{
renderline_t*lines;
bitmap_t*bitmaps;
- char antialize;
+ int antialize;
int multiply;
int width2,height2;
int shapes;
}
}
#define PI 3.14159265358979
-static void add_solidline(RENDERBUF*buf, double x1, double y1, double x2, double y2, int width, renderpoint_t*p)
+static void add_solidline(RENDERBUF*buf, double x1, double y1, double x2, double y2, double width, renderpoint_t*p)
{
renderbuf_internal*i = (renderbuf_internal*)buf->internal;
#else
/* That's what Macromedia's Player seems to do at zoom level 0. */
/* TODO: needs testing */
- if(width<20)
- width = 20;
+
+ /* TODO: how does this interact with scaling? */
+ if(width * i->multiply < 20)
+ width = 20 / i->multiply;
#endif
sd = (double)dx*(double)dx+(double)dy*(double)dy;
return 0;
}
-void swf_Render_Init(RENDERBUF*buf, int posx, int posy, int width, int height, char antialize, int multiply)
+void swf_Render_Init(RENDERBUF*buf, int posx, int posy, int width, int height, int antialize, int multiply)
{
renderbuf_internal*i;
int y;
buf->posy = posy;
buf->internal = (renderbuf_internal*)rfx_calloc(sizeof(renderbuf_internal));
i = (renderbuf_internal*)buf->internal;
- i->antialize = !!antialize;
- i->multiply = antialize?multiply*2:multiply;
- i->height2 = antialize?2*buf->height:buf->height;
- i->width2 = antialize?2*buf->width:buf->width;
+ if(antialize < 1)
+ antialize = 1;
+ i->antialize = antialize;
+ i->multiply = multiply*antialize;
+ i->height2 = antialize*buf->height;
+ i->width2 = antialize*buf->width;
i->lines = (renderline_t*)rfx_alloc(i->height2*sizeof(renderline_t));
for(y=0;y<i->height2;y++) {
memset(&i->lines[y], 0, sizeof(renderline_t));
void swf_Process(RENDERBUF*dest, U32 clipdepth);
+double matrixsize(MATRIX*m)
+{
+ double l1 = sqrt((m->sx /65536.0) * (m->sx /65536.0) + (m->r0 /65536.0) * (m->r0/65536.0) );
+ double l2 = sqrt((m->r1 /65536.0) * (m->r1 /65536.0) + (m->sy /65536.0) * (m->sy/65536.0) );
+ return sqrt(l1*l2);
+}
+
void swf_RenderShape(RENDERBUF*dest, SHAPE2*shape, MATRIX*m, CXFORM*c, U16 _depth,U16 _clipdepth)
{
renderbuf_internal*i = (renderbuf_internal*)dest->internal;
SHAPE2* lshape = 0;
renderpoint_t p, lp;
U32 clipdepth;
+ double widthmultiply = matrixsize(m);
memset(&p, 0, sizeof(renderpoint_t));
memset(&lp, 0, sizeof(renderpoint_t));
important for texture and gradient fill */
for(t=0;t<s2->numfillstyles;t++) {
MATRIX nm;
- swf_MatrixJoin(&nm, &s2->fillstyles[t].m, &mat); //TODO: is this the right order?
