577 lines
16 KiB
C++
577 lines
16 KiB
C++
/*
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* Portions of this file are copyright Rebirth contributors and licensed as
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* described in COPYING.txt.
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* Portions of this file are copyright Parallax Software and licensed
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* according to the Parallax license below.
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* See COPYING.txt for license details.
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THE COMPUTER CODE CONTAINED HEREIN IS THE SOLE PROPERTY OF PARALLAX
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SOFTWARE CORPORATION ("PARALLAX"). PARALLAX, IN DISTRIBUTING THE CODE TO
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END-USERS, AND SUBJECT TO ALL OF THE TERMS AND CONDITIONS HEREIN, GRANTS A
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ROYALTY-FREE, PERPETUAL LICENSE TO SUCH END-USERS FOR USE BY SUCH END-USERS
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IN USING, DISPLAYING, AND CREATING DERIVATIVE WORKS THEREOF, SO LONG AS
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SUCH USE, DISPLAY OR CREATION IS FOR NON-COMMERCIAL, ROYALTY OR REVENUE
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FREE PURPOSES. IN NO EVENT SHALL THE END-USER USE THE COMPUTER CODE
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CONTAINED HEREIN FOR REVENUE-BEARING PURPOSES. THE END-USER UNDERSTANDS
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AND AGREES TO THE TERMS HEREIN AND ACCEPTS THE SAME BY USE OF THIS FILE.
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COPYRIGHT 1993-1999 PARALLAX SOFTWARE CORPORATION. ALL RIGHTS RESERVED.
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*/
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/*
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*
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* Routines for bitblt's.
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*
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*/
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#include <algorithm>
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#include <utility>
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#include <string.h>
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#include "u_mem.h"
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#include "gr.h"
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#include "grdef.h"
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#include "rle.h"
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#include "dxxerror.h"
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#include "byteutil.h"
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#ifdef OGL
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#include "ogl_init.h"
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#endif
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#include "compiler-array.h"
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#include "compiler-exchange.h"
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static int gr_bitblt_dest_step_shift = 0;
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static ubyte *gr_bitblt_fade_table=NULL;
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static void gr_bm_ubitblt00_rle(unsigned w, unsigned h, int dx, int dy, int sx, int sy, const grs_bitmap &src, grs_bitmap &dest);
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static void gr_bm_ubitblt00m_rle(unsigned w, unsigned h, int dx, int dy, int sx, int sy, const grs_bitmap &src, grs_bitmap &dest);
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static void gr_bm_ubitblt0x_rle(unsigned w, unsigned h, int dx, int dy, int sx, int sy, const grs_bitmap &src, grs_bitmap &dest);
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#define gr_linear_movsd(S,D,L) memcpy(D,S,L)
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static void gr_linear_rep_movsdm(const uint8_t *const src, uint8_t *const dest, const uint_fast32_t num_pixels)
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{
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auto predicate = [&](uint8_t s, uint8_t d) {
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return s == 255 ? d : s;
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};
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std::transform(src, src + num_pixels, dest, dest, predicate);
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}
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static void gr_linear_rep_movsdm_faded(const ubyte * src, ubyte * dest, int num_pixels, ubyte fade_value ) {
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auto predicate = [&](ubyte s, ubyte d) {
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return s == 255 ? d : gr_fade_table[fade_value][s];
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};
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std::transform(src, src + num_pixels, dest, dest, predicate);
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}
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static void gr_ubitmap00(unsigned x, unsigned y, const grs_bitmap &bm)
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{
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int dest_rowsize;
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dest_rowsize=grd_curcanv->cv_bitmap.bm_rowsize << gr_bitblt_dest_step_shift;
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auto dest = &(grd_curcanv->cv_bitmap.get_bitmap_data()[ dest_rowsize*y+x ]);
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auto src = bm.get_bitmap_data();
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for (uint_fast32_t y1 = bm.bm_h; y1 --;)
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{
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gr_linear_movsd( src, dest, bm.bm_w );
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src += bm.bm_rowsize;
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dest+= dest_rowsize;
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}
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}
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static void gr_ubitmap00m(unsigned x, unsigned y, const grs_bitmap &bm)
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{
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int dest_rowsize;
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dest_rowsize=grd_curcanv->cv_bitmap.bm_rowsize << gr_bitblt_dest_step_shift;
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auto dest = &(grd_curcanv->cv_bitmap.get_bitmap_data()[ dest_rowsize*y+x ]);
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auto src = bm.get_bitmap_data();
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const uint_fast32_t bm_h = bm.bm_h;
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if (gr_bitblt_fade_table==NULL) {
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for (uint_fast32_t y1 = bm_h; y1 --;)
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{
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gr_linear_rep_movsdm( src, dest, bm.bm_w );
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src += bm.bm_rowsize;
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dest+= dest_rowsize;
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}
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} else {
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for (uint_fast32_t y1 = 0; y1 != bm_h; ++y1)
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{
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gr_linear_rep_movsdm_faded( src, dest, bm.bm_w, gr_bitblt_fade_table[y1+y] );
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src += bm.bm_rowsize;
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dest+= dest_rowsize;
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}
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}
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}
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template <typename F>
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static inline void gr_for_each_bitmap_byte(const uint_fast32_t bx, const uint_fast32_t by, const grs_bitmap &bm, F f)
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{
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auto src = bm.bm_data;
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const auto ey = by + bm.bm_h;
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const auto ex = bx + bm.bm_w;
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for (auto iy = by; iy != ey; ++iy)
