InternAdd(Hash, PropName);
end;
end;
end;
class function TStringIntern.GetHash(const Name: string): Integer;
var
P: PChar;
Ch: Word;
begin
// Only used to reduce memory when parsing large JSON strings
Result := 0;
P := PChar(Pointer(Name));
if P <> nil then
begin
Result := PInteger(@PByte(Name)[-4])^;
while True do
begin
Ch := Word(P[0]);
if Ch = 0 then
Break;
Result := Result + Ch;
Ch := Word(P[1]);
if Ch = 0 then
Break;
Result := Result + Ch;
Ch := Word(P[2]);
if Ch = 0 then
Break;
Result := Result + Ch;
Ch := Word(P[3]);
if Ch = 0 then
Break;
Result := Result + Ch;
Result := (Result shl 6) or ((Result shr 26) and $3F);
Inc(P, 4);
end;
end;
end;
procedure TStringIntern.InternAdd(AHash: Integer; const S: string);
var
Index: Integer;
Bucket: PInteger;
begin
if FCount = FCapacity then
Grow;
Index := FCount;
Inc(FCount);
Bucket := @FBuckets[(AHash and $7FFFFFFF) mod FCapacity];
with FStrings[Index] do
begin
Next := Bucket^;
Hash := AHash;
Pointer(Name) := Pointer(S);
Inc(PInteger(@PByte(Name)[-8])^);
end;
Bucket^ := Index;
end;
procedure TStringIntern.Grow;
var
I: Integer;
Index: Integer;
Len: Integer;
begin
Len := FCapacity;
// Some prime numbers
case Len of
17: Len := 37;
37: Len := 59;
59: Len := 83;
83: Len := 127;
127: Len := 353;
353: Len := 739;
739: Len := 1597;
1597: Len := 2221;
else
Len := Len * 2 + 1;
end;
FCapacity := Len;
ReallocMem(FStrings, Len * SizeOf(FStrings[0]));
ReallocMem(FBuckets, Len * SizeOf(FBuckets[0]));
FillChar(FBuckets[0], Len * SizeOf(FBuckets[0]), $FF);
// Rehash
for I := 0 to FCount - 1 do
begin
Index := (FStrings[I].Hash and $7FFFFFFF) mod Len;
FStrings[I].Next := FBuckets[Index];
FBuckets[Index] := I;
end;
end;
function TStringIntern.Find(Hash: Integer; const S: string): Integer;
var
Strs: PJsonStringEntryArray;
begin
Result := -1;
if FCount <> 0 then
begin
Result := FBuckets[(Hash and $7FFFFFFF) mod FCapacity];
if Result <> -1 then
begin
Strs := FStrings;
while True do
begin
if (Strs[Result].Hash = Hash) and (Strs[Result].Name = S) then
Break;
Result := Strs[Result].Next;
if Result = -1 then
Break;
end;
end;
end;
end;
{$ENDIF USE_STRINGINTERN_FOR_NAMES}
{ TJsonOutputWriter }
procedure TJsonOutputWriter.Init(ACompact: Boolean; AStream: TStream; AEncoding: TEncoding; ALines: TStrings);
begin
FCompact := ACompact;
FStream := AStream;
FEncoding := AEncoding;
if ALines <> nil then
begin
FCompact := False; // there is no compact version for TStrings
FLines := ALines;
end
else
begin
FStreamEncodingBuffer := nil;
FStreamEncodingBufferLen := 0;
FLines := nil;
FStringBuffer.Init;
end;
if not ACompact then
begin
FLastLine.Init;
FIndent := 0;
FLastType := ltInitial;
// Set up some initial indention levels
// TODO change to one buffer with #0 vs. IndentChar
FIndents := AllocMem(5 * SizeOf(string));
FIndentsLen := 5;
//FIndents[0] := '';
FIndents[1] := JsonSerializationConfig.IndentChar;
FIndents[2] := FIndents[1] + JsonSerializationConfig.IndentChar;
FIndents[3] := FIndents[2] + JsonSerializationConfig.IndentChar;
FIndents[4] := FIndents[3] + JsonSerializationConfig.IndentChar;
end;
end;
procedure TJsonOutputWriter.FreeIndents;
var
I: Integer;
begin
for I := 0 to FIndentsLen - 1 do
FIndents[I] := '';
FreeMem(FIndents);
end;
function TJsonOutputWriter.Done: string;
begin
if not FCompact then
begin
FlushLastLine;
FreeIndents;
FLastLine.Done;
end;
if FLines = nil then
FStringBuffer.DoneConvertToString(Result);
end;
procedure TJsonOutputWriter.LinesDone;
begin
FreeIndents;
FlushLastLine;
FLastLine.Done;
end;
procedure TJsonOutputWriter.StreamDone;
begin
if not FCompact then
begin
FlushLastLine;
FreeIndents;
FLastLine.Done;
end;
if FStream <> nil then
StreamFlush;
if FStreamEncodingBuffer <> nil then
FreeMem(FStreamEncodingBuffer);
FStringBuffer.Done;
end;
procedure TJsonOutputWriter.FlushLastLine;
var
S: Pointer;
begin
if FLastLine.Len > 0 then
begin
if FLines = nil then
begin
FLastLine.FlushToStringBuffer(FStringBuffer);
FStringBuffer.Append(JsonSerializationConfig.LineBreak);
end
else
begin
S := nil;
try
FLastLine.FlushToString(string(S));
FLines.Add(string(S));
finally
string(S) := '';
end;
end
end;
end;
procedure TJsonOutputWriter.StreamFlush;
var
Size: NativeInt;
begin
if FStringBuffer.Len > 0 then
begin
if FEncoding = TEncoding.Unicode then
begin
FStream.Write(FStringBuffer.Data[0], FStringBuffer.Len);
FStringBuffer.FLen := 0;
end
else if FStream is TMemoryStream then
FStringBuffer.FlushToMemoryStream(TMemoryStream(FStream), FEncoding)
else
begin
Size := FStringBuffer.FlushToBytes(FStreamEncodingBuffer, FStreamEncodingBufferLen, FEncoding);
if Size > 0 then
FStream.Write(FStreamEncodingBuffer[0], Size);
end;
end;
end;
procedure TJsonOutputWriter.StreamFlushPossible;
const
MinFlushBufferLen = 1024 * 1024;
begin
if (FStream <> nil) and (FStringBuffer.Len >= MinFlushBufferLen) then
StreamFlush;
end;
procedure TJsonOutputWriter.ExpandIndents;
begin
Inc(FIndentsLen);
ReallocMem(Pointer(FIndents), FIndentsLen * SizeOf(string));
Pointer(FIndents[FIndent]) := nil;
FIndents[FIndent] := FIndents[FIndent - 1] + JsonSerializationConfig.IndentChar;
end;
procedure TJsonOutputWriter.AppendLine(AppendOn: TLastType; const S: string);
begin
if FLastType = AppendOn then
FLastLine.Append(S)
else
begin
FlushLastLine;
StreamFlushPossible;
FLastLine.Append2(FIndents[FIndent], PChar(Pointer(S)), Length(S));
end;
end;
procedure TJsonOutputWriter.AppendLine(AppendOn: TLastType; P: PChar; Len: Integer);
begin
if FLastType = AppendOn then
FLastLine.Append(P, Len)
else
begin
FlushLastLine;
StreamFlushPossible;
FLastLine.Append2(FIndents[FIndent], P, Len);
end;
end;
procedure TJsonOutputWriter.Indent(const S: string);
var
This: ^TJsonOutputWriter;
begin
This := @Self;
if This.FCompact then
begin
This.FStringBuffer.Append(S);
This.StreamFlushPossible; // inlined
end
else
begin
This.AppendLine(ltIntro, S); // inlined
Inc(This.FIndent);
if This.FIndent >= This.FIndentsLen then // this is a new indention level
ExpandIndents;
This.FLastType := ltIndent;
end;
end;
procedure TJsonOutputWriter.Unindent(const S: string);
var
This: ^TJsonOutputWriter;
begin
This := @Self;
if This.FCompact then
begin
This.FStringBuffer.Append(S);
This.StreamFlushPossible; // inlined
end
else
begin
Dec(This.FIndent);
//Assert(FIndent >= 0);
This.AppendLine(ltIndent, S); // inlined
This.FLastType := ltUnindent;
end;
end;
procedure TJsonOutputWriter.AppendIntro(P: PChar; Len: Integer);
const
sQuoteCharColon = '":';
var
This: ^TJsonOutputWriter;
begin
This := @Self;
if This.FCompact then
begin
This.FStringBuffer.Append2(sQuoteChar, P, Len).Append(sQuoteCharColon, 2);
This.StreamFlushPossible; // inlined
end
else
begin
FlushLastLine;
This.StreamFlushPossible; // inlined
This.FLastLine.Append(This.FIndents[This.FIndent]).Append2(sQuoteChar, P, Len).Append('": ', 3);
This.FLastType := ltIntro;
end;
end;
procedure TJsonOutputWriter.AppendValue(P: PChar; Len: Integer);
var
This: ^TJsonOutputWriter;
begin
This := @Self;
if This.FCompact then
begin
This.FStringBuffer.Append(P, Len);
This.StreamFlushPossible; // inlined
end
else
begin
This.AppendLine(ltIntro, P, Len); // inlined
This.FLastType := ltValue;
end;
end;
procedure TJsonOutputWriter.AppendValue(const S: string);
var
This: ^TJsonOutputWriter;
begin
This := @Self;
