X-Git-Url: http://git.asbjorn.biz/?p=swftools.git;a=blobdiff_plain;f=lib%2Fgfxpoly%2Fconvert.c;h=f67699ed76458dee9ece58437b59dfe06c39ad8a;hp=39d1164b46785108694c878faed2e0c1790f4dc1;hb=2391d7ae5d8a145a250a8b80ab8c93ba74eba030;hpb=163bdd5cab1758e4517e8365b3e40b5461d63640 diff --git a/lib/gfxpoly/convert.c b/lib/gfxpoly/convert.c index 39d1164..f67699e 100644 --- a/lib/gfxpoly/convert.c +++ b/lib/gfxpoly/convert.c @@ -1,68 +1,539 @@ #include #include -#include +#include #include "../gfxdevice.h" +#include "../mem.h" #include "poly.h" +#include "convert.h" +#include "wind.h" -static edge_t*edge_new(int x1, int y1, int x2, int y2) -{ - edge_t*s = malloc(sizeof(edge_t)); - s->a.x = x1; - s->a.y = y1; - s->b.x = x2; - s->b.y = y2; - s->next = 0; - return s; -} +/* factor that determines into how many line fragments a spline is converted */ +#define SUBFRACTION (2.4) -static inline void gfxpoly_add_edge(edge_t**list, double _x1, double _y1, double _x2, double _y2) +static inline int32_t convert_coord(double x, double z) { - int x1 = ceil(_x1); - int y1 = ceil(_y1); - int x2 = ceil(_x2); - int y2 = ceil(_y2); - if(x1!=x2 || y1!=y2) { - edge_t*s = edge_new(x1, y1, x2, y2); - s->next = *list; - *list = s; - } + /* we clamp to 26 bit because: + a) we use a (x1-x2) shortcut when comparing coordinates + b) we need to be able to multiply two coordinates and store them in a double w/o loss of precision + */ + x *= z; + if(x < -0x2000000) x = -0x2000000; + if(x > 0x1ffffff) x = 0x1ffffff; + return ceil(x); } -gfxpoly_t* gfxpoly_fillToPoly(gfxline_t*line) +static void convert_gfxline(gfxline_t*line, polywriter_t*w, double gridsize) { - edge_t*s = 0; - - /* factor that determines into how many line fragments a spline is converted */ - double subfraction = 2.4;//0.3 - - double lastx=0, lasty=0; assert(!line || line[0].type == gfx_moveTo); + double lastx=0,lasty=0; + double z = 1.0 / gridsize; while(line) { if(line->type == gfx_moveTo) { + if(line->next && line->next->type != gfx_moveTo && (line->x!=lastx || line->y!=lasty)) { + w->moveto(w, convert_coord(line->x,z), convert_coord(line->y,z)); + } } else if(line->type == gfx_lineTo) { - gfxpoly_add_edge(&s, lastx, lasty, line->x, line->y); + w->lineto(w, convert_coord(line->x,z), convert_coord(line->y,z)); } else if(line->type == gfx_splineTo) { int parts = (int)(sqrt(fabs(line->x-2*line->sx+lastx) + - fabs(line->y-2*line->sy+lasty))*subfraction); + fabs(line->y-2*line->sy+lasty))*SUBFRACTION); if(!parts) parts = 1; double stepsize = 1.0/parts; int i; for(i=0;ix*t*t + 2*line->sx*t*(1-t) + x*(1-t)*(1-t); - double y = line->y*t*t + 2*line->sy*t*(1-t) + y*(1-t)*(1-t); - gfxpoly_add_edge(&s, lastx, lasty, x, y); - lastx = x; - lasty = y; + double sx = (line->x*t*t + 2*line->sx*t*(1-t) + lastx*(1-t)*(1-t)); + double sy = (line->y*t*t + 2*line->sy*t*(1-t) + lasty*(1-t)*(1-t)); + w->lineto(w, convert_coord(sx,z), convert_coord(sy,z)); } - gfxpoly_add_edge(&s, lastx, lasty, line->x, line->y); + w->lineto(w, convert_coord(line->x,z), convert_coord(line->y,z)); } - lastx = line->x; - lasty = line->y; + lastx = line->x; + lasty = line->y; line = line->next; } +} + +static char* readline(FILE*fi) +{ + char c; + while(1) { + int l = fread(&c, 1, 1, fi); + if(!l) + return 0; + if(c!