mirror of
https://github.com/RetroDECK/ES-DE.git
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425 lines
13 KiB
C
425 lines
13 KiB
C
#include "plutovg-private.h"
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#include "plutovg-ft-raster.h"
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#include "plutovg-ft-stroker.h"
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#include <math.h>
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#include <limits.h>
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#define ALIGN_SIZE(size) (((size) + 7ul) & ~7ul)
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static void ft_outline_init(PVG_FT_Outline* outline, plutovg_t* pluto, int points, int contours)
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{
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size_t size_a = ALIGN_SIZE((points + contours) * sizeof(PVG_FT_Vector));
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size_t size_b = ALIGN_SIZE((points + contours) * sizeof(char));
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size_t size_c = ALIGN_SIZE(contours * sizeof(int));
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size_t size_d = ALIGN_SIZE(contours * sizeof(char));
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size_t size_n = size_a + size_b + size_c + size_d;
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if(size_n > pluto->outline_size) {
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pluto->outline_data = realloc(pluto->outline_data, size_n);
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pluto->outline_size = size_n;
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}
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PVG_FT_Byte* data = pluto->outline_data;
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outline->points = (PVG_FT_Vector*)(data);
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outline->tags = outline->contours_flag = NULL;
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outline->contours = NULL;
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if(data){
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outline->tags = (char*)(data + size_a);
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outline->contours = (int*)(data + size_a + size_b);
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outline->contours_flag = (char*)(data + size_a + size_b + size_c);
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}
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outline->n_points = 0;
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outline->n_contours = 0;
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outline->flags = 0x0;
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}
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#define FT_COORD(x) (PVG_FT_Pos)((x) * 64)
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static void ft_outline_move_to(PVG_FT_Outline* ft, double x, double y)
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{
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ft->points[ft->n_points].x = FT_COORD(x);
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ft->points[ft->n_points].y = FT_COORD(y);
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ft->tags[ft->n_points] = PVG_FT_CURVE_TAG_ON;
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if(ft->n_points) {
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ft->contours[ft->n_contours] = ft->n_points - 1;
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ft->n_contours++;
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}
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ft->contours_flag[ft->n_contours] = 1;
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ft->n_points++;
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}
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static void ft_outline_line_to(PVG_FT_Outline* ft, double x, double y)
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{
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ft->points[ft->n_points].x = FT_COORD(x);
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ft->points[ft->n_points].y = FT_COORD(y);
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ft->tags[ft->n_points] = PVG_FT_CURVE_TAG_ON;
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ft->n_points++;
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}
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static void ft_outline_cubic_to(PVG_FT_Outline* ft, double x1, double y1, double x2, double y2, double x3, double y3)
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{
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ft->points[ft->n_points].x = FT_COORD(x1);
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ft->points[ft->n_points].y = FT_COORD(y1);
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ft->tags[ft->n_points] = PVG_FT_CURVE_TAG_CUBIC;
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ft->n_points++;
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ft->points[ft->n_points].x = FT_COORD(x2);
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ft->points[ft->n_points].y = FT_COORD(y2);
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ft->tags[ft->n_points] = PVG_FT_CURVE_TAG_CUBIC;
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ft->n_points++;
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ft->points[ft->n_points].x = FT_COORD(x3);
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ft->points[ft->n_points].y = FT_COORD(y3);
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ft->tags[ft->n_points] = PVG_FT_CURVE_TAG_ON;
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ft->n_points++;
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}
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static void ft_outline_close(PVG_FT_Outline* ft)
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{
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ft->contours_flag[ft->n_contours] = 0;
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int index = ft->n_contours ? ft->contours[ft->n_contours - 1] + 1 : 0;
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if(index == ft->n_points)
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return;
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ft->points[ft->n_points].x = ft->points[index].x;
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ft->points[ft->n_points].y = ft->points[index].y;
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ft->tags[ft->n_points] = PVG_FT_CURVE_TAG_ON;
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ft->n_points++;
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}
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static void ft_outline_end(PVG_FT_Outline* ft)
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{
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if(ft->n_points) {
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ft->contours[ft->n_contours] = ft->n_points - 1;
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ft->n_contours++;
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}
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}
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static void ft_outline_convert(PVG_FT_Outline* outline, plutovg_t* pluto, const plutovg_path_t* path, const plutovg_matrix_t* matrix)
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{