if This.FCompact then
begin
This.FStringBuffer.Append(S);
This.StreamFlushPossible; // inlined
end
else
begin
This.AppendLine(ltIntro, S); // inlined
This.FLastType := ltValue;
end;
end;
procedure TJsonOutputWriter.AppendStrValue(P: PChar; Len: Integer);
var
This: ^TJsonOutputWriter;
begin
This := @Self;
if This.FCompact then
begin
This.FStringBuffer.Append3(sQuoteChar, P, Len, sQuoteChar);
This.StreamFlushPossible; // inlined
end
else
begin
if This.FLastType = ltIntro then
This.FLastLine.Append3(sQuoteChar, P, Len, sQuoteChar)
else
begin
FlushLastLine;
This.StreamFlushPossible; // inlined
This.FLastLine.Append(This.FIndents[This.FIndent]).Append3(sQuoteChar, P, Len, sQuoteChar);
end;
This.FLastType := ltValue;
end;
end;
procedure TJsonOutputWriter.AppendSeparator(const S: string);
var
This: ^TJsonOutputWriter;
begin
This := @Self;
if This.FCompact then
begin
This.FStringBuffer.Append(S);
This.StreamFlushPossible; // inlined
end
else
begin
if This.FLastType in [ltValue, ltUnindent] then
This.FLastLine.Append(S)
else
begin
FlushLastLine;
This.StreamFlushPossible; // inlined
This.FLastLine.Append2(This.FIndents[This.FIndent], PChar(Pointer(S)), Length(S));
end;
This.FLastType := ltSeparator;
end;
end;
{ TUtf8JsonReader }
constructor TUtf8JsonReader.Create(S: PByte; Len: NativeInt{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF});
begin
inherited Create(S{$IFDEF SUPPORT_PROGRESS}, Len * SizeOf(Byte), AProgress{$ENDIF});
FText := S;
FTextEnd := S + Len;
end;
function TUtf8JsonReader.GetCharOffset(StartPos: Pointer): NativeInt;
begin
Result := FText - PByte(StartPos);
end;
function TUtf8JsonReader.Next: Boolean;
label
EndReached;
var
P, EndP: PByte;
Ch: Byte;
begin
P := FText;
EndP := FTextEnd;
{$IF CompilerVersion <= 30.0} // Delphi 10 Seattle or older
{$IFNDEF CPUX64}
Ch := 0; // silence compiler warning
{$ENDIF ~CPUX64}
{$IFEND}
while True do
begin
while True do
begin
if P = EndP then
goto EndReached; // use GOTO to eliminate doing the "P = EndP", "P < EndP" 3 times - wish there was a "Break loop-label;"
Ch := P^;
if Ch > 32 then
Break;
if not (Ch in [9, 32]) then
Break;
Inc(P);
end;
case Ch of
10:
begin
FLineStart := P + 1;
Inc(FLineNum);
end;
13:
begin
Inc(FLineNum);
if (P + 1 < EndP) and (P[1] = 10) then
Inc(P);
FLineStart := P + 1;
end;
else
Break;
end;
Inc(P);
end;
EndReached:
if P < EndP then
begin
case P^ of
Ord('{'):
begin
FLook.Kind := jtkLBrace;
FText := P + 1;
end;
Ord('}'):
begin
FLook.Kind := jtkRBrace;
FText := P + 1;
end;
Ord('['):
begin
FLook.Kind := jtkLBracket;
FText := P + 1;
end;
Ord(']'):
begin
FLook.Kind := jtkRBracket;
FText := P + 1;
end;
Ord(':'):
begin
FLook.Kind := jtkColon;
FText := P + 1;
end;
Ord(','):
begin
FLook.Kind := jtkComma;
FText := P + 1;
end;
Ord('"'): // String
begin
LexString(P{$IFDEF CPUARM}, EndP{$ENDIF});
{$IFDEF SUPPORT_PROGRESS}
if FProgress <> nil then
CheckProgress(FText);
{$ENDIF SUPPORT_PROGRESS}
end;
Ord('-'), Ord('0')..Ord('9'), Ord('.'): // Number
begin
LexNumber(P{$IFDEF CPUARM}, EndP{$ENDIF});
{$IFDEF SUPPORT_PROGRESS}
if FProgress <> nil then
CheckProgress(FText);
{$ENDIF SUPPORT_PROGRESS}
end
else
LexIdent(P{$IFDEF CPUARM}, EndP{$ENDIF}); // Ident/Bool/NULL
{$IFDEF SUPPORT_PROGRESS}
if FProgress <> nil then
CheckProgress(FText);
{$ENDIF SUPPORT_PROGRESS}
end;
Result := True;
end
else
begin
FText := EndP;
FLook.Kind := jtkEof;
Result := False;
end;
end;
procedure TUtf8JsonReader.LexString(P: PByte{$IFDEF CPUARM}; EndP: PByte{$ENDIF});
var
{$IFNDEF CPUARM}
EndP: PByte;
{$ENDIF ~CPUARM}
EscapeSequences: PByte;
Ch: Byte;
Idx: Integer;
begin
Inc(P); // skip initiating '"'
{$IFNDEF CPUARM}
EndP := FTextEnd;
{$ENDIF ~CPUARM}
EscapeSequences := nil;
Ch := 0;
Idx := P - EndP;
// find the string end
repeat
if Idx = 0 then
Break;
Ch := EndP[Idx];
if (Ch = Byte(Ord('"'))) or (Ch = 10) or (Ch = 13) then
Break;
Inc(Idx);
if Ch <> Byte(Ord('\')) then
Continue;
if Idx = 0 then // Eof reached in an escaped char => broken JSON string
Break;
if EscapeSequences = nil then
EscapeSequences := @EndP[Idx];
Inc(Idx);
until False;
if Idx = 0 then
begin
FText := P - 1;
TJsonReader.StringNotClosedError(Self);
end;
EndP := @EndP[Idx];
if EscapeSequences = nil then
SetStringUtf8(FLook.S, P, EndP - P)
else
TUtf8JsonReader.JSONUtf8StrToStr(P, EndP, EscapeSequences - P, FLook.S, Self);
if Ch = Byte(Ord('"')) then
Inc(EndP);
FLook.Kind := jtkString;
FText := EndP;
if Ch in [10, 13] then
TJsonReader.InvalidStringCharacterError(Self);
end;
{$IFDEF ASMSUPPORT}
{$IFDEF CPUX64}
function ParseUInt64Utf8(P, EndP: PByte): UInt64;
// RCX = P
// RDX = EndP
asm
cmp rcx, rdx
jge @@LeaveFail
mov r8, rdx
sub rcx, r8
// r8+rcx = EndP + NegOffset = P => NegOffset can be incremented and checked for zero
movzx rax, BYTE PTR [r8+rcx]
sub al, '0'
add rcx, 1
jz @@Leave
@@Loop:
add rax, rax
// rax = 2*Result
lea rax, [rax+rax*4]
// rax = (2*Result)*4 + (2*Result) = 10*Result
movzx rdx, BYTE PTR [r8+rcx]
sub dl, '0'
add rax, rdx
add rcx, 1
jnz @@Loop
@@Leave:
ret
@@LeaveFail:
xor rax, rax
end;
{$ENDIF CPUX64}
{$IFDEF CPUX86}
function ParseUInt64Utf8(P, EndP: PByte): UInt64;
asm
cmp eax, edx
jge @@LeaveFail
push esi
push edi
push ebx
mov esi, edx
mov edi, eax
sub edi, edx
// esi+edi = EndP + NegOffset = P => NegOffset can be incremented and checked for zero
xor edx, edx
movzx eax, BYTE PTR [esi+edi]
sub al, '0'
add edi, 1
jz @@PopLeave
@@Loop:
add eax, eax
adc edx, edx
// eax:edx = 2*Result
mov ebx, eax
mov ecx, edx
// ebx:ecx = 2*Result
shld edx, eax, 2
shl eax, 2
// eax:edx = (2*Result)*4
add eax, ebx
adc edx, ecx
// eax:edx = (2*Result)*4 + (2*Result) = 10*Result
movzx ecx, BYTE PTR [esi+edi]
sub cl, '0'
add eax, ecx
adc edx, 0
add edi, 1
jnz @@Loop
@@PopLeave:
pop ebx
pop edi
pop esi
@@Leave:
ret
@@LeaveFail:
xor eax, eax
xor edx, edx
end;
{$ENDIF CPUX86}
{$ELSE}
function ParseUInt64Utf8(P, EndP: PByte): UInt64;
begin
if P = EndP then
Result := 0
else
begin
Result := P^ - Byte(Ord('0'));
Inc(P);
while P < EndP do
begin
Result := Result * 10 + (P^ - Byte(Ord('0')));
Inc(P);
end;
end;
end;
{$ENDIF ASMSUPPORT}
function ParseAsDoubleUtf8(F, P: PByte): Double;
begin
Result := 0.0;
while F < P do
begin
Result := Result * 10 + (F^ - Byte(Ord('0')));
Inc(F);
end;
end;
procedure TUtf8JsonReader.LexNumber(P: PByte{$IFDEF CPUARM}; EndP: PByte{$ENDIF});
var
F: PByte;
{$IFNDEF CPUARM}
EndP: PByte;
{$ENDIF ~CPUARM}
EndInt64P: PByte;
Ch: Byte;
Value, Scale: Double;
Exponent, IntValue: Integer;
Neg, NegE: Boolean;
DigitCount: Integer;
begin
{$IFNDEF CPUARM}
EndP := FTextEnd;
{$ENDIF ~CPUARM}
Neg := False;
Ch := P^;
if Ch = Byte(Ord('-')) then
begin
Inc(P);
if P >= EndP then
begin
FLook.Kind := jtkInvalidSymbol;
FText := P;
Exit;
end;
Neg := True;
Ch := P^;
end;
F := P;
Inc(P);
if Ch <> Byte(Ord('0')) then
begin
if Ch in [Ord('1')..Ord('9')] then
begin
while (P < EndP) and (P^ in [Ord('0')..Ord('9')]) do
Inc(P);
end
else
begin
FLook.Kind := jtkInvalidSymbol;
FText := P;
Exit;
end;
end;
DigitCount := P - F;
if DigitCount <= 9 then // Int32 fits 9 digits
begin
IntValue := 0;
while F < P do
begin
IntValue := IntValue * 10 + (F^ - Byte(Ord('0')));
Inc(F);
end;
FLook.HI := 0;
FLook.I := IntValue;
FLook.Kind := jtkInt;
if not (P^ in [Ord('.'), Ord('E'), Ord('e')]) then
begin
// just an integer
if Neg then