- nm.sx *= i->multiply;
+ swf_MatrixJoin(&nm, &mat, &s2->fillstyles[t].m);
+ /*nm.sx *= i->multiply;
nm.sy *= i->multiply;
nm.r0 *= i->multiply;
nm.r1 *= i->multiply;
nm.tx *= i->multiply;
- nm.ty *= i->multiply;
+ nm.ty *= i->multiply;*/
s2->fillstyles[t].m = nm;
}
}
lp.depth = (_depth << 16)+1;
}
+
while(line)
{
int x1,y1,x2,y2,x3,y3;
if(line->linestyle && ! clipdepth) {
lp.shapeline = &lshape->lines[line->linestyle-1];
- add_solidline(dest, x1, y1, x3, y3, shape->linestyles[line->linestyle-1].width, &lp);
+ add_solidline(dest, x1, y1, x3, y3, shape->linestyles[line->linestyle-1].width * widthmultiply, &lp);
lp.depth++;
}
if(line->fillstyle0 || line->fillstyle1) {
if(line->linestyle && ! clipdepth) {
lp.shapeline = &lshape->lines[line->linestyle-1];
- add_solidline(dest, xx, yy, nx, ny, shape->linestyles[line->linestyle-1].width, &lp);
+ add_solidline(dest, xx, yy, nx, ny, shape->linestyles[line->linestyle-1].width * widthmultiply, &lp);
lp.depth++;
}
if(line->fillstyle0 || line->fillstyle1) {
} while(++x<x2);
}
+
static void fill_solid(RGBA*line, int*z, int y, int x1, int x2, RGBA col, U32 depth)
{
int x = x1;
}
}
-static void fill_bitmap(RGBA*line, int*z, int y, int x1, int x2, MATRIX*m, bitmap_t*b, int clipbitmap, U32 depth)
+static void fill_bitmap(RGBA*line, int*z, int y, int x1, int x2, MATRIX*m, bitmap_t*b, int clipbitmap, U32 depth, double fmultiply)
{
int x = x1;
- double m11=m->sx/65536.0, m21=m->r1/65536.0;
- double m12=m->r0/65536.0, m22=m->sy/65536.0;
- double rx = m->tx/20.0;
- double ry = m->ty/20.0;
+
+ double m11= m->sx*fmultiply/65536.0, m21= m->r1*fmultiply/65536.0;
+ double m12= m->r0*fmultiply/65536.0, m22= m->sy*fmultiply/65536.0;
+ double rx = m->tx*fmultiply/20.0;
+ double ry = m->ty*fmultiply/20.0;
+
double det = m11*m22 - m12*m21;
if(fabs(det) < 0.0005) {
/* x direction equals y direction- the image is invisible */
return;
}
det = 20.0/det;
-
+
if(!b->width || !b->height) {
fill_solid(line, z, y, x1, x2, color_red, depth);
return;
} else {
xx %= b->width;
yy %= b->height;
+ if(xx<0) xx += b->width;
+ if(yy<0) yy += b->height;
}
col = b->data[yy*b->width+xx];
fprintf(stderr, "Shape references unknown bitmap %d\n", f->id_bitmap);
fill_solid(line, zline, y, x1, x2, color_red, l->p->depth);
} else {
- fill_bitmap(line, zline, y, x1, x2, &f->m, b, FILL_CLIPPED?1:0, l->p->depth);
+ fill_bitmap(line, zline, y, x1, x2, &f->m, b, FILL_CLIPPED?1:0, l->p->depth, i->multiply);
}
} else {
fprintf(stderr, "Undefined fillmode: %02x\n", f->type);
endx = 0;
if(clipdepth) {
- /* for clipping, the inverse is filled */
+ /* for clipping, the inverse is filled
+ TODO: lastx!=startx only at the start of the loop,
+ so this might be moved up
+ */
fill_clip(line, zline, y, lastx, startx, clipdepth);
}
change_state(y, &fillstate, p);
-
+
fill(dest, line, zline, y, startx, endx, &fillstate, clipdepth);
/* if(y == 0 && startx == 232 && endx == 418) {
printf("ymin=%d ymax=%d\n", i->ymin, i->ymax);
break;
}
if(clipdepth) {
+ /* TODO: is lastx *ever* != i->width2 here? */
fill_clip(line, zline, y, lastx, i->width2, clipdepth);
}
free_layers(&fillstate);
renderbuf_internal*i = (renderbuf_internal*)dest->internal;
RGBA* img = (RGBA*)rfx_alloc(sizeof(RGBA)*dest->width*dest->height);
int y;
- RGBA*line2=0;
-
- for(y=0;y<i->height2;y++) {
- int n;
