//////////////////////////////////////////////////////////// // Flash Plugin and Player // Copyright (C) 1998 Olivier Debon // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public License // as published by the Free Software Foundation; either version 2 // of the License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. // /////////////////////////////////////////////////////////////// // Author : Olivier Debon // #include "swf.h" #include "graphic32.h" extern unsigned char SQRT[]; #define FULL_AA #define PRINT 0 typedef unsigned long TYPE; GraphicDevice32::GraphicDevice32(FlashDisplay *fd) : GraphicDevice(fd) { } long GraphicDevice32::allocColor(Color color) { return (color.red)<<16 | (color.green)<<8 | (color.blue); } void GraphicDevice32::clearCanvas() { TYPE pixel; TYPE *point,*p; long h, w,n; if (!bgInitialized) return; pixel = allocColor(backgroundColor); point = (TYPE *)(canvasBuffer + clip_rect.ymin * bpl) + clip_rect.xmin; w = clip_rect.xmax - clip_rect.xmin; h = clip_rect.ymax - clip_rect.ymin; while (h--) { p = point; n = w; while (n--) { *p++ = pixel; } point = (TYPE *)((char *)point + bpl); } flashDisplay->flash_refresh = 1; flashDisplay->clip_x = clip_rect.xmin; flashDisplay->clip_y = clip_rect.ymin; flashDisplay->clip_width = clip_rect.xmax-clip_rect.xmin; flashDisplay->clip_height = clip_rect.ymax-clip_rect.ymin; } #define RED_MASK 0xFF0000 #define GREEN_MASK 0x00FF00 #define BLUE_MASK 0x0000FF /* alpha = 0 : select c1, alpha = 255 select c2 */ static inline unsigned long mix_alpha(unsigned long c1, unsigned long c2, int alpha) { long r1,r2,r; long g1,g2,g; long b1,b2,b; r1 = c1 & RED_MASK; r2 = c2 & RED_MASK; r = (((r2-r1)*alpha + r1 * 256) >> 8) & RED_MASK; g1 = c1 & GREEN_MASK; g2 = c2 & GREEN_MASK; g = (((g2-g1)*alpha + g1 * 256) >> 8) & GREEN_MASK; b1 = c1 & BLUE_MASK; b2 = c2 & BLUE_MASK; b = (((b2-b1)*alpha + b1 * 256) >> 8) & BLUE_MASK; return (r|g|b); } void GraphicDevice32::fillLineAA(FillStyleDef *f, long y, long start, long end) { register long n; TYPE *line; TYPE *point,pixel; unsigned int alpha, start_alpha,end_alpha; if (clip(y,start,end)) return; line = (TYPE *)(canvasBuffer + bpl*y); alpha = f->color.alpha; pixel = f->color.pixel; if (alpha == ALPHA_OPAQUE) { start_alpha = 255 - ((start & (FRAC-1)) << (8-FRAC_BITS)); end_alpha = (end & (FRAC-1)) << (8-FRAC_BITS); start >>= FRAC_BITS; end >>= FRAC_BITS; point = &line[start]; if (start == end) { *point = mix_alpha(*point, pixel, start_alpha + end_alpha - 255); } else { n = end-start; if (start_alpha < 255) { *point = mix_alpha(*point, pixel, start_alpha); point++; n--; } while (n > 0) { *point = pixel; point++; n--; } if (end_alpha > 0) { *point = mix_alpha(*point, pixel, end_alpha); } } } else { start_alpha = 255 - ((start & (FRAC-1)) << (8-FRAC_BITS)); end_alpha = (end & (FRAC-1)) << (8-FRAC_BITS); start >>= FRAC_BITS; end >>= FRAC_BITS; point = &line[start]; if (start == end) { *point = mix_alpha(*point, pixel, ((start_alpha + end_alpha - 255) * alpha) >> 8); } else { n = end-start; if (start_alpha < 255) { *point = mix_alpha(*point, pixel, (start_alpha * alpha) >> 8); point++; n--; } while (n > 0) { *point = mix_alpha(*point, pixel, alpha); point++; n--; } if (end_alpha > 0) { *point = mix_alpha(*point, pixel, (end_alpha * alpha) >> 8); } } } } void GraphicDevice32::fillLine(FillStyleDef *f, long y, long start, long end) { register long n; TYPE *line,*point; TYPE pixel; unsigned int alpha; if (clip(y,start,end)) return; start >>= FRAC_BITS; end >>= FRAC_BITS; line = (TYPE *)(canvasBuffer + bpl*y); point = &line[start]; n = end-start; pixel = f->color.pixel; alpha = f->color.alpha; if (alpha == ALPHA_OPAQUE) { while (n--) { *point = pixel; point++; } } else { while (n--) { *point = mix_alpha(*point, pixel, alpha); point++; } } } void GraphicDevice32::fillLineBitmap(FillStyleDef *f, long y, long start, long end) { int n; long x1,y1,dx,dy; Matrix *m = &f->bitmap_matrix; Bitmap *b = f->bitmap; unsigned char *pixels; TYPE *p; Color *cmap; long pixbpl; TYPE pixel; int offset; unsigned char *alpha_table; /* safety test) */ if (!b) return; if (clip(y,start,end)) return; start /= FRAC; end /= FRAC; n = end - start; p = (TYPE *) (this->canvasBuffer + this->bpl*y + start * sizeof(TYPE)); /* the coordinates in the image are normalized to 16 bits */ x1 = (long) (m->a * start + m->b * y + m->tx); y1 = (long) (m->c * start + m->d * y + m->ty); dx = (long) (m->a); dy = (long) (m->c); pixels = b->pixels; pixbpl = b->bpl; cmap = f->cmap; if (b->alpha_buf == NULL) { while (n) { if (x1 >= 0 && y1 >= 0 && (x1 >> 16) < b->width && (y1 >> 16) < b->height) { pixel = cmap[pixels[(y1 >> 16) * pixbpl + (x1 >> 16)]].pixel; *p = pixel; } x1 += dx; y1 += dy; p++; n--; } } else if (f->alpha_table) { alpha_table = f->alpha_table; while (n) { if (x1 >= 0 && y1 >= 0 && (x1 >> 16) < b->width && (y1 >> 16) < b->height) { offset = (y1 >> 16) * pixbpl + (x1 >> 16); pixel = cmap[pixels[offset]].pixel; *p = mix_alpha(*p, pixel, alpha_table[b->alpha_buf[offset]]); } x1 += dx; y1 += dy; p++; n--; } } else { while (n) { if (x1 >= 0 && y1 >= 0 && (x1 >> 16) < b->width && (y1 >> 16) < b->height) { offset = (y1 >> 16) * pixbpl + (x1 >> 16); pixel = cmap[pixels[offset]].pixel; *p = mix_alpha(*p, pixel, b->alpha_buf[offset]); } x1 += dx; y1 += dy; p++; n--; } } } void GraphicDevice32::fillLineLG(Gradient *grad, long y, long start, long end) { long dr,r,v,r2; register long n; TYPE *line; TYPE *point; Color *cp,*ramp; Matrix *m = &grad->imat; unsigned int start_alpha,end_alpha; if (clip(y,start,end)) return; start_alpha = 255 - ((start & (FRAC-1)) << (8-FRAC_BITS)); end_alpha = (end & (FRAC-1)) << (8-FRAC_BITS); start /= FRAC; end /= FRAC; n = end-start; r = (long) (m->a * start + m->b * y + m->tx); dr = (long) (m->a); ramp = grad->ramp; line = (TYPE *)(canvasBuffer + bpl*y); point = &line[start]; r2 = r + n * dr; if ( ((r | r2) & ~255) == 0 ) { if (!grad->has_alpha) { #ifdef FULL_AA if (start_alpha < 255) { v = r>>16; *point = mix_alpha(*point, (TYPE)ramp[v].pixel, start_alpha); point++; r += dr; n--; } #endif /* FULL_AA */ while (n>0) { v = r>>16; *point = (TYPE)ramp[v].pixel; point++; r += dr; n--; } #ifdef FULL_AA if (end_alpha > 0) { v = r>>16; *point = mix_alpha(*point, (TYPE)ramp[v].pixel, end_alpha); } #endif /* FULL_AA */ } else { while (n--) { v = r>>16; cp = &ramp[v]; *point = mix_alpha(*point, cp->pixel, cp->alpha); point++; r += dr; } } } else { if (!grad->has_alpha) { #ifdef FULL_AA if (start_alpha < 255) { v = r>>16; if (v < 0) v = 0; else if (v > 255) v = 255; *point = mix_alpha(*point, (TYPE)ramp[v].pixel, start_alpha); point++; r += dr; n--; } #endif /* FULL_AA */ while (n>0) { v = r>>16; if (v < 0) v = 0; else if (v > 255) v = 255; *point = (TYPE)ramp[v].pixel; point++; r += dr; n--; } #ifdef FULL_AA if (end_alpha > 0) { v = r>>16; if (v < 0) v = 0; else if (v > 255) v = 255; *point = mix_alpha(*point, (TYPE)ramp[v].pixel, end_alpha); } #endif /* FULL_AA */ } else { while (n--) { v = r>>16; if (v < 0) v = 0; else if (v > 255) v = 255; cp = &ramp[v]; *point = mix_alpha(*point, cp->pixel, cp->alpha); point++; r += dr; } } } } void GraphicDevice32::fillLineRG(Gradient *grad, long y, long start, long end) { long X,dx,r,Y,dy; long dist2; register long n; Color *cp,*ramp; TYPE *line; TYPE *point; Matrix *m = &grad->imat; unsigned int start_alpha,end_alpha; if (clip(y,start,end)) return; start_alpha = 255 - ((start & (FRAC-1)) << (8-FRAC_BITS)); end_alpha = (end & (FRAC-1)) << (8-FRAC_BITS); start /= FRAC; end /= FRAC; n = end-start; X = (long) (m->a * start + m->b * y + m->tx); Y = (long) (m->c * start + m->d * y + m->ty); dx = (long) (m->a); dy = (long) (m->c); ramp = grad->ramp; line = (TYPE *)(canvasBuffer + bpl*y); point = &line[start]; if (!grad->has_alpha) { #ifdef FULL_AA if (start == end) { dist2 = ((X>>16)*(X>>16))+((Y>>16)*(Y>>16)); if ((unsigned long)dist2 >= 65536) { r = 255; } else { r = SQRT[dist2]; } *point = mix_alpha(*point, (TYPE)ramp[r].pixel, start_alpha + end_alpha - 255); } else { if (start_alpha < 255) { dist2 = ((X>>16)*(X>>16))+((Y>>16)*(Y>>16)); if ((unsigned long)dist2 >= 65536) { r = 255; } else { r = SQRT[dist2]; } *point = mix_alpha(*point, (TYPE)ramp[r].pixel, start_alpha); point++; X += dx; Y += dy; n--; } #endif /* FULL_AA */ while (n>0) { dist2 = ((X>>16)*(X>>16))+((Y>>16)*(Y>>16)); if ((unsigned long)dist2 >= 65536) { r = 255; } else { r= SQRT[dist2]; } *point = (TYPE)ramp[r].pixel; point++; X += dx; Y += dy; n--; } #ifdef FULL_AA if (end_alpha > 0) { dist2 = ((X>>16)*(X>>16))+((Y>>16)*(Y>>16)); if ((unsigned long)dist2 >= 65536) { r = 255; } else { r= SQRT[dist2]; } *point = mix_alpha(*point, (TYPE)ramp[r].pixel, end_alpha); } } #endif /* FULL_AA */ } else { while (n--) { dist2 = ((X>>16)*(X>>16))+((Y>>16)*(Y>>16)); if ((unsigned long)dist2 >= 65536) { r = 255; } else { r= SQRT[dist2]; } cp = &ramp[r]; *point = mix_alpha(*point, cp->pixel, cp->alpha); point++; X += dx; Y += dy; } } } void GraphicDevice32::drawLine(long x1, long y1, long x2, long y2, long width) { int n,adr,dx,dy,sx,color; register int a; register TYPE *pp; int alpha; x1 = (x1) >> FRAC_BITS; y1 = (y1) >> FRAC_BITS; x2 = (x2) >> FRAC_BITS; y2 = (y2) >> FRAC_BITS; if (y1 > y2 || (y1 == y2 && x1 > x2)) { long tmp; tmp=x1; x1=x2; x2=tmp; tmp=y1; y1=y2; y2=tmp; } if (y1 == y2 && (y1 < clip_rect.ymin || y1 > clip_rect.ymax)) return; if (x1 == x2 && (x1 < clip_rect.xmin || x1 > clip_rect.xmax)) return; if (x1 == x2 && y1 == y2) return; // Bad !!! if (y1 < clip_rect.ymin && y1 != y2) { x1 += (x2-x1)*(clip_rect.ymin-y1)/(y2-y1); y1 = clip_rect.ymin; } if (y2 > clip_rect.ymax && y1 != y2) { x2 -= (x2-x1)*(y2-clip_rect.ymax)/(y2-y1); y2 = clip_rect.ymax; } if (x1 < x2) { if (x1 < clip_rect.xmin && x1 != x2) { y1 += (y2-y1)*(clip_rect.xmin-x1)/(x2-x1); x1 = clip_rect.xmin; } if (x2 > clip_rect.xmax && x1 != x2) { y2 -= (y2-y1)*(x2-clip_rect.xmax)/(x2-x1); x2 = clip_rect.xmax; } } if (x1 > x2) { if (x2 < clip_rect.xmin && x2 != x1) { y2 -= (y2-y1)*(clip_rect.xmin-x2)/(x1-x2); x2 = clip_rect.xmin; } if (x1 > clip_rect.xmax && x2 != x1) { y1 += (y2-y1)*(x1-clip_rect.xmax)/(x1-x2); x1 = clip_rect.xmax; } } // Check again if (x1 == x2 && y1 == y2) return; if (x1 < clip_rect.xmin || x2 < clip_rect.xmin) return; if (y1 < clip_rect.ymin || y2 < clip_rect.ymin) return; if (x1 > clip_rect.xmax || x2 > clip_rect.xmax) return; if (y1 > clip_rect.ymax || y2 > clip_rect.ymax) return; sx=bpl >> 1; adr=(y1 * sx + x1); pp = (TYPE *)canvasBuffer + adr; dx = x2 - x1; dy = y2 - y1; color = allocColor(foregroundColor); alpha = foregroundColor.alpha; if (alpha == ALPHA_OPAQUE) { #define PUTPIXEL() \ { \ *pp=color; \ } #define DRAWLINE(dx,dy,inc_1,inc_2) \ n=dx;\ a=2*dy-dx;\ dy=2*dy;\ dx=2*dx-dy;\ do {\ PUTPIXEL();\ if (a>0) { pp+=(inc_1); a-=dx; }\ else { pp+=(inc_2); a+=dy; }\ } while (--n >= 0); /* fin macro */ if (dx == 0 && dy == 0) { PUTPIXEL(); } else if (dx > 0) { if (dx >= dy) { DRAWLINE(dx, dy, sx + 1, 1); } else { DRAWLINE(dy, dx, sx + 1, sx); } } else { dx = -dx; if (dx >= dy) { DRAWLINE(dx, dy, sx - 1, -1); } else { DRAWLINE(dy, dx, sx - 1, sx); } } #undef DRAWLINE #undef PUTPIXEL } else { #define PUTPIXEL() \ { \ *pp=mix_alpha(*pp,color,alpha); \ } #define DRAWLINE(dx,dy,inc_1,inc_2) \ n=dx;\ a=2*dy-dx;\ dy=2*dy;\ dx=2*dx-dy;\ do {\ PUTPIXEL();\ if (a>0) { pp+=(inc_1); a-=dx; }\ else { pp+=(inc_2); a+=dy; }\ } while (--n >= 0); /* fin macro */ if (dx == 0 && dy == 0) { PUTPIXEL(); } else if (dx > 0) { if (dx >= dy) { DRAWLINE(dx, dy, sx + 1, 1); } else { DRAWLINE(dy, dx, sx + 1, sx); } } else { dx = -dx; if (dx >= dy) { DRAWLINE(dx, dy, sx - 1, -1); } else { DRAWLINE(dy, dx, sx - 1, sx); } } #undef DRAWLINE #undef PUTPIXEL } }