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for (auto ix = bx; ix != ex; ++ix)
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f(bm, src++, ix, iy);
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}
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static void gr_ubitmap012(unsigned x, unsigned y, const grs_bitmap &bm)
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{
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const auto a = [](const grs_bitmap &, const uint8_t *const src, const uint_fast32_t x, const uint_fast32_t y) {
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gr_setcolor(*src);
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gr_upixel(x, y);
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};
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gr_for_each_bitmap_byte(x, y, bm, a);
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}
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static void gr_ubitmap012m(unsigned x, unsigned y, const grs_bitmap &bm)
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{
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const auto a = [](const grs_bitmap &, const uint8_t *const src, const uint_fast32_t x, const uint_fast32_t y) {
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const uint8_t c = *src;
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if (c != 255)
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{
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gr_setcolor(c);
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gr_upixel(x, y);
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}
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};
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gr_for_each_bitmap_byte(x, y, bm, a);
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}
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static void gr_ubitmapGENERIC(unsigned x, unsigned y, const grs_bitmap &bm)
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{
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const uint_fast32_t bm_h = bm.bm_h;
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const uint_fast32_t bm_w = bm.bm_w;
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for (uint_fast32_t y1 = 0; y1 != bm_h; ++y1)
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{
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for (uint_fast32_t x1 = 0; x1 != bm_w; ++x1)
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{
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gr_setcolor( gr_gpixel(bm,x1,y1) );
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gr_upixel( x+x1, y+y1 );
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}
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}
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}
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static void gr_ubitmapGENERICm(unsigned x, unsigned y, const grs_bitmap &bm)
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{
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ubyte c;
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const uint_fast32_t bm_h = bm.bm_h;
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const uint_fast32_t bm_w = bm.bm_w;
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for (uint_fast32_t y1 = 0; y1 != bm_h; ++y1)
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{
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for (uint_fast32_t x1 = 0; x1 != bm_w; ++x1)
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{
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c = gr_gpixel(bm,x1,y1);
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if ( c != 255 ) {
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gr_setcolor( c );
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gr_upixel( x+x1, y+y1 );
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}
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}
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}
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}
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void gr_ubitmap(grs_bitmap &bm)
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{ int source, dest;
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const unsigned x = 0;
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const unsigned y = 0;
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source = bm.bm_type;
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dest = TYPE;
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if (source==BM_LINEAR) {
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switch( dest )
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{
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case BM_LINEAR:
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if ( bm.bm_flags & BM_FLAG_RLE )
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gr_bm_ubitblt00_rle(bm.bm_w, bm.bm_h, x, y, 0, 0, bm, grd_curcanv->cv_bitmap );
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else
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gr_ubitmap00( x, y, bm );
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return;
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#ifdef OGL
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case BM_OGL:
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ogl_ubitmapm_cs(x,y,-1,-1,bm,-1,F1_0);
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return;
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#endif
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default:
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gr_ubitmap012( x, y, bm );
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return;
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}
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} else {
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gr_ubitmapGENERIC(x, y, bm);
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}
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}
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void gr_ubitmapm(unsigned x, unsigned y, grs_bitmap &bm)
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{
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auto source = bm.bm_type;
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auto dest = TYPE;
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if (source==BM_LINEAR) {
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switch( dest )
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{
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case BM_LINEAR:
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if ( bm.bm_flags & BM_FLAG_RLE )
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gr_bm_ubitblt00m_rle(bm.bm_w, bm.bm_h, x, y, 0, 0, bm, grd_curcanv->cv_bitmap );
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else
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gr_ubitmap00m(x, y, bm);
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return;
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#ifdef OGL
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case BM_OGL:
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ogl_ubitmapm_cs(x,y,-1,-1,bm,-1,F1_0);
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return;
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#endif
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default:
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gr_ubitmap012m( x, y, bm );
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return;
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}
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} else {
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gr_ubitmapGENERICm(x, y, bm);
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}
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}
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// From Linear to Linear
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static void gr_bm_ubitblt00(unsigned w, unsigned h, unsigned dx, unsigned dy, unsigned sx, unsigned sy, const grs_bitmap &src, grs_bitmap &dest)
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{
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//int src_bm_rowsize_2, dest_bm_rowsize_2;
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auto sbits = &src.get_bitmap_data()[(src.bm_rowsize * sy) + sx];
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auto dbits = &dest.get_bitmap_data()[(dest.bm_rowsize * dy) + dx];
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auto dstep = dest.bm_rowsize << gr_bitblt_dest_step_shift;
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// No interlacing, copy the whole buffer.
