lib/delphi/test/serializer/TestSerializer.Tests.pas - packaging/sources/thrift - Gitiles

 unit TestSerializer.Tests;
 (*
  * Licensed to the Apache Software Foundation (ASF) under one
  * or more contributor license agreements. See the NOTICE file
  * distributed with this work for additional information
  * regarding copyright ownership. The ASF licenses this file
  * to you under the Apache License, Version 2.0 (the
  * "License"); you may not use this file except in compliance
  * with the License. You may obtain a copy of the License at
  *
  *   http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing,
  * software distributed under the License is distributed on an
  * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
  * KIND, either express or implied. See the License for the
  * specific language governing permissions and limitations
  * under the License.
  *)

 interface

 uses
   Classes,
   Windows,
   SysUtils,
   Generics.Collections,
   Thrift,
   Thrift.Exception,
   Thrift.Socket,
   Thrift.Transport,
   Thrift.Protocol,
   Thrift.Protocol.JSON,
   Thrift.Protocol.Compact,
   Thrift.Collections,
   Thrift.Configuration,
   Thrift.Server,
   Thrift.Utils,
   Thrift.Serializer,
   Thrift.Stream,
   Thrift.WinHTTP,
   Thrift.TypeRegistry,
   System_,
   DebugProtoTest;

 {$TYPEINFO ON}

 type
   TFactoryPair = record
     prot : IProtocolFactory;
     trans : ITransportFactory;
   end;

   TTestSerializer = class //extends TestCase {
   private type
     TMethod = (
       mt_Bytes,
       mt_Stream
     );

   strict private
     FProtocols : TList< TFactoryPair>;
     procedure AddFactoryCombination( const aProto : IProtocolFactory; const aTrans : ITransportFactory);
     class function UserFriendlyName( const factory : TFactoryPair) : string;  overload;
     class function UserFriendlyName( const method : TMethod) : string;  overload;

     class function  Serialize(const input : IBase; const factory : TFactoryPair) : TBytes;  overload;
     class procedure Serialize(const input : IBase; const factory : TFactoryPair; const aStream : TStream);  overload;

     class procedure Deserialize( const input : TBytes; const target : IBase; const factory : TFactoryPair);  overload;
     class procedure Deserialize( const input : TStream; const target : IBase; const factory : TFactoryPair);  overload;

     class procedure ValidateReadToEnd( const input : TBytes; const serial : TDeserializer);  overload;
     class procedure ValidateReadToEnd( const input : TStream; const serial : TDeserializer);  overload;

     class function LengthOf( const bytes : TBytes) : Integer; overload; inline;
     class function LengthOf( const bytes : IThriftBytes) : Integer; overload; inline;

     class function DataPtrOf( const bytes : TBytes) : Pointer; overload; inline;
     class function DataPtrOf( const bytes : IThriftBytes) : Pointer; overload; inline;

     procedure Test_Serializer_Deserializer;
     procedure Test_COM_Types;
     procedure Test_ThriftBytesCTORs;
     procedure Test_OneOfEach(     const method : TMethod; const factory : TFactoryPair; const stream : TFileStream);
     procedure Test_CompactStruct( const method : TMethod; const factory : TFactoryPair; const stream : TFileStream);

   public
     constructor Create;
     destructor Destroy;  override;

     procedure RunTests;
   end;


 implementation

 const SERIALIZERDATA_DLL = 'SerializerData.dll';
 function CreateOneOfEach : IOneOfEach; stdcall; external SERIALIZERDATA_DLL;
 function CreateNesting : INesting; stdcall; external SERIALIZERDATA_DLL;
 function CreateHolyMoley : IHolyMoley; stdcall; external SERIALIZERDATA_DLL;
 function CreateCompactProtoTestStruct : ICompactProtoTestStruct; stdcall; external SERIALIZERDATA_DLL;


