src/share/native/sun/java2d/loops/ByteIndexed.h - toolchain/jdk/jdk9_jdk - Git at Google

 /*
  * Copyright (c) 2000, 2006, Oracle and/or its affiliates. All rights reserved.
  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
  *
  * This code is free software; you can redistribute it and/or modify it
  * under the terms of the GNU General Public License version 2 only, as
  * published by the Free Software Foundation.  Oracle designates this
  * particular file as subject to the "Classpath" exception as provided
  * by Oracle in the LICENSE file that accompanied this code.
  *
  * This code 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 General Public License
  * version 2 for more details (a copy is included in the LICENSE file that
  * accompanied this code).
  *
  * You should have received a copy of the GNU General Public License version
  * 2 along with this work; if not, write to the Free Software Foundation,
  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  *
  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  */

 #ifndef ByteIndexed_h_Included
 #define ByteIndexed_h_Included

 #include "IntDcm.h"

 /*
  * This file contains macro and type definitions used by the macros in
  * LoopMacros.h to manipulate a surface of type "ByteIndexed".
  */

 typedef jubyte  ByteIndexedPixelType;
 typedef jubyte  ByteIndexedDataType;

 #define ByteIndexedPixelStride          1
 #define ByteIndexedBitsPerPixel         8

 #define DeclareByteIndexedLoadVars(PREFIX) \
     jint *PREFIX ## Lut;

 #define DeclareByteIndexedStoreVars(PREFIX) \
     int PREFIX ## XDither, PREFIX ## YDither; \
     char *PREFIX ## rerr, *PREFIX ## gerr, *PREFIX ## berr; \
     unsigned char *PREFIX ## InvLut;

 #define SetByteIndexedStoreVarsYPos(PREFIX, pRasInfo, LOC) \
     do { \
          PREFIX ## YDither = ((LOC & 7) << 3); \
     } while (0)

 #define SetByteIndexedStoreVarsXPos(PREFIX, pRasInfo, LOC) \
     do { \
         PREFIX ## rerr = (pRasInfo)->redErrTable + PREFIX ## YDither; \
         PREFIX ## gerr = (pRasInfo)->grnErrTable + PREFIX ## YDither; \
         PREFIX ## berr = (pRasInfo)->bluErrTable + PREFIX ## YDither; \
         PREFIX ## XDither = (LOC & 7); \
     } while (0)

 #define InitByteIndexedLoadVars(PREFIX, pRasInfo) \
     PREFIX ## Lut = (pRasInfo)->lutBase

 /* REMIND Could collapse Init..Store..X and Init..Store..Y into one Init
  * and factor out the Set.. macros.
  */
 #define InitByteIndexedStoreVarsY(PREFIX, pRasInfo) \
     do { \
         SetByteIndexedStoreVarsYPos(PREFIX, pRasInfo, (pRasInfo)->bounds.y1); \
         PREFIX ## InvLut = (pRasInfo)->invColorTable; \
     } while (0)

 #define InitByteIndexedStoreVarsX(PREFIX, pRasInfo) \
     SetByteIndexedStoreVarsXPos(PREFIX, pRasInfo, (pRasInfo)->bounds.x1);


 #define NextByteIndexedStoreVarsX(PREFIX) \
     PREFIX ## XDither = (PREFIX ## XDither + 1) & 7

 #define NextByteIndexedStoreVarsY(PREFIX) \
     PREFIX ## YDither = (PREFIX ## YDither + (1 << 3)) & (7 << 3)

 typedef jubyte  ByteIndexedBmPixelType;
 typedef jubyte  ByteIndexedBmDataType;

 #define ByteIndexedBmPixelStride        1
 #define ByteIndexedBmBitsPerPixel       8

 #define DeclareByteIndexedBmLoadVars    DeclareByteIndexedLoadVars
 #define DeclareByteIndexedBmStoreVars   DeclareByteIndexedStoreVars
 #define InitByteIndexedBmLoadVars       InitByteIndexedLoadVars
 #define InitByteIndexedBmStoreVarsY     InitByteIndexedStoreVarsY
 #define InitByteIndexedBmStoreVarsX     InitByteIndexedStoreVarsX
 #define NextByteIndexedBmStoreVarsX     NextByteIndexedStoreVarsX
 #define NextByteIndexedBmStoreVarsY     NextByteIndexedStoreVarsY

