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/*++
Copyright (c) 1990-1991 Microsoft Corporation
Module Name:
htsetbmp.c
Abstract:
This module is used to provide set of functions to set the bits into the final destination bitmap.
Author: 11-Nov-1998 Wed 09:27:34 updated -by- Daniel Chou (danielc) Re-write for anti-aliasing
28-Mar-1992 Sat 20:59:29 updated -by- Daniel Chou (danielc) Add Support for VGA16, and also make output only 1 destinaiton pointer for 3 planer.
03-Apr-1991 Wed 10:28:50 created -by- Daniel Chou (danielc)
[Environment:]
Printer Driver.
[Notes:]
Revision History:
11-Jan-1999 Mon 16:07:37 updated -by- Daniel Chou (danielc) re-structure
--*/
#define DBGP_VARNAME dbgpHTSetBmp
#include "htp.h"
#include "htmapclr.h"
#include "htrender.h"
#include "htpat.h"
#include "htdebug.h"
#include "htalias.h"
#include "htstret.h"
#include "htsetbmp.h"
#define DBGP_VGA256XLATE 0x00000001
#define DBGP_BRUSH 0x00000002
DEF_DBGPVAR(BIT_IF(DBGP_VGA256XLATE, 0) | BIT_IF(DBGP_BRUSH, 0))
CONST BYTE VGA16Xlate[120] = {
0xff,0xfe,0xfd,0xfc,0xfb,0xfa,0xf9,0xf0, 0xff,0xfe,0xfd,0xfc,0xfb,0xfa,0xf9,0xf8, 0xef,0xee,0xed,0xec,0xeb,0xea,0xe9,0xe0, 0xef,0xee,0xed,0xec,0xeb,0xea,0xe9,0xe8, 0xdf,0xde,0xdd,0xdc,0xdb,0xda,0xd9,0xd0, 0xdf,0xde,0xdd,0xdc,0xdb,0xda,0xd9,0xd8, 0xcf,0xce,0xcd,0xcc,0xcb,0xca,0xc9,0xc0, 0xcf,0xce,0xcd,0xcc,0xcb,0xca,0xc9,0xc8, 0xbf,0xbe,0xbd,0xbc,0xbb,0xba,0xb9,0xb0, 0xbf,0xbe,0xbd,0xbc,0xbb,0xba,0xb9,0xb8, 0xaf,0xae,0xad,0xac,0xab,0xaa,0xa9,0xa0, 0xaf,0xae,0xad,0xac,0xab,0xaa,0xa9,0xa8, 0x9f,0x9e,0x9d,0x9c,0x9b,0x9a,0x99,0x90, 0x9f,0x9e,0x9d,0x9c,0x9b,0x9a,0x99,0x98, 0x0f,0x0e,0x0d,0x0c,0x0b,0x0a,0x09,0x00 };
//
// Xlate table has 3 bits for each of C=6-8, M=3-5, Y=0-2
//
// For 5:5:5, 1 0010 0100 = 0x124 = 0-292 (293 Entries)
// for 6:6:6, 1 0110 1101 = 0x169 = 0-365 (366 Entries)
//
CONST BYTE VGA256Xlate[SIZE_XLATE_666] = {
215,214,213,212,211,210,210,210,209,208,207,206,205,204,204,204, 203,202,201,200,199,198,198,198,197,196,195,194,193,192,192,192, 191,190,189,188,187,186,186,186,185,184,183,182,181,180,180,180, 185,184,183,182,181,180,180,180,185,184,183,182,181,180,180,180, 179,178,177,176,175,174,174,174,173,172,171,170,169,168,168,168, 167,166,165,164,163,162,162,162,161,160,159,158,157,156,156,156, 155,154,153,152,151,150,150,150,149,148,147,146,145,144,144,144, 149,148,147,146,145,144,144,144,149,148,147,146,145,144,144,144, 143,142,141,140,139,138,138,138,137,136,135,134,133,132,132,132, 131,130,129,128,127,126,126,126,125,124,123,122,121,120,120,120, 119,118,117,116,115,114,114,114,113,112,111,110,109,108,108,108, 113,112,111,110,109,108,108,108,113,112,111,110,109,108,108,108, 107,106,105,104,103,102,102,102,101,100, 99, 98, 97, 96, 96, 96, 95, 94, 93, 92, 91, 90, 90, 90, 89, 88, 87, 86, 85, 84, 84, 84, 83, 82, 81, 80, 79, 78, 78, 78, 77, 76, 75, 74, 73, 72, 72, 72, 77, 76, 75, 74, 73, 72, 72, 72, 77, 76, 75, 74, 73, 72, 72, 72, 71, 70, 69, 68, 67, 66, 66, 66, 65, 64, 63, 62, 61, 60, 60, 60, 59, 58, 57, 56, 55, 54, 54, 54, 53, 52, 51, 50, 49, 48, 48, 48, 47, 46, 45, 44, 43, 42, 42, 42, 41, 40, 39, 38, 37, 36, 36, 36, 41, 40, 39, 38, 37, 36, 36, 36, 41, 40, 39, 38, 37, 36, 36, 36, 35, 34, 33, 32, 31, 30, 30, 30, 29, 28, 27, 26, 25, 24, 24, 24, 23, 22, 21, 20, 19, 18, 18, 18, 17, 16, 15, 14, 13, 12, 12, 12, 11, 10, 9, 8, 7, 6, 6, 6, 5, 4, 3, 2, 1, 0 };
CONST BYTE CMY555Xlate[SIZE_XLATE_555] = {
0, 1, 2, 3, 4, 4, 4, 4, 5, 6, 7, 8, 9, 9, 9, 9, 10, 11, 12, 13, 14, 14, 14, 14, 15, 16, 17, 18, 19, 19, 19, 19, 20, 21, 22, 23, 24, 24, 24, 24, 20, 21, 22, 23, 24, 24, 24, 24, 20, 21, 22, 23, 24, 24, 24, 24, 20, 21, 22, 23, 24, 24, 24, 24, 25, 26, 27, 28, 29, 29, 29, 29, 30, 31, 32, 33, 34, 34, 34, 34, 35, 36, 37, 38, 39, 39, 39, 39, 40, 41, 42, 43, 44, 44, 44, 44, 45, 46, 47, 48, 49, 49, 49, 49, 45, 46, 47, 48, 49, 49, 49, 49, 45, 46, 47, 48, 49, 49, 49, 49, 45, 46, 47, 48, 49, 49, 49, 49, 50, 51, 52, 53, 54, 54, 54, 54, 55, 56, 57, 58, 59, 59, 59, 59, 60, 61, 62, 63, 64, 64, 64, 64, 65, 66, 67, 68, 69, 69, 69, 69, 70, 71, 72, 73, 74, 74, 74, 74, 70, 71, 72, 73, 74, 74, 74, 74, 70, 71, 72, 73, 74, 74, 74, 74, 70, 71, 72, 73, 74, 74, 74, 74, 75, 76, 77, 78, 79, 79, 79, 79, 80, 81, 82, 83, 84, 84, 84, 84, 85, 86, 87, 88, 89, 89, 89, 89, 90, 91, 92, 93, 94, 94, 94, 94, 95, 96, 97, 98, 99, 99, 99, 99, 95, 96, 97, 98, 99, 99, 99, 99, 95, 96, 97, 98, 99, 99, 99, 99, 95, 96, 97, 98, 99, 99, 99, 99, 100,101,102,103,104,104,104,104,105,106,107,108,109,109,109,109, 110,111,112,113,114,114,114,114,115,116,117,118,119,119,119,119, 120,121,122,123,124 };
CONST BYTE RGB555Xlate[SIZE_XLATE_555] = {
