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Add ZRLE [1] and ZYWRLE [2] encodings. The code is inspire^W stolen from libvncserver (again), but have been rewriten to match QEMU coding style. [1] http://www.realvnc.com/docs/rfbproto.pdf [2] http://micro-vnc.jp/research/remote_desktop_ng/ZYWRLE/publications/ Signed-off-by: Corentin Chary <corentincj@iksaif.net> Signed-off-by: Anthony Liguori <aliguori@us.ibm.com>
264 lines
7.0 KiB
C
264 lines
7.0 KiB
C
/*
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* QEMU VNC display driver: Zlib Run-length Encoding (ZRLE)
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*
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* From libvncserver/libvncserver/zrleencodetemplate.c
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* Copyright (C) 2002 RealVNC Ltd. All Rights Reserved.
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* Copyright (C) 2003 Sun Microsystems, Inc.
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*
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* Copyright (C) 2010 Corentin Chary <corentin.chary@gmail.com>
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*
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* This work is licensed under the terms of the GNU GPL, version 2 or later.
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* See the COPYING file in the top-level directory.
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*/
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/*
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* Before including this file, you must define a number of CPP macros.
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*
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* ZRLE_BPP should be 8, 16 or 32 depending on the bits per pixel.
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*
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* Note that the buf argument to ZRLE_ENCODE needs to be at least one pixel
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* bigger than the largest tile of pixel data, since the ZRLE encoding
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* algorithm writes to the position one past the end of the pixel data.
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*/
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#include <assert.h>
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#undef ZRLE_ENDIAN_SUFFIX
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#if ZYWRLE_ENDIAN == ENDIAN_LITTLE
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#define ZRLE_ENDIAN_SUFFIX le
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#elif ZYWRLE_ENDIAN == ENDIAN_BIG
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#define ZRLE_ENDIAN_SUFFIX be
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#else
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#define ZRLE_ENDIAN_SUFFIX ne
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#endif
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#ifndef ZRLE_CONCAT
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#define ZRLE_CONCAT_I(a, b) a##b
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#define ZRLE_CONCAT2(a, b) ZRLE_CONCAT_I(a, b)
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#define ZRLE_CONCAT3(a, b, c) ZRLE_CONCAT2(a, ZRLE_CONCAT2(b, c))
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#endif
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#ifdef ZRLE_COMPACT_PIXEL
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#define ZRLE_ENCODE_SUFFIX ZRLE_CONCAT2(ZRLE_COMPACT_PIXEL,ZRLE_ENDIAN_SUFFIX)
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#define ZRLE_WRITE_SUFFIX ZRLE_COMPACT_PIXEL
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#define ZRLE_PIXEL ZRLE_CONCAT3(uint,ZRLE_BPP,_t)
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#define ZRLE_BPP_OUT 24
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#elif ZRLE_BPP == 15
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#define ZRLE_ENCODE_SUFFIX ZRLE_CONCAT2(ZRLE_BPP,ZRLE_ENDIAN_SUFFIX)
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#define ZRLE_WRITE_SUFFIX 16
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#define ZRLE_PIXEL uint16_t
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#define ZRLE_BPP_OUT 16
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#else
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#define ZRLE_ENCODE_SUFFIX ZRLE_CONCAT2(ZRLE_BPP,ZRLE_ENDIAN_SUFFIX)
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#define ZRLE_WRITE_SUFFIX ZRLE_BPP
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#define ZRLE_BPP_OUT ZRLE_BPP
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#define ZRLE_PIXEL ZRLE_CONCAT3(uint,ZRLE_BPP,_t)
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#endif
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#define ZRLE_WRITE_PIXEL ZRLE_CONCAT2(zrle_write_u, ZRLE_WRITE_SUFFIX)
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#define ZRLE_ENCODE ZRLE_CONCAT2(zrle_encode_, ZRLE_ENCODE_SUFFIX)
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#define ZRLE_ENCODE_TILE ZRLE_CONCAT2(zrle_encode_tile, ZRLE_ENCODE_SUFFIX)
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#define ZRLE_WRITE_PALETTE ZRLE_CONCAT2(zrle_write_palette,ZRLE_ENCODE_SUFFIX)
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static void ZRLE_ENCODE_TILE(VncState *vs, ZRLE_PIXEL *data, int w, int h,
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int zywrle_level);
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#if ZRLE_BPP != 8
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#include "vnc-enc-zywrle-template.c"
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#endif
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static void ZRLE_ENCODE(VncState *vs, int x, int y, int w, int h,
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int zywrle_level)
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{
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int ty;
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for (ty = y; ty < y + h; ty += VNC_ZRLE_TILE_HEIGHT) {
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int tx, th;
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th = MIN(VNC_ZRLE_TILE_HEIGHT, y + h - ty);
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for (tx = x; tx < x + w; tx += VNC_ZRLE_TILE_WIDTH) {
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int tw;
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ZRLE_PIXEL *buf;
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tw = MIN(VNC_ZRLE_TILE_WIDTH, x + w - tx);
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buf = zrle_convert_fb(vs, tx, ty, tw, th, ZRLE_BPP);
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ZRLE_ENCODE_TILE(vs, buf, tw, th, zywrle_level);
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}
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}
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}
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static void ZRLE_ENCODE_TILE(VncState *vs, ZRLE_PIXEL *data, int w, int h,
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int zywrle_level)
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{
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VncPalette *palette = &vs->zrle.palette;
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int runs = 0;
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int single_pixels = 0;
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bool use_rle;
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bool use_palette;
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int i;
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ZRLE_PIXEL *ptr = data;
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ZRLE_PIXEL *end = ptr + h * w;
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*end = ~*(end-1); /* one past the end is different so the while loop ends */
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/* Real limit is 127 but we wan't a way to know if there is more than 127 */
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palette_init(palette, 256, ZRLE_BPP);
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while (ptr < end) {
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ZRLE_PIXEL pix = *ptr;
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if (*++ptr != pix) { /* FIXME */
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single_pixels++;