 { TTestSerializer }

 constructor TTestSerializer.Create;
 begin
   inherited Create;
   FProtocols := TList< TFactoryPair>.Create;

   AddFactoryCombination( TBinaryProtocolImpl.TFactory.Create, nil);
   AddFactoryCombination( TCompactProtocolImpl.TFactory.Create, nil);
   AddFactoryCombination( TJSONProtocolImpl.TFactory.Create, nil);

   AddFactoryCombination( TBinaryProtocolImpl.TFactory.Create, TFramedTransportImpl.TFactory.Create);
   AddFactoryCombination( TCompactProtocolImpl.TFactory.Create, TFramedTransportImpl.TFactory.Create);
   AddFactoryCombination( TJSONProtocolImpl.TFactory.Create, TFramedTransportImpl.TFactory.Create);

   AddFactoryCombination( TBinaryProtocolImpl.TFactory.Create, TBufferedTransportImpl.TFactory.Create);
   AddFactoryCombination( TCompactProtocolImpl.TFactory.Create, TBufferedTransportImpl.TFactory.Create);
   AddFactoryCombination( TJSONProtocolImpl.TFactory.Create, TBufferedTransportImpl.TFactory.Create);
 end;


 destructor TTestSerializer.Destroy;
 begin
   try
     FreeAndNil( FProtocols);
   finally
     inherited Destroy;
   end;
 end;


 procedure TTestSerializer.AddFactoryCombination( const aProto : IProtocolFactory; const aTrans : ITransportFactory);
 var rec : TFactoryPair;
 begin
   rec.prot  := aProto;
   rec.trans := aTrans;
   FProtocols.Add( rec);
 end;


 class function TTestSerializer.LengthOf( const bytes : TBytes) : Integer;
 begin
   result := Length(bytes);
 end;


 class function TTestSerializer.LengthOf( const bytes : IThriftBytes) : Integer;
 begin
   if bytes <> nil
   then result := bytes.Count
   else result := 0;
 end;


 class function TTestSerializer.DataPtrOf( const bytes : TBytes) : Pointer;
 begin
   result := bytes;
 end;


 class function TTestSerializer.DataPtrOf( const bytes : IThriftBytes) : Pointer;
 begin
   if bytes <> nil
   then result := bytes.QueryRawDataPtr
   else result := nil;
 end;


 procedure TTestSerializer.Test_OneOfEach( const method : TMethod; const factory : TFactoryPair; const stream : TFileStream);
 var tested, correct : IOneOfEach;
     bytes   : TBytes;
     i : Integer;
 begin
   // write
   tested := CreateOneOfEach;
   case method of
     mt_Bytes:  bytes := Serialize( tested, factory);
     mt_Stream: begin
       stream.Size := 0;
       Serialize( tested, factory, stream);
     end
   else
     ASSERT( FALSE);
   end;

   // init + read
   tested := TOneOfEachImpl.Create;
   case method of
     mt_Bytes:  Deserialize( bytes, tested, factory);
     mt_Stream: begin
       stream.Position := 0;
       Deserialize( stream, tested, factory);
     end
   else
     ASSERT( FALSE);
   end;

   // check
   correct := CreateOneOfEach;
   ASSERT( tested.Im_true = correct.Im_true);
   ASSERT( tested.Im_false = correct.Im_false);
   ASSERT( tested.A_bite = correct.A_bite);
   ASSERT( tested.Integer16 = correct.Integer16);
   ASSERT( tested.Integer32 = correct.Integer32);
   ASSERT( tested.Integer64 = correct.Integer64);
   ASSERT( Abs( tested.Double_precision - correct.Double_precision) < 1E-12);
   ASSERT( tested.Some_characters = correct.Some_characters);
   ASSERT( tested.Zomg_unicode = correct.Zomg_unicode);
   ASSERT( tested.Rfc4122_uuid = correct.Rfc4122_uuid);
   ASSERT( tested.What_who = correct.What_who);

