forked from KolibriOS/kolibrios
dd0cf276d2
git-svn-id: svn://kolibrios.org@8402 a494cfbc-eb01-0410-851d-a64ba20cac60
269 lines
5.2 KiB
C
Executable File
269 lines
5.2 KiB
C
Executable File
#include "fitz.h"
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#define MAX4(a,b,c,d) MAX(MAX(a,b), MAX(c,d))
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#define MIN4(a,b,c,d) MIN(MIN(a,b), MIN(c,d))
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/* Matrices, points and affine transformations */
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const fz_matrix fz_identity = { 1, 0, 0, 1, 0, 0 };
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fz_matrix
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fz_concat(fz_matrix one, fz_matrix two)
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{
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fz_matrix dst;
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dst.a = one.a * two.a + one.b * two.c;
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dst.b = one.a * two.b + one.b * two.d;
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dst.c = one.c * two.a + one.d * two.c;
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dst.d = one.c * two.b + one.d * two.d;
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dst.e = one.e * two.a + one.f * two.c + two.e;
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dst.f = one.e * two.b + one.f * two.d + two.f;
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return dst;
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}
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fz_matrix
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fz_scale(float sx, float sy)
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{
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fz_matrix m;
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m.a = sx; m.b = 0;
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m.c = 0; m.d = sy;
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m.e = 0; m.f = 0;
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return m;
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}
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fz_matrix
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fz_shear(float h, float v)
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{
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fz_matrix m;
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m.a = 1; m.b = v;
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m.c = h; m.d = 1;
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m.e = 0; m.f = 0;
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return m;
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}
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fz_matrix
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fz_rotate(float theta)
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{
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fz_matrix m;
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float s;
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float c;
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while (theta < 0)
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theta += 360;
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while (theta >= 360)
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theta -= 360;
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if (fabsf(0 - theta) < FLT_EPSILON)
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{
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s = 0;
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c = 1;
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}
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else if (fabsf(90.0f - theta) < FLT_EPSILON)
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{
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s = 1;
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c = 0;
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}
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else if (fabsf(180.0f - theta) < FLT_EPSILON)
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{
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s = 0;
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c = -1;
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}
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else if (fabsf(270.0f - theta) < FLT_EPSILON)
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{
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s = -1;
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c = 0;
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}
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else
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{
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s = sinf(theta * (float)M_PI / 180);
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c = cosf(theta * (float)M_PI / 180);
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}
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m.a = c; m.b = s;
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m.c = -s; m.d = c;
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m.e = 0; m.f = 0;
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return m;
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}
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fz_matrix
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fz_translate(float tx, float ty)
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{
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fz_matrix m;
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m.a = 1; m.b = 0;
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m.c = 0; m.d = 1;
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m.e = tx; m.f = ty;
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return m;
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}
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fz_matrix
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fz_invert_matrix(fz_matrix src)
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{
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fz_matrix dst;
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float rdet = 1 / (src.a * src.d - src.b * src.c);
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dst.a = src.d * rdet;
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dst.b = -src.b * rdet;
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dst.c = -src.c * rdet;
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dst.d = src.a * rdet;
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dst.e = -src.e * dst.a - src.f * dst.c;
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dst.f = -src.e * dst.b - src.f * dst.d;
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return dst;
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}
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int
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fz_is_rectilinear(fz_matrix m)
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{
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return (fabsf(m.b) < FLT_EPSILON && fabsf(m.c) < FLT_EPSILON) ||
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(fabsf(m.a) < FLT_EPSILON && fabsf(m.d) < FLT_EPSILON);
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}
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float
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fz_matrix_expansion(fz_matrix m)
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{
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return sqrtf(fabsf(m.a * m.d - m.b * m.c));
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}
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fz_point
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fz_transform_point(fz_matrix m, fz_point p)
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{
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fz_point t;
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t.x = p.x * m.a + p.y * m.c + m.e;
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t.y = p.x * m.b + p.y * m.d + m.f;
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return t;
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}
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fz_point
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fz_transform_vector(fz_matrix m, fz_point p)
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{
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fz_point t;
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t.x = p.x * m.a + p.y * m.c;
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t.y = p.x * m.b + p.y * m.d;
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return t;
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}