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} else {
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while (*++ptr == pix) ;
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runs++;
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}
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palette_put(palette, pix);
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}
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/* Solid tile is a special case */
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if (palette_size(palette) == 1) {
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bool found;
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vnc_write_u8(vs, 1);
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ZRLE_WRITE_PIXEL(vs, palette_color(palette, 0, &found));
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return;
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}
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zrle_choose_palette_rle(vs, w, h, palette, ZRLE_BPP_OUT,
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runs, single_pixels, zywrle_level,
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&use_rle, &use_palette);
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if (!use_palette) {
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vnc_write_u8(vs, (use_rle ? 128 : 0));
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} else {
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uint32_t colors[VNC_PALETTE_MAX_SIZE];
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size_t size = palette_size(palette);
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vnc_write_u8(vs, (use_rle ? 128 : 0) | size);
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palette_fill(palette, colors);
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for (i = 0; i < size; i++) {
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ZRLE_WRITE_PIXEL(vs, colors[i]);
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}
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}
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if (use_rle) {
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ZRLE_PIXEL *ptr = data;
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ZRLE_PIXEL *end = ptr + w * h;
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ZRLE_PIXEL *run_start;
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ZRLE_PIXEL pix;
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while (ptr < end) {
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int len;
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int index = 0;
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run_start = ptr;
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pix = *ptr++;
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while (*ptr == pix && ptr < end) {
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ptr++;
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}
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len = ptr - run_start;
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if (use_palette)
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index = palette_idx(palette, pix);
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if (len <= 2 && use_palette) {
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if (len == 2) {
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vnc_write_u8(vs, index);
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}
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vnc_write_u8(vs, index);
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continue;
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}
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if (use_palette) {
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vnc_write_u8(vs, index | 128);
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} else {
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ZRLE_WRITE_PIXEL(vs, pix);
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}
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len -= 1;
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while (len >= 255) {
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vnc_write_u8(vs, 255);
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len -= 255;
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}
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vnc_write_u8(vs, len);
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}
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} else if (use_palette) { /* no RLE */
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int bppp;
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ZRLE_PIXEL *ptr = data;
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/* packed pixels */
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assert (palette_size(palette) < 17);
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bppp = bits_per_packed_pixel[palette_size(palette)-1];
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for (i = 0; i < h; i++) {
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uint8_t nbits = 0;
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uint8_t byte = 0;
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ZRLE_PIXEL *eol = ptr + w;
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while (ptr < eol) {
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ZRLE_PIXEL pix = *ptr++;
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uint8_t index = palette_idx(palette, pix);
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byte = (byte << bppp) | index;
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nbits += bppp;
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if (nbits >= 8) {
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vnc_write_u8(vs, byte);
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nbits = 0;
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}
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}
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if (nbits > 0) {
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byte <<= 8 - nbits;
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vnc_write_u8(vs, byte);
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}
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}
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} else {
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/* raw */
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#if ZRLE_BPP != 8
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if (zywrle_level > 0 && !(zywrle_level & 0x80)) {
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ZYWRLE_ANALYZE(data, data, w, h, w, zywrle_level, vs->zywrle.buf);
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ZRLE_ENCODE_TILE(vs, data, w, h, zywrle_level | 0x80);
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}
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else
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#endif
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{
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#ifdef ZRLE_COMPACT_PIXEL
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ZRLE_PIXEL *ptr;
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for (ptr = data; ptr < data + w * h; ptr++) {
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ZRLE_WRITE_PIXEL(vs, *ptr);
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}
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#else
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vnc_write(vs, data, w * h * (ZRLE_BPP / 8));
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#endif
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}
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}
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}
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#undef ZRLE_PIXEL
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#undef ZRLE_WRITE_PIXEL
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#undef ZRLE_ENCODE
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#undef ZRLE_ENCODE_TILE
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#undef ZYWRLE_ENCODE_TILE
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#undef ZRLE_BPP_OUT
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#undef ZRLE_WRITE_SUFFIX
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#undef ZRLE_ENCODE_SUFFIX
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