I wanna over delphi change hex adress 15 character,
I follow like this a way but I didnt get success,
BlockRead(F,arrChar,1); //read all to the buf
CloseFile(F); //close file
IMEI:=Form1.Edit1.Text; //get the number
Form1.Memo1.Lines.Add('new IMEI is'+IMEI); //output
for i:=524288 to 524288+15 do /
arrChar[i]:=IMEI[i-524287];
Do this with a file stream.
var
Stream: TFileStream;
....
Stream := TFileStream.Create(FileName, fmOpenWrite);
try
Stream.Position := $080000;
Stream.WriteBuffer(IMEI, SizeOf(IMEI));
finally
Stream.Free;
end;
I'm assuming that IMEI is an fixed length array of bytes of length 15 but your code attempts to write 16 bytes so it would appear that you are suffering from a degree of confusion.
In your code, your variable IMEI is a string. Which is not an array of bytes. Please don't make that classic mistake of regarding a string as an array of bytes.
You might declare an IMEI type like this:
type
TIMEI = array [0..14] of Byte;
Then you might write a function to populate such a variable from text:
function TextToIMEI(const Text: string): TIMEI;
var
ResultIndex, TextIndex: Integer;
C: Char;
begin
if Length(Text) <> Length(Result) then
raise SomeExceptionClass.Create(...);
TextIndex := low(Text);
for ResultIndex := low(Result) to high(Result) do
begin
C := Result[TextIndex];
if (C < '0') or (C > '9') then
raise SomeExceptionClass.Create(...);
Result[ResultIndex] := ord(C);
inc(TextIndex);
end;
end;
You might then combine this code with that above:
procedure WriteIMEItoFile(const FileName: string; FileOffset: Int64; const IMEI: TIMEI);
var
Stream: TFileStream;
begin
Stream := TFileStream.Create(FileName, fmOpenWrite);
try
Stream.Position := FileOffset;
Stream.WriteBuffer(IMEI, SizeOf(IMEI));
finally
Stream.Free;
end;
end;
Call it like this:
WriteIMEItoFile(FileName, $080000, TextToIMEI(Form1.Edit1.Text));
Although it looks a bit odd that you are explicitly using the Form1 global variable. If that code executes in a method of TForm1 then you should use the implicit Self variable.
Related
I have been hounded this problem for a few days, I have two cliendatasets with data in them and I want to convert the olevariant data to string using two functions I found here in Stack Overflow.
The purpose of conversion to string is to be able to transfer the string to another location and convert it back again to olevariant and assign it to another clientdataset.
To simulate it, I created a sample app with the following partial code(see block below).
The code executes properly but my problem is when I convert the windows locale to japanese(which is the requirement), I encounter a datapacket mismatch in the data assignment on the second dataset. but if I do this in the japanese locale:
clientdataset2.data := clientdataset1.data
it works fine. English locale, the code works just fine.
Is there a problem in the string conversion? or is there anything I can do? I really would appreciate help with this.
//to simulate the conversion
TempData := ClientDataSet1.Data;
TempString := OleVariantToString(ClientDataset1.Data);
TempData2 := StringToOleVariant(TempString);
ClientDataSet2.Data := TempData2; //mismatch in data packet happens here in japanese locale
//conversion functions
function TForm1.OleVariantToString(const Value: OleVariant): string;
var
ss: TStringStream;
Size: integer;
Data: PByteArray;
begin
Result := '';
if Length(Value) = 0 then
Exit;
ss := TStringStream.Create;
try
Size := VarArrayHighBound(Value, 1) - VarArrayLowBound(Value, 1) + 1;
Data := VarArrayLock(Value);
try
ss.Position := 0;
ss.WriteBuffer(Data^, Size);
ss.Position := 0;
Result := ss.DataString;
finally
VarArrayUnlock(Value);
end;
finally
ss.Free;
end;
end;
function TForm1.StringToOleVariant(const Value: string): OleVariant;
var
ss: TStringStream;
MyBuffer: Pointer;
begin
Result := null;
if Value = '' then
Exit;
ss := TStringStream.Create(Value);
try
Result := VarArrayCreate([0, ss.Size - 1], varByte);
MyBuffer := VarArrayLock(Result);
try
ss.Position := 0;
ss.ReadBuffer(MyBuffer^, ss.Size);
finally
VarArrayUnlock(Result);
end;
finally
ss.Free;
end;
end;
Streaming to string is already implemented, you can use
Writing: TClientDataSet.SaveToFile or TClientDataSet.SaveToStream
Reading: TClientDataSet.LoadFromFile or TClientDataSet.LoadFromStream
procedure SaveToStream(Stream: TStream; Format: TDataPacketFormat = dfBinary);
procedure SaveToFile(const FileName: string = ''; Format: TDataPacketFormat = fBinary);
procedure LoadFromStream(Stream: TStream);
procedure LoadFromFile(const FileName: string = '');
the TDataPacketFormat options are:
dfBinary: Information is encoded in binary format.