190,189,188,187,186,186,186,186,185,184,183,182,181,181,181,181, 180,179,178,177,176,176,176,176,175,174,173,172,171,171,171,171, 170,169,168,167,166,166,166,166,170,169,168,167,166,166,166,166, 170,169,168,167,166,166,166,166,170,169,168,167,166,166,166,166, 165,164,163,162,161,161,161,161,160,159,158,157,156,156,156,156, 155,154,153,152,151,151,151,151,150,149,148,147,146,146,146,146, 145,144,143,142,141,141,141,141,145,144,143,142,141,141,141,141, 145,144,143,142,141,141,141,141,145,144,143,142,141,141,141,141, 140,139,138,137,136,136,136,136,135,134,133,132,131,131,131,131, 130,129,127,126,125,125,125,125,124,123,122,121,120,120,120,120, 119,118,117,116,115,115,115,115,119,118,117,116,115,115,115,115, 119,118,117,116,115,115,115,115,119,118,117,116,115,115,115,115, 114,113,112,111,110,110,110,110,109,108,107,106,105,105,105,105, 104,103,102,101,100,100,100,100, 99, 98, 97, 96, 95, 95, 95, 95, 94, 93, 92, 91, 90, 90, 90, 90, 94, 93, 92, 91, 90, 90, 90, 90, 94, 93, 92, 91, 90, 90, 90, 90, 94, 93, 92, 91, 90, 90, 90, 90, 89, 88, 87, 86, 85, 85, 85, 85, 84, 83, 82, 81, 80, 80, 80, 80, 79, 78, 77, 76, 75, 75, 75, 75, 74, 73, 72, 71, 70, 70, 70, 70, 69, 68, 67, 66, 65 };
CONST BYTE CMY666Xlate[SIZE_XLATE_666] = {
0, 1, 2, 3, 4, 5, 5, 5, 6, 7, 8, 9, 10, 11, 11, 11, 12, 13, 14, 15, 16, 17, 17, 17, 18, 19, 20, 21, 22, 23, 23, 23, 24, 25, 26, 27, 28, 29, 29, 29, 30, 31, 32, 33, 34, 35, 35, 35, 30, 31, 32, 33, 34, 35, 35, 35, 30, 31, 32, 33, 34, 35, 35, 35, 36, 37, 38, 39, 40, 41, 41, 41, 42, 43, 44, 45, 46, 47, 47, 47, 48, 49, 50, 51, 52, 53, 53, 53, 54, 55, 56, 57, 58, 59, 59, 59, 60, 61, 62, 63, 64, 65, 65, 65, 66, 67, 68, 69, 70, 71, 71, 71, 66, 67, 68, 69, 70, 71, 71, 71, 66, 67, 68, 69, 70, 71, 71, 71, 72, 73, 74, 75, 76, 77, 77, 77, 78, 79, 80, 81, 82, 83, 83, 83, 84, 85, 86, 87, 88, 89, 89, 89, 90, 91, 92, 93, 94, 95, 95, 95, 96, 97, 98, 99,100,101,101,101,102,103,104,105,106,107,107,107, 102,103,104,105,106,107,107,107,102,103,104,105,106,107,107,107, 108,109,110,111,112,113,113,113,114,115,116,117,118,119,119,119, 120,121,122,123,124,125,125,125,126,127,128,129,130,131,131,131, 132,133,134,135,136,137,137,137,138,139,140,141,142,143,143,143, 138,139,140,141,142,143,143,143,138,139,140,141,142,143,143,143, 144,145,146,147,148,149,149,149,150,151,152,153,154,155,155,155, 156,157,158,159,160,161,161,161,162,163,164,165,166,167,167,167, 168,169,170,171,172,173,173,173,174,175,176,177,178,179,179,179, 174,175,176,177,178,179,179,179,174,175,176,177,178,179,179,179, 180,181,182,183,184,185,185,185,186,187,188,189,190,191,191,191, 192,193,194,195,196,197,197,197,198,199,200,201,202,203,203,203, 204,205,206,207,208,209,209,209,210,211,212,213,214,215 };
CONST BYTE RGB666Xlate[SIZE_XLATE_666] = {
235,234,233,232,231,230,230,230,229,228,227,226,225,224,224,224, 223,222,221,220,219,218,218,218,217,216,215,214,213,212,212,212, 211,210,209,208,207,206,206,206,205,204,203,202,201,200,200,200, 205,204,203,202,201,200,200,200,205,204,203,202,201,200,200,200, 199,198,197,196,195,194,194,194,193,192,191,190,189,188,188,188, 187,186,185,184,183,182,182,182,181,180,179,178,177,176,176,176, 175,174,173,172,171,170,170,170,169,168,167,166,165,164,164,164, 169,168,167,166,165,164,164,164,169,168,167,166,165,164,164,164, 163,162,161,160,159,158,158,158,157,156,155,154,153,152,152,152, 151,150,149,148,147,146,146,146,145,144,143,142,141,140,140,140, 139,138,137,136,135,134,134,134,133,132,131,130,129,128,128,128, 133,132,131,130,129,128,128,128,133,132,131,130,129,128,128,128, 127,126,125,124,123,122,122,122,121,120,119,118,117,116,116,116, 115,114,113,112,111,110,110,110,109,108,107,106,105,104,104,104, 103,102,101,100, 99, 98, 98, 98, 97, 96, 95, 94, 93, 92, 92, 92, 97, 96, 95, 94, 93, 92, 92, 92, 97, 96, 95, 94, 93, 92, 92, 92, 91, 90, 89, 88, 87, 86, 86, 86, 85, 84, 83, 82, 81, 80, 80, 80, 79, 78, 77, 76, 75, 74, 74, 74, 73, 72, 71, 70, 69, 68, 68, 68, 67, 66, 65, 64, 63, 62, 62, 62, 61, 60, 59, 58, 57, 56, 56, 56, 61, 60, 59, 58, 57, 56, 56, 56, 61, 60, 59, 58, 57, 56, 56, 56, 55, 54, 53, 52, 51, 50, 50, 50, 49, 48, 47, 46, 45, 44, 44, 44, 43, 42, 41, 40, 39, 38, 38, 38, 37, 36, 35, 34, 33, 32, 32, 32, 31, 30, 29, 28, 27, 26, 26, 26, 25, 24, 23, 22, 21, 20 };
CONST LPBYTE p8BPPXlate[] = { (LPBYTE)CMY555Xlate, // 00
(LPBYTE)CMY666Xlate, // 01
(LPBYTE)RGB555Xlate, // 10
(LPBYTE)RGB666Xlate }; // 11
CONST DWORD dwGrayIdxHB[] = {
0x0ff010,0x0fe020,0x0fd030,0x0fc040,0x0fb050,0x0fa060,0x0f9070,0x0f8080, 0x0f7090,0x0f60a0,0x0f50b0,0x0f40c0,0x0f30d0,0x0f20e0,0x0f10f0,0x0f0100, 0x0ef110,0x0ee120,0x0ed130,0x0ec140,0x0eb150,0x0ea160,0x0e9170,0x0e8180, 0x0e7190,0x0e61a0,0x0e51b0,0x0e41c0,0x0e31d0,0x0e21e0,0x0e11f0,0x0e0200, 0x0df210,0x0de220,0x0dd230,0x0dc240,0x0db250,0x0da260,0x0d9270,0x0d8280, 0x0d7290,0x0d62a0,0x0d52b0,0x0d42c0,0x0d32d0,0x0d22e0,0x0d12f0,0x0d0300, 0x0cf310,0x0ce320,0x0cd330,0x0cc340,0x0cb350,0x0ca360,0x0c9370,0x0c8380, 0x0c7390,0x0c63a0,0x0c53b0,0x0c43c0,0x0c33d0,0x0c23e0,0x0c13f0,0x0c0400, 0x0bf410,0x0be420,0x0bd430,0x0bc440,0x0bb450,0x0ba460,0x0b9470,0x0b8480, 0x0b7490,0x0b64a0,0x0b54b0,0x0b44c0,0x0b34d0,0x0b24e0,0x0b14f0,0x0b0500, 0x0af510,0x0ae520,0x0ad530,0x0ac540,0x0ab550,0x0aa560,0x0a9570,0x0a8580, 0x0a7590,0x0a65a0,0x0a55b0,0x0a45c0,0x0a35d0,0x0a25e0,0x0a15f0,0x0a0600, 0x09f610,0x09e620,0x09d630,0x09c640,0x09b650,0x09a660,0x099670,0x098680, 0x097690,0x0966a0,0x0956b0,0x0946c0,0x0936d0,0x0926e0,0x0916f0,0x090700, 0x08f710,0x08e720,0x08d730,0x08c740,0x08b750,0x08a760,0x089770,0x088780, 0x087790,0x0867a0,0x0857b0,0x0847c0,0x0837d0,0x0827e0,0x0817f0,0x080800, 0x07f810,0x07e820,0x07d830,0x07c840,0x07b850,0x07a860,0x079870,0x078880, 