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[/] [or1k/] [tags/] [MW_0_8_9PRE7/] [mw/] [src/] [drivers/] [fblin16.c] - Rev 1765
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/* * Copyright (c) 1999, 2000, 2001 Greg Haerr <greg@censoft.com> * * 16bpp Linear Video Driver for Microwindows * * Inspired from Ben Pfaff's BOGL <pfaffben@debian.org> */ /*#define NDEBUG*/ #include <assert.h> #include <stdlib.h> /* We want to do string copying fast, so inline assembly if possible */ #ifndef __OPTIMIZE__ #define __OPTIMIZE__ #endif #include <string.h> #include "device.h" #include "fb.h" #define USE_DRAWAREA 0 /* =1 to implement temp removed DrawArea code*/ #define USE_16BIT_ACCESS 0 /* =1 to force 16 bit display access*/ #if USE_16BIT_ACCESS #define memcpy(d,s,nbytes) memcpy16(d,s,(nbytes)>>1) #define memmove(d,s,nbytes) memcpy16(d,s,(nbytes)>>1) static void memcpy16(unsigned short *dst, unsigned short *src, int nwords) { while (--nwords >= 0) *dst++ = *src++; } #endif /* Calc linelen and mmap size, return 0 on fail*/ static int linear16_init(PSD psd) { if (!psd->size) { psd->size = psd->yres * psd->linelen; /* convert linelen from byte to pixel len for bpp 16, 24, 32*/ psd->linelen /= 2; } return 1; } /* Set pixel at x, y, to pixelval c*/ static void linear16_drawpixel(PSD psd, MWCOORD x, MWCOORD y, MWPIXELVAL c) { ADDR16 addr = psd->addr; assert (addr != 0); assert (x >= 0 && x < psd->xres); assert (y >= 0 && y < psd->yres); assert (c < psd->ncolors); DRAWON; if(gr_mode == MWMODE_COPY) addr[x + y * psd->linelen] = c; else applyOp(gr_mode, c, &addr[x + y * psd->linelen], ADDR16); DRAWOFF; } /* Read pixel at x, y*/ static MWPIXELVAL linear16_readpixel(PSD psd, MWCOORD x, MWCOORD y) { ADDR16 addr = psd->addr; assert (addr != 0); assert (x >= 0 && x < psd->xres); assert (y >= 0 && y < psd->yres); return addr[x + y * psd->linelen]; } /* Draw horizontal line from x1,y to x2,y including final point*/ static void linear16_drawhorzline(PSD psd, MWCOORD x1, MWCOORD x2, MWCOORD y, MWPIXELVAL c) { ADDR16 addr = psd->addr; assert (addr != 0); assert (x1 >= 0 && x1 < psd->xres); assert (x2 >= 0 && x2 < psd->xres); assert (x2 >= x1); assert (y >= 0 && y < psd->yres); assert (c < psd->ncolors); DRAWON; addr += x1 + y * psd->linelen; if(gr_mode == MWMODE_COPY) { /* FIXME: memsetw(dst, c, x2-x1+1)*/ while(x1++ <= x2) *addr++ = c; } else { while (x1++ <= x2) { applyOp(gr_mode, c, addr, ADDR16); ++addr; } } DRAWOFF; } /* Draw a vertical line from x,y1 to x,y2 including final point*/ static void linear16_drawvertline(PSD psd, MWCOORD x, MWCOORD y1, MWCOORD y2, MWPIXELVAL c) { ADDR16 addr = psd->addr; int linelen = psd->linelen; assert (addr != 0); assert (x >= 0 && x < psd->xres); assert (y1 >= 0 && y1 < psd->yres); assert (y2 >= 0 && y2 < psd->yres); assert (y2 >= y1); assert (c < psd->ncolors); DRAWON; addr += x + y1 * linelen; if(gr_mode == MWMODE_COPY) { while(y1++ <= y2) { *addr = c; addr += linelen; } } else { while (y1++ <= y2) { applyOp(gr_mode, c, addr, ADDR16); addr += linelen; } } DRAWOFF; } /* srccopy bitblt*/ static void linear16_blit(PSD dstpsd, MWCOORD dstx, MWCOORD dsty, MWCOORD w, MWCOORD h, PSD srcpsd, MWCOORD srcx, MWCOORD srcy, long op) { ADDR16 dst = dstpsd->addr; ADDR16 src = srcpsd->addr; int i; int dlinelen = dstpsd->linelen; int slinelen = srcpsd->linelen; #if ALPHABLEND unsigned int alpha; #endif assert (dst != 0); assert (dstx >= 0 && dstx < dstpsd->xres); assert (dsty >= 0 && dsty < dstpsd->yres); assert (w > 0); assert (h > 0); assert (src != 0); assert (srcx >= 0 && srcx < srcpsd->xres); assert (srcy >= 0 && srcy < srcpsd->yres); assert (dstx+w <= dstpsd->xres); assert (dsty+h <= dstpsd->yres); assert (srcx+w <= srcpsd->xres); assert (srcy+h <= srcpsd->yres); DRAWON; dst += dstx + dsty * dlinelen; src += srcx + srcy * slinelen; #if ALPHABLEND if((op & MWROP_EXTENSION) != MWROP_BLENDCONSTANT) goto stdblit; alpha = op & 0xff; if (dstpsd->pixtype == MWPF_TRUECOLOR565) { while(--h >= 0) { for(i=0; i<w; ++i) { unsigned int s = *src++; unsigned int d = *dst; unsigned int t = d & 0xf800; unsigned int m1, m2, m3; m1 = (((((s & 0xf800) - t)*alpha)>>8) & 0xf800) + t; t = d & 0x07e0; m2 = (((((s & 0x07e0) - t)*alpha)>>8) & 0x07e0) + t; t = d & 0x001f; m3 = (((((s & 0x001f) - t)*alpha)>>8) & 0x001f) + t; *dst++ = m1 | m2 | m3; } dst += dlinelen - w; src += slinelen - w; } } else { /* 5/5/5 format*/ while(--h >= 0) { for(i=0; i<w; ++i) { unsigned int s = *src++; unsigned int d = *dst; unsigned int t = d & 0x7c00; unsigned int m1, m2, m3; m1 = (((((s & 0x7c00) - t)*alpha)>>8) & 0x7c00) + t; t = d & 0x03e0; m2 = (((((s & 0x03e0) - t)*alpha)>>8) & 0x03e0) + t; t = d & 0x001f; m3 = (((((s & 0x001f) - t)*alpha)>>8) & 0x001f) + t; *dst++ = m1 | m2 | m3; } dst += dlinelen - w; src += slinelen - w; } } DRAWOFF; return; stdblit: #endif if (op == MWROP_COPY) { /* copy from bottom up if dst in src rectangle*/ /* memmove is used to handle x case*/ if (srcy < dsty) { src += (h-1) * slinelen; dst += (h-1) * dlinelen; slinelen *= -1; dlinelen *= -1; } while (--h >= 0) { /* a _fast_ memcpy is a _must_ in this routine*/ memmove(dst, src, w<<1); dst += dlinelen; src += slinelen; } } else { while (--h >= 0) { for (i=0; i<w; i++) { applyOp(MWROP_TO_MODE(op), *src, dst, ADDR16); ++src; ++dst; } dst += dlinelen - w; src += slinelen - w; } } DRAWOFF; } /* VERY experimental globals for debugging stretchblit off-by-some bug*/ extern int g_row_inc, g_col_inc; /* srccopy stretchblt*/ static void linear16_stretchblit(PSD dstpsd, MWCOORD dstx, MWCOORD dsty, MWCOORD dstw, MWCOORD dsth, PSD srcpsd, MWCOORD srcx, MWCOORD srcy, MWCOORD srcw, MWCOORD srch, long op) { ADDR16 dst; ADDR16 src; int dlinelen = dstpsd->linelen; int slinelen = srcpsd->linelen; int i, ymax; int row_pos, row_inc; int col_pos, col_inc; unsigned short pixel = 0; assert (dstpsd->addr != 0); assert (dstx >= 0 && dstx < dstpsd->xres); assert (dsty >= 0 && dsty < dstpsd->yres); assert (dstw > 0); assert (dsth > 0); assert (srcpsd->addr != 0); assert (srcx >= 0 && srcx < srcpsd->xres); assert (srcy >= 0 && srcy < srcpsd->yres); assert (srcw > 0); assert (srch > 0); assert (dstx+dstw <= dstpsd->xres); assert (dsty+dsth <= dstpsd->yres); assert (srcx+srcw <= srcpsd->xres); assert (srcy+srch <= srcpsd->yres); DRAWON; row_pos = 0x10000; if (g_row_inc) row_inc = g_row_inc; else row_inc = (srch << 16) / dsth; /* stretch blit using integer ratio between src/dst height/width*/ for (ymax = dsty+dsth; dsty<ymax; ++dsty) { /* find source y position*/ while (row_pos >= 0x10000L) { ++srcy; row_pos -= 0x10000L; } dst = (ADDR16)dstpsd->addr + dstx + dsty*dlinelen; src = (ADDR16)srcpsd->addr + srcx + (srcy-1)*slinelen; /* copy a row of pixels*/ col_pos = 0x10000; if (g_col_inc) col_inc = g_col_inc; else col_inc = (srcw << 16) / dstw; for (i=0; i<dstw; ++i) { /* get source x pixel*/ while (col_pos >= 0x10000L) { pixel = *src++; col_pos -= 0x10000L; } *dst++ = pixel; col_pos += col_inc; } row_pos += row_inc; } DRAWOFF; } #if USE_DRAWAREA /* temporarily removed DrawArea entry point code*/ static void init_alpha_lookup(unsigned short **low, unsigned short **high) { unsigned short a, x, *lo, *hi; unsigned short r, g, b; unsigned short idx; lo = *low = malloc(32*256*2); hi = *high = malloc(32*256*2); if ( hi == 0 || lo == 0 ) exit(17); for ( a=0; a < 32; a++ ) for ( x=0; x < 256; x++ ) { idx = (a << 8) | x; /* High byte */ r = (x >> 3) * a / 31; g = ((x << 3) & 0x38) * a / 31; hi[idx] = (r << 11) | (g << 5); /* Low byte */ b = (x & 0x1f) * a / 31; g = ((x >> 5) & 0x7) * a / 31; lo[idx] = (g << 5) | b; } } static void init_wordmask_lookup(unsigned short **byte2wordmask) { unsigned short *maskp, *b2wm; int t, x, u; b2wm = *byte2wordmask = malloc(256*8*2); if ( b2wm == 0 ) exit(17); for ( t=0; t < 256; t++ ) { maskp = b2wm + 8 * t; x = t; for ( u=1; u < 256; u <<= 1 ) if ( x & u ) *maskp++ = 0xffff; else *maskp++ = 0x0000; } } /* psd->DrawArea operation PSDOP_PIXMAP_COPYALL which takes a * pixmap, each line is byte aligned, and copies it to the * screen using fg_color and bg_color to replace a 1 and 0 in * the pixmap. This pixmap is ordered the wrong way around; * it has the leftmost pixel (on the screen) in LSB (Bit 0) * of the bytes. * * The reason why this non-intuitive bit ordering is used is * to match the bit ordering used in the T1lib font rendering * library. * * Variables used in the gc: * dstx, dsty, dsth, dstw Destination rectangle * srcx, srcy Source rectangle * src_linelen Linesize in bytes of source * pixels Pixmap data * fg_color Color of a '1' bit * bg_color Color of a '0' bit */ static void pixmap_copyall(PSD psd, driver_gc_t *gc) { int first_byte, last_byte; int hard_prefix, hard_postfix; unsigned short