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for (uint_fast32_t i = h; i --;)
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{
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gr_linear_movsd( sbits, dbits, w );
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//memcpy(dbits, sbits, w);
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sbits += src.bm_rowsize;
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dbits += dstep;
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}
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}
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// From Linear to Linear Masked
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static void gr_bm_ubitblt00m(const unsigned w, const uint_fast32_t h, unsigned dx, unsigned dy, unsigned sx, unsigned sy, const grs_bitmap &src, grs_bitmap &dest)
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{
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//int src_bm_rowsize_2, dest_bm_rowsize_2;
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auto sbits = &src.get_bitmap_data()[(src.bm_rowsize * sy) + sx];
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auto dbits = &dest.get_bitmap_data()[(dest.bm_rowsize * dy) + dx];
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// No interlacing, copy the whole buffer.
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if (gr_bitblt_fade_table==NULL) {
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for (auto i = h; i; --i)
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{
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gr_linear_rep_movsdm( sbits, dbits, w );
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sbits += src.bm_rowsize;
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dbits += dest.bm_rowsize;
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}
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} else {
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for (uint_fast32_t i = 0; i != h; ++i)
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{
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gr_linear_rep_movsdm_faded( sbits, dbits, w, gr_bitblt_fade_table[dy+i] );
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sbits += src.bm_rowsize;
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dbits += dest.bm_rowsize;
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}
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}
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}
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void gr_bm_ubitblt(unsigned w, unsigned h, int dx, int dy, int sx, int sy, const grs_bitmap &src, grs_bitmap &dest)
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{
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if ( (src.bm_type == BM_LINEAR) && (dest.bm_type == BM_LINEAR ))
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{
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if ( src.bm_flags & BM_FLAG_RLE )
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gr_bm_ubitblt00_rle( w, h, dx, dy, sx, sy, src, dest );
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else
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gr_bm_ubitblt00( w, h, dx, dy, sx, sy, src, dest );
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return;
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}
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#ifdef OGL
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if ( (src.bm_type == BM_LINEAR) && (dest.bm_type == BM_OGL ))
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{
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ogl_ubitblt(w, h, dx, dy, sx, sy, src, dest);
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return;
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}
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if ( (src.bm_type == BM_OGL) && (dest.bm_type == BM_LINEAR ))
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{
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return;
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}
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if ( (src.bm_type == BM_OGL) && (dest.bm_type == BM_OGL ))
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{
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return;
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}
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#endif
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if ( (src.bm_flags & BM_FLAG_RLE ) && (src.bm_type == BM_LINEAR) ) {
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gr_bm_ubitblt0x_rle(w, h, dx, dy, sx, sy, src, dest);
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return;
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}
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for (uint_fast32_t y1 = 0; y1 != h; ++y1)
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for (uint_fast32_t x1 = 0; x1 != w; ++x1)
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gr_bm_pixel(dest, dx+x1, dy+y1, gr_gpixel(src,sx+x1,sy+y1) );
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}
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// Clipped bitmap ...