0x077890,0x0768a0,0x0758b0,0x0748c0,0x0738d0,0x0728e0,0x0718f0,0x070900, 0x06f910,0x06e920,0x06d930,0x06c940,0x06b950,0x06a960,0x069970,0x068980, 0x067990,0x0669a0,0x0659b0,0x0649c0,0x0639d0,0x0629e0,0x0619f0,0x060a00, 0x05fa10,0x05ea20,0x05da30,0x05ca40,0x05ba50,0x05aa60,0x059a70,0x058a80, 0x057a90,0x056aa0,0x055ab0,0x054ac0,0x053ad0,0x052ae0,0x051af0,0x050b00, 0x04fb10,0x04eb20,0x04db30,0x04cb40,0x04bb50,0x04ab60,0x049b70,0x048b80, 0x047b90,0x046ba0,0x045bb0,0x044bc0,0x043bd0,0x042be0,0x041bf0,0x040c00, 0x03fc10,0x03ec20,0x03dc30,0x03cc40,0x03bc50,0x03ac60,0x039c70,0x038c80, 0x037c90,0x036ca0,0x035cb0,0x034cc0,0x033cd0,0x032ce0,0x031cf0,0x030d00, 0x02fd10,0x02ed20,0x02dd30,0x02cd40,0x02bd50,0x02ad60,0x029d70,0x028d80, 0x027d90,0x026da0,0x025db0,0x024dc0,0x023dd0,0x022de0,0x021df0,0x020e00, 0x01fe10,0x01ee20,0x01de30,0x01ce40,0x01be50,0x01ae60,0x019e70,0x018e80, 0x017e90,0x016ea0,0x015eb0,0x014ec0,0x013ed0,0x012ee0,0x011ef0,0x010f00, 0x00ff10,0x00ef20,0x00df30,0x00cf40,0x00bf50,0x00af60,0x009f70,0x008f80, 0x007f90,0x006fa0,0x005fb0,0x004fc0,0x003fd0,0x002fe0,0x001ff0,0x001000 };
CONST WORD wGrayIdxLB[] = {
0x0fef,0x0fdf,0x0fcf,0x0fbf,0x0faf,0x0f9f,0x0f8f,0x0f7f, 0x0f6f,0x0f5f,0x0f4f,0x0f3f,0x0f2f,0x0f1f,0x0f0f,0x0eff, 0x0eef,0x0edf,0x0ecf,0x0ebf,0x0eaf,0x0e9f,0x0e8f,0x0e7f, 0x0e6f,0x0e5f,0x0e4f,0x0e3f,0x0e2f,0x0e1f,0x0e0f,0x0dff, 0x0def,0x0ddf,0x0dcf,0x0dbf,0x0daf,0x0d9f,0x0d8f,0x0d7f, 0x0d6f,0x0d5f,0x0d4f,0x0d3f,0x0d2f,0x0d1f,0x0d0f,0x0cff, 0x0cef,0x0cdf,0x0ccf,0x0cbf,0x0caf,0x0c9f,0x0c8f,0x0c7f, 0x0c6f,0x0c5f,0x0c4f,0x0c3f,0x0c2f,0x0c1f,0x0c0f,0x0bff, 0x0bef,0x0bdf,0x0bcf,0x0bbf,0x0baf,0x0b9f,0x0b8f,0x0b7f, 0x0b6f,0x0b5f,0x0b4f,0x0b3f,0x0b2f,0x0b1f,0x0b0f,0x0aff, 0x0aef,0x0adf,0x0acf,0x0abf,0x0aaf,0x0a9f,0x0a8f,0x0a7f, 0x0a6f,0x0a5f,0x0a4f,0x0a3f,0x0a2f,0x0a1f,0x0a0f,0x09ff, 0x09ef,0x09df,0x09cf,0x09bf,0x09af,0x099f,0x098f,0x097f, 0x096f,0x095f,0x094f,0x093f,0x092f,0x091f,0x090f,0x08ff, 0x08ef,0x08df,0x08cf,0x08bf,0x08af,0x089f,0x088f,0x087f, 0x086f,0x085f,0x084f,0x083f,0x082f,0x081f,0x080f,0x07ff, 0x07f0,0x07e0,0x07d0,0x07c0,0x07b0,0x07a0,0x0790,0x0780, 0x0770,0x0760,0x0750,0x0740,0x0730,0x0720,0x0710,0x0700, 0x06f0,0x06e0,0x06d0,0x06c0,0x06b0,0x06a0,0x0690,0x0680, 0x0670,0x0660,0x0650,0x0640,0x0630,0x0620,0x0610,0x0600, 0x05f0,0x05e0,0x05d0,0x05c0,0x05b0,0x05a0,0x0590,0x0580, 0x0570,0x0560,0x0550,0x0540,0x0530,0x0520,0x0510,0x0500, 0x04f0,0x04e0,0x04d0,0x04c0,0x04b0,0x04a0,0x0490,0x0480, 0x0470,0x0460,0x0450,0x0440,0x0430,0x0420,0x0410,0x0400, 0x03f0,0x03e0,0x03d0,0x03c0,0x03b0,0x03a0,0x0390,0x0380, 0x0370,0x0360,0x0350,0x0340,0x0330,0x0320,0x0310,0x0300, 0x02f0,0x02e0,0x02d0,0x02c0,0x02b0,0x02a0,0x0290,0x0280, 0x0270,0x0260,0x0250,0x0240,0x0230,0x0220,0x0210,0x0200, 0x01f0,0x01e0,0x01d0,0x01c0,0x01b0,0x01a0,0x0190,0x0180, 0x0170,0x0160,0x0150,0x0140,0x0130,0x0120,0x0110,0x0100, 0x00f0,0x00e0,0x00d0,0x00c0,0x00b0,0x00a0,0x0090,0x0080, 0x0070,0x0060,0x0050,0x0040,0x0030,0x0020,0x0010,0x0000 };
extern CONST WORD GrayIdxWORD[];
#define GRAY_W2DW(l, h) (dwGrayIdxHB[h] + (DWORD)wGrayIdxLB[l])
#define PBGRF_2_GRAYDW(pbgrf) GRAY_W2DW((pbgrf)->b, (pbgrf)->g)
//
//**************************************************************************
// Monochrome 1BPP Output Functions
//**************************************************************************
VOID HTENTRY OutputAATo1BPP( PAAHEADER pAAHdr, PGRAYF pbgrf, PGRAYF pInEnd, LPBYTE pbDst, LPDWORD pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { UINT Loop; DW2W4B Dst;
#define XorMask (AAOutputInfo.bm.XorMask)
if (Loop = (UINT)AAOutputInfo.bm.cFirst) {
Dst.dw = 0;
while (Loop--) {
Dst.b[0] = (++pbgrf)->f; Dst.dw = GRAY_1BPP_COPY(pbPat, 0x010000) | (Dst.dw << 1);
PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, SIZE_PER_PAT, cbWrapBGR); }
//
// Dst.b[1] = Destination mask (1) for wanted bits
// Dst.b[2] = Destination bits
//
// Shift left for LeftShift is in case that we only have 1 byte and
// the last bit not at bit 0
//
Dst.b[0] = 0; Dst.dw <<= AAOutputInfo.bm.LSFirst; *pbDst++ = (*pbDst & ~Dst.b[1]) | ((Dst.b[2] ^ XorMask) & Dst.b[1]); }
pbgrf -= 7;
if (pAAHdr->Flags & AAHF_HAS_MASK) {
#if defined(_X86_)
_asm {
cld mov ebx, pbgrf mov esi, pbPat mov edi, pbDst mov ecx, pbPatEnd mov ch, XorMask BYTELoopMask: add ebx, 32 cmp ebx, pInEnd jae DoneLoopMask
xor ax, ax cmp BYTE PTR [ebx + 3], 0 jz BIT1 or ah, 0x80 mov dx, WORD PTR [ebx + 0] not dx shr dx, 4 cmp dx, WORD PTR [esi + 2 + 0] BIT1: rcl al, 1 cmp BYTE PTR [ebx + 4 + 3], 0 jz BIT2 or ah, 0x40 mov dx, WORD PTR [ebx + 4] not dx shr dx, 4 cmp dx, WORD PTR [esi + 2 + 6] BIT2: rcl al, 1 cmp BYTE PTR [ebx + 8 + 3], 0 jz BIT3 or ah, 0x20 mov dx, WORD PTR [ebx + 8] not dx shr dx, 4 cmp dx, WORD PTR [esi + 2 + 12] BIT3: rcl al, 1 cmp BYTE PTR [ebx + 12 + 3], 0 jz BIT4 or ah, 0x10 mov dx, WORD PTR [ebx + 12] not dx shr dx, 4 cmp dx, WORD PTR [esi + 2 + 18] BIT4: rcl al, 1 cmp BYTE PTR [ebx + 16 + 3], 0 jz BIT5 or ah, 0x08 mov dx, WORD PTR [ebx + 16] not dx shr dx, 4 cmp dx, WORD PTR [esi + 2 + 24] BIT5: rcl al, 1 cmp BYTE PTR [ebx + 20 + 3], 0 jz BIT6 or ah, 0x04 mov dx, WORD PTR [ebx + 20] not dx shr dx, 4 cmp dx, WORD PTR [esi + 2 + 30] BIT6: rcl al, 1 cmp BYTE PTR [ebx + 24 + 3], 0 jz BIT7 or ah, 0x02 mov dx, WORD PTR [ebx + 24] not dx shr dx, 4 cmp dx, WORD PTR [esi + 2 + 36] BIT7: rcl al, 1 cmp BYTE PTR [ebx + 28 + 3], 0 jz BIT8 or ah, 0x01 mov dx, WORD PTR [ebx + 28] not dx shr dx, 4 cmp dx, WORD PTR [esi + 2 + 42] BIT8: rcl al, 1 xor al, ch ;; do xor mask and al, ah ;; mask out src 0 bits not ah ;; invert and BYTE PTR [edi], ah ;; mask out dst 0 bits or BYTE PTR [edi], al inc edi add esi, 48 cmp esi, pbPatEnd jb BYTELoopMask add esi, cbWrapBGR jmp BYTELoopMask DoneLoopMask: mov pbgrf, ebx mov pbPat, esi mov pbDst, edi } #else