FLook.I := -FLook.I;
FText := P;
Exit;
end;
Value := FLook.I;
end
else if DigitCount <= 20 then // UInt64 fits 20 digits (not all)
begin
FLook.U := ParseUInt64Utf8(F, P);
if (DigitCount = 20) and (FLook.U mod 10 <> PByte(P - 1)^ - Byte(Ord('0'))) then // overflow => too large
Value := ParseAsDoubleUtf8(F, P)
else if Neg and ((DigitCount = 20) or ((DigitCount = 19) and (FLook.HI and $80000000 <> 0))) then
// "negative UInt64" doesn't fit into UInt64/Int64 => use Double
Value := FLook.U
else
begin
FLook.Kind := jtkLong;
case DigitCount of
19:
if FLook.HI and $80000000 <> 0 then // can't be negative because we cached that case already
FLook.Kind := jtkULong;
20:
FLook.Kind := jtkULong;
end;
if not (P^ in [Ord('.'), Ord('E'), Ord('e')]) then
begin
// just an integer
if Neg then
begin
if (FLook.HI = 0) and (FLook.I >= 0) then // 32bit Integer
begin
FLook.I := -FLook.I;
FLook.Kind := jtkInt;
end
else // 64bit Integer
FLook.L := -FLook.L;
end;
FText := P;
Exit;
end;
Value := FLook.U;
end;
end
else
Value := ParseAsDoubleUtf8(F, P);
// decimal digits
if (P + 1 < EndP) and (P^ = Byte(Ord('.'))) then
begin
Inc(P);
F := P;
EndInt64P := F + 18;
if EndInt64P > EndP then
EndInt64P := EndP;
while (P < EndInt64P) and (P^ in [Ord('0')..Ord('9')]) do
Inc(P);
Value := Value + ParseUInt64Utf8(F, P) / Power10[P - F];
// "Double" can't handle that many digits
while (P < EndP) and (P^ in [Ord('0')..Ord('9')]) do
Inc(P);
end;
// exponent
if (P < EndP) and (P^ in [Ord('e'), Ord('E')]) then
begin
Inc(P);
NegE := False;
if (P < EndP) then
begin
case P^ of
Ord('-'):
begin
NegE := True;
Inc(P);
end;
Ord('+'):
Inc(P);
end;
Exponent := 0;
F := P;
while (P < EndP) and (P^ in [Ord('0')..Ord('9')]) do
begin
Exponent := Exponent * 10 + (P^ - Byte(Ord('0')));
Inc(P);
end;
if P = F then
begin
// no exponent
FLook.Kind := jtkInvalidSymbol;
FText := P;
Exit;
end;
if Exponent > 308 then
Exponent := 308;
Scale := 1.0;
while Exponent >= 50 do
begin
Scale := Scale * 1E50;
Dec(Exponent, 50);
end;
while Exponent >= 18 do
begin
Scale := Scale * 1E18;
Dec(Exponent, 18);
end;
Scale := Scale * Power10[Exponent];
if NegE then
Value := Value / Scale
else
Value := Value * Scale;
end
else
begin
FLook.Kind := jtkInvalidSymbol;
FText := P;
Exit;
end;
end;
if Neg then
FLook.F := -Value
else
FLook.F := Value;
FLook.Kind := jtkFloat;
FText := P;
end;
procedure TUtf8JsonReader.LexIdent(P: PByte{$IFDEF CPUARM}; EndP: PByte{$ENDIF});
const
{$IFDEF BIGENDIAN}
// Big Endian
NullStr = LongWord((Ord('n') shl 24) or (Ord('u') shl 16) or (Ord('l') shl 8) or Ord('l'));
TrueStr = LongWord((Ord('t') shl 24) or (Ord('r') shl 16) or (Ord('u') shl 8) or Ord('e'));
FalseStr = LongWord((Ord('a') shl 24) or (Ord('l') shl 16) or (Ord('s') shl 8) or Ord('e'));
{$ELSE}
// Little Endian
NullStr = LongWord(Ord('n') or (Ord('u') shl 8) or (Ord('l') shl 16) or (Ord('l') shl 24));
TrueStr = LongWord(Ord('t') or (Ord('r') shl 8) or (Ord('u') shl 16) or (Ord('e') shl 24));
FalseStr = LongWord(Ord('a') or (Ord('l') shl 8) or (Ord('s') shl 16) or (Ord('e') shl 24));
{$ENDIF BIGENDIAN}
var
F: PByte;
{$IFNDEF CPUARM}
EndP: PByte;
{$ENDIF ~CPUARM}
L: LongWord;
begin
F := P;
{$IFNDEF CPUARM}
EndP := FTextEnd;
{$ENDIF ~CPUARM}
case P^ of
Ord('A')..Ord('Z'), Ord('a')..Ord('z'), Ord('_'), Ord('$'):
begin
Inc(P);
// DCC64 generates "bt mem,reg" code
// while (P < EndP) and (P^ in [Ord('A')..Ord('Z'), Ord('a')..Ord('z'), Ord('_'), Ord('0')..Ord('9')]) do
// Inc(P);
while P < EndP do
case P^ of
Ord('A')..Ord('Z'), Ord('a')..Ord('z'), Ord('_'), Ord('0')..Ord('9'): Inc(P);
else
Break;
end;
L := P - F;
if L = 4 then
begin
L := PLongWord(F)^;
if L = NullStr then
FLook.Kind := jtkNull
else if L = TrueStr then
FLook.Kind := jtkTrue
else
begin
SetStringUtf8(FLook.S, F, P - F);
FLook.Kind := jtkIdent;
end;
end
else if (L = 5) and (F^ = Ord('f')) and (PLongWord(F + 1)^ = FalseStr) then
FLook.Kind := jtkFalse
else
begin
SetStringUtf8(FLook.S, F, P - F);
FLook.Kind := jtkIdent;
end;
end;
else
FLook.Kind := jtkInvalidSymbol;
Inc(P);
end;
FText := P;
end;
{ TStringJsonReader }
constructor TStringJsonReader.Create(S: PChar; Len: Integer{$IFDEF SUPPORT_PROGRESS}; AProgress: PJsonReaderProgressRec{$ENDIF});
begin
inherited Create(S{$IFDEF SUPPORT_PROGRESS}, Len * SizeOf(WideChar), AProgress{$ENDIF});
FText := S;
FTextEnd := S + Len;
end;
function TStringJsonReader.GetCharOffset(StartPos: Pointer): NativeInt;
begin
Result := FText - PChar(StartPos);
end;
function TStringJsonReader.Next: Boolean;
var
P, EndP: PChar;
begin
P := FText;
EndP := FTextEnd;
while (P < EndP) and (P^ <= #32) do
Inc(P);
if P < EndP then
begin
case P^ of
'{':
begin
FLook.Kind := jtkLBrace;
FText := P + 1;
end;
'}':
begin
FLook.Kind := jtkRBrace;
FText := P + 1;
end;
'[':
begin
FLook.Kind := jtkLBracket;
FText := P + 1;
end;
']':
begin
FLook.Kind := jtkRBracket;
FText := P + 1;
end;
':':
begin
FLook.Kind := jtkColon;
FText := P + 1;
end;
',':
begin
FLook.Kind := jtkComma;
FText := P + 1;
end;
'"': // String
begin
LexString(P{$IFDEF CPUARM}, EndP{$ENDIF});
{$IFDEF SUPPORT_PROGRESS}
if FProgress <> nil then
CheckProgress(FText);
{$ENDIF SUPPORT_PROGRESS}
end;
'-', '0'..'9', '.': // Number
begin
LexNumber(P{$IFDEF CPUARM}, EndP{$ENDIF});
{$IFDEF SUPPORT_PROGRESS}
if FProgress <> nil then
CheckProgress(FText);
{$ENDIF SUPPORT_PROGRESS}
end
else
LexIdent(P{$IFDEF CPUARM}, EndP{$ENDIF}); // Ident/Bool/NULL
{$IFDEF SUPPORT_PROGRESS}
if FProgress <> nil then
CheckProgress(FText);
{$ENDIF SUPPORT_PROGRESS}
end;
Result := True;
end
else
begin
FText := EndP;
FLook.Kind := jtkEof;
Result := False;
end;
end;
procedure TStringJsonReader.LexString(P: PChar{$IFDEF CPUARM}; EndP: PChar{$ENDIF});
var
{$IFNDEF CPUARM}
EndP: PChar;
{$ENDIF ~CPUARM}
EscapeSequences: PChar;
Ch: Char;
Idx: Integer;
begin
Inc(P); // skip initiating '"'
{$IFNDEF CPUARM}
EndP := FTextEnd;
{$ENDIF ~CPUARM}
EscapeSequences := nil;
Ch := #0;
Idx := P - EndP;
// find the string end
repeat
if Idx = 0 then
Break;
Ch := EndP[Idx];
if (Ch = '"') or (Ch = #10) or (Ch = #13) then
Break;
Inc(Idx);
if Ch <> '\' then
Continue;
if Idx = 0 then // Eof reached in an escaped char => broken JSON string
Break;
if EscapeSequences = nil then
EscapeSequences := @EndP[Idx];
Inc(Idx);
until False;
if Idx = 0 then
begin
FText := P - 1;
TJsonReader.StringNotClosedError(Self);
end;
EndP := @EndP[Idx];
if EscapeSequences = nil then
SetString(FLook.S, P, EndP - P)
else
TJsonReader.JSONStrToStr(P, EndP, EscapeSequences - P, FLook.S, Self);
if Ch = '"' then
Inc(EndP);
FLook.Kind := jtkString;
FText := EndP;
if Ch in [#10, #13] then
TJsonReader.InvalidStringCharacterError(Self);
end;
{$IFDEF ASMSUPPORT}
{$IFDEF CPUX64}
function ParseUInt64(P, EndP: PWideChar): UInt64;
// RCX = P
// RDX = EndP
asm
cmp rcx, rdx
jge @@LeaveFail
mov r8, rdx
sub rcx, r8
// r8+rcx = EndP + NegOffset = P => NegOffset can be incremented and checked for zero
movzx rax, WORD PTR [r8+rcx]
sub ax, '0'
add rcx, 2
jz @@Leave
@@Loop:
add rax, rax
// rax = 2*Result
lea rax, [rax+rax*4]
// rax = (2*Result)*4 + (2*Result) = 10*Result
movzx rdx, WORD PTR [r8+rcx]
sub dx, '0'
add rax, rdx
add rcx, 2
jnz @@Loop
@@Leave:
ret
@@LeaveFail:
xor rax, rax
end;
{$ENDIF CPUX64}
{$IFDEF CPUX86}
function ParseUInt64(P, EndP: PWideChar): UInt64;
asm