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/* Rectangles and bounding boxes */
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const fz_rect fz_infinite_rect = { 1, 1, -1, -1 };
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const fz_rect fz_empty_rect = { 0, 0, 0, 0 };
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const fz_rect fz_unit_rect = { 0, 0, 1, 1 };
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const fz_bbox fz_infinite_bbox = { 1, 1, -1, -1 };
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const fz_bbox fz_empty_bbox = { 0, 0, 0, 0 };
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const fz_bbox fz_unit_bbox = { 0, 0, 1, 1 };
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fz_bbox
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fz_round_rect(fz_rect f)
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{
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fz_bbox i;
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i.x0 = floorf(f.x0 + 0.001f); /* adjust by 0.001 to compensate for precision errors */
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i.y0 = floorf(f.y0 + 0.001f);
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i.x1 = ceilf(f.x1 - 0.001f);
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i.y1 = ceilf(f.y1 - 0.001f);
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return i;
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}
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fz_rect
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fz_intersect_rect(fz_rect a, fz_rect b)
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{
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fz_rect r;
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if (fz_is_infinite_rect(a)) return b;
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if (fz_is_infinite_rect(b)) return a;
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if (fz_is_empty_rect(a)) return fz_empty_rect;
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if (fz_is_empty_rect(b)) return fz_empty_rect;
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r.x0 = MAX(a.x0, b.x0);
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r.y0 = MAX(a.y0, b.y0);
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r.x1 = MIN(a.x1, b.x1);
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r.y1 = MIN(a.y1, b.y1);
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return (r.x1 < r.x0 || r.y1 < r.y0) ? fz_empty_rect : r;
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}
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fz_rect
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fz_union_rect(fz_rect a, fz_rect b)
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{
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fz_rect r;
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if (fz_is_infinite_rect(a)) return a;
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if (fz_is_infinite_rect(b)) return b;
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if (fz_is_empty_rect(a)) return b;
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if (fz_is_empty_rect(b)) return a;
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r.x0 = MIN(a.x0, b.x0);
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r.y0 = MIN(a.y0, b.y0);
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r.x1 = MAX(a.x1, b.x1);
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r.y1 = MAX(a.y1, b.y1);
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return r;
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}
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fz_bbox
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fz_intersect_bbox(fz_bbox a, fz_bbox b)
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{
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fz_bbox r;
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if (fz_is_infinite_rect(a)) return b;
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if (fz_is_infinite_rect(b)) return a;
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if (fz_is_empty_rect(a)) return fz_empty_bbox;
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if (fz_is_empty_rect(b)) return fz_empty_bbox;
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r.x0 = MAX(a.x0, b.x0);
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r.y0 = MAX(a.y0, b.y0);
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r.x1 = MIN(a.x1, b.x1);
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r.y1 = MIN(a.y1, b.y1);
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return (r.x1 < r.x0 || r.y1 < r.y0) ? fz_empty_bbox : r;
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}
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fz_bbox
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fz_union_bbox(fz_bbox a, fz_bbox b)
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{
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fz_bbox r;
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if (fz_is_infinite_rect(a)) return a;
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if (fz_is_infinite_rect(b)) return b;
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if (fz_is_empty_rect(a)) return b;
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if (fz_is_empty_rect(b)) return a;
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r.x0 = MIN(a.x0, b.x0);
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r.y0 = MIN(a.y0, b.y0);
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r.x1 = MAX(a.x1, b.x1);
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r.y1 = MAX(a.y1, b.y1);
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return r;
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}
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fz_rect
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fz_transform_rect(fz_matrix m, fz_rect r)
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{
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fz_point s, t, u, v;
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if (fz_is_infinite_rect(r))
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return r;
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s.x = r.x0; s.y = r.y0;
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t.x = r.x0; t.y = r.y1;
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u.x = r.x1; u.y = r.y1;
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v.x = r.x1; v.y = r.y0;
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s = fz_transform_point(m, s);
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t = fz_transform_point(m, t);
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u = fz_transform_point(m, u);
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v = fz_transform_point(m, v);
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r.x0 = MIN4(s.x, t.x, u.x, v.x);
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r.y0 = MIN4(s.y, t.y, u.y, v.y);
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r.x1 = MAX4(s.x, t.x, u.x, v.x);
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r.y1 = MAX4(s.y, t.y, u.y, v.y);
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return r;
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}
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fz_bbox
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fz_transform_bbox(fz_matrix m, fz_bbox b)
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{
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fz_point s, t, u, v;
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if (fz_is_infinite_bbox(b))
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return b;
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s.x = b.x0; s.y = b.y0;
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t.x = b.x0; t.y = b.y1;
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u.x = b.x1; u.y = b.y1;
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v.x = b.x1; v.y = b.y0;
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s = fz_transform_point(m, s);
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t = fz_transform_point(m, t);
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u = fz_transform_point(m, u);
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v = fz_transform_point(m, v);
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b.x0 = MIN4(s.x, t.x, u.x, v.x);
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b.y0 = MIN4(s.y, t.y, u.y, v.y);
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b.x1 = MAX4(s.x, t.x, u.x, v.x);
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b.y1 = MAX4(s.y, t.y, u.y, v.y);
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return b;
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}
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