- RGBA*line = &i->img[y*i->width2];
-
- if(!i->antialize) {
- memcpy(&img[y*dest->width], line, sizeof(RGBA)*dest->width);
- } else {
- if(y&1) {
- int x;
- RGBA*line1=line;
- RGBA* p;
- if(!line2)
- line2=line1;
- p = &img[(y/2)*dest->width];
- for(x=0;x<dest->width;x++) {
- RGBA*p1 = &line1[x*2];
- RGBA*p2 = &line1[x*2+1];
- RGBA*p3 = &line2[x*2];
- RGBA*p4 = &line2[x*2+1];
- p[x].r = (p1->r + p2->r + p3->r + p4->r)/4;
- p[x].g = (p1->g + p2->g + p3->g + p4->g)/4;
- p[x].b = (p1->b + p2->b + p3->b + p4->b)/4;
- p[x].a = (p1->a + p2->a + p3->a + p4->a)/4;
- }
- }
- }
- line2=line;
+ int antialize = i->antialize;
+
+ if(antialize <= 1) /* no antializing */ {
+ for(y=0;y<i->height2;y++) {
+ RGBA*line = &i->img[y*i->width2];
+ memcpy(&img[y*dest->width], line, sizeof(RGBA)*dest->width);
+ }
+ } else {
+ RGBA**lines = (RGBA**)rfx_calloc(sizeof(RGBA*)*antialize);
+ int q = antialize*antialize;
+ int ypos = 0;
+ for(y=0;y<i->height2;y++) {
+ int n;
+ ypos = y % antialize;
+ lines[ypos] = &i->img[y*i->width2];
+ if(ypos == antialize-1) {
+ RGBA*out = &img[(y / antialize)*dest->width];
+ int x;
+ int r,g,b,a;
+ for(x=0;x<dest->width;x++) {
+ int xpos = x*antialize;
+ int yp;
+ U32 r=0,g=0,b=0,a=0;
+ for(yp=0;yp<antialize;yp++) {
+ RGBA*lp = &lines[yp][xpos];
+ int xp;
+ for(xp=0;xp<antialize;xp++) {
+ RGBA*p = &lp[xp];
+ r += p->r;
+ g += p->g;
+ b += p->b;
+ a += p->a;
+ }
+ }
+ out[x].r = r / q;
+ out[x].g = g / q;
+ out[x].b = b / q;
+ out[x].a = a / q;
+ }
+ }
+ }
+ rfx_free(lines);
}
-
return img;
}
textcallbackblock_t * info = (textcallbackblock_t*)self;
font_t*font = 0;
int t;
- if(!info->idtable[fontid].obj.font) {
+ if(info->idtable[fontid].type != font_type) {
+ fprintf(stderr, "ID %d is not a font\n", fontid);
+ return;
+ } else if(!info->idtable[fontid].obj.font) {
fprintf(stderr, "Font %d unknown\n", fontid);
return;
} else {
m.sy = (m.sy * fontsize) / 1024;
m.r0 = (m.r0 * fontsize) / 1024;
m.r1 = (m.r1 * fontsize) / 1024;
- m.tx += p.x;
- m.ty += p.y;
+ m.tx = p.x;
+ m.ty = p.y;
if(chars[t]<0 || chars[t]>= font->numchars) {
fprintf(stderr, "Character out of range: %d\n", chars[t]);
} else {
SHAPE2*shape = font->glyphs[chars[t]];
shape->fillstyles[0].color = *color; //q&d
- printf("Rendering char %d (size %d, x:%d, y:%d) color:%02x%02x%02x%02x\n", chars[t], fontsize, x, y,
+ /*printf("Rendering char %d (size %d, x:%d, y:%d) color:%02x%02x%02x%02x\n", chars[t], fontsize, x, y,
color->a, color->r, color->g, color->b);
swf_DumpMatrix(stdout, &m);
- swf_DumpShape(shape);
+ swf_DumpShape(shape);*/
swf_RenderShape(info->buf, shape, &m, info->cxform, info->depth, info->clipdepth);
}
}
swf_GetPlaceObject(tag, &p);
/* TODO: add move and deletion */
placements[numplacements++] = p;
- swf_PlaceObjectFree(&p); //dirty! but it only removes items we don't need
+ swf_PlaceObjectFree(&p); //dirty! but it only frees fields we don't use
}
tag = tag->next;
}
swf_GetU16(tag);
swf_GetRect(tag,0);
swf_GetMatrix(tag,&m);
- swf_MatrixJoin(&info.m, &m, &p->matrix);
+ swf_MatrixJoin(&info.m, &p->matrix, &m);
/*printf("Text matrix:\n");
swf_DumpMatrix(stdout, &m);
printf("Placement matrix:\n");
- swf_DumpMatrix(stdout, &p->matrix);*/
+ swf_DumpMatrix(stdout, &p->matrix);
+ printf("Final matrix:\n");
+ swf_DumpMatrix(stdout, &info.m);*/
info.idtable = idtable;
info.depth = p->depth;