cmp eax, edx
jge @@LeaveFail
push esi
push edi
push ebx
mov esi, edx
mov edi, eax
sub edi, edx
// esi+edi = EndP + NegOffset = P => NegOffset can be incremented and checked for zero
xor edx, edx
movzx eax, WORD PTR [esi+edi]
sub ax, '0'
add edi, 2
jz @@PopLeave
@@Loop:
add eax, eax
adc edx, edx
// eax:edx = 2*Result
mov ebx, eax
mov ecx, edx
// ebx:ecx = 2*Result
shld edx, eax, 2
shl eax, 2
// eax:edx = (2*Result)*4
add eax, ebx
adc edx, ecx
// eax:edx = (2*Result)*4 + (2*Result) = 10*Result
movzx ecx, WORD PTR [esi+edi]
sub cx, '0'
add eax, ecx
adc edx, 0
add edi, 2
jnz @@Loop
@@PopLeave:
pop ebx
pop edi
pop esi
@@Leave:
ret
@@LeaveFail:
xor eax, eax
xor edx, edx
end;
{$ENDIF CPUX86}
{$ELSE}
function ParseUInt64(P, EndP: PWideChar): UInt64;
begin
if P = EndP then
Result := 0
else
begin
Result := Ord(P^) - Ord('0');
Inc(P);
while P < EndP do
begin
Result := Result * 10 + (Ord(P^) - Ord('0'));
Inc(P);
end;
end;
end;
{$ENDIF ASMSUPPORT}
function ParseAsDouble(F, P: PWideChar): Double;
begin
Result := 0.0;
while F < P do
begin
Result := Result * 10 + (Ord(F^) - Ord('0'));
Inc(F);
end;
end;
procedure TStringJsonReader.LexNumber(P: PChar{$IFDEF CPUARM}; EndP: PChar{$ENDIF});
var
F: PChar;
{$IFNDEF CPUARM}
EndP: PChar;
{$ENDIF ~CPUARM}
EndInt64P: PChar;
Ch: Char;
Value, Scale: Double;
Exponent, IntValue: Integer;
Neg, NegE: Boolean;
DigitCount: Integer;
begin
{$IFNDEF CPUARM}
EndP := FTextEnd;
{$ENDIF ~CPUARM}
Neg := False;
Ch := P^;
if Ch = '-' then
begin
Inc(P);
if P >= EndP then
begin
FLook.Kind := jtkInvalidSymbol;
FText := P;
Exit;
end;
Neg := True;
Ch := P^;
end;
F := P;
Inc(P);
if Ch <> '0' then
begin
if Ch in ['1'..'9'] then
begin
while (P < EndP) and (P^ in ['0'..'9']) do
Inc(P);
end
else
begin
FLook.Kind := jtkInvalidSymbol;
FText := P;
Exit;
end;
end;
DigitCount := P - F;
if DigitCount <= 9 then // Int32 fits 9 digits
begin
IntValue := 0;
while F < P do
begin
IntValue := IntValue * 10 + (Ord(F^) - Ord('0'));
Inc(F);
end;
FLook.HI := 0;
FLook.I := IntValue;
FLook.Kind := jtkInt;
if not (P^ in ['.', 'E', 'e']) then
begin
// just an integer
if Neg then
FLook.I := -FLook.I;
FText := P;
Exit;
end;
Value := FLook.I;
end
else if DigitCount <= 20 then // UInt64 fits 20 digits (not all)
begin
FLook.U := ParseUInt64(F, P);
if (DigitCount = 20) and (FLook.U mod 10 <> Ord(PWideChar(P - 1)^) - Ord('0')) then // overflow => too large
Value := ParseAsDouble(F, P)
else if Neg and ((DigitCount = 20) or ((DigitCount = 19) and (FLook.HI and $80000000 <> 0))) then
// "negative UInt64" doesn't fit into UInt64/Int64 => use Double
Value := FLook.U
else
begin
FLook.Kind := jtkLong;
case DigitCount of
19:
if FLook.HI and $80000000 <> 0 then // can't be negative because we cached that case already
FLook.Kind := jtkULong;
20:
FLook.Kind := jtkULong;
end;
if not (P^ in ['.', 'E', 'e']) then
begin
// just an integer
if Neg then
begin
if (FLook.HI = 0) and (FLook.I >= 0) then // 32bit Integer
begin
FLook.I := -FLook.I;
FLook.Kind := jtkInt;
end
else // 64bit Integer
FLook.L := -FLook.L;
end;
FText := P;
Exit;
end;
Value := FLook.U;
end;
end
else
Value := ParseAsDouble(F, P);
// decimal digits
if (P + 1 < EndP) and (P^ = '.') then
begin
Inc(P);
F := P;
EndInt64P := F + 18;
if EndInt64P > EndP then
EndInt64P := EndP;
while (P < EndInt64P) and (P^ in ['0'..'9']) do
Inc(P);
Value := Value + ParseUInt64(F, P) / Power10[P - F];
// "Double" can't handle that many digits
while (P < EndP) and (P^ in ['0'..'9']) do
Inc(P);
end;
// exponent
if (P < EndP) and ((P^ = 'e') or (P^ = 'E')) then
begin
Inc(P);
NegE := False;
if (P < EndP) then
begin
case P^ of
'-':
begin
NegE := True;
Inc(P);
end;
'+':
Inc(P);
end;
Exponent := 0;
F := P;
while (P < EndP) and (P^ in ['0'..'9']) do
begin
Exponent := Exponent * 10 + (Ord(P^) - Ord('0'));
Inc(P);
end;
if P = F then
begin
// no exponent
FLook.Kind := jtkInvalidSymbol;
FText := P;
Exit;
end;
if Exponent > 308 then
Exponent := 308;
Scale := 1.0;
while Exponent >= 50 do
begin
Scale := Scale * 1E50;
Dec(Exponent, 50);
end;
while Exponent >= 18 do
begin
Scale := Scale * 1E18;
Dec(Exponent, 18);
end;
Scale := Scale * Power10[Exponent];
if NegE then
Value := Value / Scale
else
Value := Value * Scale;
end
else
begin
FLook.Kind := jtkInvalidSymbol;
FText := P;
Exit;
end;
end;
if Neg then
FLook.F := -Value
else
FLook.F := Value;
FLook.Kind := jtkFloat;
FText := P;
end;
procedure TStringJsonReader.LexIdent(P: PChar{$IFDEF CPUARM}; EndP: PChar{$ENDIF});
const
{$IFDEF BIGENDIAN}
// Big Endian
NullStr1 = LongWord((Ord('n') shl 16) or Ord('u'));
NullStr2 = LongWord((Ord('l') shl 16) or Ord('l'));
TrueStr1 = LongWord((Ord('t') shl 16) or Ord('r'));
TrueStr2 = LongWord((Ord('u') shl 16) or Ord('e'));
FalseStr1 = LongWord((Ord('a') shl 16) or Ord('l'));
FalseStr2 = LongWord((Ord('s') shl 16) or Ord('e'));
{$ELSE}
// Little Endian
NullStr1 = LongWord(Ord('n') or (Ord('u') shl 16));
NullStr2 = LongWord(Ord('l') or (Ord('l') shl 16));
TrueStr1 = LongWord(Ord('t') or (Ord('r') shl 16));
TrueStr2 = LongWord(Ord('u') or (Ord('e') shl 16));
FalseStr1 = LongWord(Ord('a') or (Ord('l') shl 16));
FalseStr2 = LongWord(Ord('s') or (Ord('e') shl 16));
{$ENDIF BIGENDIAN}
var
F: PChar;
{$IFNDEF CPUARM}
EndP: PChar;
{$ENDIF ~CPUARM}
L: LongWord;
begin
F := P;
{$IFNDEF CPUARM}
EndP := FTextEnd;
{$ENDIF ~CPUARM}
case P^ of
'A'..'Z', 'a'..'z', '_', '$':
begin
Inc(P);
// DCC64 generates "bt mem,reg" code
// while (P < EndP) and (P^ in ['A'..'Z', 'a'..'z', '_', '0'..'9']) do
// Inc(P);
while P < EndP do
case P^ of
'A'..'Z', 'a'..'z', '_', '0'..'9': Inc(P);
else
Break;
end;
L := P - F;
if L = 4 then
begin
L := PLongWord(F)^;
if (L = NullStr1) and (PLongWord(F + 2)^ = NullStr2) then
FLook.Kind := jtkNull
else if (L = TrueStr1) and (PLongWord(F + 2)^ = TrueStr2) then
FLook.Kind := jtkTrue
else
begin
SetString(FLook.S, F, P - F);
FLook.Kind := jtkIdent;
end;
end
else if (L = 5) and (F^ = 'f') and (PLongWord(F + 1)^ = FalseStr1) and (PLongWord(F + 3)^ = FalseStr2) then
FLook.Kind := jtkFalse
else
begin
SetString(FLook.S, F, P - F);
FLook.Kind := jtkIdent;
end;
end;
else
FLook.Kind := jtkInvalidSymbol;
Inc(P);
end;
FText := P;
end;
{ TJsonDataValueHelper }
class operator TJsonDataValueHelper.Implicit(const Value: string): TJsonDataValueHelper;
begin
Result.FData.FName := '';
Result.FData.FNameResolver := nil;
Result.FData.FIntern := nil;
{$IFDEF AUTOREFCOUNT}
if Result.FData.FObj <> nil then
Result.FData.FObj := nil;
{$ENDIF AUTOREFCOUNT}
Result.FData.FTyp := jdtString;
Result.FData.FValue := Value;
end;
class operator TJsonDataValueHelper.Implicit(const Value: TJsonDataValueHelper): string;
begin
if Value.FData.FIntern <> nil then
Result := Value.FData.FIntern.Value
else
case Value.FData.FTyp of
jdtString:
Result := Value.FData.FValue;
jdtInt:
Result := IntToStr(Value.FData.FIntValue);
jdtLong:
Result := IntToStr(Value.FData.FLongValue);
jdtULong:
Result := UIntToStr(Value.FData.FULongValue);
jdtFloat:
Result := FloatToStr(Value.FData.FFloatValue, JSONFormatSettings);
jdtDateTime:
Result := TJsonBaseObject.DateTimeToJSON(Value.FData.FDateTimeValue, JsonSerializationConfig.UseUtcTime);
jdtBool:
if Value.FData.FBoolValue then
Result := sTrue
else
Result := sFalse;
else
Result := '';
end;
end;
