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555f7d5404
No longer using the default path and risking rounding issues.
274 lines
7.4 KiB
C
274 lines
7.4 KiB
C
#pragma once
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#include "gdk/gdkdihedralprivate.h"
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#include <graphene.h>
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#include <math.h>
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static inline void
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gsk_rect_init (graphene_rect_t *r,
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float x,
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float y,
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float width,
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float height)
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{
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r->origin.x = x;
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r->origin.y = y;
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r->size.width = width;
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r->size.height = height;
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}
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static inline void
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gsk_rect_init_from_rect (graphene_rect_t *r,
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const graphene_rect_t *r1)
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{
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gsk_rect_init (r, r1->origin.x, r1->origin.y, r1->size.width, r1->size.height);
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}
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static inline void
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gsk_rect_init_offset (graphene_rect_t *r,
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const graphene_rect_t *src,
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float dx,
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float dy)
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{
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gsk_rect_init (r, src->origin.x + dx, src->origin.y + dy, src->size.width, src->size.height);
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}
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static inline gboolean G_GNUC_PURE
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gsk_rect_contains_rect (const graphene_rect_t *r1,
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const graphene_rect_t *r2)
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{
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return r2->origin.x >= r1->origin.x &&
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(r2->origin.x + r2->size.width) <= (r1->origin.x + r1->size.width) &&
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r2->origin.y >= r1->origin.y &&
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(r2->origin.y + r2->size.height) <= (r1->origin.y + r1->size.height);
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}
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static inline gboolean G_GNUC_PURE
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gsk_rect_intersects (const graphene_rect_t *r1,
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const graphene_rect_t *r2)
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{
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float x1, y1, x2, y2;
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/* Assume both rects are already normalized, as they usually are */
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x1 = MAX (r1->origin.x, r2->origin.x);
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y1 = MAX (r1->origin.y, r2->origin.y);
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x2 = MIN (r1->origin.x + r1->size.width, r2->origin.x + r2->size.width);
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y2 = MIN (r1->origin.y + r1->size.height, r2->origin.y + r2->size.height);
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if (x1 >= x2 || y1 >= y2)
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return FALSE;
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else
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return TRUE;
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}
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static inline gboolean
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gsk_rect_intersection (const graphene_rect_t *r1,
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const graphene_rect_t *r2,
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graphene_rect_t *res)
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{
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float x1, y1, x2, y2;
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/* Assume both rects are already normalized, as they usually are */
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x1 = MAX (r1->origin.x, r2->origin.x);
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y1 = MAX (r1->origin.y, r2->origin.y);
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x2 = MIN (r1->origin.x + r1->size.width, r2->origin.x + r2->size.width);
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y2 = MIN (r1->origin.y + r1->size.height, r2->origin.y + r2->size.height);
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if (x1 >= x2 || y1 >= y2)
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{
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gsk_rect_init (res, 0.f, 0.f, 0.f, 0.f);
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return FALSE;
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}
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else
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{
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gsk_rect_init (res, x1, y1, x2 - x1, y2 - y1);
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return TRUE;
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}
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}
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/**
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* gsk_rect_coverage:
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* @r1: a valid rectangle
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* @r2: another valid rectangle
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* @res: The result, may be one of r1/r2
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*
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* Computes the largest rectangle that is fully covered by
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* r1 and r2.
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*
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* Note that this is different from a union, which is the smallest
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* rectangle that covers the rectangles.
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*
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* The use case for this function is joining opaque rectangles.
