Java example source code file (awt_ImageRep.c)
The awt_ImageRep.c Java example source code/*
* Copyright (c) 1997, 2013, 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.
*/
#include <string.h>
#include "jni.h"
#include "jni_util.h"
#include "awt_parseImage.h"
#include "imageInitIDs.h"
#include "sun_awt_image_ImageRepresentation.h"
static int compareLUTs(unsigned int *lut1, int numLut1, int transIdx,
unsigned int *lut2, int numLut2, unsigned char *cvtLut,
int *retNumLut1, int *retTransIdx, int *jniFlagP);
static int findIdx(unsigned int rgb, unsigned int *lut, int numLut1);
#define ALPHA_MASK 0xff000000
#ifndef FALSE
# define FALSE 0
#endif
#ifndef TRUE
# define TRUE 1
#endif
#define CHECK_STRIDE(yy, hh, ss) \
if ((ss) != 0) { \
int limit = 0x7fffffff / ((ss) > 0 ? (ss) : -(ss)); \
if (limit < (yy) || limit < ((yy) + (hh) - 1)) { \
/* integer oveflow */ \
return JNI_FALSE; \
} \
} \
#define CHECK_SRC() \
do { \
int pixeloffset; \
if (off < 0 || off >= srcDataLength) { \
return JNI_FALSE; \
} \
CHECK_STRIDE(0, h, scansize); \
\
/* check scansize */ \
pixeloffset = scansize * (h - 1); \
if ((w - 1) > (0x7fffffff - pixeloffset)) { \
return JNI_FALSE; \
} \
pixeloffset += (w - 1); \
\
if (off > (0x7fffffff - pixeloffset)) { \
return JNI_FALSE; \
} \
} while (0) \
#define CHECK_DST(xx, yy) \
do { \
int soffset = (yy) * sStride; \
int poffset = (xx) * pixelStride; \
if (poffset > (0x7fffffff - soffset)) { \
return JNI_FALSE; \
} \
poffset += soffset; \
if (dstDataOff > (0x7fffffff - poffset)) { \
return JNI_FALSE; \
} \
poffset += dstDataOff; \
\
if (poffset < 0 || poffset >= dstDataLength) { \
return JNI_FALSE; \
} \
} while (0) \
static jfieldID s_JnumSrcLUTID;
static jfieldID s_JsrcLUTtransIndexID;
JNIEXPORT void JNICALL
Java_sun_awt_image_ImageRepresentation_initIDs(JNIEnv *env, jclass cls) {
s_JnumSrcLUTID = (*env)->GetFieldID(env, cls, "numSrcLUT", "I");
s_JsrcLUTtransIndexID = (*env)->GetFieldID(env, cls, "srcLUTtransIndex",
"I");
}
/*
* This routine is used to draw ICM pixels into a default color model
*/
JNIEXPORT jboolean JNICALL
Java_sun_awt_image_ImageRepresentation_setICMpixels(JNIEnv *env, jclass cls,
jint x, jint y, jint w,
jint h, jintArray jlut,
jbyteArray jpix, jint off,
jint scansize,
jobject jict)
{
unsigned char *srcData = NULL;
jint srcDataLength;
int *dstData;
jint dstDataLength;
jint dstDataOff;
int *dstP, *dstyP;
unsigned char *srcyP, *srcP;
int *srcLUT = NULL;
int yIdx, xIdx;
int sStride;
int *cOffs;
int pixelStride;
jobject joffs = NULL;
jobject jdata = NULL;
if (JNU_IsNull(env, jlut)) {
JNU_ThrowNullPointerException(env, "NullPointerException");
return JNI_FALSE;
}
if (JNU_IsNull(env, jpix)) {
JNU_ThrowNullPointerException(env, "NullPointerException");
return JNI_FALSE;
}
if (x < 0 || w < 1 || (0x7fffffff - x) < w) {
return JNI_FALSE;
}
if (y < 0 || h < 1 || (0x7fffffff - y) < h) {
return JNI_FALSE;
}
sStride = (*env)->GetIntField(env, jict, g_ICRscanstrID);
pixelStride = (*env)->GetIntField(env, jict, g_ICRpixstrID);
joffs = (*env)->GetObjectField(env, jict, g_ICRdataOffsetsID);
jdata = (*env)->GetObjectField(env, jict, g_ICRdataID);
if (JNU_IsNull(env, jdata)) {
/* no destination buffer */
return JNI_FALSE;
}
if (JNU_IsNull(env, joffs) || (*env)->GetArrayLength(env, joffs) < 1) {
/* invalid data offstes in raster */
return JNI_FALSE;
}
srcDataLength = (*env)->GetArrayLength(env, jpix);
dstDataLength = (*env)->GetArrayLength(env, jdata);