=10 || c!=13) + break; + } + char line[256]; + int pos = 0; + while(1) { + line[pos++] = c; + line[pos] = 0; + int l = fread(&c, 1, 1, fi); + if(!l || c==10 || c==13) { + return strdup(line); + } + } +} +static void convert_file(const char*filename, polywriter_t*w, double gridsize) +{ + FILE*fi = fopen(filename, "rb"); + if(!fi) { + perror(filename); + } + double z = 1.0 / gridsize; + int count = 0; + double g = 0; + double lastx=0,lasty=0; + while(1) { + char*line = readline(fi); + if(!line) + break; + double x,y; + char s[256]; + if(sscanf(line, "%lf %lf %s", &x, &y, (char*)&s) == 3) { + if(s && !strcmp(s,"moveto")) { + w->moveto(w, convert_coord(x,z), convert_coord(y,z)); + count++; + } else if(s && !strcmp(s,"lineto")) { + w->lineto(w, convert_coord(x,z), convert_coord(y,z)); + count++; + } else { + fprintf(stderr, "invalid command: %s\n", s); + } + } else if(sscanf(line, "%% gridsize %lf", &g) == 1) { + gridsize = g; + z = 1.0 / gridsize; + w->setgridsize(w, g); + } + free(line); + } + fclose(fi); + if(g) { + fprintf(stderr, "loaded %d points from %s (gridsize %f)\n", count, filename, g); + } else { + fprintf(stderr, "loaded %d points from %s\n", count, filename); + } +} + +typedef struct _compactpoly { + gfxpoly_t*poly; + point_t last; + point_t*points; + int num_points; + int points_size; + segment_dir_t dir; + char new; +} compactpoly_t; + +void finish_segment(compactpoly_t*data) +{ + if(data->num_points <= 1) + return; + point_t*p = malloc(sizeof(point_t)*data->num_points); + gfxpolystroke_t*s = rfx_calloc(sizeof(gfxpolystroke_t)); + s->next = data->poly->strokes; + data->poly->strokes = s; + s->num_points = s->points_size = data->num_points; + s->dir = data->dir; + s->points = p; + assert(data->dir != DIR_UNKNOWN); + if(data->dir == DIR_UP) { + int t; + int s = data->num_points; + for(t=0;tnum_points;t++) { + p[--s] = data->points[t]; + } + } else { + memcpy(p, data->points, sizeof(point_t)*data->num_points); + } +#ifdef CHECKS + int t; + for(t=0;tnum_points-1;t++) { + assert(p[t].y<=p[t+1].y); + } +#endif +} +static void compactmoveto(polywriter_t*w, int32_t x, int32_t y) +{ + compactpoly_t*data = (compactpoly_t*)w->internal; + point_t p; + p.x = x; + p.y = y; + if(p.x != data->last.x || p.y != data->last.y) { + data->new = 1; + } + data->last = p; +} +static void compactlineto(polywriter_t*w, int32_t x, int32_t y) +{ + compactpoly_t*data = (compactpoly_t*)w->internal; + point_t p; + p.x = x; + p.y = y; + if(p.x == data->last.x && p.y == data->last.y) + return; + + if((p.y < data->last.y && data->dir != DIR_UP) || + (p.y > data->last.y && data->dir != DIR_DOWN) || data->new) { + finish_segment(data); + data->dir = p.y > data->last.y ? DIR_DOWN : DIR_UP; + data->points[0] = data->last; + data->num_points = 1; + } + data->new = 0; + + if(data->points_size == data->num_points) { + data->points_size <<= 1; + assert(data->points_size > data->num_points); + data->points = rfx_realloc(data->points, sizeof(point_t)*data->points_size); + } + data->points[data->num_points++] = p; + data->last = p; +} +static void