   ASSERT( LengthOf(tested.Base64) = LengthOf(correct.Base64));
   ASSERT( CompareMem( DataPtrOf(tested.Base64), DataPtrOf(correct.Base64), LengthOf(correct.Base64)));

   ASSERT( tested.Byte_list.Count = correct.Byte_list.Count);
   for i := 0 to tested.Byte_list.Count-1
   do ASSERT( tested.Byte_list[i] = correct.Byte_list[i]);

   ASSERT( tested.I16_list.Count = correct.I16_list.Count);
   for i := 0 to tested.I16_list.Count-1
   do ASSERT( tested.I16_list[i] = correct.I16_list[i]);

   ASSERT( tested.I64_list.Count = correct.I64_list.Count);
   for i := 0 to tested.I64_list.Count-1
   do ASSERT( tested.I64_list[i] = correct.I64_list[i]);
 end;


 procedure TTestSerializer.Test_CompactStruct( const method : TMethod; const factory : TFactoryPair; const stream : TFileStream);
 var tested, correct : ICompactProtoTestStruct;
     bytes   : TBytes;
 begin
   // write
   tested := CreateCompactProtoTestStruct;
   case method of
     mt_Bytes:  bytes := Serialize( tested, factory);
     mt_Stream: begin
       stream.Size := 0;
       Serialize( tested, factory, stream);
     end
   else
     ASSERT( FALSE);
   end;

   // init + read
   correct := TCompactProtoTestStructImpl.Create;
   case method of
     mt_Bytes:  Deserialize( bytes, tested, factory);
     mt_Stream: begin
       stream.Position := 0;
       Deserialize( stream, tested, factory);
     end
   else
     ASSERT( FALSE);
   end;

   // check
   correct := CreateCompactProtoTestStruct;
   ASSERT( correct.Field500  = tested.Field500);
   ASSERT( correct.Field5000  = tested.Field5000);
   ASSERT( correct.Field20000 = tested.Field20000);
 end;


 procedure TTestSerializer.Test_Serializer_Deserializer;
 var factory : TFactoryPair;
     stream  : TFileStream;
     method  : TMethod;
 begin
   stream  := TFileStream.Create( 'TestSerializer.dat', fmCreate);
   try
     for method in [Low(TMethod)..High(TMethod)] do begin
       Writeln( UserFriendlyName(method));

       for factory in FProtocols do begin
         Writeln('- '+UserFriendlyName(factory));

         Test_OneOfEach(     method, factory, stream);
         Test_CompactStruct( method, factory, stream);
       end;

       Writeln;
     end;

   finally
     stream.Free;
   end;
 end;


 class function TTestSerializer.UserFriendlyName( const factory : TFactoryPair) : string;
 begin
   result := Copy( (factory.prot as TObject).ClassName, 2, MAXINT);

   if factory.trans <> nil
   then result := Copy( (factory.trans as TObject).ClassName, 2, MAXINT) +' '+ result;

   result := StringReplace( result, 'Impl', '', [rfReplaceAll]);
   result := StringReplace( result, 'Transport.TFactory', '', [rfReplaceAll]);
   result := StringReplace( result, 'Protocol.TFactory', '', [rfReplaceAll]);
 end;


 class function TTestSerializer.UserFriendlyName( const method : TMethod) : string;
 const NAMES : array[TMethod] of string = ('TBytes','Stream');
 begin
   result := NAMES[method];
 end;


 procedure TTestSerializer.Test_COM_Types;
 var tested : IOneOfEach;
 begin
   {$IF cDebugProtoTest_Option_COM_types}
   ASSERT( SizeOf(TSomeEnum) = SizeOf(Int32));  // -> MINENUMSIZE 4