dfXML:Information is encoded in XML, with extended characters encoded using an escape sequence.
dfXMLUTF8:Information is encoded in XML, with extended characters represented using UTF8.
Using dfXMLUTF8 you should have no problems with non/ansi characters sets.
This question already has an answer here:
Closed 10 years ago.
Possible Duplicate:
Convert Array of ShortInt to String, Delphi
I would like to turn a file into a string, this string should contain the numbers corresponding to the file in bytes.
I did in a way but it was very slow, using an array of FOR and ShortInt ...
Example:
have any file on my computer, my goal would be to transform it into Bytes, Bytes that these should be between -127 .. 128, it would have with something like this:
A[0] = 120
A[1] = -35
A[2] = 40
Ate here OK, but I need it in a concatenated string and a ',' between them, thus:
'120,-35,40'
I did it with a 'FOR', but it was very slow, if you have another alternative.
This question is rather similar to your previous question, but with the added complexity of reading the array from a file.
I'd probably write it like this:
function ConvertFileToCommaDelimitedArray(const FileName: string): string;
var
i, BytesLeft, BytesRead: Integer;
Buffer: array [0..4096-1] of Shortint;
Stream: TFileStream;
sb: TStringBuilder;
begin
sb := TStringBuilder.Create;
try
Stream := TFileStream.Create(FileName, fmOpenRead or fmShareDenyWrite);
try
BytesLeft := Stream.Size;
while BytesLeft>0 do
begin
BytesRead := Min(SizeOf(Buffer), BytesLeft)
Stream.ReadBuffer(Buffer, BytesRead);
dec(BytesLeft, BytesRead);
for i := 0 to BytesRead-1 do
begin
sb.Append(IntToStr(Buffer[i]));
sb.Append(',');
end;
end;
finally
Stream.Free;
end;
if sb.Length>0 then
sb.Length := sb.Length-1;//remove trailing comma
Result := sb.ToString;
finally
sb.Free;
end;
end;
You can load a file into an array of one-byte signed integral types (also known as ShortInt) like this:
type
TShortIntArray = array of TShortInt;
function LoadFileAsShortInt(const name: TFileName): TShortIntArray;
var
f: TFileStream;
begin
f := TFileStream.Create(name, fmOpenRead or fmShareDenyWrite);
try
SetLength(Result, f.Size);
f.ReadBuffer(Result[0], f.Size);
finally
f.Free;
end;
end;
If you want the file's contents as a string, then you should skip the array and load the file directly into a string:
function FileAsString(const name: TFileName): AnsiString;
var
s: TStringStream;
begin
s := TStringStream.Create;
try
s.LoadFromFile(name);
Result := s.DataString;
finally
s.Free;
end;
end;
for write something in a file i use for example this code:
procedure MyProc (... );
const
BufSize = 65535;
var
FileSrc, FileDst: TFileStream;
StreamRead: Cardinal;
InBuf, OutBuf: Array [0..bufsize] of byte;
begin
.....
