#include "fitz-base.h" #include "fitz-world.h" #include "fitz-draw.h" static fz_error * line(fz_gel *gel, fz_matrix *ctm, float x0, float y0, float x1, float y1) { float tx0 = ctm->a * x0 + ctm->c * y0 + ctm->e; float ty0 = ctm->b * x0 + ctm->d * y0 + ctm->f; float tx1 = ctm->a * x1 + ctm->c * y1 + ctm->e; float ty1 = ctm->b * x1 + ctm->d * y1 + ctm->f; return fz_insertgel(gel, tx0, ty0, tx1, ty1); } static fz_error * bezier(fz_gel *gel, fz_matrix *ctm, float flatness, float xa, float ya, float xb, float yb, float xc, float yc, float xd, float yd) { fz_error *error; float dmax; float xab, yab; float xbc, ybc; float xcd, ycd; float xabc, yabc; float xbcd, ybcd; float xabcd, yabcd; /* termination check */ dmax = ABS(xa - xb); dmax = MAX(dmax, ABS(ya - yb)); dmax = MAX(dmax, ABS(xd - xc)); dmax = MAX(dmax, ABS(yd - yc)); if (dmax < flatness) return line(gel, ctm, xa, ya, xd, yd); xab = xa + xb; yab = ya + yb; xbc = xb + xc; ybc = yb + yc; xcd = xc + xd; ycd = yc + yd; xabc = xab + xbc; yabc = yab + ybc; xbcd = xbc + xcd; ybcd = ybc + ycd; xabcd = xabc + xbcd; yabcd = yabc + ybcd; xab *= 0.5f; yab *= 0.5f; xbc *= 0.5f; ybc *= 0.5f; xcd *= 0.5f; ycd *= 0.5f; xabc *= 0.25f; yabc *= 0.25f; xbcd *= 0.25f; ybcd *= 0.25f; xabcd *= 0.125f; yabcd *= 0.125f; error = bezier(gel, ctm, flatness, xa, ya, xab, yab, xabc, yabc, xabcd, yabcd); if (error) return error; return bezier(gel, ctm, flatness, xabcd, yabcd, xbcd, ybcd, xcd, ycd, xd, yd); } fz_error * fz_fillpath(fz_gel *gel, fz_pathnode *path, fz_matrix ctm, float flatness) { fz_error *error; float x1, y1, x2, y2, x3, y3; float cx = 0; float cy = 0; float bx = 0; float by = 0; int i = 0; while (i < path->len) { switch (path->els[i++].k) { case FZ_MOVETO: x1 = path->els[i++].v; y1 = path->els[i++].v; cx = bx = x1; cy = by = y1; break; case FZ_LINETO: x1 = path->els[i++].v; y1 = path->els[i++].v; error = line(gel, &ctm, cx, cy, x1, y1); if (error) return error; cx = x1; cy = y1; break; case FZ_CURVETO: x1 = path->els[i++].v; y1 = path->els[i++].v; x2 = path->els[i++].v; y2 = path->els[i++].v; x3 = path->els[i++].v; y3 = path->els[i++].v; error = bezier(gel, &ctm, flatness, cx, cy, x1, y1, x2, y2, x3, y3); if (error) return error; cx = x3; cy = y3; break; case FZ_CLOSEPATH: error = line(gel, &ctm, cx, cy, bx, by); if (error) return error; cx = bx; cy = by; break; } } if (i && (cx != bx || cy != by)) { error = line(gel, &ctm, cx, cy, bx, by); if (error) return error; } return nil; }