cOffs = (int *) (*env)->GetPrimitiveArrayCritical(env, joffs, NULL);
if (cOffs == NULL) {
JNU_ThrowNullPointerException(env, "Null channel offset array");
return JNI_FALSE;
}
dstDataOff = cOffs[0];
/* the offset array is not needed anymore and can be released */
(*env)->ReleasePrimitiveArrayCritical(env, joffs, cOffs, JNI_ABORT);
joffs = NULL;
cOffs = NULL;
/* do basic validation: make sure that offsets for
* first pixel and for last pixel are safe to calculate and use */
CHECK_STRIDE(y, h, sStride);
CHECK_STRIDE(x, w, pixelStride);
CHECK_DST(x, y);
CHECK_DST(x + w -1, y + h - 1);
/* check source array */
CHECK_SRC();
srcLUT = (int *) (*env)->GetPrimitiveArrayCritical(env, jlut, NULL);
if (srcLUT == NULL) {
JNU_ThrowNullPointerException(env, "Null IndexColorModel LUT");
return JNI_FALSE;
}
srcData = (unsigned char *) (*env)->GetPrimitiveArrayCritical(env, jpix,
NULL);
if (srcData == NULL) {
(*env)->ReleasePrimitiveArrayCritical(env, jlut, srcLUT, JNI_ABORT);
JNU_ThrowNullPointerException(env, "Null data array");
return JNI_FALSE;
}
dstData = (int *) (*env)->GetPrimitiveArrayCritical(env, jdata, NULL);
if (dstData == NULL) {
(*env)->ReleasePrimitiveArrayCritical(env, jlut, srcLUT, JNI_ABORT);
(*env)->ReleasePrimitiveArrayCritical(env, jpix, srcData, JNI_ABORT);
JNU_ThrowNullPointerException(env, "Null tile data array");
return JNI_FALSE;
}
dstyP = dstData + dstDataOff + y*sStride + x*pixelStride;
srcyP = srcData + off;
for (yIdx = 0; yIdx < h; yIdx++, srcyP += scansize, dstyP+=sStride) {
srcP = srcyP;
dstP = dstyP;
for (xIdx = 0; xIdx < w; xIdx++, dstP+=pixelStride) {
*dstP = srcLUT[*srcP++];
}
}
/* Release the locked arrays */
(*env)->ReleasePrimitiveArrayCritical(env, jlut, srcLUT, JNI_ABORT);
(*env)->ReleasePrimitiveArrayCritical(env, jpix, srcData, JNI_ABORT);
(*env)->ReleasePrimitiveArrayCritical(env, jdata, dstData, JNI_ABORT);
return JNI_TRUE;
}
JNIEXPORT jboolean JNICALL
Java_sun_awt_image_ImageRepresentation_setDiffICM(JNIEnv *env, jclass cls,
jint x, jint y, jint w,
jint h, jintArray jlut,
jint transIdx, jint numLut,
jobject jicm,
jbyteArray jpix, jint off,
jint scansize,
jobject jbct, jint dstDataOff)
{
unsigned int *srcLUT = NULL;
unsigned int *newLUT = NULL;
int sStride;
int pixelStride;
int mapSize;
jobject jdata = NULL;
jobject jnewlut = NULL;
jint srcDataLength;
jint dstDataLength;
unsigned char *srcData;
unsigned char *dstData;
unsigned char *dataP;
unsigned char *pixP;
int i;
int j;
int newNumLut;
int newTransIdx;
int jniFlag = JNI_ABORT;
unsigned char *ydataP;
unsigned char *ypixP;
unsigned char cvtLut[256];
if (JNU_IsNull(env, jlut)) {
JNU_ThrowNullPointerException(env, "NullPointerException");
return JNI_FALSE;
}
if (JNU_IsNull(env, jpix)) {
JNU_ThrowNullPointerException(env, "NullPointerException");
return JNI_FALSE;
}
if (x < 0 || w < 1 || (0x7fffffff - x) < w) {
return JNI_FALSE;
}
if (y < 0 || h < 1 || (0x7fffffff - y) < h) {
return JNI_FALSE;
}
sStride = (*env)->GetIntField(env, jbct, g_BCRscanstrID);
pixelStride =(*env)->GetIntField(env, jbct, g_BCRpixstrID);
jdata = (*env)->GetObjectField(env, jbct, g_BCRdataID);
jnewlut = (*env)->GetObjectField(env, jicm, g_ICMrgbID);
mapSize = (*env)->GetIntField(env, jicm, g_ICMmapSizeID);
if (numLut < 0 || numLut > 256 || mapSize < 0 || mapSize > 256) {
/* Ether old or new ICM has a palette that exceeds capacity
of byte data type, so we have to convert the image data
to default representation.