FileSrc := TFileStream.Create (uFileSrc, fmOpenRead Or fmShareDenyWrite);
try
FileDst := TFileStream.Create (uFileTmp, fmCreate);
try
StreamRead := 0;
while ((iCounter < iFileSize) or (StreamRead = Cardinal(BufSize)))
begin
StreamRead := FileSrc.Read (InBuf, BufSize);
Inc (iCounter, StreamRead);
end;
finally
FileDst.Free;
end;
finally
FileSrc.Free;
end;
end;
And for I/O file i use a array of byte, and so is all ok, but when i use a string, for example declaring:
InBuf, OutBuf: string // in delphi xe2 = unicode string
then not work. In sense that file not write nothing. I have understood why, or just think to have understood it.
I think that problem maybe is why string contain just a pointer to memory and not static structure; correct?
In this case, there is some solution for solve it? In sense, is possible to do something for i can to write a file using string and not vector? Or i need necessary use a vector?
If possible, can i can to do ?
Thanks very much.
There are two issues with using strings. First of all you want to use RawByteString so that you ensure the use of byte sized character elements – a Unicode string has elements that are two bytes wide. And secondly you need to dereference the string which is really just a pointer.
But I wonder why you would prefer strings to the stack allocated byte array.
procedure MyProc (... );
const
BufSize = 65536;
var
FileSrc, FileDst: TFileStream;
StreamRead: Cardinal;
InBuf: RawByteString;
begin
.....
FileSrc := TFileStream.Create (uFileSrc, fmOpenRead Or fmShareDenyWrite);
try
FileDst := TFileStream.Create (uFileTmp, fmCreate);
try
SetLength(InBuf, BufSize);
StreamRead := 0;
while ((iCounter < iFileSize) or (StreamRead = Cardinal(BufSize)))
begin
StreamRead := FileSrc.Read (InBuf[1], BufSize);
Inc (iCounter, StreamRead);
end;
finally
FileDst.Free;
end;
finally
FileSrc.Free;
end;
end;
Note: Your previous code declared a buffer of 65536 bytes, but you only ever used 65535 of them. Probably not what you intended.
To use a string as a buffer (which I would not recommend), you'll have to use SetLength to allocate the internal buffer, and you'll have to pass InBuf[1] and OutBuf[1] as the data to read or write.
var
InBuf, OutBuf: AnsiString; // or TBytes
begin
SetLength(InBuf, BufSize);
SetLength(OutBuf, BufSize);
...
StreamRead := FileSrc.Read(InBuf[1], BufSize); // if TBytes, use InBuf[0]
// etc...
You can also use a TBytes, instead of an AnsiString. The usage remains the same.
But I actually see no advantage in dynamically allocating TBytes, AnsiStrings or RawByteStrings here. I'd rather do what you already do: use a stack based buffer. I would perhaps make it a little smaller in a multi-threaded environment.
Yes, you can save / load strings to / from stream, see the following example
var Len: Integer;
buf: string;
FData: TStream;
// save string to stream
// save the length of the string
Len := Length(buf);
FData.Write(Len, SizeOf(Len));
// save string itself
if(Len > 0)then FData.Write(buf[1], Len * sizeof(buf[1]));
// read string from stream
// read the length of the string
FData.Read(Len, SizeOf(Len));
if(Len > 0)then begin
// get memory for the string
SetLength(buf, Len);
// read string content
FData.Read(buf[1], Len * sizeof(buf[1]));
end else buf := '';
On a related note, to copy the contents from one TStream to another TStream, you could just use the TStream.CopyFrom() method instead:
procedure MyProc (... );
var
FileSrc, FileDst: TFileStream;
begin
...
FileSrc := TFileStream.Create (uFileSrc, fmOpenRead Or fmShareDenyWrite);
try
FileDst := TFileStream.Create (uFileTmp, fmCreate);
try
FileDst.CopyFrom(FileSrc, 0); // or FileDst.CopyFrom(FileSrc, iFileSize)
finally
FileDst.Free;
end;
finally
FileSrc.Free;
end;
...
end;
Which can be simplified by calling CopyFile() instead:
procedure MyProc (... );
begin
...
CopyFile(PChar(uFileSrc), PChar(uFileTmp), False);
...
end;
Either way, you don't have to worry about read/writing the file data manually at all!
