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The same problem happens in Borland C++Builder 6 and Embarcadero C++Builder 2010.

When I try to invert an image, the form freezes for about 5 seconds and nothing happens. When I click again, the image is inverted within a blink of an eye, and again, again...

To reproduce, create a form with a TImage and two TButton's using this code:

//---------------------------------------------------------------------------
#include <vcl.h>
#include <jpeg.hpp>
#pragma hdrstop
#pragma package(smart_init)
#pragma resource "*.dfm"
#include "Unit1.h"
TForm1 *Form1;
Graphics::TBitmap *CurrentBitmap;
bool bLoaded = false;
//---------------------------------------------------------------------------
__fastcall TForm1::TForm1(TComponent* Owner) : TForm(Owner) {
    CurrentBitmap = new Graphics::TBitmap;
}
//---------------------------------------------------------------------------
bool __fastcall Invert( TImage *img ) {
    if( bLoaded ) {
        double Scale, ScaleW, ScaleH;
        Graphics::TBitmap *bmp = new Graphics::TBitmap;
        bmp->Assign( CurrentBitmap );
        DWORD **pixel = new DWORD*[bmp->Height];
        for( long y=0; y<bmp->Height; y++ ) {
            pixel[y] = (DWORD*)(bmp->ScanLine[y]);
            for( long x=0; x<bmp->Width; x++ ) {
                if( pixel[y][x] == clBlack ) {
                    pixel[y][x] = clWhite;
                } else if( pixel[y][x] == clWhite ) {
                    pixel[y][x] = clBlack;
                }
            }

        }
        delete[] pixel;
        ScaleW = (double)bmp->Width / img->ClientWidth;
        ScaleH = (double)bmp->Height / img->ClientHeight;
        if( ScaleW > ScaleH ) {
            Scale = ScaleW;
        } else {
            Scale = ScaleH;
        }
        CurrentBitmap->Assign( bmp );
        img->Picture->Bitmap->Canvas->StretchDraw(Rect(0, 0, bmp->Width/Scale, bmp->Height/Scale), bmp );
        delete bmp;
        return true;
    } else {
        return false;
    }
}
//---------------------------------------------------------------------------
void __fastcall TForm1::Button1Click(TObject *Sender) {
    TJPEGImage *jpg = new TJPEGImage();
    jpg->LoadFromFile( "V:\\CBuilder\\BCB10\\GerberTest\\Testdata\\GerberTest.dpi2400.mskcmp.jpg" );
    CurrentBitmap->Width = jpg->Width;
    CurrentBitmap->Height = jpg->Height;
    CurrentBitmap->Canvas->StretchDraw(Rect(0, 0, jpg->Width, jpg->Height), jpg );
    bLoaded = true;
    double Scale, ScaleW, ScaleH;
    ScaleW = (double)jpg->Width / Image1->ClientWidth;
    ScaleH = (double)jpg->Height / Image1->ClientHeight;
    if( ScaleW > ScaleH ) {
        Scale = ScaleW;
    } else {
        Scale = ScaleH;
    }
    Image1->Canvas->StretchDraw(Rect(0, 0, jpg->Width/Scale, jpg->Height/Scale), jpg );
}
//---------------------------------------------------------------------------
void __fastcall TForm1::Button2Click(TObject *Sender) {
    Invert( Image1 );
}

I cannot explain why the application freezes, or what the code is doing during the 5 second delay.

  • Sounds like a good time to learn how to use a profiler to determine where your code is actually spending its time. However, I will say that Button1Click is allocating new memory for the CurrentBitmap only the first time it is called, and then reusing that memory on subsequent calls. And it is also leaking the TJPEGImage object... – Remy Lebeau Sep 15 at 16:59
  • 1
    ... Invert() is allocating a new DWORD*[] array that it doesn't actually need or use effectively. A single DWORD* pointing to the current scanline will suffice. And there is no need to copy CurrentBitmap to a temp TBitmap just to copy it back afterwards. You can just modify CurrentBitmap directly instead. And Invert() is assuming 32bit pixels are always being used, but your code is not doing anything to ensure that. You should set PixelFormat=pf32bit to force that. – Remy Lebeau Sep 15 at 17:00
  • Remy Lebeau, don't worry about the memory leak. I created a test application in 15 minutes to have a usable project for the invert function. The invert function is part of a larger project and I wanted to keep it small and reproducible to post it here. The use of a DWORD* pointer is a very good idea. I did not think of further optimizing after improving the running time from 5 seconds to 100ms :-) – hennep yesterday
  • The images I used for testing had 32bits pixels and I still don't understand why there is a delay (and no processing at all) when the pixel data are addressed as 8bit or 24bit or any size smaller than 32bits. I would expect a distorted image as a result of wrong handling of memory. I had already found the PixelFormat property and eliminated the delay. Also I had to use the Width and Height properties (even after an "Assign()" of pixel data) after I experienced the program crash with access violations on changing the pixels. – hennep yesterday
  • Being unsure of what I am doing, I execute these lines every time I start on a bitmap ``` bitmap->Width = <Width_of_the_source_image>; bitmap->Height = <Height_of_the_source_image>; bitmap->HandleType = bmDIB; bitmap->PixelFormat = pf32bit; ``` – hennep yesterday
1

Like Remy Lebeau mentioned you should set the PixelFormat. I tried your solution which did not seems to invert images properly. Below you find a solution which should work properly.

#include <JPEG.hpp>

Byte __fastcall IntToByte(int AValue)
{
    if (AValue > 255)
        return 255;
    else if (AValue < 0)
        return 0;
    else
        return AValue;
}
// ---------------------------------------------------------------------------

void __fastcall InvertBitmap(Graphics::TBitmap *ABitmap)
{
    Byte *p0;
    int red, green, blue;
    for (int y = 0; y < ABitmap->Height; y++) {
        p0 = (Byte*) ABitmap->ScanLine[y];
        for (int x = 0; x < ABitmap->Width; x++) {
            red = p0[x * 3];
            green = p0[x * 3 + 1];
            blue = p0[x * 3 + 2];

            // invert
            red = 255 - red;
            green = 255 - green;
            blue = 255 - blue;

            p0[x * 3] = IntToByte(red);
            p0[x * 3 + 1] = IntToByte(green);
            p0[x * 3 + 2] = IntToByte(blue);
        }
    }
}
// ---------------------------------------------------------------------------

void __fastcall TForm1::Button1Click(TObject *Sender)
{
    Screen->Cursor = crHourGlass;
    TJPEGImage *jpeg = new TJPEGImage();
    Graphics::TBitmap *bitmap = new Graphics::TBitmap();
    try {
        jpeg->LoadFromFile("**YOUR-JPEG-FILE**");
        bitmap->SetSize(jpeg->Width, jpeg->Height);
        bitmap->Canvas->Draw(0, 0, jpeg);    
        bitmap->PixelFormat = pf24bit;
        InvertBitmap(bitmap);
        Image1->Picture->Bitmap->Assign(bitmap);
    }
    __finally {
        jpeg->Free();
        bitmap->Free();
    }
    Screen->Cursor = crDefault;
}
// ---------------------------------------------------------------------------
| improve this answer | |
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Dmitri Luchtmeijer is a new contributor to this site. Take care in asking for clarification, commenting, and answering. Check out our Code of Conduct.
  • Dmitri Luchtmeijer, Thank you for the code. I will have a look at it to see how much of it I can use. The pictures I have to invert are black and white. Addressing RGB data separately might not be necessary or even slower.... I will make up my mind later. :-) Maybe its better to have one single universal invert function at hand for every image type. – hennep yesterday

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