class operator TJsonDataValueHelper.Implicit(const Value: Integer): TJsonDataValueHelper;
begin
Result.FData.FName := '';
Result.FData.FNameResolver := nil;
Result.FData.FIntern := nil;
{$IFDEF AUTOREFCOUNT}
if Result.FData.FObj <> nil then
Result.FData.FObj := nil;
{$ENDIF AUTOREFCOUNT}
Result.FData.FTyp := jdtInt;
Result.FData.FIntValue := Value;
end;
class operator TJsonDataValueHelper.Implicit(const Value: TJsonDataValueHelper): Integer;
begin
if Value.FData.FIntern <> nil then
Result := Value.FData.FIntern.IntValue
else
case Value.FData.FTyp of
jdtString:
Result := StrToIntDef(Value.FData.FValue, 0);
jdtInt:
Result := Value.FData.FIntValue;
jdtLong:
Result := Value.FData.FLongValue;
jdtULong:
Result := Value.FData.FULongValue;
jdtFloat:
Result := Trunc(Value.FData.FFloatValue);
jdtDateTime:
Result := Trunc(Value.FData.FDateTimeValue);
jdtBool:
Result := Ord(Value.FData.FBoolValue);
else
Result := 0;
end;
end;
class operator TJsonDataValueHelper.Implicit(const Value: Int64): TJsonDataValueHelper;
begin
Result.FData.FName := '';
Result.FData.FNameResolver := nil;
Result.FData.FIntern := nil;
{$IFDEF AUTOREFCOUNT}
if Result.FData.FObj <> nil then
Result.FData.FObj := nil;
{$ENDIF AUTOREFCOUNT}
Result.FData.FTyp := jdtLong;
Result.FData.FLongValue := Value;
end;
class operator TJsonDataValueHelper.Implicit(const Value: TJsonDataValueHelper): Int64;
begin
if Value.FData.FIntern <> nil then
Result := Value.FData.FIntern.LongValue
else
case Value.FData.FTyp of
jdtString:
Result := StrToInt64Def(Value.FData.FValue, 0);
jdtInt:
Result := Value.FData.FIntValue;
jdtLong:
Result := Value.FData.FLongValue;
jdtULong:
Result := Value.FData.FULongValue;
jdtFloat:
Result := Trunc(Value.FData.FFloatValue);
jdtDateTime:
Result := Trunc(Value.FData.FDateTimeValue);
jdtBool:
Result := Ord(Value.FData.FBoolValue);
else
Result := 0;
end;
end;
//class operator TJsonDataValueHelper.Implicit(const Value: UInt64): TJsonDataValueHelper;
//begin
// Result.FData.FName := '';
// Result.FData.FNameResolver := nil;
// Result.FData.FIntern := nil;
// {$IFDEF AUTOREFCOUNT}
// if Result.FData.FObj <> nil then
// Result.FData.FObj := nil;
// {$ENDIF AUTOREFCOUNT}
// Result.FData.FTyp := jdtULong;
// Result.FData.FULongValue := Value;
//end;
//
//class operator TJsonDataValueHelper.Implicit(const Value: TJsonDataValueHelper): UInt64;
//begin
// if Value.FData.FIntern <> nil then
// Result := Value.FData.FIntern.LongValue
// else
// case Value.FData.FTyp of
// jdtString:
// Result := StrToInt64Def(Value.FData.FValue, 0);
// jdtInt:
// Result := Value.FData.FIntValue;
// jdtLong:
// Result := Value.FData.FLongValue;
// jdtULong:
// Result := Value.FData.FULongValue;
// jdtFloat:
// Result := Trunc(Value.FData.FFloatValue);
// jdtDateTime:
// Result := Trunc(Value.FData.FDateTimeValue);
// jdtBool:
// Result := Ord(Value.FData.FBoolValue);
// else
// Result := 0;
// end;
//end;
class operator TJsonDataValueHelper.Implicit(const Value: Double): TJsonDataValueHelper;
begin
Result.FData.FName := '';
Result.FData.FNameResolver := nil;
Result.FData.FIntern := nil;
{$IFDEF AUTOREFCOUNT}
if Result.FData.FObj <> nil then
Result.FData.FObj := nil;
{$ENDIF AUTOREFCOUNT}
Result.FData.FTyp := jdtFloat;
Result.FData.FFloatValue := Value;
end;
class operator TJsonDataValueHelper.Implicit(const Value: TJsonDataValueHelper): Double;
begin
if Value.FData.FIntern <> nil then
Result := Value.FData.FIntern.FloatValue
else
case Value.FData.FTyp of
jdtString:
Result := StrToFloat(Value.FData.FValue, JSONFormatSettings);
jdtInt:
Result := Value.FData.FIntValue;
jdtLong:
Result := Value.FData.FLongValue;
jdtULong:
Result := Value.FData.FULongValue;
jdtFloat:
Result := Value.FData.FFloatValue;
jdtDateTime:
Result := Value.FData.FDateTimeValue;
jdtBool:
Result := Ord(Value.FData.FBoolValue);
else
Result := 0;
end;
end;
class operator TJsonDataValueHelper.Implicit(const Value: Extended): TJsonDataValueHelper; // same that double
begin
Result.FData.FName := '';
Result.FData.FNameResolver := nil;
Result.FData.FIntern := nil;
{$IFDEF AUTOREFCOUNT}
if Result.FData.FObj <> nil then
Result.FData.FObj := nil;
{$ENDIF AUTOREFCOUNT}
Result.FData.FTyp := jdtFloat;
Result.FData.FFloatValue := Value;
end;
class operator TJsonDataValueHelper.Implicit(const Value: TJsonDataValueHelper): Extended; // same that double
begin
if Value.FData.FIntern <> nil then
Result := Value.FData.FIntern.FloatValue
else
case Value.FData.FTyp of
jdtString:
Result := StrToFloat(Value.FData.FValue, JSONFormatSettings);
jdtInt:
Result := Value.FData.FIntValue;
jdtLong:
Result := Value.FData.FLongValue;
jdtULong:
Result := Value.FData.FULongValue;
jdtFloat:
Result := Value.FData.FFloatValue;
jdtDateTime:
Result := Value.FData.FDateTimeValue;
jdtBool:
Result := Ord(Value.FData.FBoolValue);
else
Result := 0;
end;
end;
class operator TJsonDataValueHelper.Implicit(const Value: TDateTime): TJsonDataValueHelper;
begin
Result.FData.FName := '';
Result.FData.FNameResolver := nil;
Result.FData.FIntern := nil;
{$IFDEF AUTOREFCOUNT}
if Result.FData.FObj <> nil then
Result.FData.FObj := nil;
{$ENDIF AUTOREFCOUNT}
Result.FData.FTyp := jdtDateTime;
Result.FData.FDateTimeValue := Value;
end;
class operator TJsonDataValueHelper.Implicit(const Value: TJsonDataValueHelper): TDateTime;
begin
if Value.FData.FIntern <> nil then
Result := Value.FData.FIntern.DateTimeValue
else
case Value.FData.FTyp of
jdtString:
Result := TJsonBaseObject.JSONToDateTime(Value.FData.FValue);
jdtInt:
Result := Value.FData.FIntValue;
jdtLong:
Result := Value.FData.FLongValue;
jdtULong:
Result := Value.FData.FULongValue;
jdtFloat:
Result := Value.FData.FFloatValue;
jdtDateTime:
Result := Value.FData.FDateTimeValue;
jdtBool:
Result := Ord(Value.FData.FBoolValue);
else
Result := 0;
end;
end;
class operator TJsonDataValueHelper.Implicit(const Value: Boolean): TJsonDataValueHelper;
begin
Result.FData.FName := '';
Result.FData.FNameResolver := nil;
Result.FData.FIntern := nil;
{$IFDEF AUTOREFCOUNT}
if Result.FData.FObj <> nil then
Result.FData.FObj := nil;
{$ENDIF AUTOREFCOUNT}
Result.FData.FTyp := jdtBool;
Result.FData.FBoolValue := Value;
end;
class operator TJsonDataValueHelper.Implicit(const Value: TJsonDataValueHelper): Boolean;
begin
if Value.FData.FIntern <> nil then
Result := Value.FData.FIntern.BoolValue
else
case Value.FData.FTyp of
jdtString:
Result := Value.FData.FValue = 'true';
jdtInt:
Result := Value.FData.FIntValue <> 0;
jdtLong:
Result := Value.FData.FLongValue <> 0;
jdtULong:
Result := Value.FData.FULongValue <> 0;
jdtFloat:
Result := Value.FData.FFloatValue <> 0;
jdtDateTime:
Result := Value.FData.FDateTimeValue <> 0;
jdtBool:
Result := Value.FData.FBoolValue;
else
Result := False;
end;
end;
class operator TJsonDataValueHelper.Implicit(const Value: TJsonArray): TJsonDataValueHelper;
begin
Result.FData.FName := '';
Result.FData.FNameResolver := nil;
Result.FData.FIntern := nil;
{$IFDEF AUTOREFCOUNT}
if Result.FData.FValue <> '' then
Result.FData.FValue := '';
{$ENDIF AUTOREFCOUNT}
Result.FData.FTyp := jdtArray;
Result.FData.FObj := Value;
end;
class operator TJsonDataValueHelper.Implicit(const Value: TJsonDataValueHelper): TJsonArray;
begin
Value.ResolveName;
if Value.FData.FIntern <> nil then
begin
if Value.FData.FIntern.FTyp = jdtNone then
