{ Free Pascal port of the Hermes C library. Copyright (C) 2001-2003 Nikolay Nikolov (nickysn@users.sourceforge.net) Original C version by Christian Nentwich (c.nentwich@cs.ucl.ac.uk) This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version with the following modification: As a special exception, the copyright holders of this library give you permission to link this library with independent modules to produce an executable, regardless of the license terms of these independent modules,and to copy and distribute the resulting executable under terms of your choice, provided that you also meet, for each linked independent module, the terms and conditions of the license of that module. An independent module is a module which is not derived from or based on this library. If you modify this library, you may extend this exception to your version of the library, but you are not obligated to do so. If you do not wish to do so, delete this exception statement from your version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA } { 32 bit to * converters for the HERMES library Copyright (c) 1998 Christian Nentwich (c.nentwich@cs.ucl.ac.uk) This source code is licensed under the GNU LGPL Please refer to the file COPYING.LIB contained in the distribution for licensing conditions } { ------------------------------------------------------------------------- NORMAL CONVERTERS ------------------------------------------------------------------------- } { TO 32 BGR } procedure ConvertP_32rgb888_32bgr888(source, dest: PUint8; count, inc_source: DWord); cdecl; var s_pixel: Uint32; s_ptr: PUint8; tmp: Uint8; begin s_ptr := @s_pixel; repeat s_pixel := PUint32(source)^; tmp := (s_ptr + R_32)^; (s_ptr + R_32)^ := (s_ptr + B_32)^; (s_ptr + B_32)^ := tmp; PUint32(dest)^ := s_pixel; Inc(dest, 4); Inc(source, 4); Dec(count); until count = 0; end; { 32 RGBA } procedure ConvertP_32rgb888_32rgba888(source, dest: PUint8; count, inc_source: DWord); cdecl; begin repeat PUint32(dest)^ := (PUint32(source)^ shl 8) or $ff; Inc(dest, 4); Inc(source, 4); Dec(count); until count = 0; end; { 32 BGRA } procedure ConvertP_32rgb888_32bgra888(source, dest: PUint8; count, inc_source: DWord); cdecl; var s_pixel: Uint32; s_ptr: PUint8; tmp: Uint8; begin s_ptr := @s_pixel; repeat s_pixel := PUint32(source)^; tmp := (s_ptr + R_32)^; (s_ptr + R_32)^ := (s_ptr + B_32)^; (s_ptr + B_32)^ := tmp; PUint32(dest)^ := (s_pixel shl 8) or $ff; Inc(dest, 4); Inc(source, 4); Dec(count); until count = 0; end; { TO 24 RGB } procedure ConvertP_32rgb888_24rgb888(source, dest: PUint8; count, inc_source: DWord); cdecl; var s_pixel, s_pixel2: Uint32; s_point: PUint8; c: DWord; begin s_point := PUint8(@s_pixel) + (R_32 - R_24); { Align mod 4 (quite important in this case.. ) } while (PtrUInt(dest) and $3) <> 0 do begin s_pixel := PUint32(source)^; (dest + 0)^ := (s_point + 0)^; (dest + 1)^ := (s_point + 1)^; (dest + 2)^ := (s_point + 2)^; Inc(source, 4); Inc(dest, 3); Dec(count); if count = 0 then exit; end; { Main loop. } c := count shr 2; while c <> 0 do begin Dec(c); s_pixel := PUint32(source)^; s_pixel2 := (PUint32(source) + 1)^; {$IFDEF FPC_LITTLE_ENDIAN} s_pixel := (s_pixel and $ffffff) or (s_pixel2 shl 24); {$ELSE FPC_LITTLE_ENDIAN} s_pixel := (s_pixel shl 8) or ((s_pixel2 shr 16) and $FF); {$ENDIF FPC_LITTLE_ENDIAN} PUint32(dest)^ := s_pixel; s_pixel := (PUint32(source) + 2)^; {$IFDEF FPC_LITTLE_ENDIAN} s_pixel2 := ((s_pixel2 shr 8) and $ffff) or (s_pixel shl 16); {$ELSE FPC_LITTLE_ENDIAN} s_pixel2 := (s_pixel2 shl 16) or ((s_pixel shr 8) and $FFFF); {$ENDIF FPC_LITTLE_ENDIAN} (PUint32(dest) + 1)^ := s_pixel2; s_pixel2 := (PUint32(source) + 3)^; {$IFDEF FPC_LITTLE_ENDIAN} s_pixel := ((s_pixel shr 16) and $ff) or (s_pixel2 shl 8); {$ELSE FPC_LITTLE_ENDIAN} s_pixel := (s_pixel shl 24) or (s_pixel2 and $FFFFFF); {$ENDIF FPC_LITTLE_ENDIAN} (PUint32(dest) + 2)^ := s_pixel; Inc(source, 16); Inc(dest, 12); end; { Convert trailing pixels } count := count and $3; while count <> 0 do begin Dec(count); s_pixel := PUint32(source)^; (dest + 0)^ := (s_point + 0)^; (dest + 1)^ := (s_point + 1)^; (dest + 2)^ := (s_point + 2)^; Inc(source, 4); Inc(dest, 3); end; end; { TO 24 BGR } procedure ConvertP_32rgb888_24bgr888(source, dest: PUint8; count, inc_source: DWord); cdecl; var s_pixel: Uint32; s_point: PUint8; begin s_point := PUint8(@s_pixel) + (R_32 - R_24); repeat s_pixel := PUint32(source)^; { Note that R and B are swapped } (dest + 0)^ := (s_point + 2)^; (dest + 1)^ := (s_point + 1)^; (dest + 2)^ := (s_point + 0)^; Inc(source, 4); Inc(dest, 3); Dec(count); until count = 0; end; { TO 16 RGB 565 } procedure ConvertP_32rgb888_16rgb565(source, dest: PUint8; count, inc_source: DWord); cdecl; var i: DWord; s_pixel: Uint32; source_32, dest_32: PUint32; begin dest_32 := PUint32(dest); source_32 := PUint32(source); { if the current pixel isn't dword aligned, try write one pixel first } if (PtrUInt(dest_32) and $3) <> 0 then begin s_pixel := ((source_32^ shr 8) and $f800) or ((source_32^ shr 5) and $7e0) or ((source_32^ shr 3) and $1f); PUint16(dest_32)^ := s_pixel; dest_32 := PUint32(dest + 2); Inc(source_32); Dec(count); end; { Write blocks of two pixels } for i := 1 to count shr 1 do begin {This horrible construct is actually faster than loading into a variable} {$IFDEF FPC_LITTLE_ENDIAN} dest_32^ := ((source_32^ shr 8) and $f800) or ((source_32^ shr 5) and $7e0) or ((source_32^ shr 3) and $1f) or (((source_32 + 1)^ shl 8) and $f8000000) or (((source_32 + 1)^ shl 11) and $7e00000) or (((source_32 + 1)^ shl 13) and $1f0000); {$ELSE FPC_LITTLE_ENDIAN} dest_32^ := ((source_32^ shl 8) and $f8000000) or ((source_32^ shl 