 #define LoadByteIndexedBmTo1IntArgb     LoadByteIndexedTo1IntArgb

 #define CopyByteIndexedBmToIntArgbPre(pRGB, i, PREFIX, pRow, x) \
     do { \
         jint argb = PREFIX ## Lut[pRow[x]]; \
         (pRGB)[i] = argb & (argb >> 24); \
     } while (0)


 #define ByteIndexedXparLutEntry                 -1
 #define ByteIndexedIsXparLutEntry(pix)          (pix < 0)
 #define StoreByteIndexedNonXparFromArgb         StoreByteIndexedFrom1IntArgb

 #define StoreByteIndexedPixel(pRas, x, pixel) \
     ((pRas)[x] = (jubyte) (pixel))

 #define DeclareByteIndexedPixelData(PREFIX)
 #define ExtractByteIndexedPixelData(PIXEL, PREFIX)

 #define StoreByteIndexedPixelData(pPix, x, pixel, PREFIX) \
     (pPix)[x] = (jubyte) (pixel)

 #define ByteIndexedPixelFromArgb(pixel, rgb, pRasInfo) \
     do { \
         jint r, g, b; \
         ExtractIntDcmComponentsX123(rgb, r, g, b); \
         (pixel) = SurfaceData_InvColorMap((pRasInfo)->invColorTable, \
                                           r, g, b); \
     } while (0)

 #define LoadByteIndexedTo1IntRgb(pRas, PREFIX, x, rgb) \
     (rgb) = PREFIX ## Lut[pRas[x]]

 #define LoadByteIndexedTo1IntArgb(pRas, PREFIX, x, argb) \
     (argb) = PREFIX ## Lut[pRas[x]]

 #define LoadByteIndexedTo3ByteRgb(pRas, PREFIX, x, r, g, b) \
     do { \
         jint rgb = PREFIX ## Lut[pRas[x]]; \
         ExtractIntDcmComponentsX123(rgb, r, g, b); \
     } while (0)

 #define LoadByteIndexedTo4ByteArgb(pRas, PREFIX, x, a, r, g, b) \
     do { \
         jint argb = PREFIX ## Lut[pRas[x]]; \
         ExtractIntDcmComponents1234(argb, a, r, g, b); \
     } while (0)

 #define ByteClamp1Component(X)  \
     do { if (((X) >> 8) != 0) {X = (~(X >> 31)) & 255; } } while (0)

 #define ByteClamp3Components(R, G, B) \
     do { \
         if (((R|G|B) >> 8) != 0) { \
             ByteClamp1Component(R); \
             ByteClamp1Component(G); \
             ByteClamp1Component(B); \
         } \
     } while (0)

 #define StoreByteIndexedFrom1IntRgb(pRas, PREFIX, x, rgb) \
     do { \
         int r, g, b; \
         ExtractIntDcmComponentsX123(rgb, r, g, b); \
         StoreByteIndexedFrom3ByteRgb(pRas, PREFIX, x, r, g, b); \
     } while (0)

 #define StoreByteIndexedFrom1IntArgb(pRas, PREFIX, x, argb) \
     StoreByteIndexedFrom1IntRgb(pRas, PREFIX, x, argb)

 #define StoreByteIndexedFrom3ByteRgb(pRas, PREFIX, x, r, g, b) \
     do { \
         r += PREFIX ## rerr[PREFIX ## XDither]; \
         g += PREFIX ## gerr[PREFIX ## XDither]; \
         b += PREFIX ## berr[PREFIX ## XDither]; \
         ByteClamp3Components(r, g, b); \
         (pRas)[x] = SurfaceData_InvColorMap(PREFIX ## InvLut, r, g, b); \
     } while (0)

 #define StoreByteIndexedFrom4ByteArgb(pRas, PREFIX, x, a, r, g, b) \
     StoreByteIndexedFrom3ByteRgb(pRas, PREFIX, x, r, g, b)