*/
return JNI_FALSE;
}
if (JNU_IsNull(env, jdata)) {
/* no destination buffer */
return JNI_FALSE;
}
srcDataLength = (*env)->GetArrayLength(env, jpix);
dstDataLength = (*env)->GetArrayLength(env, jdata);
CHECK_STRIDE(y, h, sStride);
CHECK_STRIDE(x, w, pixelStride);
CHECK_DST(x, y);
CHECK_DST(x + w -1, y + h - 1);
/* check source array */
CHECK_SRC();
srcLUT = (unsigned int *) (*env)->GetPrimitiveArrayCritical(env, jlut,
NULL);
if (srcLUT == NULL) {
/* out of memory error already thrown */
return JNI_FALSE;
}
newLUT = (unsigned int *) (*env)->GetPrimitiveArrayCritical(env, jnewlut,
NULL);
if (newLUT == NULL) {
(*env)->ReleasePrimitiveArrayCritical(env, jlut, srcLUT,
JNI_ABORT);
/* out of memory error already thrown */
return JNI_FALSE;
}
newNumLut = numLut;
newTransIdx = transIdx;
if (compareLUTs(srcLUT, numLut, transIdx, newLUT, mapSize,
cvtLut, &newNumLut, &newTransIdx, &jniFlag) == FALSE) {
/* Need to convert to ICR */
(*env)->ReleasePrimitiveArrayCritical(env, jlut, srcLUT,
JNI_ABORT);
(*env)->ReleasePrimitiveArrayCritical(env, jnewlut, newLUT, JNI_ABORT);
return JNI_FALSE;
}
/* Don't need these any more */
(*env)->ReleasePrimitiveArrayCritical(env, jlut, srcLUT, jniFlag);
(*env)->ReleasePrimitiveArrayCritical(env, jnewlut, newLUT, JNI_ABORT);
if (newNumLut != numLut) {
/* Need to write back new number of entries in lut */
(*env)->SetIntField(env, cls, s_JnumSrcLUTID, newNumLut);
}
if (newTransIdx != transIdx) {
(*env)->SetIntField(env, cls, s_JsrcLUTtransIndexID, newTransIdx);
}
srcData = (unsigned char *) (*env)->GetPrimitiveArrayCritical(env, jpix,
NULL);
if (srcData == NULL) {
/* out of memory error already thrown */
return JNI_FALSE;
}
dstData = (unsigned char *) (*env)->GetPrimitiveArrayCritical(env, jdata,
NULL);
if (dstData == NULL) {
(*env)->ReleasePrimitiveArrayCritical(env, jpix, srcData, JNI_ABORT);
/* out of memory error already thrown */
return JNI_FALSE;
}
ydataP = dstData + dstDataOff + y*sStride + x*pixelStride;
ypixP = srcData + off;
for (i=0; i < h; i++) {
dataP = ydataP;
pixP = ypixP;
for (j=0; j < w; j++) {
*dataP = cvtLut[*pixP];
dataP += pixelStride;
pixP++;
}
ydataP += sStride;
ypixP += scansize;
}
(*env)->ReleasePrimitiveArrayCritical(env, jpix, srcData, JNI_ABORT);
(*env)->ReleasePrimitiveArrayCritical(env, jdata, dstData, JNI_ABORT);
return JNI_TRUE;
}
static int compareLUTs(unsigned int *lut1, int numLut1, int transIdx,
unsigned int *lut2, int numLut2, unsigned char *cvtLut,
int *retNumLut1, int *retTransIdx, int *jniFlagP)
{
int i;
int idx;
int newTransIdx = -1;
unsigned int rgb;
int changed = FALSE;
int maxSize = (numLut1 > numLut2 ? numLut1 : numLut2);
*jniFlagP = JNI_ABORT;
for (i=0; i < maxSize; i++) {
cvtLut[i] = i;
}
for (i=0; i < numLut2; i++) {
/* If this slot in new palette is different from the
* same slot in current palette, then we try to find
* this color in other slots. On failure, add this color
* to current palette.
*/
if ((i >= numLut1) ||
(lut1[i] != lut2[i]))
{
rgb = lut2[i];
/* Transparent */
if ((rgb & ALPHA_MASK) == 0) {
if (transIdx == -1) {
if (numLut1 < 256) {
cvtLut[i] = numLut1;
newTransIdx = i;
transIdx = i;
numLut1++;
changed = TRUE;
}
else {
return FALSE;
}
}
cvtLut[i] = transIdx;
}
else {
if ((idx = findIdx(rgb, lut1, numLut1)) == -1) {
if (numLut1 < 256) {
lut1[numLut1] = rgb;
cvtLut[i] = numLut1;
numLut1++;
changed = TRUE;
}
else {
/* Bad news... need to convert image */
return FALSE;
}
} else {
cvtLut[i] = idx;
}
}
}
}
if (changed) {
*jniFlagP = 0;
*retNumLut1 = numLut1;
if (newTransIdx != -1) {
*retTransIdx = newTransIdx;
}
}
return TRUE;
}
static int findIdx(unsigned int rgb, unsigned int *lut, int numLut) {
int i;
if ((rgb&0xff000000)==0) {
for (i=0; i < numLut; i++) {
if ((lut[i]&0xff000000)==0) return i;
}
}
else {
for (i=0; i < numLut; i++) {
if (lut[i] == rgb) return i;
}
}
return -1;
}
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