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ft_outline_init(outline, pluto, path->points.size, path->contours);
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plutovg_path_element_t* elements = path->elements.data;
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plutovg_point_t* points = path->points.data;
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plutovg_point_t p[3];
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for(int i = 0;i < path->elements.size;i++) {
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switch(elements[i]) {
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case plutovg_path_element_move_to:
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plutovg_matrix_map_point(matrix, &points[0], &p[0]);
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ft_outline_move_to(outline, p[0].x, p[0].y);
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points += 1;
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break;
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case plutovg_path_element_line_to:
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plutovg_matrix_map_point(matrix, &points[0], &p[0]);
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ft_outline_line_to(outline, p[0].x, p[0].y);
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points += 1;
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break;
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case plutovg_path_element_cubic_to:
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plutovg_matrix_map_point(matrix, &points[0], &p[0]);
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plutovg_matrix_map_point(matrix, &points[1], &p[1]);
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plutovg_matrix_map_point(matrix, &points[2], &p[2]);
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ft_outline_cubic_to(outline, p[0].x, p[0].y, p[1].x, p[1].y, p[2].x, p[2].y);
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points += 3;
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break;
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case plutovg_path_element_close:
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ft_outline_close(outline);
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points += 1;
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break;
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}
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}
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ft_outline_end(outline);
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}
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static void ft_outline_convert_dash(PVG_FT_Outline* outline, plutovg_t* pluto, const plutovg_path_t* path, const plutovg_matrix_t* matrix, const plutovg_dash_t* dash)
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{
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plutovg_path_t* dashed = plutovg_dash_path(dash, path);
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ft_outline_convert(outline, pluto, dashed, matrix);
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plutovg_path_destroy(dashed);
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}
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static void generation_callback(int count, const PVG_FT_Span* spans, void* user)
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{
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plutovg_rle_t* rle = user;
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plutovg_array_ensure(rle->spans, count);
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plutovg_span_t* data = rle->spans.data + rle->spans.size;
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memcpy(data, spans, (size_t)count * sizeof(plutovg_span_t));
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rle->spans.size += count;
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}
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plutovg_rle_t* plutovg_rle_create(void)
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{
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plutovg_rle_t* rle = malloc(sizeof(plutovg_rle_t));
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plutovg_array_init(rle->spans);
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rle->x = 0;
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rle->y = 0;
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rle->w = 0;
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rle->h = 0;
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return rle;
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}
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void plutovg_rle_destroy(plutovg_rle_t* rle)
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{
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if(rle==NULL)
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return;
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free(rle->spans.data);
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free(rle);
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}
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void plutovg_rle_rasterize(plutovg_t* pluto, plutovg_rle_t* rle, const plutovg_path_t* path, const plutovg_matrix_t* matrix, const plutovg_rect_t* clip, const plutovg_stroke_data_t* stroke, plutovg_fill_rule_t winding)
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{
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PVG_FT_Raster_Params params;
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params.flags = PVG_FT_RASTER_FLAG_DIRECT | PVG_FT_RASTER_FLAG_AA;
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params.gray_spans = generation_callback;
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params.user = rle;
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if(clip) {
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params.flags |= PVG_FT_RASTER_FLAG_CLIP;
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params.clip_box.xMin = (PVG_FT_Pos)(clip->x);
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params.clip_box.yMin = (PVG_FT_Pos)(clip->y);
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params.clip_box.xMax = (PVG_FT_Pos)(clip->x + clip->w);
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params.clip_box.yMax = (PVG_FT_Pos)(clip->y + clip->h);
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}
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if(stroke) {
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PVG_FT_Outline outline;
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if(stroke->dash == NULL)
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ft_outline_convert(&outline, pluto, path, matrix);
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else
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ft_outline_convert_dash(&outline, pluto, path, matrix, stroke->dash);
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PVG_FT_Stroker_LineCap ftCap;
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PVG_FT_Stroker_LineJoin ftJoin;
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PVG_FT_Fixed ftWidth;
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PVG_FT_Fixed ftMiterLimit;
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plutovg_point_t p1 = {0, 0};
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plutovg_point_t p2 = {plutovg_sqrt2, plutovg_sqrt2};
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plutovg_point_t p3;
