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I am working on a portable GUI toolkit for Linux and Windows and stuck on some performance problem. On several systems (as my netbook based on the infamous Intel GMA 3650) is very highly affected by the driver installed.

But what is the paradox, when the fallback VESA driver is installed, the performance of my code is much higher than with the dedicated proprietary driver.

On the other hand with the proprietary driver, as expected the performance of the computer is very good. Hardware acceleration works, high definition videos are played without problems and this way only my code is affected in this strange reverse manner.

My code uses common libraries like Xlib, Xft, pthreads, etc.

The Windows port (uses WinApi) runs in great speed without any problems. Even in Wine. As an another paradox, the same program, compiled for Windows and running in WINE draws much faster than the Linux compiled program.

What can be the reason for this effect and where to dig in order to fix it.

The source code repository is managed by fossil scm

One test example is in trunk/freshlib/TestFreshLib.fpr (for plain FASM compile freshlib/test_code0/TestLib.asm)

This is portable example and can be compiled for Windows and Linux as well.

Update 1: After some thought and code exploration, I have an hypothesis. I am using two different methods to draw the graphics on the windows:

  1. Using XLib drawing functions for drawing lines and rectangles.
  2. Using Xft library to draw the texts.

The controls I am testing use double buffering where the image buffer is a pixmap on the server side.

But IIRC, Xft draws on the client side and then sends the image as a bitmap image to the X server, while XLib draws directly on the server side.

Is it possible some conflict between these two methods (and somehow connection with the hardware acceleration) to cause this performance degradation?

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This sounds most incredible. Can you isolate the problem into an SSCCE? –  n.m. Oct 13 '13 at 9:39
    
What is SSCCE? Note, I am not an expert in C/C++ or even Linux/X11 programming. :) –  johnfound Oct 13 '13 at 9:43
1  
Ah, I got it "Short, Self Contained, Correct, Example". But unfortunately no. I can of course point you to the repository - it is an open source, but there is a pretty big bunch of files and I don't know where to search the problem. (and it is in assembly language :)) –  johnfound Oct 13 '13 at 9:55
    
A repo link should be OK, I will try to test this. –  n.m. Oct 13 '13 at 11:40
    
@n.m. - I put a link to the repository at the question itself. If you have problems with the compilation - just ask. –  johnfound Oct 13 '13 at 11:50

1 Answer 1

Although it can automaticly do (Apple designed Opencl for this purpose with their XQuartz API), X libraries aren't designed to use hardware acceleration. OpenGL and directX are well know to do it for 3D environments which you can typically find in games.

But you can also use it for 2D. Direct3D is designed to use polygons Direct2D is for plate graphics. In the beginning, OpenGl was designed to stay general purpose: So you have many functions you can use for hardware accelerated graphics.

Major X11 implementations includes GLX DRI and Gallium.
I've never written something that use those API's, but I just know certain programs does accelerate theirs drawings by this way.

The performance benefit observed with the fallback VESA may have the following explanation: The proprietary driver performs extra checks (eg. to see if it was asked to use hardware acceleration; then as it is regular Xlib it don't accel most of the time) whereas the fallback driver can't use hardware accelerations and go strait ahead to use CPU instead of GPU.

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