11) and $7e00000) or ((source_32^ shl 13) and $1f0000) or (((source_32 + 1)^ shr 8) and $f800) or (((source_32 + 1)^ shr 5) and $7e0) or (((source_32 + 1)^ shr 3) and $1f); {$ENDIF FPC_LITTLE_ENDIAN} Inc(dest_32); Inc(source_32, 2); end; { Eventually, write a single odd pixel that might be left } if (count and 1) <> 0 then begin s_pixel := source_32^; PUint16(dest_32)^ := ((s_pixel shr 8) and $f800) or ((s_pixel shr 5) and $7e0) or ((s_pixel shr 3) and $1f); end; end; { TO 16 BGR 565 } procedure ConvertP_32rgb888_16bgr565(source, dest: PUint8; count, inc_source: DWord); cdecl; var i: DWord; r, g, b: Uint32; s_pixel, d_pixelblock: Uint32; d_pixel: Uint16; begin { if the current pixel isn't dword aligned, try write one pixel first } if (PtrUInt(dest) and $3) <> 0 then begin s_pixel := PUint32(source)^; r := (s_pixel shr 19) and $1f; g := (s_pixel shr 5) and $7e0; b := (s_pixel shl 8) and $f800; d_pixel := r or g or b; PUint16(dest)^ := d_pixel; Inc(source, 4); Inc(dest, 2); Dec(count); end; { Write blocks of two pixels } for i := 1 to count shr 1 do begin s_pixel := PUint32(source)^; d_pixelblock := (((s_pixel shr 19) and $1f) or ((s_pixel shr 5) and $7e0) or ((s_pixel shl 8) and $f800)) shl DWORD_SMALLINT0_SHL; s_pixel := (PUint32(source) + 1)^; d_pixelblock := d_pixelblock or ((((s_pixel shr 19) and $1f) or ((s_pixel shr 5) and $7e0) or ((s_pixel shl 8) and $f800)) shl DWORD_SMALLINT1_SHL); PUint32(dest)^ := d_pixelblock; Inc(source, 8); Inc(dest, 4); end; { Eventually, write a single odd pixel that might be left } if (count and 1) <> 0 then begin s_pixel := PUint32(source)^; r := (s_pixel shr 19) and $1f; g := (s_pixel shr 5) and $7e0; b := (s_pixel shl 8) and $f800; d_pixel := r or g or b; PUint16(dest)^ := d_pixel; end; end; { TO 16 RGB 555 } procedure ConvertP_32rgb888_16rgb555(source, dest: PUint8; count, inc_source: DWord); cdecl; var r, g, b: Uint32; s_pixel, d_pixelblock: Uint32; d_pixel: Uint16; i: DWord; begin if (PtrUInt(dest) and $3) <> 0 then begin s_pixel := PUint32(source)^; r := (s_pixel shr 9) and $7c00; g := (s_pixel shr 6) and $3e0; b := (s_pixel shr 3) and $1f; d_pixel := r or g or b; PUint16(dest)^ := d_pixel; Inc(source, 4); Inc(dest, 2); Dec(count); end; for i := 1 to count shr 1 do begin s_pixel := PUint32(source)^; d_pixelblock := (((s_pixel shr 9) and $7c00) or ((s_pixel shr 6) and $3e0) or ((s_pixel shr 3) and $1f)) shl DWORD_SMALLINT0_SHL; s_pixel := (PUint32(source) + 1)^; d_pixelblock := d_pixelblock or ((((s_pixel shr 9) and $7c00) or ((s_pixel shr 6) and $3e0) or ((s_pixel shr 3) and $1f)) shl DWORD_SMALLINT1_SHL); PUint32(dest)^ := d_pixelblock; Inc(source, 8); Inc(dest, 4); end; if (count and 1) <> 0 then begin s_pixel := PUint32(source)^; r := (s_pixel shr 9) and $7c00; g := (s_pixel shr 6) and $3e0; b := (s_pixel shr 3) and $1f; d_pixel := r