compactsetgridsize(polywriter_t*w, double gridsize) +{ + compactpoly_t*d = (compactpoly_t*)w->internal; + d->poly->gridsize = gridsize; +} +/*static int compare_stroke(const void*_s1, const void*_s2) +{ + gfxpolystroke_t*s1 = (gfxpolystroke_t*)_s1; + gfxpolystroke_t*s2 = (gfxpolystroke_t*)_s2; + return s1->points[0].y - s2->points[0].y; +}*/ +static void*compactfinish(polywriter_t*w) +{ + compactpoly_t*data = (compactpoly_t*)w->internal; + finish_segment(data); + //qsort(data->poly->strokes, data->poly->num_strokes, sizeof(gfxpolystroke_t), compare_stroke); + free(data->points); + gfxpoly_t*poly = data->poly; + free(w->internal);w->internal = 0; + return (void*)poly; +} +void gfxpolywriter_init(polywriter_t*w) +{ + w->moveto = compactmoveto; + w->lineto = compactlineto; + w->setgridsize = compactsetgridsize; + w->finish = compactfinish; + compactpoly_t*data = w->internal = rfx_calloc(sizeof(compactpoly_t)); + data->poly = rfx_calloc(sizeof(gfxpoly_t)); + data->poly->gridsize = 1.0; + data->last.x = data->last.y = 0; + data->num_points = 0; + data->points_size = 16; + data->new = 1; + data->dir = DIR_UNKNOWN; + data->points = (point_t*)rfx_alloc(sizeof(point_t)*data->points_size); + data->poly->strokes = 0; +} + +gfxpoly_t* gfxpoly_from_fill(gfxline_t*line, double gridsize) +{ + polywriter_t writer; + gfxpolywriter_init(&writer); + writer.setgridsize(&writer, gridsize); + convert_gfxline(line, &writer, gridsize); + return (gfxpoly_t*)writer.finish(&writer); +} +gfxpoly_t* gfxpoly_from_file(const char*filename, double gridsize) +{ + polywriter_t writer; + gfxpolywriter_init(&writer); + writer.setgridsize(&writer, gridsize); + convert_file(filename, &writer, gridsize); + return (gfxpoly_t*)writer.finish(&writer); +} +void gfxpoly_destroy(gfxpoly_t*poly) +{ + int t; + gfxpolystroke_t*stroke = poly->strokes; + while(stroke) { + gfxpolystroke_t*next = stroke->next; + free(stroke->points); + free(stroke); + stroke = next; + } + free(poly); +} + +typedef struct _polydraw_internal +{ + double lx, ly; + int32_t lastx, lasty; + int32_t x0, y0; + double z; + char last; + polywriter_t writer; +} polydraw_internal_t; + +static void polydraw_moveTo(gfxdrawer_t*d, gfxcoord_t _x, gfxcoord_t _y) +{ + polydraw_internal_t*i = (polydraw_internal_t*)d->internal; + int32_t x = convert_coord(_x, i->z); + int32_t y = convert_coord(_y, i->z); + if(i->lastx != x || i->lasty != y) { + i->writer.moveto(&i->writer, x, y); + } + i->lx = _x; + i->ly = _y; + i->x0 = x; + i->y0 = y; + i->lastx = x; + i->lasty = y; + i->last = 1; +} +static void polydraw_lineTo(gfxdrawer_t*d, gfxcoord_t _x, gfxcoord_t _y) +{ + polydraw_internal_t*i = (polydraw_internal_t*)d->internal; + if(!i->last) { + polydraw_moveTo(d, _x, _y); + return; + } + int32_t x = convert_coord(_x, i->z); + int32_t y = convert_coord(_y, i->z); + if(i->lastx != x || i->lasty != y) { + i->writer.lineto(&i->writer, x, y); + } + i->lx = _x; + i->ly = _y; + i->lastx = x; + i->lasty = y; + i->last = 1; +} +static void polydraw_splineTo(gfxdrawer_t*d, gfxcoord_t sx, gfxcoord_t sy, gfxcoord_t x, gfxcoord_t y) +{ + polydraw_internal_t*i = (polydraw_internal_t*)d->internal; + if(!i->last) { + polydraw_moveTo(d, x, y); + return; + } + double