Note: This is the original README from VGAlib v1.2. It describes the basic library functions; some things are obsolete. Hi! This is version 1.2 of the VGA graphics library for linux. As the previous version it has the following features: - Support for all standard VGA 16 and 256 color modes - Support for non-standard 256 color modes (including mode X) - Tseng ET4000 SVGA 256 color modes - Monochrome 640x480 mode - Text mode restoration - Handling of console I/O - Flipping between graphics mode and text mode - Restores text mode after CTRL-C interrupt The present version adds the following: - The ET4000 modes should now be more robust - Tools for creating your own video modes VGAlib requires the 0.96b kernel (or newer) and must be compiled with GCC 2.2.2 (or newer). To compile and install VGAlib just type make. This will also build the following programs: vgatest: a simple demonstration of the library and the various video modes dumpreg: dumps the current VGA registers to stdout, mainly used for debugging and creating new video modes runx : if you have problems with text mode restoration after running X386, then try to use runx instead of startx Remember that all programs using VGAlib must be run with setuid root (login as root and do a 'chmod +s prog-name'), otherwise you will get a "can't get I/O permissions" error. VGAlib does it's best to restore the text mode, but it may fail with some SVGA cards if you use a text mode with more than 80 columns. If you are having problems please try to use an 80 column text mode. Below is a short description of the functions in the library. Look at vgatest.c for examples on how to use these functions: - vga_setmode() is used to select the graphics mode or to restore the text mode. - vga_hasmode() tests if a given video mode is supported by the graphics card (use this function before using any of the ET4000 SVGA modes) - vga_clear() clears the graphics screen. This is also done by vga_setmode(). - vga_getxdim(), vga_getydim() and vga_getcolors() return the resolution and number of colors for the current mode. - vga_getpalette() and vga_getpalvec() returns the contents of one or more palette registers, respectively. - vga_setpalette() and vga_setpalvec() allows you to modify one or more palette registers, respectively. - vga_setcolor() determines the color for future calls of the drawing functions. - vga_drawpixel() and vga_drawline() draws a pixel or a line in the current color, respectively. - vga_drawscanline() draws one single horisontal line of pixels and has been optimized for the fastest possible output. - vga_screenoff() and vga_screenon() turns the screen refresh off and on. On some VGA's the graphics operations will be faster, if the screen is turned off during graphics output. - vga_flip() switches between graphics and text mode without destroying the screen contents. This makes it possible for your application to use both text and graphics output. - vga_gecth() waits for a character to be typed an returns the ASCII value. If you press ESC (the exact key can be changed with vga_setflipchar()), the text mode will be temporarily restored until you press another key. This allows you to switch to another virtual console and later return to your graphics application. - vga_setflipchar() changes the character that vga_getch() uses for flipping between graphics and text mode. - vga_dumpregs() dumps the current VGA register contents to stdout My main motivation for implementing the graphics/text flipping was to make debugging easier. If your program reaches a breakpoint while in graphics mode, you can switch to text mode with the gdb command print vga_flip() and later restore the graphics screen contents with the same command. It is usefull to define the following alias in gdb: define flip print vga_flip() end The directory 'support' contains the sources and executables for two Borland C++ programs that allows you to dump the register contents for any BIOS video mode. 'vga.exe' should work with any VGA/SVGA adapter, while 'tseng.exe' only is for use with an ET4000 adapater. Both programs take a hexadecimal mode number as argument and writes the register contents to the console. Also provided is a description of the VGA and ET4000 registers taken from the 'vgadoc01.zip' package at SIMTEL20. There has been a lot of interest in the previous versions of VGAlib, and I would like to thank everybody who has suggested improvements. Tommy Frandsen (frandsen@diku.dk)