while ((pbgrf += 8) < pInEnd) {
Dst.b[0] = GET_1BPP_MASK_BYTE(pbgrf); *pbDst++ = (*pbDst & ~Dst.b[0]) | ((GRAY_1BPP_COPY_BYTE(pbPat) ^ XorMask) & Dst.b[0]);
PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, (SIZE_PER_PAT * 8), cbWrapBGR); } #endif
} else {
#if defined(_X86_)
_asm {
cld mov ebx, pbgrf mov esi, pbPat mov edi, pbDst mov ecx, pbPatEnd mov ah, XorMask BYTELoop: add ebx, 32 cmp ebx, pInEnd jae DoneLoop
xor al, al mov dx, WORD PTR [ebx + 0] not dx shr dx, 4 cmp dx, WORD PTR [esi + 2 + 0] rcl al, 1
mov dx, WORD PTR [ebx + 4] not dx shr dx, 4 cmp dx, WORD PTR [esi + 2 + 6] rcl al, 1
mov dx, WORD PTR [ebx + 8] not dx shr dx, 4 cmp dx, WORD PTR [esi + 2 + 12] rcl al, 1
mov dx, WORD PTR [ebx + 12] not dx shr dx, 4 cmp dx, WORD PTR [esi + 2 + 18] rcl al, 1
mov dx, WORD PTR [ebx + 16] not dx shr dx, 4 cmp dx, WORD PTR [esi + 2 + 24] rcl al, 1
mov dx, WORD PTR [ebx + 20] not dx shr dx, 4 cmp dx, WORD PTR [esi + 2 + 30] rcl al, 1
mov dx, WORD PTR [ebx + 24] not dx shr dx, 4 cmp dx, WORD PTR [esi + 2 + 36] rcl al, 1
mov dx, WORD PTR [ebx + 28] not dx shr dx, 4 cmp dx, WORD PTR [esi + 2 + 42] rcl al, 1
xor al, ah stosb add esi, 48 cmp esi, ecx jb BYTELoop add esi, cbWrapBGR jmp BYTELoop DoneLoop: mov pbgrf, ebx mov pbPat, esi mov pbDst, edi } #else
while ((pbgrf += 8) < pInEnd) {
*pbDst++ = GRAY_1BPP_COPY_BYTE(pbPat) ^ XorMask;
PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, (SIZE_PER_PAT * 8), cbWrapBGR); } #endif
}
if (Loop = (UINT)AAOutputInfo.bm.cLast) {
Dst.dw = 0; AAOutputInfo.bm.LSFirst = (BYTE)(8 - Loop);
while (Loop--) {
Dst.b[0] = pbgrf->f; Dst.dw = GRAY_1BPP_COPY(pbPat, 0x010000) | (Dst.dw << 1);
++pbgrf;
PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, SIZE_PER_PAT, cbWrapBGR); }
//
// Dst.b[1] = Destination mask (1) for wanted bits
// Dst.b[2] = Destination bits
//
// Shift left for (LeftShift) is for the last un-make bits
//
Dst.b[0] = 0; Dst.dw <<= AAOutputInfo.bm.LSFirst; *pbDst = (*pbDst & ~Dst.b[1]) | ((Dst.b[2] ^ XorMask) & Dst.b[1]); }
#undef XorMask
}
//
//**************************************************************************
// Standard 4BPP (RGB/CMY) Output Functions
//**************************************************************************
VOID HTENTRY OutputAATo4BPP( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPBYTE pbDst, LPDWORD pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { DW2W4B dw4b; DEF_COPY_LUTAAHDR;
dw4b.dw = 0;
if (AAOutputInfo.bm.XorMask) {
dw4b.dw = 0x77700777; }
if (AAOutputInfo.bm.cFirst) {
if (PBGRF_HAS_MASK(++pbgrf)) {
GET_4BPP_CLR_COPY_LIDX(pbDst, pbPat, pbgrf, dw4b.b[1]); }
++pbDst;
PPAT_NEXT(pbPat, pbPatEnd, cbWrapBGR); }
--pbgrf;
if (pAAHdr->Flags & AAHF_HAS_MASK) {
while ((pbgrf += 2) < pInEnd) {
switch (((pbgrf->f) & 0x02) | ((pbgrf + 1)->f & 0x01)) {
case 0:
break;
case 1:
GET_4BPP_CLR_COPY_LIDX(pbDst, pbPat, pbgrf + 1, dw4b.b[1]); break;
case 2:
GET_4BPP_CLR_COPY_HIDX(pbDst, pbPat, pbgrf, dw4b.b[2]); break;
case 3: default:
GET_4BPP_CLR_COPY_BYTE(pbDst, pbPat, dw4b.b[0]); break; }
++pbDst;
PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, SIZE_PER_PAT*2, cbWrapBGR); }
} else {
while ((pbgrf += 2) < pInEnd) {
GET_4BPP_CLR_COPY_BYTE(pbDst++, pbPat, dw4b.b[0]);
PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, SIZE_PER_PAT*2, cbWrapBGR); } }
if ((AAOutputInfo.bm.cLast) && (PBGRF_HAS_MASK(pbgrf))) {
GET_4BPP_CLR_COPY_HIDX(pbDst, pbPat, pbgrf, dw4b.b[2]); } }
//
//**************************************************************************
// VGA16 4BPP Output Functions
//**************************************************************************
VOID HTENTRY OutputAAToVGA16( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPBYTE pbDst, LPDWORD pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { DW2W4B dw4b; DEF_COPY_LUTAAHDR;
dw4b.dw = 0;
if (AAOutputInfo.bm.cFirst) {
if (PBGRF_HAS_MASK(++pbgrf)) {
GET_VGA16_CLR_COPY_LIDX(pbDst, pbPat, pbgrf, 0x07); }
++pbDst;
PPAT_NEXT(pbPat, pbPatEnd, cbWrapBGR); }
--pbgrf;
if (pAAHdr->Flags & AAHF_HAS_MASK) {
while ((pbgrf += 2) < pInEnd) {
switch (((pbgrf->f) & 0x02) | ((pbgrf + 1)->f & 0x01)) {
case 0:
break;
case 1:
GET_VGA16_CLR_COPY_LIDX(pbDst, pbPat, pbgrf + 1, 0x07); break;
case 2:
GET_VGA16_CLR_COPY_HIDX(pbDst, pbPat, pbgrf, 0x70); break;
case 3: default:
GET_VGA16_CLR_COPY_BYTE(pbDst, pbPat, 0x77); break; }
++pbDst;
PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, SIZE_PER_PAT*2, cbWrapBGR); }
