double C1 = 0.2930;
double C2 = 0.4140;
double begin = 0.7070;
- gfxline_t* line = (gfxline_t*)rfx_calloc(sizeof(gfxline_t)*9);
+ gfxline_t** line = (gfxline_t**)rfx_calloc(sizeof(gfxline_t*)*9);
int t;
- line[0].type = gfx_moveTo;
- line[0].x = x+begin*rx;
- line[0].y = y+begin*ry;
+ for(t=0;t<9;t++) {
+ line[t] = rfx_calloc(sizeof(gfxline_t));
+ }
+ line[0]->type = gfx_moveTo;
+ line[0]->x = x+begin*rx;
+ line[0]->y = y+begin*ry;
for(t=1;t<9;t++) {
- line[t-1].next = &line[t];
- line[t].type = gfx_splineTo;
+ line[t-1]->next = line[t];
+ line[t]->type = gfx_splineTo;
}
- line[t].next = 0;
+ line[8]->next = 0;
#define R(nr,cx,cy,mx,my) \
- line[nr].sx = line[nr-1].x + (cx); \
- line[nr].sy = line[nr-1].y + (cy); \
- line[nr].x = line[nr].sx + (mx); \
- line[nr].y = line[nr].sy + (my);
+ line[nr]->sx = line[nr-1]->x + (cx); \
+ line[nr]->sy = line[nr-1]->y + (cy); \
+ line[nr]->x = line[nr]->sx + (mx); \
+ line[nr]->y = line[nr]->sy + (my);
R(1, -C1*rx, C1*ry, -C2*rx, 0);
R(2, -C2*rx, 0, -C1*rx, -C1*ry);
R(3, -C1*rx, -C1*ry, 0, -C2*ry);
R(6, C2*rx, 0, C1*rx, C1*ry);
R(7, C1*rx, C1*ry, 0, C2*ry);
R(8, 0, C2*ry, -C1*rx, C1*ry);
- return line;
+ gfxline_t*l = line[0];
+ free(line);
+ return l;
}
gfxbbox_t* gfxline_isrectangle(gfxline_t*_l)