Value.FData.FIntern.ArrayValue := TJsonArray.Create;
Result := Value.FData.FIntern.ArrayValue;
end
else if Value.FData.FTyp = jdtArray then
Result := TJsonArray(Value.FData.FObj)
else
Result := nil;
end;
class operator TJsonDataValueHelper.Implicit(const Value: TJsonObject): TJsonDataValueHelper;
begin
Result.FData.FName := '';
Result.FData.FNameResolver := nil;
Result.FData.FIntern := nil;
{$IFDEF AUTOREFCOUNT}
if Result.FData.FValue <> '' then
Result.FData.FValue := '';
{$ENDIF AUTOREFCOUNT}
Result.FData.FTyp := jdtObject;
Result.FData.FObj := Value;
end;
class operator TJsonDataValueHelper.Implicit(const Value: TJsonDataValueHelper): TJsonObject;
begin
Value.ResolveName;
if Value.FData.FIntern <> nil then
begin
if Value.FData.FIntern.FTyp = jdtNone then
Value.FData.FIntern.ObjectValue := TJsonObject.Create;
Result := Value.FData.FIntern.ObjectValue;
end
else if Value.FData.FTyp = jdtObject then
Result := TJsonObject(Value.FData.FObj)
else
Result := nil;
end;
class operator TJsonDataValueHelper.Implicit(const Value: Pointer): TJsonDataValueHelper;
begin
Result.FData.FName := '';
Result.FData.FNameResolver := nil;
Result.FData.FIntern := nil;
{$IFDEF AUTOREFCOUNT}
if Result.FData.FValue <> '' then
Result.FData.FValue := '';
{$ENDIF AUTOREFCOUNT}
Result.FData.FTyp := jdtObject;
Result.FData.FObj := nil;
end;
class operator TJsonDataValueHelper.Implicit(const Value: TJsonDataValueHelper): Variant;
begin
if Value.FData.FIntern <> nil then
Result := Value.FData.FIntern.VariantValue
else
case Value.FData.FTyp of
jdtNone:
Result := Unassigned;
jdtString:
Result := Value.FData.FValue;
jdtInt:
Result := Value.FData.FIntValue;
jdtLong:
Result := Value.FData.FLongValue;
jdtULong:
Result := Value.FData.FULongValue;
jdtFloat:
Result := Value.FData.FFloatValue;
jdtDateTime:
Result := Value.FData.FDateTimeValue;
jdtBool:
Result := Value.FData.FBoolValue;
jdtArray:
ErrorUnsupportedVariantType(varArray);
jdtObject:
if Value.FData.FObj = nil then
Result := Null
else
ErrorUnsupportedVariantType(varObject);
else
ErrorUnsupportedVariantType(varAny);
end;
end;
class operator TJsonDataValueHelper.Implicit(const Value: Variant): TJsonDataValueHelper;
var
LTyp: TJsonDataType;
begin
Result.FData.FName := '';
Result.FData.FNameResolver := nil;
Result.FData.FIntern := nil;
{$IFDEF AUTOREFCOUNT}
if Result.FData.FObj <> nil then
Result.FData.FObj := nil;
{$ENDIF AUTOREFCOUNT}
LTyp := VarTypeToJsonDataType(VarType(Value));
if LTyp <> jdtNone then
begin
Result.FData.FTyp := LTyp;
case LTyp of
jdtString:
string(Result.FData.FValue) := Value;
jdtInt:
Result.FData.FIntValue := Value;
jdtLong:
Result.FData.FLongValue := Value;
jdtULong:
Result.FData.FULongValue := Value;
jdtFloat:
Result.FData.FFloatValue := Value;
jdtDateTime:
Result.FData.FDateTimeValue := Value;
jdtBool:
Result.FData.FBoolValue := Value;
end;
end;
end;
function TJsonDataValueHelper.GetValue: string;
begin
Result := Self;
end;
procedure TJsonDataValueHelper.SetValue(const Value: string);
begin
ResolveName;
if FData.FIntern <> nil then
FData.FIntern.Value := Value
else
Self := Value;
end;
function TJsonDataValueHelper.GetIntValue: Integer;
begin
Result := Self;
end;
procedure TJsonDataValueHelper.SetIntValue(const Value: Integer);
begin
ResolveName;
if FData.FIntern <> nil then
FData.FIntern.IntValue := Value
else
Self := Value;
end;
function TJsonDataValueHelper.GetLongValue: Int64;
begin
Result := Self;
end;
procedure TJsonDataValueHelper.SetLongValue(const Value: Int64);
begin
ResolveName;
if FData.FIntern <> nil then
FData.FIntern.LongValue := Value
else
Self := Value;
end;
function TJsonDataValueHelper.GetULongValue: UInt64;
begin
// Result := Self;
// copied from UInt64 implicit operator
if FData.FIntern <> nil then
Result := FData.FIntern.LongValue
else
case FData.FTyp of
jdtString:
Result := StrToInt64Def(FData.FValue, 0);
jdtInt:
Result := FData.FIntValue;
jdtLong:
Result := FData.FLongValue;
jdtULong:
Result := FData.FULongValue;
jdtFloat:
Result := Trunc(FData.FFloatValue);
jdtDateTime:
Result := Trunc(FData.FDateTimeValue);
jdtBool:
Result := Ord(FData.FBoolValue);
else
Result := 0;
end;
end;
procedure TJsonDataValueHelper.SetULongValue(const Value: UInt64);
begin
ResolveName;
if FData.FIntern <> nil then
FData.FIntern.ULongValue := Value
else
begin
//Self := Value;
// copied from UInt64 implicit operator
FData.FName := '';
FData.FNameResolver := nil;
FData.FIntern := nil;
{$IFDEF AUTOREFCOUNT}
if FData.FObj <> nil then
FData.FObj := nil;
{$ENDIF AUTOREFCOUNT}
FData.FTyp := jdtLong;
FData.FLongValue := Value;
end;
end;
function TJsonDataValueHelper.GetFloatValue: Double;
begin
Result := Self;
end;
procedure TJsonDataValueHelper.SetFloatValue(const Value: Double);
begin
ResolveName;
if FData.FIntern <> nil then
FData.FIntern.FloatValue := Value
else
Self := Value;
end;
function TJsonDataValueHelper.GetDateTimeValue: TDateTime;
begin
Result := Self;
end;
procedure TJsonDataValueHelper.SetDateTimeValue(const Value: TDateTime);
begin
ResolveName;
if FData.FIntern <> nil then
FData.FIntern.DateTimeValue := Value
else
Self := Value;
end;
function TJsonDataValueHelper.GetBoolValue: Boolean;
begin
Result := Self;
end;
procedure TJsonDataValueHelper.SetBoolValue(const Value: Boolean);
begin
ResolveName;
if FData.FIntern <> nil then
FData.FIntern.BoolValue := Value
else
Self := Value;
end;
function TJsonDataValueHelper.GetArrayValue: TJsonArray;
begin
Result := Self;
end;
procedure TJsonDataValueHelper.SetArrayValue(const Value: TJsonArray);
begin
ResolveName;
if FData.FIntern <> nil then
FData.FIntern.ArrayValue := Value
else
Self := Value;
end;
function TJsonDataValueHelper.GetObjectValue: TJsonObject;
begin
Result := Self;
end;
procedure TJsonDataValueHelper.SetObjectValue(const Value: TJsonObject);
begin
ResolveName;
if FData.FIntern <> nil then
FData.FIntern.ObjectValue := Value
else
Self := Value;
end;
function TJsonDataValueHelper.GetVariantValue: Variant;
begin
Result := Self;
end;
procedure TJsonDataValueHelper.SetVariantValue(const Value: Variant);
begin
ResolveName;
if FData.FIntern <> nil then
FData.FIntern.VariantValue := Value
else
Self := Value;
end;
function TJsonDataValueHelper.GetTyp: TJsonDataType;
begin
if FData.FIntern <> nil then
Result := FData.FIntern.Typ
else
Result := FData.FTyp;
end;
class procedure TJsonDataValueHelper.SetInternValue(Item: PJsonDataValue;
const Value: TJsonDataValueHelper);
begin
Value.ResolveName;
if Value.FData.FIntern <> nil then
begin
Item.Clear;
TJsonBaseObject.InternInitAndAssignItem(Item, Value.FData.FIntern); // clones arrays and objects
end
else
begin
case Value.FData.FTyp of
jdtString:
Item.Value := Value.FData.FValue;
jdtInt:
Item.IntValue := Value.FData.FIntValue;
jdtLong:
Item.LongValue := Value.FData.FLongValue;
jdtULong:
Item.ULongValue := Value.FData.FULongValue;
jdtFloat:
Item.FloatValue := Value.FData.FFloatValue;
jdtDateTime:
Item.DateTimeValue := Value.FData.FDateTimeValue;
jdtBool:
Item.BoolValue := Value.FData.FBoolValue;
jdtArray:
Item.ArrayValue := TJsonArray(Value.FData.FObj);
jdtObject:
Item.ObjectValue := TJsonObject(Value.FData.FObj);
else
Item.Clear;
end;
end;
end;
function TJsonDataValueHelper.GetArrayItem(Index: Integer): TJsonDataValueHelper;
begin
Result := ArrayValue.Values[Index];
end;