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**/
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static inline void
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gsk_rect_coverage (const graphene_rect_t *r1,
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const graphene_rect_t *r2,
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graphene_rect_t *res)
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{
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float x1min, y1min, x2min, y2min;
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float x1max, y1max, x2max, y2max;
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float size, size2;
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graphene_rect_t r;
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/* Assumes both rects are already normalized, as they usually are */
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size = r1->size.width * r1->size.height;
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size2 = r2->size.width * r2->size.height;
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if (size >= size2)
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{
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r = *r1;
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}
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else
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{
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r = *r2;
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size = size2;
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}
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x1min = MIN (r1->origin.x, r2->origin.x);
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y1min = MIN (r1->origin.y, r2->origin.y);
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x1max = MAX (r1->origin.x, r2->origin.x);
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y1max = MAX (r1->origin.y, r2->origin.y);
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x2min = MIN (r1->origin.x + r1->size.width, r2->origin.x + r2->size.width);
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y2min = MIN (r1->origin.y + r1->size.height, r2->origin.y + r2->size.height);
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x2max = MAX (r1->origin.x + r1->size.width, r2->origin.x + r2->size.width);
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y2max = MAX (r1->origin.y + r1->size.height, r2->origin.y + r2->size.height);
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if (x2min >= x1max && y2min >= y1max)
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{
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float w, h;
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w = x2min - x1max;
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h = y2max - y1min;
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size2 = w * h;
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if (size2 > size)
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{
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r = GRAPHENE_RECT_INIT (x1max, y1min, w, h);
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size = size2;
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}
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w = x2max - x1min;
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h = y2min - y1max;
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size2 = w * h;
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if (size2 > size)
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{
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r = GRAPHENE_RECT_INIT (x1min, y1max, w, h);
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size = size2;
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}
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}
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*res = r;
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}
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static inline gboolean G_GNUC_PURE
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gsk_rect_is_empty (const graphene_rect_t *rect)
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{
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return rect->size.width == 0 || rect->size.height == 0;
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}
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static inline void
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gsk_rect_to_float (const graphene_rect_t *rect,
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float values[4])
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{
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values[0] = rect->origin.x;
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values[1] = rect->origin.y;
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values[2] = rect->size.width;
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values[3] = rect->size.height;
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}
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static inline void
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gsk_rect_to_cairo_grow (const graphene_rect_t *graphene,
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cairo_rectangle_int_t *cairo)
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{
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cairo->x = floorf (graphene->origin.x);
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cairo->y = floorf (graphene->origin.y);
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cairo->width = ceilf (graphene->origin.x + graphene->size.width) - cairo->x;
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cairo->height = ceilf (graphene->origin.y + graphene->size.height) - cairo->y;
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}
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static inline gboolean
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gsk_rect_equal (const graphene_rect_t *r1,
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const graphene_rect_t *r2)
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{
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return r1->origin.x == r2->origin.x &&
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r1->origin.y == r2->origin.y &&
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r1->size.width == r2->size.width &&
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r1->size.height == r2->size.height;
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}
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static inline void
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gsk_gpu_rect_to_float (const graphene_rect_t *rect,
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const graphene_point_t *offset,
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float values[4])
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{
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values[0] = rect->origin.x + offset->x;
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values[1] = rect->origin.y + offset->y;
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values[2] = rect->size.width;
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values[3] = rect->size.height;
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}
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static inline void
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gsk_rect_round_larger (graphene_rect_t *rect)
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{
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float x = floor (rect->origin.x);
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float y = floor (rect->origin.y);
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*rect = GRAPHENE_RECT_INIT (x, y,
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ceil (rect->origin.x + rect->size.width) - x,
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ceil (rect->origin.y + rect->size.height) - y);
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}
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static inline void
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gsk_rect_scale (const graphene_rect_t *r,
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float sx,
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float sy,
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graphene_rect_t *res)
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{
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if (G_UNLIKELY (sx < 0 || sy < 0))
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{
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graphene_rect_scale (r, sx, sy, res);
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return;
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}
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res->origin.x = r->origin.x * sx;
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res->origin.y = r->origin.y * sy;
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res->size.width = r->size.width * sx;
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res->size.height = r->size.height * sy;
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}
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static inline void
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gsk_rect_normalize (graphene_rect_t *r)
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{
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if (r->size.width < 0.f)
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{
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float size = fabsf (r->size.width);
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r->origin.x -= size;
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r->size.width = size;
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}
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if (r->size.height < 0.f)
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{
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float size = fabsf (r->size.height);
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r->origin.y -= size;
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r->size.height = size;
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}
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}
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static inline void
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gsk_rect_dihedral (const graphene_rect_t *src,
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GdkDihedral dihedral,
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graphene_rect_t *res)
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{
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float xx, xy, yx, yy;
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gdk_dihedral_get_mat2 (dihedral, &xx, &xy, &yx, &yy);
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graphene_rect_init (res,
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(xx * src->origin.x + xy * src->origin.y),
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(yx * src->origin.x + yy * src->origin.y),
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(xx * src->size.width + xy * src->size.height),
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(yx * src->size.width + yy * src->size.height));
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gsk_rect_normalize (res);
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}
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