prefixbits, postfixbits, *maskp; unsigned short xor_color, m; unsigned short prefix_mask = 0, prefix_last = 0; unsigned short postfix_mask = 0, postfix_last = 0; int size_main, t, y; unsigned int advance_src, advance_dst; ADDR8 src; ADDR16 dst; static unsigned short *byte2wordmask = 0; prefixbits = gc->srcx & 7; postfixbits = (gc->srcx + gc->dstw - 1) & 7; first_byte = gc->srcx >> 3; last_byte = (gc->srcx + gc->dstw - 1) >> 3; src = ((ADDR8)gc->pixels) + gc->src_linelen * gc->srcy + first_byte; dst = ((ADDR16)psd->addr) + psd->linelen * gc->dsty + gc->dstx; xor_color = gc->fg_color ^ gc->bg_color; if ( first_byte != last_byte ) { if ( prefixbits == 0 ) { /* All bits of first byte used */ hard_prefix = 0; size_main = last_byte - first_byte; } else { /* Needs to do a few odd bits first */ hard_prefix = 1; size_main = last_byte - first_byte - 1; prefix_mask = 1 << prefixbits; prefix_last = 256; } if ( postfixbits != 7 ) { /* Last byte in source contains a few odd bits */ hard_postfix = 1; postfix_mask = 1; postfix_last = 2 << postfixbits; } else { /* Last byte in source is used completely */ hard_postfix = 0; size_main++; } } else { /* Very narrow pixmap, fits in single first byte */ hard_prefix = 1; hard_postfix = 0; size_main = 0; prefix_mask = 1 << prefixbits; prefix_last = 1 << (prefixbits + gc->dstw); } advance_src = gc->src_linelen - last_byte + first_byte - 1; advance_dst = psd->linelen - gc->dstw; if ( byte2wordmask == 0 ) init_wordmask_lookup(&byte2wordmask); DRAWON; for ( y=0; y < gc->dsth; y++ ) { /* Do pixels of partial first byte */ if ( hard_prefix ) { for ( m=prefix_mask; m < prefix_last; m <<= 1 ) { if ( m & *src ) *dst++ = gc->fg_color; else *dst++ = gc->bg_color; } src++; } /* Do all pixles of main part one byte at a time */ for ( t=0; t < size_main; t++ ) { maskp = byte2wordmask + 8 * (*src++); *dst++ = gc->bg_color ^ (*maskp++ & xor_color); *dst++ = gc->bg_color ^ (*maskp++ & xor_color); *dst++ = gc->bg_color ^ (*maskp++ & xor_color); *dst++ = gc->bg_color ^ (*maskp++ & xor_color); *dst++ = gc->bg_color ^ (*maskp++ & xor_color); *dst++ = gc->bg_color ^ (*maskp++ & xor_color); *dst++ = gc->bg_color ^ (*maskp++ & xor_color); *dst++ = gc->bg_color ^ (*maskp++ & xor_color); } /* Do last few bits of line */ if ( hard_postfix ) { for ( m=postfix_mask; m < postfix_last; m <<= 1 ) { if ( *src & m ) *dst++ = gc->fg_color; else *dst++ = gc->bg_color; } src++; } src += advance_src; dst += advance_dst; } DRAWOFF; } static unsigned short *low2scale = 0, *high2scale = 0; static void drawarea_alphamap(PSD psd, driver_gc_t *gc) { ADDR8 src, dst, alpha; unsigned short psl, psh, pd; unsigned char as, ad; int x, y; if ( low2scale == 0 ) init_alpha_lookup(&low2scale,&high2scale); src = (ADDR8)(((ADDR16)gc->pixels) + gc->srcx + gc->src_linelen * gc->srcy); dst = (ADDR8)(((ADDR16)psd->addr) + psd->linelen * gc->dsty + gc->dstx); alpha = ((ADDR8)gc->misc) + gc->src_linelen * gc->srcy + gc->srcx; DRAWON; for ( y=0; y < gc->dsth; y++ ) { for ( x=0; x < gc->dstw; x++ ) { as = (*alpha++) >> 3; ad = 31 - as; psl = low2scale[(as<<8)|*src++]; psh = high2scale[(as<<8)|*src++]; pd = low2scale[(ad<<8)|dst[0]] + high2scale[(ad<<8)|dst[1]]; *((unsigned short *)dst)++ = psl + psh + pd; } } DRAWOFF; } static void drawarea_alphacol(PSD psd, driver_gc_t *gc) { ADDR8 dst, alpha; unsigned short col_low, col_high, psl, psh, pd; unsigned char as, ad; int x, y; if ( low2scale == 0 ) init_alpha_lookup(&low2scale,&high2scale); dst = (ADDR8)(((ADDR16)psd->addr) + psd->linelen * gc->dsty + gc->dstx); alpha = ((ADDR8)gc->misc) + gc->src_linelen * gc->srcy + gc->srcx; col_low = gc->bg_color & 0xff; col_high = ( gc->bg_color >> 8 ) & 0xff; DRAWON; for ( y=0; y < gc->dsth; y++ ) { for ( x=0; x < gc->dstw; x++ ) { as = (*alpha++) >> 3; if ( as ) { if ( (ad = 31 - as) ) { psl = low2scale[(as<<8)|col_low]; psh = high2scale[(as<<8)|col_high]; pd = low2scale[(ad<<8)|dst[0]] + high2scale[(ad<<8)|dst[1]]; *((unsigned short *)dst)++ = psl + psh + pd; } else { *((unsigned short *)dst)++ = gc->bg_color; } } } } DRAWOFF; } static void linear16_drawarea(PSD psd, driver_gc_t *gc, int op) { ADDR16 src16, dst, rsrc, rdst; int linesize, x, y; unsigned short pcol; assert(psd->addr != 0); /*assert(gc->dstw <= gc->srcw);*/ assert(gc->dstx >= 0 && gc->dstx+gc->dstw <= psd->xres); /*assert(gc->dsty >= 0 && gc->dsty+gc->dsth <= psd->yres);*/ /*assert(gc->srcx >= 0 && gc->srcx+gc->dstw <= gc->srcw);*/ assert(gc->srcy >= 0); #if 0 op = GD_AREA_COPY; printf("DrawArea op=%d x=%d y=%d\n",op,gc->x,gc->y); #endif if ( op == PSDOP_COPY ) op = gc->gr_usebg ? PSDOP_COPYALL : PSDOP_COPYTRANS; switch ( op ) { case PSDOP_COPYALL: linesize = 2 * gc->dstw; src16 = ((ADDR16)gc->pixels) + gc->srcx + gc->src_linelen * gc->srcy; dst = ((ADDR16)psd->addr) + gc->dstx + psd->linelen * gc->dsty; DRAWON; for ( y=1; y < gc->dsth; y++ ) { memcpy(dst,src16,linesize); src16 += gc->src_linelen; dst += psd->linelen; } memcpy(dst,src16,linesize); /* To be seriously ANSI */ DRAWOFF; break; case PSDOP_COPYTRANS: src16 = ((ADDR16)gc->pixels) + gc->srcx + gc->src_linelen * gc->srcy; dst = ((ADDR16)psd->addr) + gc->dstx + psd->linelen * gc->dsty; DRAWON; for ( y=0; y < gc->dsth; y++ ) { rdst = dst; rsrc = src16; for ( x=0; x < gc->dstw; x++ ) { pcol = *rsrc++; if ( pcol == gc->bg_color ) rdst++; else *rdst++ = pcol; } dst += psd->linelen; src16 += gc->src_linelen; } DRAWOFF; break; case PSDOP_ALPHAMAP: drawarea_alphamap(psd,gc); break; case PSDOP_ALPHACOL: drawarea_alphacol(psd,gc); break; case PSDOP_PIXMAP_COPYALL: pixmap_copyall(psd,gc); break; } } #endif /* USE_DRAWAREA*/ SUBDRIVER fblinear16 = { linear16_init, linear16_drawpixel, linear16_readpixel, linear16_drawhorzline, linear16_drawvertline, gen_fillrect, linear16_blit, #if USE_DRAWAREA linear16_drawarea, #else NULL, #endif linear16_stretchblit };