mirror of
https://github.com/KolibriOS/kolibrios.git
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386 lines
11 KiB
C
386 lines
11 KiB
C
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/*
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* Copyright © 2004 Keith Packard
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*
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* Permission to use, copy, modify, distribute, and sell this software and its
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* documentation for any purpose is hereby granted without fee, provided that
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* the above copyright notice appear in all copies and that both that
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* copyright notice and this permission notice appear in supporting
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* documentation, and that the name of Keith Packard not be used in
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* advertising or publicity pertaining to distribution of the software without
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* specific, written prior permission. Keith Packard makes no
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* representations about the suitability of this software for any purpose. It
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* is provided "as is" without express or implied warranty.
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*
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* KEITH PACKARD DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
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* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO
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* EVENT SHALL KEITH PACKARD BE LIABLE FOR ANY SPECIAL, INDIRECT OR
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* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE,
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* DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
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* TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
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* PERFORMANCE OF THIS SOFTWARE.
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*/
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#ifdef HAVE_CONFIG_H
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#include <config.h>
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#endif
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#include <string.h>
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#include "pixman-private.h"
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#include "pixman-accessor.h"
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/*
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* Step across a small sample grid gap
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*/
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#define RENDER_EDGE_STEP_SMALL(edge) \
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{ \
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edge->x += edge->stepx_small; \
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edge->e += edge->dx_small; \
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if (edge->e > 0) \
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{ \
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edge->e -= edge->dy; \
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edge->x += edge->signdx; \
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} \
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}
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/*
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* Step across a large sample grid gap
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*/
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#define RENDER_EDGE_STEP_BIG(edge) \
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{ \
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edge->x += edge->stepx_big; \
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edge->e += edge->dx_big; \
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if (edge->e > 0) \
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{ \
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edge->e -= edge->dy; \
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edge->x += edge->signdx; \
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} \
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}
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#ifdef PIXMAN_FB_ACCESSORS
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#define PIXMAN_RASTERIZE_EDGES pixman_rasterize_edges_accessors
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#else
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#define PIXMAN_RASTERIZE_EDGES pixman_rasterize_edges_no_accessors
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#endif
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/*
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* 4 bit alpha
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*/
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#define N_BITS 4
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#define RASTERIZE_EDGES rasterize_edges_4
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#ifndef WORDS_BIGENDIAN
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#define SHIFT_4(o) ((o) << 2)
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#else
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#define SHIFT_4(o) ((1 - (o)) << 2)
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#endif
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#define GET_4(x, o) (((x) >> SHIFT_4 (o)) & 0xf)
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#define PUT_4(x, o, v) \
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(((x) & ~(0xf << SHIFT_4 (o))) | (((v) & 0xf) << SHIFT_4 (o)))
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#define DEFINE_ALPHA(line, x) \
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uint8_t *__ap = (uint8_t *) line + ((x) >> 1); \
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int __ao = (x) & 1
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#define STEP_ALPHA ((__ap += __ao), (__ao ^= 1))
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#define ADD_ALPHA(a) \
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{ \
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uint8_t __o = READ (image, __ap); \
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uint8_t __a = (a) + GET_4 (__o, __ao); \
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WRITE (image, __ap, PUT_4 (__o, __ao, __a | (0 - ((__a) >> 4)))); \
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}
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#include "pixman-edge-imp.h"
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#undef ADD_ALPHA
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#undef STEP_ALPHA
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#undef DEFINE_ALPHA
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#undef RASTERIZE_EDGES
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#undef N_BITS
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/*
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* 1 bit alpha
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*/
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#define N_BITS 1
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#define RASTERIZE_EDGES rasterize_edges_1
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#include "pixman-edge-imp.h"
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#undef RASTERIZE_EDGES
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#undef N_BITS
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/*
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* 8 bit alpha
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*/
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static force_inline uint8_t
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clip255 (int x)
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{
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if (x > 255)
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return 255;
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return x;
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}
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#define ADD_SATURATE_8(buf, val, length) \
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do \
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{ \
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int i__ = (length); \
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uint8_t *buf__ = (buf); \
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int val__ = (val); \
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\
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while (i__--) \
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{ \
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WRITE (image, (buf__), clip255 (READ (image, (buf__)) + (val__))); \
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(buf__)++; \
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} \
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} while (0)
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/*
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* We want to detect the case where we add the same value to a long
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* span of pixels. The triangles on the end are filled in while we
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* count how many sub-pixel scanlines contribute to the middle section.
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*
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* +--------------------------+
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* fill_height =| \ /
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* +------------------+
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* |================|
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* fill_start fill_end
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*/
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static void
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rasterize_edges_8 (pixman_image_t *image,
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pixman_edge_t * l,
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pixman_edge_t * r,
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pixman_fixed_t t,
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pixman_fixed_t b)
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{
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pixman_fixed_t y = t;
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uint32_t *line;
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int fill_start = -1, fill_end = -1;
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int fill_size = 0;
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uint32_t *buf = (image)->bits.bits;
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int stride = (image)->bits.rowstride;
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int width = (image)->bits.width;
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line = buf + pixman_fixed_to_int (y) * stride;
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for (;;)
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{
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uint8_t *ap = (uint8_t *) line;
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pixman_fixed_t lx, rx;
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int lxi, rxi;
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/* clip X */
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lx = l->x;
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if (lx < 0)
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lx = 0;
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rx = r->x;
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if (pixman_fixed_to_int (rx) >= width)
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{
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/* Use the last pixel of the scanline, covered 100%.