} else {
while ((pbgrf += 2) < pInEnd) {
GET_VGA16_CLR_COPY_BYTE(pbDst++, pbPat, 0x77);
PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, SIZE_PER_PAT*2, cbWrapBGR); } }
if ((AAOutputInfo.bm.cLast) && (PBGRF_HAS_MASK(pbgrf))) {
GET_VGA16_CLR_COPY_HIDX(pbDst, pbPat, pbgrf, 0x70); } }
//
//**************************************************************************
// VGA 256 8BPP Output Functions
//**************************************************************************
LPBYTE HTENTRY BuildVGA256Xlate( LPBYTE pXlate, LPBYTE pNewXlate )
/*++
Routine Description:
Arguments:
Return Value:
Author:
13-May-1998 Wed 14:02:56 created -by- Daniel Chou (danielc)
Revision History:
--*/
{
if (pXlate) {
UINT i; LPBYTE pVGA256Xlate; LPBYTE pRet;
ASSERTMSG("Has pXlate8BPP but buffer is NULL", pNewXlate);
DBGP_IF(DBGP_VGA256XLATE, DBGP("Build New Xlate 256"));
if (pRet = pNewXlate) {
pVGA256Xlate = (LPBYTE)VGA256Xlate; i = sizeof(VGA256Xlate);
while (i--) {
DBGP_IF(DBGP_VGA256XLATE, DBGP("Xlate8BPP (%3ld) ---> %3ld --> %3ld" ARGDW(i) ARGDW(pXlate[i]) ARGDW(pXlate[*pVGA256Xlate])));
*pNewXlate++ = pXlate[*pVGA256Xlate++]; } }
return(pRet);
} else {
ASSERTMSG("No pXlate8BPP but buffer is Not NULL", pNewXlate==NULL); DBGP_IF(DBGP_VGA256XLATE, DBGP("Use Default VGA256Xlate"));
return((LPBYTE)VGA256Xlate); } }
VOID HTENTRY OutputAAToVGA256( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPBYTE pbDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { if (pAAHdr->Flags & AAHF_HAS_MASK) {
while (++pbgrf < pInEnd) {
if (PBGRF_HAS_MASK(pbgrf)) {
*pbDst = GET_VGA256_CLR_COPY_XLATE(pbPat, AAOutputInfo.pXlate8BPP); }
++pbDst;
PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, SIZE_PER_PAT, cbWrapBGR); }
} else {
while (++pbgrf < pInEnd) {
*pbDst++ = GET_VGA256_CLR_COPY_XLATE(pbPat, AAOutputInfo.pXlate8BPP); PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, SIZE_PER_PAT, cbWrapBGR); } } }
//
//**************************************************************************
// Mask 8BPP Output Functions
//**************************************************************************
#define bm8i (*(PBM8BPPINFO)&ExtBGR[3])
VOID HTENTRY OutputAATo8BPP_B332( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPBYTE pbDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { DEF_COPY_LUTAAHDR;
while (++pbgrf < pInEnd) {
if (PBGRF_HAS_MASK(pbgrf)) {
GET_MASK8BPP(pbDst, pbPat, _GET_MASK8BPP_332, NULL); }
++pbDst;
PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, SIZE_PER_PAT, cbWrapBGR); } }
VOID HTENTRY OutputAATo8BPP_K_B332( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPBYTE pbDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { DEF_COPY_LUTAAHDR;
while (++pbgrf < pInEnd) {
if (PBGRF_HAS_MASK(pbgrf)) {
GET_MASK8BPP_REP_K(pbDst, pbPat, _GET_MASK8BPP_K_332, NULL); }
++pbDst;
PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, SIZE_PER_PAT, cbWrapBGR); }
}
VOID HTENTRY OutputAATo8BPP_B332_XLATE( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPBYTE pbDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { DEF_COPY_LUTAAHDR;
while (++pbgrf < pInEnd) {
if (PBGRF_HAS_MASK(pbgrf)) {
GET_MASK8BPP(pbDst, pbPat, _GET_MASK8BPP_332_XLATE, AAOutputInfo.pXlate8BPP); }
++pbDst;
PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, SIZE_PER_PAT, cbWrapBGR); } }
VOID HTENTRY OutputAATo8BPP_K_B332_XLATE( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPBYTE pbDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { DEF_COPY_LUTAAHDR;
while (++pbgrf < pInEnd) {
if (PBGRF_HAS_MASK(pbgrf)) {
GET_MASK8BPP_REP_K(pbDst, pbPat, _GET_MASK8BPP_K_332_XLATE, AAOutputInfo.pXlate8BPP); }
++pbDst;
PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, SIZE_PER_PAT, cbWrapBGR); }
}
VOID HTENTRY OutputAATo8BPP_XLATE( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPBYTE pbDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { DEF_COPY_LUTAAHDR;
while (++pbgrf < pInEnd) {
if (PBGRF_HAS_MASK(pbgrf)) {
GET_MASK8BPP(pbDst, pbPat, _GET_MASK8BPP_XLATE, AAOutputInfo.pXlate8BPP); }
++pbDst;
PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, SIZE_PER_PAT, cbWrapBGR); } }
VOID HTENTRY OutputAATo8BPP_K_XLATE( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPBYTE pbDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { DEF_COPY_LUTAAHDR;
while (++pbgrf < pInEnd) {
if (PBGRF_HAS_MASK(pbgrf)) {
GET_MASK8BPP_REP_K(pbDst, pbPat, _GET_MASK8BPP_K_XLATE, AAOutputInfo.pXlate8BPP); }
++pbDst;
PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, SIZE_PER_PAT, cbWrapBGR); } }
#undef bm8i
VOID HTENTRY OutputAATo8BPP_MONO( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPBYTE pbDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { if (pAAHdr->Flags & AAHF_HAS_MASK) {
while (++pbgrf < pInEnd) {
if (PBGRF_HAS_MASK(pbgrf)) {
GET_MASK8BPP_MONO(pbDst, pbPat, PBGRF_2_GRAYDW(pbgrf), AAOutputInfo.bm.XorMask); }
++pbDst;
PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, SIZE_PER_PAT, cbWrapBGR); }
} else {
while (++pbgrf < pInEnd) {
GET_MASK8BPP_MONO(pbDst, pbPat, PBGRF_2_GRAYDW(pbgrf), AAOutputInfo.bm.XorMask);
++pbDst;
PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, SIZE_PER_PAT, cbWrapBGR); } } }
//
//**************************************************************************
// 16BPP_555/16BPP_565 Output Functions
//**************************************************************************
#define OUTPUTAATO16BPP_MASK(BM, GM, RM, XorM) \
{ \ if (AAOutputInfo.bm.cFirst) { \ \ if (PBGRF_HAS_MASK(++pbgrf)) { \ \ *pwDst = GET_16BPP_COPY_W_MASK(pbPat, BM, GM, RM, XorM); \ } \ \ ++pwDst; \ \ PPAT_NEXT(pbPat, pbPatEnd, cbWrapBGR); \ } \ \ if (pAAHdr->Flags & AAHF_HAS_MASK) { \ \ while (++pbgrf < pInEnd) { \ \ if (PBGRF_HAS_MASK(pbgrf)) { \ \ *pwDst = GET_16BPP_COPY_W_MASK(pbPat, BM, GM, RM, XorM); \ } \ \ ++pwDst; \ \ PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, SIZE_PER_PAT, cbWrapBGR); \ } \ \ } else { \ \ --pbgrf; \ \ while ((pbgrf += 2) < pInEnd) { \ \ *((LPDWORD)pwDst)++ = GET_16BPP_COPY_DW_MASK(pbPat, \ BM, \ GM, \ RM, \ XorM); \ \ PPAT_NEXT_CONTINUE(pbPat, pbPatEnd, SIZE_PER_PAT*2, cbWrapBGR); \ } \ } \ \ if ((AAOutputInfo.bm.cLast) && (PBGRF_HAS_MASK(pbgrf))) { \ \ *pwDst = GET_16BPP_COPY_W_MASK(pbPat, BM, GM, RM, XorM); \ } \ }
VOID HTENTRY OutputAATo16BPP_ExtBGR( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPWORD pwDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { DEF_COPY_LUTAAHDR;
OUTPUTAATO16BPP_MASK(ExtBGR[0], ExtBGR[1], ExtBGR[2], ExtBGR[3]); }
VOID HTENTRY OutputAATo16BPP_555_RGB( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPWORD pwDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { OUTPUTAATO16BPP_MASK(0x001F0000, 0x03e00000, 0x7c000000, 0x7FFF7FFF); }
VOID HTENTRY OutputAATo16BPP_555_BGR( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPWORD pwDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { OUTPUTAATO16BPP_MASK(0x7c000000, 0x03e00000, 0x001F0000, 0x7FFF7FFF); }
VOID HTENTRY OutputAATo16BPP_565_RGB( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPWORD pwDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { OUTPUTAATO16BPP_MASK(0x001F0000, 0x07e00000, 0xF8000000, 0xFFFFFFFF); }
VOID HTENTRY OutputAATo16BPP_565_BGR( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPWORD pwDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { OUTPUTAATO16BPP_MASK(0xF8000000, 0x07e00000, 0x001F0000, 0xFFFFFFFF); }
//
//**************************************************************************
// 24BPP/32 Output Functions
//**************************************************************************
#define OUTPUTAATO24_32BPP(iR, iG, iB, cbNext) \
{ \ if (pAAHdr->Flags & AAHF_HAS_MASK) { \ \ while (++pbgrf < pInEnd) { \ \ if (PBGRF_HAS_MASK(pbgrf)) { \ \ pbDst[iR] = ~(BYTE)_GET_R_CLR(pbgrf); \ pbDst[iG] = ~(BYTE)_GET_G_CLR(pbgrf); \ pbDst[iB] = ~(BYTE)_GET_B_CLR(pbgrf); \ } \ \ pbDst += cbNext; \ } \ \ } else { \ \ while (++pbgrf < pInEnd) { \ \ pbDst[iR] = ~(BYTE)_GET_R_CLR(pbgrf); \ pbDst[iG] = ~(BYTE)_GET_G_CLR(pbgrf); \ pbDst[iB] = ~(BYTE)_GET_B_CLR(pbgrf); \ pbDst += cbNext; \ } \ } \ }
VOID HTENTRY OutputAATo24BPP_RGB( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPBYTE pbDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) {
OUTPUTAATO24_32BPP(2, 1, 0, 3); }
VOID HTENTRY OutputAATo24BPP_BGR( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPBYTE pbDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { OUTPUTAATO24_32BPP(0, 1, 2, 3); }
VOID HTENTRY OutputAATo24BPP_ORDER( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPBYTE pbDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { UINT iR; UINT iG; UINT iB;
iR = (UINT)AAOutputInfo.bgri.iR; iG = (UINT)AAOutputInfo.bgri.iG; iB = (UINT)AAOutputInfo.bgri.iB;
OUTPUTAATO24_32BPP(iR, iG, iB, 3); }
VOID HTENTRY OutputAATo32BPP_RGB( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPBYTE pbDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) {
OUTPUTAATO24_32BPP(2, 1, 0, 4); }
VOID HTENTRY OutputAATo32BPP_BGR( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPBYTE pbDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { OUTPUTAATO24_32BPP(0, 1, 2, 4); }
VOID HTENTRY OutputAATo32BPP_ORDER( PAAHEADER pAAHdr, PBGRF pbgrf, PBGRF pInEnd, LPBYTE pbDst, PLONG pIdxBGR, LPBYTE pbPat, LPBYTE pbPatEnd, LONG cbWrapBGR, AAOUTPUTINFO AAOutputInfo ) { UINT iR; UINT iG; UINT iB;
iR = (UINT)AAOutputInfo.bgri.iR; iG = (UINT)AAOutputInfo.bgri.iG; iB = (UINT)AAOutputInfo.bgri.iB;
OUTPUTAATO24_32BPP(iR, iG, iB, 4); }
//
//****************************************************************************
// BRUSH Generation FUNCTION
//****************************************************************************
//
LONG HTENTRY CreateHalftoneBrushPat( PDEVICECOLORINFO pDCI, PCOLORTRIAD pColorTriad, PDEVCLRADJ pDevClrAdj, LPBYTE pDest, LONG cbDestNext )
/*++
Routine Description:
Arguments:
Return Value:
Author:
26-Feb-1997 Wed 13:23:52 created -by- Daniel Chou (danielc)
Revision History:
--*/
{ LPBYTE pPat; LPBYTE pB; PLONG pIdxBGR; LPBYTE pXlate8BPP; AAPATINFO AAPI; DW2W4B dw4b; DWORD dwB; DWORD dwG; DWORD dwR; DWORD DCAFlags; LONG Result; BGR8 bgr; UINT cCX; UINT cCY; UINT Count; UINT uTmp; BYTE XorMask; BYTE DestFormat;
_DEF_LUTAAHDR;