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void gr_bitmap(unsigned x, unsigned y, grs_bitmap &bm)
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{
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int dx1=x, dx2=x+bm.bm_w-1;
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int dy1=y, dy2=y+bm.bm_h-1;
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#ifndef OGL
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int sx=0, sy=0;
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#endif
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if ((dx1 >= grd_curcanv->cv_bitmap.bm_w ) || (dx2 < 0)) return;
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if ((dy1 >= grd_curcanv->cv_bitmap.bm_h) || (dy2 < 0)) return;
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// Draw bitmap bm[x,y] into (dx1,dy1)-(dx2,dy2)
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#ifdef OGL
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ogl_ubitmapm_cs(x, y, 0, 0, bm, -1, F1_0);
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#else
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if ( dx1 < 0 )
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{
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sx = -dx1;
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dx1 = 0;
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}
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if ( dy1 < 0 )
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{
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sy = -dy1;
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dy1 = 0;
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}
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if ( dx2 >= grd_curcanv->cv_bitmap.bm_w ) { dx2 = grd_curcanv->cv_bitmap.bm_w-1; }
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if ( dy2 >= grd_curcanv->cv_bitmap.bm_h ) { dy2 = grd_curcanv->cv_bitmap.bm_h-1; }
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gr_bm_ubitblt(dx2-dx1+1,dy2-dy1+1, dx1, dy1, sx, sy, bm, grd_curcanv->cv_bitmap );
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#endif
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}
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void gr_bitmapm(unsigned x, unsigned y, const grs_bitmap &bm)
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{
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int dx1=x, dx2=x+bm.bm_w-1;
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int dy1=y, dy2=y+bm.bm_h-1;
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int sx=0, sy=0;
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if ((dx1 >= grd_curcanv->cv_bitmap.bm_w ) || (dx2 < 0)) return;
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if ((dy1 >= grd_curcanv->cv_bitmap.bm_h) || (dy2 < 0)) return;
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if ( dx1 < 0 ) { sx = -dx1; dx1 = 0; }
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if ( dy1 < 0 ) { sy = -dy1; dy1 = 0; }
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if ( dx2 >= grd_curcanv->cv_bitmap.bm_w ) { dx2 = grd_curcanv->cv_bitmap.bm_w-1; }
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if ( dy2 >= grd_curcanv->cv_bitmap.bm_h ) { dy2 = grd_curcanv->cv_bitmap.bm_h-1; }
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// Draw bitmap bm[x,y] into (dx1,dy1)-(dx2,dy2)
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if ( (bm.bm_type == BM_LINEAR) && (grd_curcanv->cv_bitmap.bm_type == BM_LINEAR ))
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{
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if ( bm.bm_flags & BM_FLAG_RLE )
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gr_bm_ubitblt00m_rle(dx2-dx1+1,dy2-dy1+1, dx1, dy1, sx, sy, bm, grd_curcanv->cv_bitmap );
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else
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gr_bm_ubitblt00m(dx2-dx1+1,dy2-dy1+1, dx1, dy1, sx, sy, bm, grd_curcanv->cv_bitmap );
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return;
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}
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gr_bm_ubitbltm(dx2-dx1+1,dy2-dy1+1, dx1, dy1, sx, sy, bm, grd_curcanv->cv_bitmap );
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}
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void gr_bm_ubitbltm(unsigned w, unsigned h, unsigned dx, unsigned dy, unsigned sx, unsigned sy, const grs_bitmap &src, grs_bitmap &dest)
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{
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ubyte c;
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#ifdef OGL
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if ( (src.bm_type == BM_LINEAR) && (dest.bm_type == BM_OGL ))
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{
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ogl_ubitblt(w, h, dx, dy, sx, sy, src, dest);
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return;
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}
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if ( (src.bm_type == BM_OGL) && (dest.bm_type == BM_LINEAR ))
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{
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return;
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}
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if ( (src.bm_type == BM_OGL) && (dest.bm_type == BM_OGL ))
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{
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return;
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}
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#endif
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for (uint_fast32_t y1 = 0; y1 != h; ++y1)
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for (uint_fast32_t x1 = 0; x1 != w; ++x1)
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if ((c=gr_gpixel(src,sx+x1,sy+y1))!=255)
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gr_bm_pixel(dest, dx+x1, dy+y1,c );
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}
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static void gr_bm_ubitblt00_rle(unsigned w, unsigned h, int dx, int dy, int sx, int sy, const grs_bitmap &src, grs_bitmap &dest)
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{
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int data_offset;
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data_offset = 1;
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if (src.bm_flags & BM_FLAG_RLE_BIG)
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data_offset = 2;
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auto sbits = &src.get_bitmap_data()[4 + (src.bm_h*data_offset)];
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for (uint_fast32_t i = 0; i != sy; ++i)
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sbits += src.bm_data[4+(i*data_offset)];
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auto dbits = &dest.get_bitmap_data()[(dest.bm_rowsize * dy) + dx];
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// No interlacing, copy the whole buffer.