   // try to set values that allocate memory
   tested := CreateOneOfEach;
   tested.Zomg_unicode := 'This is a test';
   tested.Base64 := TThriftBytesImpl.Create( TEncoding.UTF8.GetBytes('abc'));
   {$IFEND}
 end;


 procedure TTestSerializer.Test_ThriftBytesCTORs;
 var one, two : IThriftBytes;
     bytes : TBytes;
     sAscii : AnsiString;
 begin
   sAscii := 'ABC/xzy';
   bytes  := TEncoding.ASCII.GetBytes(string(sAscii));

   one := TThriftBytesImpl.Create( PAnsiChar(sAscii), Length(sAscii));
   two := TThriftBytesImpl.Create( bytes, TRUE);

   ASSERT( one.Count = two.Count);
   ASSERT( CompareMem( one.QueryRawDataPtr, two.QueryRawDataPtr, one.Count));
 end;


 procedure TTestSerializer.RunTests;
 begin
   try
     Test_Serializer_Deserializer;
     Test_COM_Types;
     Test_ThriftBytesCTORs;
   except
     on e:Exception do begin
       Writeln( e.ClassName+': '+ e.Message);
       Write('Hit ENTER to close ... '); Readln;
     end;
   end;
 end;


 class function TTestSerializer.Serialize(const input : IBase; const factory : TFactoryPair) : TBytes;
 var serial : TSerializer;
     config : IThriftConfiguration;
 begin
   config := TThriftConfigurationImpl.Create;
   //config.MaxMessageSize := 0;   // we don't read anything here

   serial := TSerializer.Create( factory.prot, factory.trans, config);
   try
     result := serial.Serialize( input);
   finally
     serial.Free;
   end;
 end;


 class procedure TTestSerializer.Serialize(const input : IBase; const factory : TFactoryPair; const aStream : TStream);
 var serial : TSerializer;
     config : IThriftConfiguration;
 begin
   config := TThriftConfigurationImpl.Create;
   //config.MaxMessageSize := 0;   // we don't read anything here

   serial := TSerializer.Create( factory.prot, factory.trans, config);
   try
     serial.Serialize( input, aStream);
   finally
     serial.Free;
   end;
 end;


 class procedure TTestSerializer.Deserialize( const input : TBytes; const target : IBase; const factory : TFactoryPair);
 var serial : TDeserializer;
     config : IThriftConfiguration;
 begin
   config := TThriftConfigurationImpl.Create;
   config.MaxMessageSize := Length(input);

   serial := TDeserializer.Create( factory.prot, factory.trans, config);
   try
     serial.Deserialize( input, target);
     ValidateReadToEnd( input, serial);
   finally
     serial.Free;
   end;
 end;


 class procedure TTestSerializer.Deserialize( const input : TStream; const target : IBase; const factory : TFactoryPair);
 var serial : TDeserializer;
     config : IThriftConfiguration;
 begin
   config := TThriftConfigurationImpl.Create;
   config.MaxMessageSize := input.Size;

   serial := TDeserializer.Create( factory.prot, factory.trans, config);
   try
     serial.Deserialize( input, target);
     ValidateReadToEnd( input, serial);
   finally
     serial.Free;
   end;
 end;


 class procedure TTestSerializer.ValidateReadToEnd( const input : TBytes; const serial : TDeserializer);
 // we should not have any more byte to read
 var dummy : IBase;
 begin
   try
     dummy := TOneOfEachImpl.Create;
     serial.Deserialize( input, dummy);
     raise EInOutError.Create('Expected exception not thrown?');
   except
     on e:TTransportExceptionEndOfFile do {expected};
     on e:Exception do raise; // unexpected
   end;
 end;


 class procedure TTestSerializer.ValidateReadToEnd( const input : TStream; const serial : TDeserializer);
 // we should not have any more byte to read
 var dummy : IBase;
 begin
   try
     input.Position := 0;
     dummy := TOneOfEachImpl.Create;
     serial.Deserialize( input, dummy);
     raise EInOutError.Create('Expected exception not thrown?');
   except
     on e:TTransportExceptionEndOfFile do {expected};
     on e:Exception do raise; // unexpected
   end;
 end;