I am trying to remotely read a binary (REG_BINARY) registry value, but I get nothing but junk back. Any ideas what is wrong with this code? I'm using Delphi 2010:
function GetBinaryRegistryData(ARootKey: HKEY; AKey, AValue, sMachine: string; var sResult: string): boolean;
var
MyReg: TRegistry;
RegDataType: TRegDataType;
DataSize, Len: integer;
sBinData: string;
bResult: Boolean;
begin
bResult := False;
MyReg := TRegistry.Create(KEY_QUERY_VALUE);
try
MyReg.RootKey := ARootKey;
if MyReg.RegistryConnect('\\' + sMachine) then
begin
if MyReg.KeyExists(AKey) then
begin
if MyReg.OpenKeyReadOnly(AKey) then
begin
try
RegDataType := MyReg.GetDataType(AValue);
if RegDataType = rdBinary then
begin
DataSize := MyReg.GetDataSize(AValue);
if DataSize > 0 then
begin
SetLength(sBinData, DataSize);
Len := MyReg.ReadBinaryData(AValue, PChar(sBinData)^, DataSize);
if Len <> DataSize then
raise Exception.Create(SysErrorMessage(ERROR_CANTREAD))
else
begin
sResult := sBinData;
bResult := True;
end;
end;
end;
except
MyReg.CloseKey;
end;
MyReg.CloseKey;
end;
end;
end;
finally
MyReg.Free;
end;
Result := bResult;
end;
And I call it like this:
GetBinaryRegistryData(
HKEY_LOCAL_MACHINE,
'\SOFTWARE\Microsoft\Windows NT\CurrentVersion',
'DigitalProductId', '192.168.100.105',
sProductId
);
WriteLn(sProductId);
The result I receive from the WriteLn on the console is:
ñ ♥ ???????????6Z ????1 ???????☺ ???♦ ??3 ? ??? ?
??
Assuming that you are already connected remotely, try using the GetDataAsString function
to read binary data from the registry.
sResult := MyReg.GetDataAsString(AValue);
You're using Delphi 2010, so all your characters are two bytes wide. When you set the length of your result string, you're allocating twice the amount of space you need. Then you call ReadBinaryData, and it fills half your buffer. There are two bytes of data in each character. Look at each byte separately, and you'll probably find that your data looks less garbage-like.
Don't use strings for storing arbitrary data. Use strings for storing text. To store arbitrary blobs of data, use TBytes, which is an array of bytes.
I'm using Delphi7 (non-unicode VCL), I need to store lots of WideStrings inside a TFileStream. I can't use TStringStream as the (wide)strings are mixed with binary data, the format is projected to speed up loading and writing the data ... However I believe that current way I'm loading/writing the strings might be a bottleneck of my code ...
currently I'm writing length of a string, then writing it char by char ...
while loading, first I'm loading the length, then loading char by char ...
So, what is the fastest way to save and load WideString to TFileStream?
Thanks in advance
Rather than read and write one character at a time, read and write them all at once:
procedure WriteWideString(const ws: WideString; stream: TStream);
var
nChars: LongInt;
begin
nChars := Length(ws);
stream.WriteBuffer(nChars, SizeOf(nChars);
if nChars > 0 then
stream.WriteBuffer(ws[1], nChars * SizeOf(ws[1]));
end;
function ReadWideString(stream: TStream): WideString;
var
nChars: LongInt;
begin
stream.ReadBuffer(nChars, SizeOf(nChars));
SetLength(Result, nChars);
if nChars > 0 then
stream.ReadBuffer(Result[1], nChars * SizeOf(Result[1]));
end;
Now, technically, since WideString is a Windows BSTR, it can contain an odd number of bytes. The Length function reads the number of bytes and divides by two, so it's possible (although not likely) that the code above will cut off the last byte. You could use this code instead:
procedure WriteWideString(const ws: WideString; stream: TStream);
var
nBytes: LongInt;
begin
nBytes := SysStringByteLen(Pointer(ws));
stream.WriteBuffer(nBytes, SizeOf(nBytes));
if nBytes > 0 then
stream.WriteBuffer(Pointer(ws)^, nBytes);
end;
function ReadWideString(stream: TStream): WideString;
var
nBytes: LongInt;
buffer: PAnsiChar;
begin
stream.ReadBuffer(nBytes, SizeOf(nBytes));
if nBytes > 0 then begin
GetMem(buffer, nBytes);
try
stream.ReadBuffer(buffer^, nBytes);
Result := SysAllocStringByteLen(buffer, nBytes)
finally
FreeMem(buffer);
end;
end else
Result := '';
end;
Inspired by Mghie's answer, have replaced my Read and Write calls with ReadBuffer and WriteBuffer. The latter will raise exceptions if they are unable to read or write the requested number of bytes.