#define pW ((LPWORD)pB)
#define pDW ((LPDWORD)pB)
#define bm8i (*(PBM8BPPINFO)&ExtBGR[3])
//
// Compute the rgbLUTAA then compute the BGR
//
ComputeRGBLUTAA(pDCI, pDevClrAdj, &(pDCI->rgbLUTPat));
Result = INTERR_INVALID_DEVRGB_SIZE;
if ((ComputeBGRMappingTable(pDCI, pDevClrAdj, pColorTriad, &bgr) != 1) || ((Result = CachedHalftonePattern(pDCI, pDevClrAdj, &AAPI, 0, 0, FALSE)) <= 0)) {
//-------------------------------------------------------------
// Release the semaphore and return error
//-------------------------------------------------------------
RELEASE_HTMUTEX(pDCI->HTMutex); return(Result); }
//
// Copy down the ExtBGR and release the semaphore now
//
cCX = (UINT)pDCI->HTCell.cxReal; cCY = (UINT)pDCI->HTCell.Height; pIdxBGR = pDCI->rgbLUTPat.IdxBGR;
//
// Copy down the necessary infomation
//
GET_LUTAAHDR(ExtBGR, pIdxBGR);
DestFormat = pDevClrAdj->DMI.CTSTDInfo.BMFDest;
if ((DCAFlags = pDevClrAdj->PrimAdj.Flags) & DCA_XLATE_555_666) {
GET_P8BPPXLATE(pXlate8BPP, bm8i); }
if (DCAFlags & DCA_XLATE_332) {
pXlate8BPP = pDCI->CMY8BPPMask.bXlate; }
dwB = _GET_B_CLR(&bgr); dwG = _GET_G_CLR(&bgr); dwR = _GET_R_CLR(&bgr);
//----------------------------------------------------------------------
// Release Semaphore now before we compose the pattern brush
//----------------------------------------------------------------------
RELEASE_HTMUTEX(pDCI->HTMutex);
DBGP_IF(DBGP_BRUSH, DBGP("DstOrder=%ld [%ld:%ld:%ld], bgr=%08lx:%08lx:%08lx, ExtBGR=%08lx:%08lx:%08lx %08lx:%08lx:%08lx" ARGDW(AAPI.DstOrder.Index) ARGDW(AAPI.DstOrder.Order[0]) ARGDW(AAPI.DstOrder.Order[1]) ARGDW(AAPI.DstOrder.Order[2]) ARGDW(dwB) ARGDW(dwG) ARGDW(dwR) ARGDW(ExtBGR[0]) ARGDW(ExtBGR[1]) ARGDW(ExtBGR[2]) ARGDW(ExtBGR[3]) ARGDW(ExtBGR[4]) ARGDW(ExtBGR[5])));
switch (DestFormat = pDevClrAdj->DMI.CTSTDInfo.BMFDest) {
case BMF_1BPP:
//
// Use only Green/Magenta Pattern
//
dwB = ((dwR + dwG + dwB) ^ GRAY_MAX_IDX) >> 4; XorMask = (DCAFlags & DCA_USE_ADDITIVE_PRIMS) ? 0x00 : 0xFF;
#if defined(_X86_)
_asm { mov esi, AAPI.pbPatBGR mov edi, pDest cld mov edx, dwB mov ah, XorMask CYLoop: push esi push edi mov ebx, cCX mov ecx, ebx shr ecx, 3 jz DoBIT BYTELoop: xor al, al cmp dx, WORD PTR [esi + 2 + 0] rcl al, 1 cmp dx, WORD PTR [esi + 2 + 6] rcl al, 1 cmp dx, WORD PTR [esi + 2 + 12] rcl al, 1 cmp dx, WORD PTR [esi + 2 + 18] rcl al, 1 cmp dx, WORD PTR [esi + 2 + 24] rcl al, 1 cmp dx, WORD PTR [esi + 2 + 30] rcl al, 1 cmp dx, WORD PTR [esi + 2 + 36] rcl al, 1 cmp dx, WORD PTR [esi + 2 + 42] rcl al, 1 xor al, ah stosb add esi, 48 dec ecx jnz BYTELoop DoBIT: and ebx, 7 jz DoneLoop mov ecx, 8 sub ecx, ebx xor al, al BITLoop: cmp dx, WORD PTR [esi + 2] rcl al, 1 add esi, 6 dec ebx jnz BITLoop xor al, ah shl al, cl stosb DoneLoop: pop edi pop esi add esi, AAPI.cyNextBGR add edi, cbDestNext dec cCY jnz CYLoop } #else
while (cCY--) {
pPat = AAPI.pbPatBGR; AAPI.pbPatBGR += AAPI.cyNextBGR; pB = pDest; pDest += cbDestNext; Count = cCX >> 3;
while (Count--) {
*pB++ = (BYTE)((((dwB - GETMONOPAT(pPat, 0)) & 0x800000) | ((dwB - GETMONOPAT(pPat, 1)) & 0x400000) | ((dwB - GETMONOPAT(pPat, 2)) & 0x200000) | ((dwB - GETMONOPAT(pPat, 3)) & 0x100000) | ((dwB - GETMONOPAT(pPat, 4)) & 0x080000) | ((dwB - GETMONOPAT(pPat, 5)) & 0x040000) | ((dwB - GETMONOPAT(pPat, 6)) & 0x020000) | ((dwB - GETMONOPAT(pPat, 7)) & 0x010000)) >> 16) ^ XorMask;
INC_PPAT(pPat, 8); }
if (Count = cCX & 0x07) {
dw4b.dw = 0; uTmp = 8 - Count;
while (Count--) {
dw4b.dw = ((dwB - GETMONOPAT(pPat, 0)) & 0x10000) | (dw4b.dw << 1);
INC_PPAT(pPat, 1); }
dw4b.b[2] ^= XorMask; dw4b.dw <<= uTmp; *pB = dw4b.b[2]; } } #endif
break;
case BMF_4BPP:
XorMask = (DCAFlags & DCA_USE_ADDITIVE_PRIMS) ? 0x00 : 0x77;
while (cCY--) {
pPat = AAPI.pbPatBGR; AAPI.pbPatBGR += AAPI.cyNextBGR; pB = pDest; pDest += cbDestNext; Count = cCX >> 1;
while (Count--) {
*pB++ = _GET_4BPP_CLR_COPY_BYTE(pPat, dwB, dwG, dwR, dwB, dwG, dwR, XorMask); INC_PPAT(pPat, 2); }
if (cCX & 0x01) {
*pB = _GET_4BPP_CLR_COPY_NIBBLE(pPat, dwB, dwG, dwR, 0, 1, 2, XorMask); } }
break;
case BMF_4BPP_VGA16:
while (cCY--) {
pPat = AAPI.pbPatBGR; AAPI.pbPatBGR += AAPI.cyNextBGR; pB = pDest; pDest += cbDestNext; Count = cCX >> 1;
while (Count--) {
*pB++ = _GET_VGA16_CLR_COPY_BYTE(pPat, dwB, dwG, dwR, dwB, dwG, dwR, 0x77); INC_PPAT(pPat, 2); }
if (cCX & 0x01) {
*pB = _GET_VGA16_CLR_COPY_NIBBLE(pPat, dwB, dwG, dwR, 0, 1, 2, 0x70); } }
break;
case BMF_8BPP_MONO:
dw4b.dw = dwB + dwR + dwG; dwB = GRAY_W2DW(dw4b.b[0], dw4b.b[1]);
while (cCY--) {
pPat = AAPI.pbPatBGR; AAPI.pbPatBGR += AAPI.cyNextBGR; pB = pDest; pDest += cbDestNext; Count = cCX;
while (Count--) {
GET_MASK8BPP_MONO(pB, pPat, dwB, bm8i.Data.bXor);
++pB;
INC_PPAT(pPat, 1); } }
break;
case BMF_8BPP_B332:
if (DCAFlags & DCA_XLATE_332) {
while (cCY--) {
pPat = AAPI.pbPatBGR; AAPI.pbPatBGR += AAPI.cyNextBGR; pB = pDest; pDest += cbDestNext; Count = cCX;
while (Count--) {
_GET_MASK8BPP_332_XLATE(pB, pPat, dwB,dwG,dwR, pXlate8BPP);
++pB;
INC_PPAT(pPat, 1); } }
} else {
while (cCY--) {
pPat = AAPI.pbPatBGR; AAPI.pbPatBGR += AAPI.cyNextBGR; pB = pDest; pDest += cbDestNext; Count = cCX;
while (Count--) {