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plutovg_matrix_map_point(matrix, &p1, &p1);
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plutovg_matrix_map_point(matrix, &p2, &p2);
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p3.x = p2.x - p1.x;
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p3.y = p2.y - p1.y;
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double scale = sqrt(p3.x*p3.x + p3.y*p3.y) / 2.0;
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ftWidth = (PVG_FT_Fixed)(stroke->width * scale * 0.5 * (1 << 6));
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ftMiterLimit = (PVG_FT_Fixed)(stroke->miterlimit * (1 << 16));
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switch(stroke->cap) {
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case plutovg_line_cap_square:
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ftCap = PVG_FT_STROKER_LINECAP_SQUARE;
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break;
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case plutovg_line_cap_round:
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ftCap = PVG_FT_STROKER_LINECAP_ROUND;
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break;
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default:
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ftCap = PVG_FT_STROKER_LINECAP_BUTT;
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break;
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}
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switch(stroke->join) {
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case plutovg_line_join_bevel:
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ftJoin = PVG_FT_STROKER_LINEJOIN_BEVEL;
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break;
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case plutovg_line_join_round:
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ftJoin = PVG_FT_STROKER_LINEJOIN_ROUND;
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break;
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default:
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ftJoin = PVG_FT_STROKER_LINEJOIN_MITER_FIXED;
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break;
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}
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PVG_FT_Stroker stroker;
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PVG_FT_Stroker_New(&stroker);
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PVG_FT_Stroker_Set(stroker, ftWidth, ftCap, ftJoin, ftMiterLimit);
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PVG_FT_Stroker_ParseOutline(stroker, &outline);
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PVG_FT_UInt points;
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PVG_FT_UInt contours;
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PVG_FT_Stroker_GetCounts(stroker, &points, &contours);
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ft_outline_init(&outline, pluto, points, contours);
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PVG_FT_Stroker_Export(stroker, &outline);
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PVG_FT_Stroker_Done(stroker);
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outline.flags = PVG_FT_OUTLINE_NONE;
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params.source = &outline;
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PVG_FT_Raster_Render(¶ms);
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} else {
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PVG_FT_Outline outline;
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ft_outline_convert(&outline, pluto, path, matrix);
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switch(winding) {
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case plutovg_fill_rule_even_odd:
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outline.flags = PVG_FT_OUTLINE_EVEN_ODD_FILL;
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break;
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default:
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outline.flags = PVG_FT_OUTLINE_NONE;
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break;
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}
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params.source = &outline;
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PVG_FT_Raster_Render(¶ms);
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}
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if(rle->spans.size == 0) {
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rle->x = 0;
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rle->y = 0;
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rle->w = 0;
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rle->h = 0;
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return;
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}
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plutovg_span_t* spans = rle->spans.data;
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int x1 = INT_MAX;
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int y1 = spans[0].y;
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int x2 = 0;
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int y2 = spans[rle->spans.size - 1].y;
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for(int i = 0;i < rle->spans.size;i++)
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{
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if(spans[i].x < x1) x1 = spans[i].x;
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if(spans[i].x + spans[i].len > x2) x2 = spans[i].x + spans[i].len;
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}
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rle->x = x1;
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rle->y = y1;
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rle->w = x2 - x1;
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rle->h = y2 - y1 + 1;
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}
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plutovg_rle_t* plutovg_rle_intersection(const plutovg_rle_t* a, const plutovg_rle_t* b)
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{
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int count = plutovg_max(a->spans.size, b->spans.size);
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plutovg_rle_t* result = malloc(sizeof(plutovg_rle_t));
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plutovg_array_init(result->spans);
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plutovg_array_ensure(result->spans, count);
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plutovg_span_t* a_spans = a->spans.data;
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plutovg_span_t* a_end = a_spans + a->spans.size;
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plutovg_span_t* b_spans = b->spans.data;
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plutovg_span_t* b_end = b_spans + b->spans.size;
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while(count && a_spans < a_end && b_spans < b_end)
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{
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if(b_spans->y > a_spans->y)
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{
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++a_spans;
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continue;
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}