 #define CopyByteIndexedToIntArgbPre(pRGB, i, PREFIX, pRow, x) \
     do { \
         jint argb = PREFIX ## Lut[pRow[x]]; \
         jint a = URShift(argb, 24); \
         if (a == 0) { \
             argb = 0; \
         } else if (a < 0xff) { \
             jint r = (argb >> 16) & 0xff; \
             jint g = (argb >>  8) & 0xff; \
             jint b = (argb      ) & 0xff; \
             r = MUL8(a, r); \
             g = MUL8(a, g); \
             b = MUL8(a, b); \
             argb = ComposeIntDcmComponents1234(a, r, g, b); \
         } \
         (pRGB)[i] = argb; \
     } while (0)


 #define DeclareByteIndexedAlphaLoadData(PREFIX) \
     jint *PREFIX ## Lut; \
     jint PREFIX ## rgb;

 #define InitByteIndexedAlphaLoadData(PREFIX, pRasInfo) \
     PREFIX ## Lut = (pRasInfo)->lutBase

 #define LoadAlphaFromByteIndexedFor4ByteArgb(pRas, PREFIX, COMP_PREFIX) \
     do { \
         PREFIX ## rgb = PREFIX ## Lut[(pRas)[0]]; \
         COMP_PREFIX ## A = ((juint) PREFIX ## rgb) >> 24; \
     } while (0)

 #define Postload4ByteArgbFromByteIndexed(pRas, PREFIX, COMP_PREFIX) \
     do { \
         COMP_PREFIX ## R = (PREFIX ## rgb >> 16) & 0xff; \
         COMP_PREFIX ## G = (PREFIX ## rgb >>  8) & 0xff; \
         COMP_PREFIX ## B = (PREFIX ## rgb >>  0) & 0xff; \
     } while (0)


 #define ByteIndexedIsPremultiplied      0

 #define StoreByteIndexedFrom4ByteArgbComps(pRas, PREFIX, x, COMP_PREFIX) \
     StoreByteIndexedFrom4ByteArgb(pRas, PREFIX, x, \
                                   COMP_PREFIX ## A, COMP_PREFIX ## R, \
                                   COMP_PREFIX ## G, COMP_PREFIX ## B)

 #endif /* ByteIndexed_h_Included */
	/*
	* Copyright (c) 2000, 2006, Oracle and/or its affiliates. All rights reserved.
	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
	*
	* This code is free software; you can redistribute it and/or modify it
	* under the terms of the GNU General Public License version 2 only, as
	* published by the Free Software Foundation. Oracle designates this
	* particular file as subject to the "Classpath" exception as provided
	* by Oracle in the LICENSE file that accompanied this code.
	*
	* This code 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 General Public License
	* version 2 for more details (a copy is included in the LICENSE file that
	* accompanied this code).
	*
	* You should have received a copy of the GNU General Public License version
	* 2 along with this work; if not, write to the Free Software Foundation,
	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
	*
	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
	* or visit www.oracle.com if you need additional information or have any
	* questions.
	*/

	#ifndef ByteIndexed_h_Included
	#define ByteIndexed_h_Included

	#include "IntDcm.h"

	/*
	* This file contains macro and type definitions used by the macros in
	* LoopMacros.h to manipulate a surface of type "ByteIndexed".
	*/

	typedef jubyte ByteIndexedPixelType;
	typedef jubyte ByteIndexedDataType;

	#define ByteIndexedPixelStride 1
	#define ByteIndexedBitsPerPixel 8

	#define DeclareByteIndexedLoadVars(PREFIX) \
	jint *PREFIX ## Lut;

	#define DeclareByteIndexedStoreVars(PREFIX) \
	int PREFIX ## XDither, PREFIX ## YDither; \
	char PREFIX ## rerr, PREFIX ## gerr, *PREFIX ## berr; \
	unsigned char *PREFIX ## InvLut;

	#define SetByteIndexedStoreVarsYPos(PREFIX, pRasInfo, LOC) \
	do { \
	PREFIX ## YDither = ((LOC & 7) << 3); \
	} while (0)