 end.
	unit TestSerializer.Tests;
	(*
	* Licensed to the Apache Software Foundation (ASF) under one
	* or more contributor license agreements. See the NOTICE file
	* distributed with this work for additional information
	* regarding copyright ownership. The ASF licenses this file
	* to you under the Apache License, Version 2.0 (the
	* "License"); you may not use this file except in compliance
	* with the License. You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing,
	* software distributed under the License is distributed on an
	* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	* KIND, either express or implied. See the License for the
	* specific language governing permissions and limitations
	* under the License.
	*)

	interface

	uses
	Classes,
	Windows,
	SysUtils,
	Generics.Collections,
	Thrift,
	Thrift.Exception,
	Thrift.Socket,
	Thrift.Transport,
	Thrift.Protocol,
	Thrift.Protocol.JSON,
	Thrift.Protocol.Compact,
	Thrift.Collections,
	Thrift.Configuration,
	Thrift.Server,
	Thrift.Utils,
	Thrift.Serializer,
	Thrift.Stream,
	Thrift.WinHTTP,
	Thrift.TypeRegistry,
	System_,
	DebugProtoTest;

	{$TYPEINFO ON}

	type
	TFactoryPair = record
	prot : IProtocolFactory;
	trans : ITransportFactory;
	end;

	TTestSerializer = class //extends TestCase {
	private type
	TMethod = (
	mt_Bytes,
	mt_Stream
	);

	strict private
	FProtocols : TList< TFactoryPair>;
	procedure AddFactoryCombination( const aProto : IProtocolFactory; const aTrans : ITransportFactory);
	class function UserFriendlyName( const factory : TFactoryPair) : string; overload;
	class function UserFriendlyName( const method : TMethod) : string; overload;

	class function Serialize(const input : IBase; const factory : TFactoryPair) : TBytes; overload;
	class procedure Serialize(const input : IBase; const factory : TFactoryPair; const aStream : TStream); overload;

	class procedure Deserialize( const input : TBytes; const target : IBase; const factory : TFactoryPair); overload;
	class procedure Deserialize( const input : TStream; const target : IBase; const factory : TFactoryPair); overload;

	class procedure ValidateReadToEnd( const input : TBytes; const serial : TDeserializer); overload;
	class procedure ValidateReadToEnd( const input : TStream; const serial : TDeserializer); overload;

	class function LengthOf( const bytes : TBytes) : Integer; overload; inline;
	class function LengthOf( const bytes : IThriftBytes) : Integer; overload; inline;

	class function DataPtrOf( const bytes : TBytes) : Pointer; overload; inline;
	class function DataPtrOf( const bytes : IThriftBytes) : Pointer; overload; inline;

	procedure Test_Serializer_Deserializer;
	procedure Test_COM_Types;
	procedure Test_ThriftBytesCTORs;
	procedure Test_OneOfEach( const method : TMethod; const factory : TFactoryPair; const stream : TFileStream);
	procedure Test_CompactStruct( const method : TMethod; const factory : TFactoryPair; const stream : TFileStream);

	public
	constructor Create;
	destructor Destroy; override;

	procedure RunTests;
	end;


	implementation

	const SERIALIZERDATA_DLL = 'SerializerData.dll';
	function CreateOneOfEach : IOneOfEach; stdcall; external SERIALIZERDATA_DLL;
	function CreateNesting : INesting; stdcall; external SERIALIZERDATA_DLL;
	function CreateHolyMoley : IHolyMoley; stdcall; external SERIALIZERDATA_DLL;
	function CreateCompactProtoTestStruct : ICompactProtoTestStruct; stdcall; external SERIALIZERDATA_DLL;


	{ TTestSerializer }

	constructor TTestSerializer.Create;
	begin
	inherited Create;
	FProtocols := TList< TFactoryPair>.Create;