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if(a_spans->y != b_spans->y)
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{
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++b_spans;
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continue;
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}
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int ax1 = a_spans->x;
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int ax2 = ax1 + a_spans->len;
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int bx1 = b_spans->x;
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int bx2 = bx1 + b_spans->len;
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if(bx1 < ax1 && bx2 < ax1)
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{
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++b_spans;
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continue;
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}
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else if(ax1 < bx1 && ax2 < bx1)
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{
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++a_spans;
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continue;
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}
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int x = plutovg_max(ax1, bx1);
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int len = plutovg_min(ax2, bx2) - x;
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if(len)
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{
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plutovg_span_t* span = result->spans.data + result->spans.size;
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span->x = (short)x;
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span->len = (unsigned short)len;
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span->y = a_spans->y;
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span->coverage = plutovg_div255(a_spans->coverage * b_spans->coverage);
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++result->spans.size;
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--count;
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}
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if(ax2 < bx2)
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{
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++a_spans;
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}
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else
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{
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++b_spans;
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}
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}
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if(result->spans.size==0)
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{
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result->x = 0;
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result->y = 0;
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result->w = 0;
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result->h = 0;
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return result;
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}
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plutovg_span_t* spans = result->spans.data;
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int x1 = INT_MAX;
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int y1 = spans[0].y;
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int x2 = 0;
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int y2 = spans[result->spans.size - 1].y;
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for(int i = 0;i < result->spans.size;i++)
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{
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if(spans[i].x < x1) x1 = spans[i].x;
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if(spans[i].x + spans[i].len > x2) x2 = spans[i].x + spans[i].len;
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}
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result->x = x1;
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result->y = y1;
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result->w = x2 - x1;
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result->h = y2 - y1 + 1;
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return result;
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}
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void plutovg_rle_clip_path(plutovg_rle_t* rle, const plutovg_rle_t* clip)
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{
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if(rle==NULL || clip==NULL)
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return;
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plutovg_rle_t* result = plutovg_rle_intersection(rle, clip);
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plutovg_array_ensure(rle->spans, result->spans.size);
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memcpy(rle->spans.data, result->spans.data, (size_t)result->spans.size * sizeof(plutovg_span_t));
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rle->spans.size = result->spans.size;
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rle->x = result->x;
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rle->y = result->y;
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rle->w = result->w;
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rle->h = result->h;
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plutovg_rle_destroy(result);
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}
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plutovg_rle_t* plutovg_rle_clone(const plutovg_rle_t* rle)
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{
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if(rle==NULL)
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return NULL;
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plutovg_rle_t* result = malloc(sizeof(plutovg_rle_t));
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plutovg_array_init(result->spans);
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plutovg_array_ensure(result->spans, rle->spans.size);
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memcpy(result->spans.data, rle->spans.data, (size_t)rle->spans.size * sizeof(plutovg_span_t));
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result->spans.size = rle->spans.size;
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result->x = rle->x;
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result->y = rle->y;
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result->w = rle->w;
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result->h = rle->h;
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return result;
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}
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void plutovg_rle_clear(plutovg_rle_t* rle)
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{
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rle->spans.size = 0;
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rle->x = 0;
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rle->y = 0;
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rle->w = 0;
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rle->h = 0;
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}
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