or g or b; PUint16(dest)^ := d_pixel; end; end; { TO 16 BGR 555 } procedure ConvertP_32rgb888_16bgr555(source, dest: PUint8; count, inc_source: DWord); cdecl; var r, g, b: Uint32; s_pixel, d_pixelblock: Uint32; d_pixel: Uint16; i: DWord; begin if (PtrUInt(dest) and $3) <> 0 then begin s_pixel := PUint32(source)^; r := (s_pixel shr 19) and $1f; g := (s_pixel shr 6) and $3e0; b := (s_pixel shl 7) and $7c00; d_pixel := r or g or b; PUint16(dest)^ := d_pixel; Inc(source, 4); Inc(dest, 2); Dec(count); end; for i := 1 to count shr 1 do begin s_pixel := PUint32(source)^; d_pixelblock := (((s_pixel shr 19) and $1f) or ((s_pixel shr 6) and $3e0) or ((s_pixel shl 7) and $7c00)) shl DWORD_SMALLINT0_SHL; s_pixel := (PUint32(source) + 1)^; d_pixelblock := d_pixelblock or ((((s_pixel shr 19) and $1f) or ((s_pixel shr 6) and $3e0) or ((s_pixel shl 7) and $7c00)) shl DWORD_SMALLINT1_SHL); PUint32(dest)^ := d_pixelblock; Inc(source, 8); Inc(dest, 4); end; if (count and 1) <> 0 then begin s_pixel := PUint32(source)^; r := (s_pixel shr 19) and $1f; g := (s_pixel shr 6) and $3e0; b := (s_pixel shl 7) and $7c00; d_pixel := r or g or b; PUint16(dest)^ := d_pixel; end; end; { TO 8 RGB 332 } procedure ConvertP_32rgb888_8rgb332(source, dest: PUint8; count, inc_source: DWord); cdecl; var i: DWord; s_pixel, d_block: Uint32; d_pixel: Uint8; begin { Process single pixels until we are dword aligned } while (PtrUInt(dest) and $3) <> 0 do begin s_pixel := PUint32(source)^; d_pixel := ((s_pixel shr 16) and $e0) or ((s_pixel shr 11) and $1c) or ((s_pixel shr 6) and $3); dest^ := d_pixel; Dec(count); if count = 0 then exit; Inc(dest); Inc(source, 4); end; { Now process blocks of four pixels } for i := 1 to count shr 2 do begin s_pixel := PUint32(source)^; d_block := (((s_pixel shr 16) and $e0) or ((s_pixel shr 11) and $1c) or ((s_pixel shr 6) and $3)) shl DWORD_BYTE0_SHL; s_pixel := (PUint32(source) + 1)^; d_block := ((((s_pixel shr 16) and $e0) or ((s_pixel shr 11) and $1c) or ((s_pixel shr 6) and $3)) shl DWORD_BYTE1_SHL) or d_block; s_pixel := (PUint32(source) + 2)^; d_block := ((((s_pixel shr 16) and $e0) or ((s_pixel shr 11) and $1c) or ((s_pixel shr 6) and $3)) shl DWORD_BYTE2_SHL) or d_block; s_pixel := (PUint32(source) + 3)^; d_block := ((((s_pixel shr 16) and $e0) or ((s_pixel shr 11) and $1c) or ((s_pixel shr 6) and $3)) shl DWORD_BYTE3_SHL) or d_block; PUint32(dest)^ := d_block; Inc(source, 16); Inc(dest, 4); end; { Write all possibly remaining pixel } count := count and $3; while count <> 0 do begin Dec(count); s_pixel := PUint32(source)^; dest^ := ((s_pixel shr 16) and $e0) or ((s_pixel shr 11) and $1c) or ((s_pixel shr 6) and $3); Inc(dest); Inc(source, 4); end; end; { ------------------------------------------------------------------------- STRETCH CONVERTERS ------------------------------------------------------------------------- } procedure ConvertP_32rgb888_32bgr888_S(source, dest: PUint8; count, inc_source: DWord); cdecl; var x: DWord; s_pixel: Uint32; s_ptr: PUint8; tmp: Uint8; begin x := 0; s_ptr := @s_pixel; repeat s_pixel := (PUint32(source)+(x shr 16))^; tmp := (s_ptr + R_32)^; (s_ptr + R_32)^ := (s_ptr + B_32)^; (s_ptr + B_32)^ := tmp; PUint32(dest)^ := s_pixel; Inc(dest, 4); Inc(x, inc_source); Dec(count); until count = 0; end; procedure ConvertP_32rgb888_32rgba888_S(source, dest: PUint8; count, inc_source: DWord); cdecl; var x: DWord; begin x := 0; repeat PUint32(dest)^ := ((PUint32(source) + (x shr 16))^ shl 8) or $ff; Inc(dest, 4); Inc(x, inc_source); Dec(count); until count = 0; end; procedure ConvertP_32rgb888_32bgra888_S(source, dest: PUint8; count, inc_source: DWord); cdecl; var x: DWord; s_pixel: Uint32; s_ptr: PUint8; tmp: Uint8; begin x := 0; s_ptr := @s_pixel; repeat s_pixel := (PUint32(source)+(x shr 16))^; tmp := (s_ptr + R_32)^; (s_ptr + R_32)^ := (s_ptr + B_32)^; (s_ptr + B_32)^ := tmp; PUint32(dest)^ := (s_pixel shl 8) or $ff; Inc(dest, 4); Inc(x, inc_source); Dec(count); until count = 0; end; procedure ConvertP_32rgb888_24rgb888_S(source, dest: PUint8; count, inc_source: DWord); cdecl; const endian_fixup = R_32 - R_24; var x, c: DWord; s1, s2: DWord; begin x := 0; while (PtrUInt(dest) and 3) <> 0 do begin (dest + 0)^ := (source + 0 + endian_fixup)^; (dest + 1)^ := (source + 1 + endian_fixup)^; (dest + 2)^ := (source + 2 + endian_fixup)^; Inc(x, inc_source); Inc(source, (x shr 16)*4); x := x and $FFFF; Inc(dest, 3); Dec(count); if count = 0 then exit; end; c := count shr 2; while c > 0 do begin {$IFDEF FPC_LITTLE_ENDIAN} s1 := (PUint32(source) + ((x + inc_source) shr 16))^ and $FFFFFF; PUint32(dest)^ := ((PUint32(source) + (x shr 16))^ and $FFFFFF) or (s1 shl 24); s2 := (PUint32(source) + ((x + 2*inc_source) shr 16))^ and $FFFFFF; PUint32(dest + 4)^ := (s1 shr 8) or (s2 shl 16); PUint32(dest + 8)^ := (s2 shr 16) or ((PUint32(source) + ((x + 3*inc_source) shr 16))^ shl 8); {$ELSE FPC_LITTLE_ENDIAN} s1 := (PUint32(source) + ((x + inc_source) shr 16))^ and $FFFFFF; PUint32(dest)^ := ((PUint32(source) + (x shr 16))^ shl 8) or (s1 shr 16); s2 := (PUint32(source) + ((x + 2*inc_source) shr 16))^ and $FFFFFF; PUint32(dest + 4)^ := (s1 shl 16) or (s2 shr 8); PUint32(dest + 8)^ := (s2 shl 24) or ((PUint32(source) + ((x + 3*inc_source) shr 16))^ and $FFFFFF); {$ENDIF FPC_LITTLE_ENDIAN} Inc(x, 4*inc_source); Inc(dest, 12); Dec(c); end; Inc(source, (x shr 16) * 4); x := x and $FFFF; count := count and $3; while count > 0 do begin (dest + 0)^ := (source + 0 + endian_fixup)^; (dest + 1)^ := (source + 1 + endian_fixup)^; (dest + 2)^ := (source + 2 + endian_fixup)^; Inc(x, inc_source); Inc(source, (x shr 16)*4); x := x and $FFFF; Inc(dest, 