	AddFactoryCombination( TBinaryProtocolImpl.TFactory.Create, nil);
	AddFactoryCombination( TCompactProtocolImpl.TFactory.Create, nil);
	AddFactoryCombination( TJSONProtocolImpl.TFactory.Create, nil);

	AddFactoryCombination( TBinaryProtocolImpl.TFactory.Create, TFramedTransportImpl.TFactory.Create);
	AddFactoryCombination( TCompactProtocolImpl.TFactory.Create, TFramedTransportImpl.TFactory.Create);
	AddFactoryCombination( TJSONProtocolImpl.TFactory.Create, TFramedTransportImpl.TFactory.Create);

	AddFactoryCombination( TBinaryProtocolImpl.TFactory.Create, TBufferedTransportImpl.TFactory.Create);
	AddFactoryCombination( TCompactProtocolImpl.TFactory.Create, TBufferedTransportImpl.TFactory.Create);
	AddFactoryCombination( TJSONProtocolImpl.TFactory.Create, TBufferedTransportImpl.TFactory.Create);
	end;


	destructor TTestSerializer.Destroy;
	begin
	try
	FreeAndNil( FProtocols);
	finally
	inherited Destroy;
	end;
	end;


	procedure TTestSerializer.AddFactoryCombination( const aProto : IProtocolFactory; const aTrans : ITransportFactory);
	var rec : TFactoryPair;
	begin
	rec.prot := aProto;
	rec.trans := aTrans;
	FProtocols.Add( rec);
	end;


	class function TTestSerializer.LengthOf( const bytes : TBytes) : Integer;
	begin
	result := Length(bytes);
	end;


	class function TTestSerializer.LengthOf( const bytes : IThriftBytes) : Integer;
	begin
	if bytes <> nil
	then result := bytes.Count
	else result := 0;
	end;


	class function TTestSerializer.DataPtrOf( const bytes : TBytes) : Pointer;
	begin
	result := bytes;
	end;


	class function TTestSerializer.DataPtrOf( const bytes : IThriftBytes) : Pointer;
	begin
	if bytes <> nil
	then result := bytes.QueryRawDataPtr
	else result := nil;
	end;


	procedure TTestSerializer.Test_OneOfEach( const method : TMethod; const factory : TFactoryPair; const stream : TFileStream);
	var tested, correct : IOneOfEach;
	bytes : TBytes;
	i : Integer;
	begin
	// write
	tested := CreateOneOfEach;
	case method of
	mt_Bytes: bytes := Serialize( tested, factory);
	mt_Stream: begin
	stream.Size := 0;
	Serialize( tested, factory, stream);
	end
	else
	ASSERT( FALSE);
	end;

	// init + read
	tested := TOneOfEachImpl.Create;
	case method of
	mt_Bytes: Deserialize( bytes, tested, factory);
	mt_Stream: begin
	stream.Position := 0;
	Deserialize( stream, tested, factory);
	end
	else
	ASSERT( FALSE);
	end;

	// check
	correct := CreateOneOfEach;
	ASSERT( tested.Im_true = correct.Im_true);
	ASSERT( tested.Im_false = correct.Im_false);
	ASSERT( tested.A_bite = correct.A_bite);
	ASSERT( tested.Integer16 = correct.Integer16);
	ASSERT( tested.Integer32 = correct.Integer32);
	ASSERT( tested.Integer64 = correct.Integer64);
	ASSERT( Abs( tested.Double_precision - correct.Double_precision) < 1E-12);
	ASSERT( tested.Some_characters = correct.Some_characters);
	ASSERT( tested.Zomg_unicode = correct.Zomg_unicode);
	ASSERT( tested.Rfc4122_uuid = correct.Rfc4122_uuid);
	ASSERT( tested.What_who = correct.What_who);