_GET_MASK8BPP_332(pB, pPat, dwB, dwG, dwR, NULL);
++pB;
INC_PPAT(pPat, 1); } } }
break;
case BMF_8BPP_K_B332:
if (DCAFlags & DCA_XLATE_332) {
while (cCY--) {
pPat = AAPI.pbPatBGR; AAPI.pbPatBGR += AAPI.cyNextBGR; pB = pDest; pDest += cbDestNext; Count = cCX;
while (Count--) {
_GET_MASK8BPP_REP_K(pB, pPat, dwB, dwG, dwR, _GET_MASK8BPP_K_332_XLATE, pXlate8BPP);
++pB;
INC_PPAT(pPat, 1); } }
} else {
while (cCY--) {
pPat = AAPI.pbPatBGR; AAPI.pbPatBGR += AAPI.cyNextBGR; pB = pDest; pDest += cbDestNext; Count = cCX;
while (Count--) {
_GET_MASK8BPP_REP_K(pB, pPat, dwB, dwG, dwR, _GET_MASK8BPP_K_332, NULL);
++pB;
INC_PPAT(pPat, 1); } } }
break;
case BMF_8BPP_L555: case BMF_8BPP_L666:
while (cCY--) {
pPat = AAPI.pbPatBGR; AAPI.pbPatBGR += AAPI.cyNextBGR; pB = pDest; pDest += cbDestNext; Count = cCX;
while (Count--) {
_GET_MASK8BPP_XLATE(pB, pPat, dwB, dwG, dwR, pXlate8BPP);
++pB;
INC_PPAT(pPat, 1); } }
break;
case BMF_8BPP_K_L555: case BMF_8BPP_K_L666:
while (cCY--) {
pPat = AAPI.pbPatBGR; AAPI.pbPatBGR += AAPI.cyNextBGR; pB = pDest; pDest += cbDestNext; Count = cCX;
while (Count--) {
_GET_MASK8BPP_REP_K(pB, pPat, dwB, dwG, dwR, _GET_MASK8BPP_K_XLATE, pXlate8BPP);
++pB;
INC_PPAT(pPat, 1); } }
break;
case BMF_8BPP_VGA256:
while (cCY--) {
pPat = AAPI.pbPatBGR; AAPI.pbPatBGR += AAPI.cyNextBGR; pB = pDest; pDest += cbDestNext; Count = cCX;
while (Count--) {
*pB++ = _GET_VGA256_CLR_COPY_XLATE(pPat, VGA256Xlate, dwB, dwG, dwR);
INC_PPAT(pPat, 1); } }
break;
case BMF_16BPP_555: case BMF_16BPP_565:
while (cCY--) {
pPat = AAPI.pbPatBGR; AAPI.pbPatBGR += AAPI.cyNextBGR; pDW = (LPDWORD)pDest; pDest += cbDestNext; Count = cCX >> 1;
while (Count--) {
*pDW++ = _GET_16BPP_COPY_DW_MASK(pPat, dwB, dwG, dwR, dwB, dwG, dwR, ExtBGR[0], ExtBGR[1], ExtBGR[2], ExtBGR[3]);
INC_PPAT(pPat, 2); }
if (cCX & 0x01) {
*pW = _GET_16BPP_COPY_W_MASK(pPat, dwB, dwG, dwR, ExtBGR[0], ExtBGR[1], ExtBGR[2], ExtBGR[3]); } }
break;
case BMF_24BPP: case BMF_32BPP:
pB = pDest; pB[AAPI.DstOrder.Order[0]] = ~(BYTE)dwR; pB[AAPI.DstOrder.Order[1]] = ~(BYTE)dwG; pB[AAPI.DstOrder.Order[2]] = ~(BYTE)dwB;
if (DestFormat == BMF_24BPP) {
dwB = 3; dwG = (cCX << 1) + cCX;
} else {
dwB = 4; dwG = (cCX << 2); pB[3] = 0;
}
pB += (uTmp = dwB); Count = dwG;
while (Count -= uTmp) {
if ((uTmp = dwB) > Count) {
uTmp = Count; }
CopyMemory(pB, pDest, uTmp);
pB += uTmp; dwB += uTmp; }
//
// Now copy down the remaining scanlines from first scanline
//
pB = pDest;
while (--cCY) {
CopyMemory(pDest += cbDestNext, pB, dwG); }
break;
default:
return(HTERR_INVALID_DEST_FORMAT); }
return(Result);
#undef bm8i
#undef pW
#undef pDW
}
#if DBG
LPSTR GetAAOutputFuncName( AAOUTPUTFUNC AAOutputFunc )
/*++
Routine Description:
Arguments:
Return Value:
Author:
06-Jan-1999 Wed 19:11:27 created -by- Daniel Chou (danielc)
Revision History:
--*/
{ if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo1BPP) {
return("OutputAATo1BPP");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo4BPP) {
return("OutputAATo4BPP");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAAToVGA16) {
return("OutputAAToVGA16");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAAToVGA256) {
return("OutputAAToVGA256");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo8BPP_B332) {
return("OutputAATo8BPP_B332");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo8BPP_B332_XLATE) {
return("OutputAATo8BPP_B332_XLATE");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo8BPP_XLATE) {
return("OutputAATo8BPP_XLATE");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo8BPP_K_XLATE) {
return("OutputAATo8BPP_K_XLATE");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo8BPP_K_B332) {
return("OutputAATo8BPP_K_B332");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo8BPP_K_B332_XLATE) {
return("OutputAATo8BPP_K_B332_XLATE");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo8BPP_MONO) {
return("OutputAATo8BPP_MONO");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo16BPP_ExtBGR) {
return("OutputAATo16BPP_ExtBGR");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo16BPP_555_RGB) {
return("OutputAATo16BPP_555_RGB");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo16BPP_555_BGR) {
return("OutputAATo16BPP_555_BGR");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo16BPP_565_RGB) {
return("OutputAATo16BPP_565_RGB");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo16BPP_565_BGR) {
return("OutputAATo16BPP_565_BGR");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo24BPP_RGB) {
return("OutputAATo24BPP_RGB");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo24BPP_BGR) {
return("OutputAATo24BPP_BGR");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo24BPP_ORDER) {
return("OutputAATo24BPP_ORDER");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo32BPP_RGB) {
return("OutputAATo32BPP_RGB");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo32BPP_BGR) {
return("OutputAATo32BPP_BGR");
} else if (AAOutputFunc == (AAOUTPUTFUNC)OutputAATo32BPP_ORDER) {
return("OutputAATo32BPP_ORDER");
} else {
return("ERROR: Unknow Function"); } }
#endif
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