3); Dec(count); end; end; procedure ConvertP_32rgb888_24bgr888_S(source, dest: PUint8; count, inc_source: DWord); cdecl; const endian_fixup = R_32 - R_24; var x, c: DWord; s1, s2, s3, s4: DWord; begin x := 0; while (PtrUInt(dest) and 3) <> 0 do begin (dest + 0)^ := (source + 2 + endian_fixup)^; (dest + 1)^ := (source + 1 + endian_fixup)^; (dest + 2)^ := (source + 0 + endian_fixup)^; Inc(x, inc_source); Inc(source, (x shr 16)*4); x := x and $FFFF; Inc(dest, 3); Dec(count); if count = 0 then exit; end; c := count shr 2; while c > 0 do begin s1 := (PUint32(source) + (x shr 16))^; s2 := (PUint32(source) + ((x + inc_source) shr 16))^; s3 := (PUint32(source) + ((x + 2*inc_source) shr 16))^; s4 := (PUint32(source) + ((x + 3*inc_source) shr 16))^; {$IFDEF FPC_LITTLE_ENDIAN} PUint32(dest + 0)^ := ((s2 and $FF0000) shl 8) or ((s1 and $FF) shl 16) or (s1 and $FF00) or ((s1 shr 16) and $FF); PUint32(dest + 4)^ := ((s3 and $FF00) shl 16) or (s3 and $FF0000) or ((s2 and $FF) shl 8) or ((s2 shr 8) and $FF); PUint32(dest + 8)^ := ((s4 and $FF) shl 24) or ((s4 and $FF00) shl 8) or ((s4 shr 8) and $FF00) or (s3 and $FF); {$ELSE FPC_LITTLE_ENDIAN} PUint32(dest + 0)^ := ((s1 and $FF) shl 24) or ((s1 and $FF00) shl 8) or ((s1 and $FF0000) shr 8) or (s2 and $FF); PUint32(dest + 4)^ := ((s2 and $FF00) shl 16) or (s2 and $FF0000) or ((s3 and $FF) shl 8) or ((s3 and $FF00) shr 8); PUint32(dest + 8)^ := ((s3 and $FF0000) shl 8) or ((s4 and $FF) shl 16) or (s4 and $FF00) or ((s4 and $FF0000) shr 16); {$ENDIF FPC_LITTLE_ENDIAN} Inc(x, 4*inc_source); Inc(dest, 12); Dec(c); end; Inc(source, (x shr 16) * 4); x := x and $FFFF; count := count and $3; while count > 0 do begin (dest + 0)^ := (source + 2 + endian_fixup)^; (dest + 1)^ := (source + 1 + endian_fixup)^; (dest + 2)^ := (source + 0 + endian_fixup)^; Inc(x, inc_source); Inc(source, (x shr 16)*4); x := x and $FFFF; Inc(dest, 3); Dec(count); end; end; procedure ConvertP_32rgb888_16rgb565_S(source, dest: PUint8; count, inc_source: DWord); cdecl; var x, c: DWord; p: Uint32; begin x := 0; { Align mod 4 } if (PtrUInt(dest) and 3) <> 0 then begin PUint16(dest)^ := (((PUint32(source) + (x shr 16))^ shr 8) and $f800) or (((PUint32(source) + (x shr 16))^ shr 5) and $7e0) or (((PUint32(source) + (x shr 16))^ shr 3) and $1f); Inc(x, inc_source); Inc(dest, 2); Dec(count); end; { Try to write 2 pixel blocks } c := count shr 1; while c <> 0 do begin Dec(c); p := ((((PUint32(source) + (x shr 16))^ shr 8) and $f800) or (((PUint32(source) + (x shr 16))^ shr 5) and $7e0) or (((PUint32(source) + (x shr 16))^ shr 3) and $1f)) shl DWORD_SMALLINT0_SHL; Inc(x, inc_source); p := p or (((((PUint32(source) + (x shr 16))^ shr 8) and $f800) or (((PUint32(source) + (x shr 16))^ shr 5) and $7e0) or (((PUint32(source) + (x shr 16))^ shr 3) and $1f)) shl DWORD_SMALLINT1_SHL); Inc(x, inc_source); PUint32(dest)^ := p; Inc(dest, 4); end; { Write trailing pixel } if (count and 1) <> 0 then PUint16(dest)^ := (((PUint32(source) + (x shr 16))^ shr 8) and $f800) or (((PUint32(source) + (x shr 16))^ shr 5) and $7e0) or (((PUint32(source) + (x shr 16))^ shr 3) and $1f); end; procedure ConvertP_32rgb888_16bgr565_S(source, dest: PUint8; count, inc_source: DWord); cdecl; var x, c: DWord; p: Uint32; begin x := 0; { Align mod 4 } if (PtrUInt(dest) and 3) <> 0 then begin PUint16(dest)^ := (((PUint32(source) + (x shr 16))^ shr 19) and $1f) or (((PUint32(source) + (x shr 16))^ shr 5) and $7e0) or (((PUint32(source) + (x shr 16))^ shl 8) and $f800); Inc(x, inc_source); Inc(dest, 2); Dec(count); end; { Try to write 2 pixel blocks } c := count shr 1; while c <> 0 do begin Dec(c); p := ((((PUint32(source) + (x shr 16))^ shr 19) and $1f) or (((PUint32(source) + (x shr 16))^ shr 5) and $7e0) or (((PUint32(source) + (x shr 16))^ shl 8) and $f800)) shl DWORD_SMALLINT0_SHL; Inc(x, inc_source); p := p or (((((PUint32(source) + (x shr 16))^ shr 19) and $1f) or (((PUint32(source) + (x shr 16))^ shr 5) and $7e0) or (((PUint32(source) + (x shr 16))^ shl 8) and $f800)) shl DWORD_SMALLINT1_SHL); Inc(x, inc_source); PUint32(dest)^ := p; Inc(dest, 4); end; { Write trailing pixel } if (count and 1) <> 0 then PUint16(dest)^ := (((PUint32(source) + (x shr 16))^ shr 19) and $1f) or (((PUint32(source) + (x shr 16))^ shr 5) and $7e0) or (((PUint32(source) + (x shr 16))^ shl 8) and $f800); end; procedure ConvertP_32rgb888_16rgb555_S(source, dest: PUint8; count, inc_source: DWord); cdecl; var x, c: DWord; p: Uint32; begin x := 0; { Align mod 4 } if (PtrUInt(dest) and 3) <> 0 then begin PUint16(dest)^ := (((PUint32(source) + (x shr 16))^ shr 9) and $7c00) or (((PUint32(source) + (x shr 16))^ shr 6) and $3e0) or (((PUint32(source) + (x shr 16))^ shr 3) and $1f); Inc(x, inc_source); Inc(dest, 2); Dec(count); end; { Try to write 2 pixel blocks } c := count shr 1; while c <> 0 do begin Dec(c); p := ((((PUint32(source) + (x shr 16))^ shr 9) and $7c00) or (((PUint32(source) + (x shr 16))^ shr 6) and $3e0) or (((PUint32(source) + (x shr 16))^ shr 3) and $1f)) shl DWORD_SMALLINT0_SHL; Inc(x, inc_source); p := p or (((((PUint32(source) + (x shr 16))^ shr 9) and $7c00) or (((PUint32(source) + (x shr 16))^ shr 6) and $3e0) or (((PUint32(source) + (x shr 16))^ shr 3) and $1f)) shl DWORD_SMALLINT1_SHL); Inc(x, inc_source); PUint32(dest)^ := p; Inc(dest, 4); end; { Write trailing pixel } if (count and 1) <> 0 then PUint16(dest)^ := (((PUint32(source) + (x shr 16))^ shr 9) and $7c00) or (((PUint32(source) + (x shr 16))^ shr 6) and $3e0) or (((PUint32(source) + (x shr 16))^ shr 3) and $1f); end; procedure ConvertP_32rgb888_16bgr555_S(source, dest: PUint8; count, inc_source: DWord); cdecl; var x, c: DWord; p: Uint32; begin x := 