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for (uint_fast32_t i = 0; i != h; ++i)
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{
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gr_rle_expand_scanline( dbits, sbits, sx, sx+w-1 );
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if ( src.bm_flags & BM_FLAG_RLE_BIG )
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sbits += (int)INTEL_SHORT(*((short *)&(src.bm_data[4+((i+sy)*data_offset)])));
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else
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sbits += (int)(src.bm_data[4+i+sy]);
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dbits += dest.bm_rowsize << gr_bitblt_dest_step_shift;
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}
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}
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static void gr_bm_ubitblt00m_rle(unsigned w, unsigned h, int dx, int dy, int sx, int sy, const grs_bitmap &src, grs_bitmap &dest)
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{
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int data_offset;
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data_offset = 1;
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if (src.bm_flags & BM_FLAG_RLE_BIG)
|
|
data_offset = 2;
|
|
auto sbits = &src.get_bitmap_data()[4 + (src.bm_h*data_offset)];
|
|
for (uint_fast32_t i = 0; i != sy; ++i)
|
|
sbits += src.bm_data[4+(i*data_offset)];
|
|
auto dbits = &dest.get_bitmap_data()[(dest.bm_rowsize * dy) + dx];
|
|
// No interlacing, copy the whole buffer.
|
|
for (uint_fast32_t i = 0; i != h; ++i)
|
|
{
|
|
gr_rle_expand_scanline_masked( dbits, sbits, sx, sx+w-1 );
|
|
if ( src.bm_flags & BM_FLAG_RLE_BIG )
|
|
sbits += (int)INTEL_SHORT(*((short *)&(src.bm_data[4+((i+sy)*data_offset)])));
|
|
else
|
|
sbits += (int)(src.bm_data[4+i+sy]);
|
|
dbits += dest.bm_rowsize << gr_bitblt_dest_step_shift;
|
|
}
|
|
}
|
|
|
|
// in rle.c
|
|
|
|
static void gr_bm_ubitblt0x_rle(unsigned w, unsigned h, int dx, int dy, int sx, int sy, const grs_bitmap &src, grs_bitmap &dest)
|
|
{
|
|
int data_offset;
|
|
data_offset = 1;
|
|
if (src.bm_flags & BM_FLAG_RLE_BIG)
|
|
data_offset = 2;
|
|
auto sbits = &src.bm_data[4 + (src.bm_h*data_offset)];
|
|
for (uint_fast32_t i = 0; i != sy; ++i)
|
|
sbits += src.bm_data[4 + (i * data_offset)];
|
|
|
|
for (uint_fast32_t y1 = 0; y1 != h; ++y1)
|
|
{
|
|
gr_rle_expand_scanline_generic(dest, dx, dy+y1, sbits, sx, sx+w-1);
|
|
if ( src.bm_flags & BM_FLAG_RLE_BIG )
|
|
sbits += (int)INTEL_SHORT(*((short *)&(src.bm_data[4+((y1+sy)*data_offset)])));
|
|
else
|
|
sbits += (int)src.bm_data[4+y1+sy];
|
|
}
|
|
}
|
|
|
|
// rescalling bitmaps, 10/14/99 Jan Bobrowski jb@wizard.ae.krakow.pl
|
|
|
|
static void scale_line(const uint8_t *in, uint8_t *out, const uint_fast32_t ilen, const uint_fast32_t olen)
|
|
{
|
|
uint_fast32_t a = olen / ilen, b = olen % ilen, c = 0;
