ref: e81c54ba2ecc673a4d5f8aed0e9b52841fe07b0d
dir: /os/pc/vgargb524.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" #define Image IMAGE #include <draw.h> #include <memdraw.h> #include <cursor.h> #include "screen.h" /* * IBM RGB524. * 170/220MHz High Performance Palette DAC. * * Assumes hooked up to an S3 Vision96[48]. */ enum { IndexLo = 0x00, IndexHi = 0x01, Data = 0x02, IndexCtl = 0x03, }; enum { /* index registers */ CursorCtl = 0x30, CursorXLo = 0x31, CursorXHi = 0x32, CursorYLo = 0x33, CursorYHi = 0x34, CursorHotX = 0x35, CursorHotY = 0x36, CursorR1 = 0x40, CursorG1 = 0x41, CursorB1 = 0x42, CursorR2 = 0x43, CursorG2 = 0x44, CursorB2 = 0x45, CursorR3 = 0x46, CursorG3 = 0x47, CursorB3 = 0x48, CursorArray = 0x100, }; /* * Lower 2-bits of indirect DAC register * addressing. */ static ushort dacxreg[4] = { PaddrW, Pdata, Pixmask, PaddrR }; static uchar rgb524setrs2(void) { uchar rs2; rs2 = vgaxi(Crtx, 0x55); vgaxo(Crtx, 0x55, (rs2 & 0xFC)|0x01); return rs2; } static void rgb524xo(int index, uchar data) { vgao(dacxreg[IndexLo], index & 0xFF); vgao(dacxreg[IndexHi], (index>>8) & 0xFF); vgao(dacxreg[Data], data); } static void rgb524disable(VGAscr*) { uchar rs2; rs2 = rgb524setrs2(); rgb524xo(CursorCtl, 0x00); vgaxo(Crtx, 0x55, rs2); } static void rgb524enable(VGAscr*) { uchar rs2; rs2 = rgb524setrs2(); /* * Make sure cursor is off by initialising the cursor * control to defaults. */ rgb524xo(CursorCtl, 0x00); /* * Cursor colour 1 (white), * cursor colour 2 (black). */ rgb524xo(CursorR1, Pwhite); rgb524xo(CursorG1, Pwhite); rgb524xo(CursorB1, Pwhite); rgb524xo(CursorR2, Pblack); rgb524xo(CursorG2, Pblack); rgb524xo(CursorB2, Pblack); /* * Enable the cursor, 32x32, mode 2. */ rgb524xo(CursorCtl, 0x23); vgaxo(Crtx, 0x55, rs2); } static void rgb524load(VGAscr*, Cursor* curs) { uchar p, p0, p1, rs2; int x, y; rs2 = rgb524setrs2(); /* * Make sure cursor is off by initialising the cursor * control to defaults. */ rgb524xo(CursorCtl, 0x00); /* * Set auto-increment mode for index-register addressing * and initialise the cursor array index. */ vgao(dacxreg[IndexCtl], 0x01); vgao(dacxreg[IndexLo], CursorArray & 0xFF); vgao(dacxreg[IndexHi], (CursorArray>>8) & 0xFF); /* * Initialise the 32x32 cursor RAM array. There are 2 planes, * p0 and p1. Data is written 4 pixels per byte, with p1 the * MS bit of each pixel. * The cursor is set in X-Windows mode which gives the following * truth table: * p1 p0 colour * 0 0 underlying pixel colour * 0 1 underlying pixel colour * 1 0 cursor colour 1 * 1 1 cursor colour 2 * Put the cursor into the top-left of the 32x32 array. */ for(y = 0; y < 32; y++){ for(x = 0; x < 32/8; x++){ if(x < 16/8 && y < 16){ p0 = curs->clr[x+y*2]; p1 = curs->set[x+y*2]; p = 0x00; if(p1 & 0x80) p |= 0xC0; else if(p0 & 0x80) p |= 0x80; if(p1 & 0x40) p |= 0x30; else if(p0 & 0x40) p |= 0x20; if(p1 & 0x20) p |= 0x0C; else if(p0 & 0x20) p |= 0x08; if(p1 & 0x10) p |= 0x03; else if(p0 & 0x10) p |= 0x02; vgao(dacxreg[Data], p); p = 0x00; if(p1 & 0x08) p |= 0xC0; else if(p0 & 0x08) p |= 0x80; if(p1 & 0x04) p |= 0x30; else if(p0 & 0x04) p |= 0x20; if(p1 & 0x02) p |= 0x0C; else if(p0 & 0x02) p |= 0x08; if(p1 & 0x01) p |= 0x03; else if(p0 & 0x01) p |= 0x02; vgao(dacxreg[Data], p); } else{ vgao(dacxreg[Data], 0x00); vgao(dacxreg[Data], 0x00); } } } /* * Initialise the cursor hotpoint, * enable the cursor and restore state. */ rgb524xo(CursorHotX, -curs->offset.x); rgb524xo(CursorHotY, -curs->offset.y); rgb524xo(CursorCtl, 0x23); vgaxo(Crtx, 0x55, rs2); } static int rgb524move(VGAscr*, Point p) { uchar rs2; rs2 = rgb524setrs2(); rgb524xo(CursorXLo, p.x & 0xFF); rgb524xo(CursorXHi, (p.x>>8) & 0x0F); rgb524xo(CursorYLo, p.y & 0xFF); rgb524xo(CursorYHi, (p.y>>8) & 0x0F); vgaxo(Crtx, 0x55, rs2); return 0; } VGAcur vgargb524cur = { "rgb524hwgc", rgb524enable, rgb524disable, rgb524load, rgb524move, };