There is nothing special about wide strings, to read and write them as fast as possible you need to read and write as much as possible in one go:
procedure TForm1.Button1Click(Sender: TObject);
var
Str: TStream;
W, W2: WideString;
L: integer;
begin
W := 'foo bar baz';
Str := TFileStream.Create('test.bin', fmCreate);
try
// write WideString
L := Length(W);
Str.WriteBuffer(L, SizeOf(integer));
if L > 0 then
Str.WriteBuffer(W[1], L * SizeOf(WideChar));
Str.Seek(0, soFromBeginning);
// read back WideString
Str.ReadBuffer(L, SizeOf(integer));
if L > 0 then begin
SetLength(W2, L);
Str.ReadBuffer(W2[1], L * SizeOf(WideChar));
end else
W2 := '';
Assert(W = W2);
finally
Str.Free;
end;
end;
WideStrings contain a 'string' of WideChar's, which use 2 bytes each. If you want to store the UTF-16 (which WideStrings use internally) strings in a file, and be able to use this file in other programs like notepad, you need to write a byte order mark first: #$FEFF.
If you know this, writing can look like this:
Stream1.Write(WideString1[1],Length(WideString)*2); //2=SizeOf(WideChar)
reading can look like this:
Stream1.Read(WideChar1,2);//assert returned 2 and WideChar1=#$FEFF
SetLength(WideString1,(Stream1.Size div 2)-1);
Stream1.Read(WideString1[1],(Stream1.Size div 2)-1);
You can also use TFastFileStream for reading the data or strings, I pasted the unit at http://pastebin.com/m6ecdc8c2 and a sample below:
program Project36;
{$APPTYPE CONSOLE}
uses
SysUtils, Classes,
FastStream in 'FastStream.pas';
const
WideNull: WideChar = #0;
procedure WriteWideStringToStream(Stream: TFileStream; var Data: WideString);
var
len: Word;
begin
len := Length(Data);
// Write WideString length
Stream.Write(len, SizeOf(len));
if (len > 0) then
begin
// Write WideString
Stream.Write(Data[1], len * SizeOf(WideChar));
end;
// Write null termination
Stream.Write(WideNull, SizeOf(WideNull));
end;
procedure CreateTestFile;
var
Stream: TFileStream;
MyString: WideString;
begin
Stream := TFileStream.Create('test.bin', fmCreate);
try
MyString := 'Hello World!';
WriteWideStringToStream(Stream, MyString);
MyString := 'Speed is Delphi!';
WriteWideStringToStream(Stream, MyString);
finally
Stream.Free;
end;
end;
function ReadWideStringFromStream(Stream: TFastFileStream): WideString;
var
len: Word;
begin
// Read length of WideString
Stream.Read(len, SizeOf(len));
// Read WideString
Result := PWideChar(Cardinal(Stream.Memory) + Stream.Position);
// Update position and skip null termination
Stream.Position := Stream.Position + (len * SizeOf(WideChar)) + SizeOf(WideNull);
end;
procedure ReadTestFile;
var
Stream: TFastFileStream;
my_wide_string: WideString;
begin
Stream := TFastFileStream.Create('test.bin');
try
Stream.Position := 0;
// Read WideString
my_wide_string := ReadWideStringFromStream(Stream);
WriteLn(my_wide_string);
// Read another WideString
my_wide_string := ReadWideStringFromStream(Stream);
WriteLn(my_wide_string);
finally
Stream.Free;
end;
end;
begin
CreateTestFile;
ReadTestFile;
ReadLn;
end.