|
|
for (uint8_t *const end = out + olen; out != end;)
|
|
{
|
|
uint_fast32_t i = a;
|
|
c += b;
|
|
if(c >= ilen) {
|
|
c -= ilen;
|
|
++i;
|
|
}
|
|
auto e = out + i;
|
|
std::fill(exchange(out, e), e, *in++);
|
|
}
|
|
}
|
|
|
|
static void gr_bitmap_scale_to(const grs_bitmap &src, grs_bitmap &dst)
|
|
{
|
|
auto s = src.get_bitmap_data();
|
|
auto d = dst.get_bitmap_data();
|
|
int h = src.bm_h;
|
|
int a = dst.bm_h/h, b = dst.bm_h%h;
|
|
int c = 0, i;
|
|
|
|
for (uint_fast32_t y = src.bm_h; y; --y) {
|
|
i = a;
|
|
c += b;
|
|
if(c >= h) {
|
|
c -= h;
|
|
goto inside;
|
|
}
|
|
while(--i>=0) {
|
|
inside:
|
|
scale_line(s, d, src.bm_w, dst.bm_w);
|
|
d += dst.bm_rowsize;
|
|
}
|
|
s += src.bm_rowsize;
|
|
}
|
|
}
|
|
|
|
void show_fullscr(grs_bitmap &bm)
|
|
{
|
|
auto &scr = grd_curcanv->cv_bitmap;
|
|
#ifdef OGL
|
|
if(bm.bm_type == BM_LINEAR && scr.bm_type == BM_OGL &&
|
|
bm.bm_w <= grd_curscreen->get_screen_width() && bm.bm_h <= grd_curscreen->get_screen_height()) // only scale with OGL if bitmap is not bigger than screen size
|
|
{
|
|
ogl_ubitmapm_cs(0,0,-1,-1,bm,-1,F1_0);//use opengl to scale, faster and saves ram. -MPM
|
|
return;
|
|
}
|
|
#endif
|
|
if(scr.bm_type != BM_LINEAR) {
|
|
grs_bitmap_ptr p = gr_create_bitmap(scr.bm_w, scr.bm_h);
|
|
auto &tmp = *p.get();
|
|
gr_bitmap_scale_to(bm, tmp);
|
|
gr_bitmap(0, 0, tmp);
|
|
return;
|
|
}
|
|
gr_bitmap_scale_to(bm, scr);
|
|
}
|
|
|
|
// Find transparent area in bitmap
|
|
void gr_bitblt_find_transparent_area(const grs_bitmap &bm, unsigned &minx, unsigned &miny, unsigned &maxx, unsigned &maxy)
|
|
{
|
|
using std::advance;
|
|
using std::min;
|
|
using std::max;
|
|
|
|
if (!(bm.bm_flags&BM_FLAG_TRANSPARENT))
|
|
return;
|
|
|
|
minx = bm.bm_w - 1;
|
|
maxx = 0;
|
|
miny = bm.bm_h - 1;
|
|
maxy = 0;
|
|
|
|
unsigned i = 0, count = 0;
|
|
auto check = [&](unsigned x, unsigned y, ubyte c) {
|
|
if (c == TRANSPARENCY_COLOR) { // don't look for transparancy color here.
|
|
count++;
|
|
minx = min(x, minx);
|
|
miny = min(y, miny);
|
|
maxx = max(x, maxx);
|
|
maxy = max(y, maxy);
|
|
}
|
|
};
|
|
// decode the bitmap
|
|
const uint_fast32_t bm_h = bm.bm_h;
|
|
const uint_fast32_t bm_w = bm.bm_w;
|
|
if (bm.bm_flags & BM_FLAG_RLE){
|
|
unsigned data_offset;
|
|
|
|
data_offset = 1;
|
|
if (bm.bm_flags & BM_FLAG_RLE_BIG)
|
|
data_offset = 2;
|
|
auto sbits = &bm.get_bitmap_data()[4 + (bm.bm_h * data_offset)];
|
|
for (uint_fast32_t y = 0; y != bm_h; ++y)
|
|
{
|
|
array<ubyte, 4096> buf;
|
|
gr_rle_decode({sbits, begin(buf)}, rle_end(bm, buf));
|
|
advance(sbits, bm.bm_data[4+i] | (data_offset == 2 ? static_cast<unsigned>(bm.bm_data[5+i]) << 8 : 0));
|
|
i += data_offset;
|
|
for (uint_fast32_t x = 0; x != bm_w; ++x)
|
|
check(x, y, buf[x]);
|
|
}
|
|
}
|
|
else
|
|
{
|
|
for (uint_fast32_t y = 0; y != bm_h; ++y)
|
|
for (uint_fast32_t x = 0; x != bm_w; ++x)
|
|
check(x, y, bm.bm_data[i++]);
|
|
}
|
|
Assert (count);
|
|
}
|