	#define SetByteIndexedStoreVarsXPos(PREFIX, pRasInfo, LOC) \
	do { \
	PREFIX ## rerr = (pRasInfo)->redErrTable + PREFIX ## YDither; \
	PREFIX ## gerr = (pRasInfo)->grnErrTable + PREFIX ## YDither; \
	PREFIX ## berr = (pRasInfo)->bluErrTable + PREFIX ## YDither; \
	PREFIX ## XDither = (LOC & 7); \
	} while (0)

	#define InitByteIndexedLoadVars(PREFIX, pRasInfo) \
	PREFIX ## Lut = (pRasInfo)->lutBase

	/* REMIND Could collapse Init..Store..X and Init..Store..Y into one Init
	* and factor out the Set.. macros.
	*/
	#define InitByteIndexedStoreVarsY(PREFIX, pRasInfo) \
	do { \
	SetByteIndexedStoreVarsYPos(PREFIX, pRasInfo, (pRasInfo)->bounds.y1); \
	PREFIX ## InvLut = (pRasInfo)->invColorTable; \
	} while (0)

	#define InitByteIndexedStoreVarsX(PREFIX, pRasInfo) \
	SetByteIndexedStoreVarsXPos(PREFIX, pRasInfo, (pRasInfo)->bounds.x1);


	#define NextByteIndexedStoreVarsX(PREFIX) \
	PREFIX ## XDither = (PREFIX ## XDither + 1) & 7

	#define NextByteIndexedStoreVarsY(PREFIX) \
	PREFIX ## YDither = (PREFIX ## YDither + (1 << 3)) & (7 << 3)

	typedef jubyte ByteIndexedBmPixelType;
	typedef jubyte ByteIndexedBmDataType;

	#define ByteIndexedBmPixelStride 1
	#define ByteIndexedBmBitsPerPixel 8

	#define DeclareByteIndexedBmLoadVars DeclareByteIndexedLoadVars
	#define DeclareByteIndexedBmStoreVars DeclareByteIndexedStoreVars
	#define InitByteIndexedBmLoadVars InitByteIndexedLoadVars
	#define InitByteIndexedBmStoreVarsY InitByteIndexedStoreVarsY
	#define InitByteIndexedBmStoreVarsX InitByteIndexedStoreVarsX
	#define NextByteIndexedBmStoreVarsX NextByteIndexedStoreVarsX
	#define NextByteIndexedBmStoreVarsY NextByteIndexedStoreVarsY

	#define LoadByteIndexedBmTo1IntArgb LoadByteIndexedTo1IntArgb

	#define CopyByteIndexedBmToIntArgbPre(pRGB, i, PREFIX, pRow, x) \
	do { \
	jint argb = PREFIX ## Lut[pRow[x]]; \
	(pRGB)[i] = argb & (argb >> 24); \
	} while (0)


	#define ByteIndexedXparLutEntry -1
	#define ByteIndexedIsXparLutEntry(pix) (pix < 0)
	#define StoreByteIndexedNonXparFromArgb StoreByteIndexedFrom1IntArgb

	#define StoreByteIndexedPixel(pRas, x, pixel) \
	((pRas)[x] = (jubyte) (pixel))

	#define DeclareByteIndexedPixelData(PREFIX)
	#define ExtractByteIndexedPixelData(PIXEL, PREFIX)

	#define StoreByteIndexedPixelData(pPix, x, pixel, PREFIX) \
	(pPix)[x] = (jubyte) (pixel)

	#define ByteIndexedPixelFromArgb(pixel, rgb, pRasInfo) \
	do { \
	jint r, g, b; \
	ExtractIntDcmComponentsX123(rgb, r, g, b); \
	(pixel) = SurfaceData_InvColorMap((pRasInfo)->invColorTable, \
	r, g, b); \
	} while (0)

	#define LoadByteIndexedTo1IntRgb(pRas, PREFIX, x, rgb) \
	(rgb) = PREFIX ## Lut[pRas[x]]

	#define LoadByteIndexedTo1IntArgb(pRas, PREFIX, x, argb) \
	(argb) = PREFIX ## Lut[pRas[x]]

	#define LoadByteIndexedTo3ByteRgb(pRas, PREFIX, x, r, g, b) \
	do { \
	jint rgb = PREFIX ## Lut[pRas[x]]; \
	ExtractIntDcmComponentsX123(rgb, r, g, b); \
	} while (0)