	ASSERT( LengthOf(tested.Base64) = LengthOf(correct.Base64));
	ASSERT( CompareMem( DataPtrOf(tested.Base64), DataPtrOf(correct.Base64), LengthOf(correct.Base64)));

	ASSERT( tested.Byte_list.Count = correct.Byte_list.Count);
	for i := 0 to tested.Byte_list.Count-1
	do ASSERT( tested.Byte_list[i] = correct.Byte_list[i]);

	ASSERT( tested.I16_list.Count = correct.I16_list.Count);
	for i := 0 to tested.I16_list.Count-1
	do ASSERT( tested.I16_list[i] = correct.I16_list[i]);

	ASSERT( tested.I64_list.Count = correct.I64_list.Count);
	for i := 0 to tested.I64_list.Count-1
	do ASSERT( tested.I64_list[i] = correct.I64_list[i]);
	end;


	procedure TTestSerializer.Test_CompactStruct( const method : TMethod; const factory : TFactoryPair; const stream : TFileStream);
	var tested, correct : ICompactProtoTestStruct;
	bytes : TBytes;
	begin
	// write
	tested := CreateCompactProtoTestStruct;
	case method of
	mt_Bytes: bytes := Serialize( tested, factory);
	mt_Stream: begin
	stream.Size := 0;
	Serialize( tested, factory, stream);
	end
	else
	ASSERT( FALSE);
	end;

	// init + read
	correct := TCompactProtoTestStructImpl.Create;
	case method of
	mt_Bytes: Deserialize( bytes, tested, factory);
	mt_Stream: begin
	stream.Position := 0;
	Deserialize( stream, tested, factory);
	end
	else
	ASSERT( FALSE);
	end;

	// check
	correct := CreateCompactProtoTestStruct;
	ASSERT( correct.Field500 = tested.Field500);
	ASSERT( correct.Field5000 = tested.Field5000);
	ASSERT( correct.Field20000 = tested.Field20000);
	end;


	procedure TTestSerializer.Test_Serializer_Deserializer;
	var factory : TFactoryPair;
	stream : TFileStream;
	method : TMethod;
	begin
	stream := TFileStream.Create( 'TestSerializer.dat', fmCreate);
	try
	for method in [Low(TMethod)..High(TMethod)] do begin
	Writeln( UserFriendlyName(method));

	for factory in FProtocols do begin
	Writeln('- '+UserFriendlyName(factory));

	Test_OneOfEach( method, factory, stream);
	Test_CompactStruct( method, factory, stream);
	end;

	Writeln;
	end;

	finally
	stream.Free;
	end;
	end;


	class function TTestSerializer.UserFriendlyName( const factory : TFactoryPair) : string;
	begin
	result := Copy( (factory.prot as TObject).ClassName, 2, MAXINT);

	if factory.trans <> nil
	then result := Copy( (factory.trans as TObject).ClassName, 2, MAXINT) +' '+ result;

	result := StringReplace( result, 'Impl', '', [rfReplaceAll]);
	result := StringReplace( result, 'Transport.TFactory', '', [rfReplaceAll]);
	result := StringReplace( result, 'Protocol.TFactory', '', [rfReplaceAll]);
	end;


	class function TTestSerializer.UserFriendlyName( const method : TMethod) : string;
	const NAMES : array[TMethod] of string = ('TBytes','Stream');
	begin
	result := NAMES[method];
	end;


	procedure TTestSerializer.Test_COM_Types;
	var tested : IOneOfEach;
	begin
	{$IF cDebugProtoTest_Option_COM_types}
	ASSERT( SizeOf(TSomeEnum) = SizeOf(Int32)); // -> MINENUMSIZE 4