function TJsonDataValueHelper.GetArrayCount: Integer;
begin
Result := ArrayValue.Count;
end;
procedure TJsonDataValueHelper.ResolveName;
begin
if (FData.FIntern = nil) and (FData.FNameResolver <> nil) then
begin
FData.FIntern := FData.FNameResolver.RequireItem(FData.FName);
FData.FNameResolver := nil;
FData.FName := '';
end;
end;
function TJsonDataValueHelper.GetObjectString(const Name: string): string;
begin
Result := ObjectValue.S[Name];
end;
function TJsonDataValueHelper.GetObjectInt(const Name: string): Integer;
begin
Result := ObjectValue.I[Name];
end;
function TJsonDataValueHelper.GetObjectLong(const Name: string): Int64;
begin
Result := ObjectValue.L[Name];
end;
function TJsonDataValueHelper.GetObjectULong(const Name: string): UInt64;
begin
Result := ObjectValue.U[Name];
end;
function TJsonDataValueHelper.GetObjectFloat(const Name: string): Double;
begin
Result := ObjectValue.F[Name];
end;
function TJsonDataValueHelper.GetObjectDateTime(const Name: string): TDateTime;
begin
Result := ObjectValue.D[Name];
end;
function TJsonDataValueHelper.GetObjectBool(const Name: string): Boolean;
begin
Result := ObjectValue.B[Name];
end;
function TJsonDataValueHelper.GetArray(const Name: string): TJsonArray;
begin
Result := ObjectValue.A[Name];
end;
function TJsonDataValueHelper.GetObject(const Name: string): TJsonDataValueHelper;
begin
Result := ObjectValue.Values[Name];
end;
function TJsonDataValueHelper.GetObjectVariant(const Name: string): Variant;
begin
Result := ObjectValue.Values[Name];
end;
procedure TJsonDataValueHelper.SetObjectString(const Name, Value: string);
begin
ObjectValue.S[Name] := Value;
end;
procedure TJsonDataValueHelper.SetObjectInt(const Name: string; const Value: Integer);
begin
ObjectValue.I[Name] := Value;
end;
procedure TJsonDataValueHelper.SetObjectLong(const Name: string; const Value: Int64);
begin
ObjectValue.L[Name] := Value;
end;
procedure TJsonDataValueHelper.SetObjectULong(const Name: string; const Value: UInt64);
begin
ObjectValue.U[Name] := Value;
end;
procedure TJsonDataValueHelper.SetObjectFloat(const Name: string; const Value: Double);
begin
ObjectValue.F[Name] := Value;
end;
procedure TJsonDataValueHelper.SetObjectDateTime(const Name: string; const Value: TDateTime);
begin
ObjectValue.D[Name] := Value;
end;
procedure TJsonDataValueHelper.SetObjectBool(const Name: string; const Value: Boolean);
begin
ObjectValue.B[Name] := Value;
end;
procedure TJsonDataValueHelper.SetArray(const Name: string; const Value: TJsonArray);
begin
ObjectValue.A[Name] := Value;
end;
procedure TJsonDataValueHelper.SetObject(const Name: string; const Value: TJsonDataValueHelper);
begin
ObjectValue.Values[Name] := Value;
end;
procedure TJsonDataValueHelper.SetObjectVariant(const Name: string; const Value: Variant);
begin
ObjectValue.Values[Name] := Value;
end;
function TJsonDataValueHelper.GetObjectPath(const Name: string): TJsonDataValueHelper;
begin
Result := ObjectValue.Path[Name];
end;
procedure TJsonDataValueHelper.SetObjectPath(const Name: string; const Value: TJsonDataValueHelper);
begin
ObjectValue.Path[Name] := Value;
end;
{ TEncodingStrictAccess }
function TEncodingStrictAccess.GetByteCountEx(Chars: PChar; CharCount: Integer): Integer;
begin
Result := GetByteCount(Chars, CharCount);
end;
function TEncodingStrictAccess.GetBytesEx(Chars: PChar; CharCount: Integer; Bytes: PByte; ByteCount: Integer): Integer;
begin
Result := GetBytes(Chars, CharCount, Bytes, ByteCount);
end;
function TEncodingStrictAccess.GetCharCountEx(Bytes: PByte; ByteCount: Integer): Integer;
begin
Result := GetCharCount(Bytes, ByteCount);
end;
function TEncodingStrictAccess.GetCharsEx(Bytes: PByte; ByteCount: Integer; Chars: PChar; CharCount: Integer): Integer;
begin
Result := GetChars(Bytes, ByteCount, Chars, CharCount);
end;
{ TJsonOutputWriter.TJsonStringBuilder }
procedure TJsonOutputWriter.TJsonStringBuilder.Init;
begin
FLen := 0;
FCapacity := 0;
FData := nil;
end;
procedure TJsonOutputWriter.TJsonStringBuilder.Done;
var
P: PStrRec;
begin
if FData <> nil then
begin
P := PStrRec(PByte(FData) - SizeOf(TStrRec));
FreeMem(P);
end;
end;
procedure TJsonOutputWriter.TJsonStringBuilder.DoneConvertToString(var S: string);
var
StrP: PStrRec;
P: PChar;
begin
S := '';
if FData <> nil then
begin
// Release the unused memory and terminate the string with a #0. The result is that we have a
// native string that is exactly the same as if it was allocated by System.@NewUnicodeString.
StrP := PStrRec(PByte(FData) - SizeOf(TStrRec));
if Len <> FCapacity then
ReallocMem(Pointer(StrP), SizeOf(TStrRec) + (Len + 1) * SizeOf(Char)); // allocate +1 char for the #0
// Set the string's length
StrP.Length := Len;
P := PChar(PByte(StrP) + SizeOf(TStrRec));
P[Len] := #0;
Pointer(S) := P; // keep the RefCnt=1
end;
end;
function TJsonOutputWriter.TJsonStringBuilder.FlushToBytes(var Bytes: PByte; var Size: NativeInt; Encoding: TEncoding): NativeInt;
begin
if FLen > 0 then
begin
// Use the "strict protected" methods that use PChar instead of TCharArray what allows us to
// use FData directly without converting it to a dynamic TCharArray (and skipping the sanity
// checks)
Result := TEncodingStrictAccess(Encoding).GetByteCountEx(FData, FLen);
if Result > 0 then
begin
if Result > Size then
begin
Size := (Result + 4095) and not 4095;
ReallocMem(Bytes, Size);
end;
TEncodingStrictAccess(Encoding).GetBytesEx(FData, FLen, Bytes, Result);
end;
FLen := 0; // "clear" the buffer but don't release the memory
end
else
Result := 0;
end;
procedure TJsonOutputWriter.TJsonStringBuilder.FlushToMemoryStream(Stream: TMemoryStream; Encoding: TEncoding);
var
L: Integer;
Idx, NewSize: NativeInt;
begin
if FLen > 0 then
begin
// Use the "strict protected" methods that use PChar instead of TCharArray what allows us to
// use FData directly without converting it to a dynamic TCharArray (and skipping the sanity
// checks)
L := TEncodingStrictAccess(Encoding).GetByteCountEx(FData, FLen);
if L > 0 then
begin
// Directly convert into the TMemoryStream.Memory buffer
Idx := Stream.Position;
NewSize := Idx + L;
if NewSize > TMemoryStreamAccess(Stream).Capacity then
TMemoryStreamAccess(Stream).Capacity := NewSize;
TEncodingStrictAccess(Encoding).GetBytesEx(FData, FLen, @PByte(Stream.Memory)[Idx], L);
TMemoryStreamAccess(Stream).SetPointer(Stream.Memory, NewSize);
Stream.Position := NewSize;
end;
end;
FLen := 0; // "clear" the buffer but don't release the memory
end;
procedure TJsonOutputWriter.TJsonStringBuilder.Grow(MinLen: Integer);
var
C: Integer;
StrP: PStrRec;
begin
C := FCapacity;
C := C * 2;
if MinLen < 256 then // begin with a 256 char buffer
MinLen := 256;
{$IFNDEF CPUX64}
if C > 256 * 1024 * 1024 then
begin
// Memory fragmentation can become a problem, so allocate only the amount of memory that
// is needed
C := FCapacity;
C := C + (C div 3);
if C < MinLen then
C := MinLen;
end
else
{$ENDIF ~CPUX64}
if C < MinLen then
C := MinLen;
FCapacity := C;
if FData <> nil then
begin
StrP := Pointer(PByte(FData) - SizeOf(TStrRec));
ReallocMem(StrP, SizeOf(TStrRec) + (C + 1) * SizeOf(Char)); // allocate +1 char for the #0 that DoneToString() adds
end
else
begin
// Build the buffer with the StrRec header so it can be easily mapped to a "native string" in
// DoneToString.