c = fabs(x-2*sx+i->lx) + fabs(y-2*sy+i->ly); + int parts = (int)(sqrt(c)*SUBFRACTION); + if(!parts) parts = 1; + int t; + int32_t nx,ny; + for(t=0;tlx)/(double)(parts*parts), i->z); + ny = convert_coord((double)(t*t*y + 2*t*(parts-t)*sy + (parts-t)*(parts-t)*i->ly)/(double)(parts*parts), i->z); + if(nx != i->lastx || ny != i->lasty) { + i->writer.lineto(&i->writer, nx, ny); + i->lastx = nx; i->lasty = ny; + } + } + nx = convert_coord(x,i->z); + ny = convert_coord(y,i->z); + if(nx != i->lastx || ny != i->lasty) { + i->writer.lineto(&i->writer, nx, ny); + } + i->lx = x; + i->ly = y; + i->lastx = nx; + i->lasty = ny; + i->last = 1; +} +static void polydraw_close(gfxdrawer_t*d) +{ + polydraw_internal_t*i = (polydraw_internal_t*)d->internal; + assert(!(i->last && (i->x0 == INVALID_COORD || i->y0 == INVALID_COORD))); + if(!i->last) + return; + if(i->lastx != i->x0 || i->lasty != i->y0) { + i->writer.lineto(&i->writer, i->x0, i->y0); + i->lastx = i->x0; + i->lasty = i->y0; + } + i->last = 0; + i->x0 = INVALID_COORD; + i->y0 = INVALID_COORD; +} +static void* polydraw_result(gfxdrawer_t*d) +{ + polydraw_internal_t*i = (polydraw_internal_t*)d->internal; + void*result = i->writer.finish(&i->writer); + rfx_free(i); + memset(d, 0, sizeof(gfxdrawer_t)); + return result; +} + +void gfxdrawer_target_poly(gfxdrawer_t*d, double gridsize) +{ + polydraw_internal_t*i = (polydraw_internal_t*)rfx_calloc(sizeof(polydraw_internal_t)); + d->internal = i; + i->lastx = INVALID_COORD; // convert_coord can never return this value + i->lasty = INVALID_COORD; + i->x0 = INVALID_COORD; + i->y0 = INVALID_COORD; + d->moveTo = polydraw_moveTo; + d->lineTo = polydraw_lineTo; + d->splineTo = polydraw_splineTo; + d->close = polydraw_close; + d->result = polydraw_result; + gfxpolywriter_init(&i->writer); + i->writer.setgridsize(&i->writer, gridsize); + i->z = 1.0 / gridsize; +} + +#if 0 +gfxline_t*gfxline_from_gfxpoly(gfxpoly_t*poly) +{ + gfxpolystroke_t*stroke; + int count = 0; + for(stroke=poly->strokes;stroke;stroke=stroke->next) { + assert(stroke->num_points); + count += stroke->num_points; + } + if(!count) return 0; + gfxline_t*l = malloc(sizeof(gfxline_t)*count); + count = 0; + /* TODO: it might make sense to concatenate strokes */ + for(stroke=poly->strokes;stroke;stroke=stroke->next) { + int t; + for(t=0;tnum_points;t++) { + l[count+t].x = stroke->points[t].x * poly->gridsize; + l[count+t].y = stroke->points[t].y * poly->gridsize; + l[count+t].type = gfx_lineTo; + l[count+t].next = &l[count+t+1]; + } + l[count].type = gfx_moveTo; + count+=stroke->num_points; + } + l[count-1].next = 0; + return l; +} +#endif + +static gfxline_t*mkgfxline(gfxpoly_t*poly, char preserve_direction) +{ + gfxpolystroke_t*stroke; + int count = 0; + if(!poly->strokes) + return 0; + dict_t*d = dict_new2(&point_type); + dict_t*todo = dict_new2(&ptr_type); + gfxpolystroke_t*stroke_min= poly->strokes; + int32_t x_min=stroke_min->points[0].x; + int32_t y_min=stroke_min->points[0].y; + for(stroke=poly->strokes;stroke;stroke=stroke->next) { + dict_put(todo, stroke, stroke); + assert(stroke->num_points>1); + count += stroke->num_points; + if(stroke->dir == DIR_UP) { + dict_put(d, &stroke->points[stroke->num_points-1], stroke); + if(!preserve_direction) + dict_put(d, &stroke->points[0], stroke); + } else { + dict_put(d, &stroke->points[0], stroke); + if(!preserve_direction) + dict_put(d, &stroke->points[stroke->num_points-1], stroke); + } + if(stroke->points[0].y < y_min || + (stroke->points[0].y == y_min && stroke->points[0].x < x_min)) { + y_min = stroke->points[0].y; + stroke_min = stroke; + } + } + gfxpolystroke_t*next_todo = poly->strokes; + gfxline_t*l = malloc(sizeof(gfxline_t)*count); + count = 0; + stroke = stroke_min; + + point_t last = {INVALID_COORD, INVALID_COORD}; + char should_connect = 0; + while(stroke) { + if(stroke && !preserve_direction) { + char del1 = dict_del2(d, &stroke->points[0], stroke); + char del2 = dict_del2(d, &stroke->points[stroke->num_points-1], stroke); + assert(del1 && del2); + } + assert(dict_contains(todo, stroke)); + int t; + int pos = 0; + int incr = 1; + if(preserve_direction) { + if(stroke->dir == DIR_UP) { + pos = stroke->num_points-1; + incr = -1; + } + } else { + // try to find matching point on either end. + // Prefer downward. + if(last.x == stroke->points[stroke->num_points-1].x && + last.y == stroke->points[stroke->num_points-1].y) { + pos = stroke->num_points-1; + incr = -1; + } + } + if(last.x != stroke->points[pos].x || last.y != stroke->points[pos].y) { + l[count].x = stroke->points[pos].x * poly->gridsize; + l[count].y = stroke->points[pos].y * poly->gridsize; + l[count].type = gfx_moveTo; + l[count].next = &l[count+1]; + count++; + assert(!should_connect); + } + pos += incr; + for(t=1;tnum_points;t++) { + l[count].x = stroke->points[pos].x * poly->gridsize; + l[count].y = stroke->points[pos].y * poly->gridsize; + l[count].type = gfx_lineTo; + l[count].next = &l[count+1]; + count++; + pos += incr; + } + last = stroke->points[pos-incr]; + char del = dict_del(todo, stroke); + assert(del); + assert(!dict_contains(todo, stroke)); + + /* try to find a poly which starts at the point we drew last */ + stroke = dict_lookup(d, &last); + should_connect = 1; + while(!dict_contains(todo, stroke)) { + should_connect = 0; + stroke = next_todo; + if(!next_todo) { + stroke = 0; + break; + } + next_todo = next_todo->next; + } + } + l[count-1].next = 0; + dict_destroy(todo); + dict_destroy(d); + return l; +} + +gfxline_t*gfxline_from_gfxpoly(gfxpoly_t*poly) +{ + return mkgfxline(poly, 0); +} + +gfxline_t*gfxline_from_gfxpoly_updown(gfxpoly_t*poly) +{ + return mkgfxline(poly, 1); +} + +static windcontext_t onepolygon = {1}; +gfxline_t* gfxpoly_circular_to_evenodd(gfxline_t*line, double gridsize) +{ + gfxpoly_t*poly = gfxpoly_from_fill(line, gridsize); + gfxpoly_t*poly2 = gfxpoly_process(poly, 0, &windrule_circular, &onepolygon); + gfxline_t*line2 = gfxline_from_gfxpoly(poly2); + gfxpoly_destroy(poly); + gfxpoly_destroy(poly2); + return line2; +} + +gfxpoly_t* gfxpoly_createbox(double x1, double y1,double x2, double y2, double gridsize) +{ + gfxline_t* line = gfxline_makerectangle(x1, y1, x2, y2); + gfxpoly_t* poly = gfxpoly_from_fill(line, gridsize); gfxline_free(line); - return s; + return poly; }