	// try to set values that allocate memory
	tested := CreateOneOfEach;
	tested.Zomg_unicode := 'This is a test';
	tested.Base64 := TThriftBytesImpl.Create( TEncoding.UTF8.GetBytes('abc'));
	{$IFEND}
	end;


	procedure TTestSerializer.Test_ThriftBytesCTORs;
	var one, two : IThriftBytes;
	bytes : TBytes;
	sAscii : AnsiString;
	begin
	sAscii := 'ABC/xzy';
	bytes := TEncoding.ASCII.GetBytes(string(sAscii));

	one := TThriftBytesImpl.Create( PAnsiChar(sAscii), Length(sAscii));
	two := TThriftBytesImpl.Create( bytes, TRUE);

	ASSERT( one.Count = two.Count);
	ASSERT( CompareMem( one.QueryRawDataPtr, two.QueryRawDataPtr, one.Count));
	end;


	procedure TTestSerializer.RunTests;
	begin
	try
	Test_Serializer_Deserializer;
	Test_COM_Types;
	Test_ThriftBytesCTORs;
	except
	on e:Exception do begin
	Writeln( e.ClassName+': '+ e.Message);
	Write('Hit ENTER to close ... '); Readln;
	end;
	end;
	end;


	class function TTestSerializer.Serialize(const input : IBase; const factory : TFactoryPair) : TBytes;
	var serial : TSerializer;
	config : IThriftConfiguration;
	begin
	config := TThriftConfigurationImpl.Create;
	//config.MaxMessageSize := 0; // we don't read anything here

	serial := TSerializer.Create( factory.prot, factory.trans, config);
	try
	result := serial.Serialize( input);
	finally
	serial.Free;
	end;
	end;


	class procedure TTestSerializer.Serialize(const input : IBase; const factory : TFactoryPair; const aStream : TStream);
	var serial : TSerializer;
	config : IThriftConfiguration;
	begin
	config := TThriftConfigurationImpl.Create;
	//config.MaxMessageSize := 0; // we don't read anything here

	serial := TSerializer.Create( factory.prot, factory.trans, config);
	try
	serial.Serialize( input, aStream);
	finally
	serial.Free;
	end;
	end;


	class procedure TTestSerializer.Deserialize( const input : TBytes; const target : IBase; const factory : TFactoryPair);
	var serial : TDeserializer;
	config : IThriftConfiguration;
	begin
	config := TThriftConfigurationImpl.Create;
	config.MaxMessageSize := Length(input);

	serial := TDeserializer.Create( factory.prot, factory.trans, config);
	try
	serial.Deserialize( input, target);
	ValidateReadToEnd( input, serial);
	finally
	serial.Free;
	end;
	end;


	class procedure TTestSerializer.Deserialize( const input : TStream; const target : IBase; const factory : TFactoryPair);
	var serial : TDeserializer;
	config : IThriftConfiguration;
	begin
	config := TThriftConfigurationImpl.Create;
	config.MaxMessageSize := input.Size;

	serial := TDeserializer.Create( factory.prot, factory.trans, config);
	try
	serial.Deserialize( input, target);
	ValidateReadToEnd( input, serial);
	finally
	serial.Free;
	end;
	end;


	class procedure TTestSerializer.ValidateReadToEnd( const input : TBytes; const serial : TDeserializer);
	// we should not have any more byte to read
	var dummy : IBase;
	begin
	try
	dummy := TOneOfEachImpl.Create;
	serial.Deserialize( input, dummy);
	raise EInOutError.Create('Expected exception not thrown?');
	except
	on e:TTransportExceptionEndOfFile do {expected};
	on e:Exception do raise; // unexpected
	end;
	end;


	class procedure TTestSerializer.ValidateReadToEnd( const input : TStream; const serial : TDeserializer);
	// we should not have any more byte to read
	var dummy : IBase;
	begin
	try
	input.Position := 0;
	dummy := TOneOfEachImpl.Create;
	serial.Deserialize( input, dummy);
	raise EInOutError.Create('Expected exception not thrown?');
	except
	on e:TTransportExceptionEndOfFile do {expected};
	on e:Exception do raise; // unexpected
	end;
	end;

	end.