GetMem(Pointer(StrP), SizeOf(TStrRec) + (C + 1) * SizeOf(Char)); // allocate +1 char for the #0 that DoneToString() adds
StrP.CodePage := Word(DefaultUnicodeCodePage);
StrP.ElemSize := SizeOf(Char);
StrP.RefCnt := 1;
StrP.Length := 0; // DoneToString set the correct value
end;
FData := PChar(PByte(StrP) + SizeOf(TStrRec));
end;
function TJsonOutputWriter.TJsonStringBuilder.Append(const S: string): PJsonStringBuilder;
var
L, LLen: Integer;
begin
LLen := FLen;
L := Length(S);
if L > 0 then
begin
if LLen + L >= FCapacity then
Grow(LLen + L);
case L of
1: FData[LLen] := PChar(Pointer(S))^;
2: PLongWord(@FData[LLen])^ := PLongWord(Pointer(S))^;
else
Move(PChar(Pointer(S))[0], FData[LLen], L * SizeOf(Char));
end;
FLen := LLen + L;
end;
Result := @Self;
end;
procedure TJsonOutputWriter.TJsonStringBuilder.Append(P: PChar; Len: Integer);
var
LLen: Integer;
begin
LLen := FLen;
if Len > 0 then
begin
if LLen + Len >= FCapacity then
Grow(LLen + Len);
case Len of
1: FData[LLen] := P^;
2: PLongWord(@FData[LLen])^ := PLongWord(P)^;
else
Move(P[0], FData[LLen], Len * SizeOf(Char));
end;
FLen := LLen + Len;
end;
end;
function TJsonOutputWriter.TJsonStringBuilder.Append2(const S1: string; S2: PChar; S2Len: Integer): PJsonStringBuilder;
var
L, S1Len, LLen: Integer;
begin
LLen := FLen;
S1Len := Length(S1);
L := S1Len + S2Len;
if LLen + L >= FCapacity then
Grow(LLen + L);
case S1Len of
0: ;
1: FData[LLen] := PChar(Pointer(S1))^;
2: PLongWord(@FData[LLen])^ := PLongWord(Pointer(S1))^;
else
Move(PChar(Pointer(S1))[0], FData[LLen], S1Len * SizeOf(Char));
end;
Inc(LLen, S1Len);
case S2Len of
0: ;
1: FData[LLen] := S2^;
2: PLongWord(@FData[LLen])^ := PLongWord(Pointer(S2))^;
else
Move(S2[0], FData[LLen], S2Len * SizeOf(Char));
end;
FLen := LLen + S2Len;
Result := @Self;
end;
procedure TJsonOutputWriter.TJsonStringBuilder.Append2(Ch1: Char; Ch2: Char);
var
LLen: Integer;
begin
LLen := FLen;
if LLen + 2 >= FCapacity then
Grow(2);
FData[LLen] := Ch1;
FData[LLen + 1] := Ch2;
FLen := LLen + 2;
end;
procedure TJsonOutputWriter.TJsonStringBuilder.Append3(Ch1: Char; const S2, S3: string);
var
L, S2Len, S3Len, LLen: Integer;
begin
LLen := FLen;
S2Len := Length(S2);
S3Len := Length(S3);
L := 1 + S2Len + S3Len;
if LLen + L >= FCapacity then
Grow(LLen + L);
FData[LLen] := Ch1;
Inc(LLen);
case S2Len of
0: ;
1: FData[LLen] := PChar(Pointer(S2))^;
2: PLongWord(@FData[LLen])^ := PLongWord(Pointer(S2))^;
else
Move(PChar(Pointer(S2))[0], FData[LLen], S2Len * SizeOf(Char));
end;
Inc(LLen, S2Len);
case S3Len of
1: FData[LLen] := PChar(Pointer(S3))^;
2: PLongWord(@FData[LLen])^ := PLongWord(Pointer(S3))^;
else
Move(PChar(Pointer(S3))[0], FData[LLen], S3Len * SizeOf(Char));
end;
FLen := LLen + S3Len;
end;
procedure TJsonOutputWriter.TJsonStringBuilder.Append3(Ch1: Char; const P2: PChar; P2Len: Integer; Ch3: Char);
var
L, LLen: Integer;
begin
LLen := FLen;
L := 2 + P2Len;
if LLen + L >= FCapacity then
Grow(LLen + L);
FData[LLen] := Ch1;
Inc(LLen);
case P2Len of
0: ;
1: FData[LLen] := P2^;
2: PLongWord(@FData[LLen])^ := PLongWord(P2)^;
else
Move(P2[0], FData[LLen], P2Len * SizeOf(Char));
end;
Inc(LLen, P2Len);
FData[LLen] := Ch1;
FLen := LLen + 1;
end;
procedure TJsonOutputWriter.TJsonStringBuilder.Append3(Ch1: Char; const S2: string; Ch3: Char);
begin
Append3(Ch1, PChar(Pointer(S2)), Length(S2), Ch3);
end;
procedure TJsonOutputWriter.TJsonStringBuilder.FlushToStringBuffer(var Buffer: TJsonStringBuilder);
begin
Buffer.Append(FData, FLen);
FLen := 0;
end;
procedure TJsonOutputWriter.TJsonStringBuilder.FlushToString(var S: string);
begin
SetString(S, FData, FLen);
FLen := 0;
end;
{ TJsonUTF8StringStream }
{$IFDEF SUPPORTS_UTF8STRING}
constructor TJsonUTF8StringStream.Create;
begin
inherited Create;
SetPointer(nil, 0);
end;
function TJsonUTF8StringStream.Realloc(var NewCapacity: Longint): Pointer;
var
L: Longint;
begin
if NewCapacity <> Capacity then
begin
if NewCapacity = 0 then
FDataString := ''
else
begin
L := Length(FDataString) * 2;
{$IFNDEF CPUX64}
if L > 256 * 1024 * 1024 then
begin
// Memory fragmentation can become a problem, so allocate only the amount of memory that
// is needed
L := NewCapacity;
end
else
{$ENDIF ~CPUX64}
if L < NewCapacity then
L := NewCapacity;
NewCapacity := L;
SetLength(FDataString, L);
end;
end;
Result := Pointer(FDataString);
end;
{$ENDIF SUPPORTS_UTF8STRING}
{ TJsonBytesStream }
constructor TJsonBytesStream.Create;
begin
inherited Create;
SetPointer(nil, 0);
end;
function TJsonBytesStream.Realloc(var NewCapacity: Longint): Pointer;
var
L: Longint;
begin
if NewCapacity <> Capacity then
begin
if NewCapacity = 0 then
FBytes := nil
else
begin
L := Length(FBytes) * 2;
{$IFNDEF CPUX64}
if L > 256 * 1024 * 1024 then
begin
// Memory fragmentation can become a problem, so allocate only the amount of memory that
// is needed
L := NewCapacity;
end
else
{$ENDIF ~CPUX64}
if L < NewCapacity then
L := NewCapacity;
NewCapacity := L;
SetLength(FBytes, L);
end;
end;
Result := Pointer(FBytes);
end;
initialization
{$IFDEF USE_NAME_STRING_LITERAL}
InitializeJsonMemInfo;
{$ENDIF USE_NAME_STRING_LITERAL}
{$IFDEF MSWINDOWS}
{$IFDEF SUPPORT_WINDOWS2000}
TzSpecificLocalTimeToSystemTime := GetProcAddress(GetModuleHandle(kernel32), PAnsiChar('TzSpecificLocalTimeToSystemTime'));
if not Assigned(TzSpecificLocalTimeToSystemTime) then
TzSpecificLocalTimeToSystemTime := TzSpecificLocalTimeToSystemTimeWin2000;
{$ENDIF SUPPORT_WINDOWS2000}
{$ENDIF MSWINDOWS}
// Make sTrue and sFalse a mutable string (RefCount<>-1) so that UStrAsg doesn't always
// create a new string.
UniqueString(sTrue);
UniqueString(sFalse);
JSONFormatSettings.DecimalSeparator := '.';
end.