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* We can't use the first pixel following the scanline,
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* because accessing it could result in a buffer overrun.
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*/
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rx = pixman_int_to_fixed (width) - 1;
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}
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/* Skip empty (or backwards) sections */
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if (rx > lx)
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{
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int lxs, rxs;
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/* Find pixel bounds for span. */
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lxi = pixman_fixed_to_int (lx);
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rxi = pixman_fixed_to_int (rx);
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/* Sample coverage for edge pixels */
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lxs = RENDER_SAMPLES_X (lx, 8);
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rxs = RENDER_SAMPLES_X (rx, 8);
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/* Add coverage across row */
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if (lxi == rxi)
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{
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WRITE (image, ap + lxi,
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clip255 (READ (image, ap + lxi) + rxs - lxs));
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}
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else
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{
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WRITE (image, ap + lxi,
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clip255 (READ (image, ap + lxi) + N_X_FRAC (8) - lxs));
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/* Move forward so that lxi/rxi is the pixel span */
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lxi++;
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/* Don't bother trying to optimize the fill unless
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* the span is longer than 4 pixels. */
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if (rxi - lxi > 4)
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{
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if (fill_start < 0)
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{
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fill_start = lxi;
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fill_end = rxi;
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fill_size++;
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}
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else
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{
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if (lxi >= fill_end || rxi < fill_start)
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{
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/* We're beyond what we saved, just fill it */
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ADD_SATURATE_8 (ap + fill_start,
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fill_size * N_X_FRAC (8),
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fill_end - fill_start);
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fill_start = lxi;
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fill_end = rxi;
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fill_size = 1;
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}
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else
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{
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/* Update fill_start */
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if (lxi > fill_start)
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{
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ADD_SATURATE_8 (ap + fill_start,
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fill_size * N_X_FRAC (8),
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lxi - fill_start);
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fill_start = lxi;
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}
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else if (lxi < fill_start)
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{
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ADD_SATURATE_8 (ap + lxi, N_X_FRAC (8),
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fill_start - lxi);
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}
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/* Update fill_end */
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if (rxi < fill_end)
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{
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ADD_SATURATE_8 (ap + rxi,
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fill_size * N_X_FRAC (8),
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fill_end - rxi);
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fill_end = rxi;
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}
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else if (fill_end < rxi)
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{
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ADD_SATURATE_8 (ap + fill_end,
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N_X_FRAC (8),
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rxi - fill_end);
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}
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fill_size++;
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}
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}
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}
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else
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{
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ADD_SATURATE_8 (ap + lxi, N_X_FRAC (8), rxi - lxi);
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}
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WRITE (image, ap + rxi, clip255 (READ (image, ap + rxi) + rxs));
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}
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}
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if (y == b)
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{
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/* We're done, make sure we clean up any remaining fill. */
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if (fill_start != fill_end)
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{
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if (fill_size == N_Y_FRAC (8))
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{
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MEMSET_WRAPPED (image, ap + fill_start,
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0xff, fill_end - fill_start);
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}
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else
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{
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ADD_SATURATE_8 (ap + fill_start, fill_size * N_X_FRAC (8),
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fill_end - fill_start);
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}
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}
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break;
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}
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if (pixman_fixed_frac (y) != Y_FRAC_LAST (8))
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{
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RENDER_EDGE_STEP_SMALL (l);
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RENDER_EDGE_STEP_SMALL (r);
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y += STEP_Y_SMALL (8);
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}
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else
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{
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RENDER_EDGE_STEP_BIG (l);
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RENDER_EDGE_STEP_BIG (r);
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y += STEP_Y_BIG (8);
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if (fill_start != fill_end)
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{
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if (fill_size == N_Y_FRAC (8))
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{
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MEMSET_WRAPPED (image, ap + fill_start,
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0xff, fill_end - fill_start);
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}
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else
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{
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ADD_SATURATE_8 (ap + fill_start, fill_size * N_X_FRAC (8),
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fill_end - fill_start);
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}
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fill_start = fill_end = -1;
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fill_size = 0;
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}
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line += stride;
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}
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}
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}
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#ifndef PIXMAN_FB_ACCESSORS
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static
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#endif
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void
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PIXMAN_RASTERIZE_EDGES (pixman_image_t *image,
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pixman_edge_t * l,
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pixman_edge_t * r,
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pixman_fixed_t t,
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pixman_fixed_t b)
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{
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switch (PIXMAN_FORMAT_BPP (image->bits.format))
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{
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case 1:
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rasterize_edges_1 (image, l, r, t, b);
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break;
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case 4:
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rasterize_edges_4 (image, l, r, t, b);
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break;
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case 8:
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rasterize_edges_8 (image, l, r, t, b);
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break;
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default:
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break;
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}
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}
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#ifndef PIXMAN_FB_ACCESSORS
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PIXMAN_EXPORT void
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pixman_rasterize_edges (pixman_image_t *image,
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pixman_edge_t * l,
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pixman_edge_t * r,
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pixman_fixed_t t,
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pixman_fixed_t b)
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{
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return_if_fail (image->type == BITS);
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return_if_fail (PIXMAN_FORMAT_TYPE (image->bits.format) == PIXMAN_TYPE_A);
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if (image->bits.read_func || image->bits.write_func)
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pixman_rasterize_edges_accessors (image, l, r, t, b);
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else
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pixman_rasterize_edges_no_accessors (image, l, r, t, b);
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}
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#endif
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