	#define LoadByteIndexedTo4ByteArgb(pRas, PREFIX, x, a, r, g, b) \
	do { \
	jint argb = PREFIX ## Lut[pRas[x]]; \
	ExtractIntDcmComponents1234(argb, a, r, g, b); \
	} while (0)

	#define ByteClamp1Component(X) \
	do { if (((X) >> 8) != 0) {X = (~(X >> 31)) & 255; } } while (0)

	#define ByteClamp3Components(R, G, B) \
	do { \
	if (((R\|G\|B) >> 8) != 0) { \
	ByteClamp1Component(R); \
	ByteClamp1Component(G); \
	ByteClamp1Component(B); \
	} \
	} while (0)

	#define StoreByteIndexedFrom1IntRgb(pRas, PREFIX, x, rgb) \
	do { \
	int r, g, b; \
	ExtractIntDcmComponentsX123(rgb, r, g, b); \
	StoreByteIndexedFrom3ByteRgb(pRas, PREFIX, x, r, g, b); \
	} while (0)

	#define StoreByteIndexedFrom1IntArgb(pRas, PREFIX, x, argb) \
	StoreByteIndexedFrom1IntRgb(pRas, PREFIX, x, argb)

	#define StoreByteIndexedFrom3ByteRgb(pRas, PREFIX, x, r, g, b) \
	do { \
	r += PREFIX ## rerr[PREFIX ## XDither]; \
	g += PREFIX ## gerr[PREFIX ## XDither]; \
	b += PREFIX ## berr[PREFIX ## XDither]; \
	ByteClamp3Components(r, g, b); \
	(pRas)[x] = SurfaceData_InvColorMap(PREFIX ## InvLut, r, g, b); \
	} while (0)

	#define StoreByteIndexedFrom4ByteArgb(pRas, PREFIX, x, a, r, g, b) \
	StoreByteIndexedFrom3ByteRgb(pRas, PREFIX, x, r, g, b)

	#define CopyByteIndexedToIntArgbPre(pRGB, i, PREFIX, pRow, x) \
	do { \
	jint argb = PREFIX ## Lut[pRow[x]]; \
	jint a = URShift(argb, 24); \
	if (a == 0) { \
	argb = 0; \
	} else if (a < 0xff) { \
	jint r = (argb >> 16) & 0xff; \
	jint g = (argb >> 8) & 0xff; \
	jint b = (argb ) & 0xff; \
	r = MUL8(a, r); \
	g = MUL8(a, g); \
	b = MUL8(a, b); \
	argb = ComposeIntDcmComponents1234(a, r, g, b); \
	} \
	(pRGB)[i] = argb; \
	} while (0)


	#define DeclareByteIndexedAlphaLoadData(PREFIX) \
	jint *PREFIX ## Lut; \
	jint PREFIX ## rgb;

	#define InitByteIndexedAlphaLoadData(PREFIX, pRasInfo) \
	PREFIX ## Lut = (pRasInfo)->lutBase

	#define LoadAlphaFromByteIndexedFor4ByteArgb(pRas, PREFIX, COMP_PREFIX) \
	do { \
	PREFIX ## rgb = PREFIX ## Lut[(pRas)[0]]; \
	COMP_PREFIX ## A = ((juint) PREFIX ## rgb) >> 24; \
	} while (0)

	#define Postload4ByteArgbFromByteIndexed(pRas, PREFIX, COMP_PREFIX) \
	do { \
	COMP_PREFIX ## R = (PREFIX ## rgb >> 16) & 0xff; \
	COMP_PREFIX ## G = (PREFIX ## rgb >> 8) & 0xff; \
	COMP_PREFIX ## B = (PREFIX ## rgb >> 0) & 0xff; \
	} while (0)


	#define ByteIndexedIsPremultiplied 0

	#define StoreByteIndexedFrom4ByteArgbComps(pRas, PREFIX, x, COMP_PREFIX) \
	StoreByteIndexedFrom4ByteArgb(pRas, PREFIX, x, \
	COMP_PREFIX ## A, COMP_PREFIX ## R, \
	COMP_PREFIX ## G, COMP_PREFIX ## B)

	#endif /* ByteIndexed_h_Included */