0; { Align mod 4 } if (PtrUInt(dest) and 3) <> 0 then begin PUint16(dest)^ := (((PUint32(source) + (x shr 16))^ shr 19) and $1f) or (((PUint32(source) + (x shr 16))^ shr 6) and $3e0) or (((PUint32(source) + (x shr 16))^ shl 7) and $7c00); Inc(x, inc_source); Inc(dest, 2); Dec(count); end; { Try to write 2 pixel blocks } c := count shr 1; while c <> 0 do begin Dec(c); p := ((((PUint32(source) + (x shr 16))^ shr 19) and $1f) or (((PUint32(source) + (x shr 16))^ shr 6) and $3e0) or (((PUint32(source) + (x shr 16))^ shl 7) and $7c00)) shl DWORD_SMALLINT0_SHL; Inc(x, inc_source); p := p or (((((PUint32(source) + (x shr 16))^ shr 19) and $1f) or (((PUint32(source) + (x shr 16))^ shr 6) and $3e0) or (((PUint32(source) + (x shr 16))^ shl 7) and $7c00)) shl DWORD_SMALLINT1_SHL); Inc(x, inc_source); PUint32(dest)^ := p; Inc(dest, 4); end; { Write trailing pixel } if (count and 1) <> 0 then PUint16(dest)^ := (((PUint32(source) + (x shr 16))^ shr 19) and $1f) or (((PUint32(source) + (x shr 16))^ shr 6) and $3e0) or (((PUint32(source) + (x shr 16))^ shl 7) and $7c00); end; procedure ConvertP_32rgb888_8rgb332_S(source, dest: PUint8; count, inc_source: DWord); cdecl; var x, c: DWord; p: Uint32; begin x := 0; { Write single pixels until the destination address is aligned mod 4 } while (PtrUInt(dest) and $3) <> 0 do begin dest^ := (((PUint32(source) + (x shr 16))^ shr 16) and $e0) or (((PUint32(source) + (x shr 16))^ shr 11) and $1c) or (((PUint32(source) + (x shr 16))^ shr 6) and $3); Inc(x, inc_source); Inc(dest); Dec(count); if count = 0 then exit; end; { Write blocks of four pixels now } c := count shr 2; while c <> 0 do begin Dec(c); p := ((((PUint32(source) + (x shr 16))^ shr 16) and $e0) or (((PUint32(source) + (x shr 16))^ shr 11) and $1c) or (((PUint32(source) + (x shr 16))^ shr 6) and $3)) shl DWORD_BYTE0_SHL; Inc(x, inc_source); p := p or (((((PUint32(source) + (x shr 16))^ shr 16) and $e0) or (((PUint32(source) + (x shr 16))^ shr 11) and $1c) or (((PUint32(source) + (x shr 16))^ shr 6) and $3)) shl DWORD_BYTE1_SHL); Inc(x, inc_source); p := p or (((((PUint32(source) + (x shr 16))^ shr 16) and $e0) or (((PUint32(source) + (x shr 16))^ shr 11) and $1c) or (((PUint32(source) + (x shr 16))^ shr 6) and $3)) shl DWORD_BYTE2_SHL); Inc(x, inc_source); p := p or (((((PUint32(source) + (x shr 16))^ shr 16) and $e0) or (((PUint32(source) + (x shr 16))^ shr 11) and $1c) or (((PUint32(source) + (x shr 16))^ shr 6) and $3)) shl DWORD_BYTE3_SHL); Inc(x, inc_source); PUint32(dest)^ := p; Inc(dest, 4); end; { Write up to three trailing pixels } c := count and $3; while c <> 0 do begin Dec(c); dest^ := (((PUint32(source) + (x shr 16))^ shr 16) and $e0) or (((PUint32(source) + (x shr 16))^ shr 11) and $1c) or (((PUint32(source) + (x shr 16))^ shr 6) and $3); Inc(x, inc_source); Inc(dest); end; end;