id
int64
1
49k
buggy
stringlengths
34
37.5k
fixed
stringlengths
2
37k
37,101
weightVert &= (0x0F - (1 << h)); } sumArray[h] = ((tempSum + round) >> precisionBits); } if (weight == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort; </BUG> } else { long[] tempData = bicubicInpainting(sumArray, weightVert, emptyArray);
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort[k2];
37,102
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = (short) (result & 0xffff); } } } else if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort; </BUG> } } if (fracx < fracdx1) {
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort[k2];
37,103
s_ix = startPts[0].x; s_iy = startPts[0].y; if (setDestinationNoData) { for (int x = dst_min_x; x < clipMinX; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort; </BUG> dstPixelOffset += dstPixelStride; } } else
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort[k2];
37,104
final int offsetY = KERNEL_LINE_DIM * (int) (shift * fracy); final int pos = posx + posy; if (baseIndex > roiDataLength || roiDataArray[baseIndex] == 0) { if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort; </BUG...
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort[k2];
37,105
weight &= (0xffff - (1 << 4 * h + z)); } } } if (weight == 0 || tmpROI == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort; </BUG> } else { for (int h = 0; h < KERNEL_LINE_DIM; h++) { long tempSum = 0;
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort[k2];
37,106
dstPixelOffset += dstPixelStride; } if (setDestinationNoData && clipMinX <= clipMaxX) { for (int x = clipMaxX; x < dst_max_x; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort; </BUG> dstPixelOffset += dstPixelStride; } }
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort[k2];
37,107
s_ix = startPts[0].x; s_iy = startPts[0].y; if (setDestinationNoData) { for (int x = dst_min_x; x < clipMinX; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort; </BUG> dstPixelOffset += dstPixelStride; } } else
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort[k2];
37,108
final int offsetY = KERNEL_LINE_DIM * (int) (shift * fracy); final int pos = posx + posy; if (!roiBounds.contains(x0, y0)) { if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort; </BUG> } } } else {
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort[k2];
37,109
weight &= (0xffff - (1 << 4 * h + z)); } } } if (weight == 0 || tmpROI == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort; </BUG> } else { for (int h = 0; h < KERNEL_LINE_DIM; h++) { long tempSum = 0;
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort[k2];
37,110
dstPixelOffset += dstPixelStride; } if (setDestinationNoData && clipMinX <= clipMaxX) { for (int x = clipMaxX; x < dst_max_x; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort; </BUG> dstPixelOffset += dstPixelStride; } }
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataUShort[k2];
37,111
s_ix = startPts[0].x; s_iy = startPts[0].y; if (setDestinationNoData) { for (int x = dst_min_x; x < clipMinX; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort; </BUG> dstPixelOffset += dstPixelStride; } } else
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort[k2];
37,112
final int posyROI = (s_iy - srcRectY) * roiScanlineStride; final int baseIndex = (posx / dst_num_bands) + posyROI; if (baseIndex > roiDataLength || roiDataArray[baseIndex] == 0) { if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = desti...
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort[k2];
37,113
: 0); } } } if (tmpROI == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort; </BUG> } else { for (int h = 0; h < KERNEL_LINE_DIM; h++) { long tempSum = 0;
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort[k2];
37,114
dstPixelOffset += dstPixelStride; } if (setDestinationNoData && clipMinX <= clipMaxX) { for (int x = clipMaxX; x < dst_max_x; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort; </BUG> dstPixelOffset += dstPixelStride; } }
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort[k2];
37,115
s_ix = startPts[0].x; s_iy = startPts[0].y; if (setDestinationNoData) { for (int x = dst_min_x; x < clipMinX; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort; </BUG> dstPixelOffset += dstPixelStride; } } else
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort[k2];
37,116
int x0 = src.getX() + posx / srcPixelStride; int y0 = src.getY() + posy / srcScanlineStride; if (!roiBounds.contains(x0, y0)) { if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort; </BUG> } } } else {
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort[k2];
37,117
pixelKernel[h][z] = srcDataArrays[k2][pos + (z - 1) tmpROI += roiIter.getSample(x0 + h - 1, y0 + z - 1, 0) & 0xff; } } if (tmpROI == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort; </BUG> } else { for (int h = 0; h < KERNEL_LINE_DIM; h++) { long tempSum = 0;
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort[k2];
37,118
dstPixelOffset += dstPixelStride; } if (setDestinationNoData && clipMinX <= clipMaxX) { for (int x = clipMaxX; x < dst_max_x; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort; </BUG> dstPixelOffset += dstPixelStride; } }
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort[k2];
37,119
weightVert &= (0x0F - (1 << h)); } sumArray[h] = ((tempSum + round) >> precisionBits); } if (weight == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort; </BUG> } else { long[] tempData = bicubicInpainting(sumArray, weightVert, emptyArray);
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort[k2];
37,120
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = (short) result; } } } else if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort; </BUG> } } if (fracx < fracdx1) {
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort[k2];
37,121
s_ix = startPts[0].x; s_iy = startPts[0].y; if (setDestinationNoData) { for (int x = dst_min_x; x < clipMinX; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort; </BUG> dstPixelOffset += dstPixelStride; } } else
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort[k2];
37,122
final int offsetY = KERNEL_LINE_DIM * (int) (shift * fracy); final int pos = posx + posy; if (baseIndex > roiDataLength || roiDataArray[baseIndex] == 0) { if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort; </BUG>...
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort[k2];
37,123
weight &= (0xffff - (1 << 4 * h + z)); } } } if (weight == 0 || tmpROI == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort; </BUG> } else { for (int h = 0; h < KERNEL_LINE_DIM; h++) { long tempSum = 0;
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort[k2];
37,124
dstPixelOffset += dstPixelStride; } if (setDestinationNoData && clipMinX <= clipMaxX) { for (int x = clipMaxX; x < dst_max_x; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort; </BUG> dstPixelOffset += dstPixelStride; } }
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort[k2];
37,125
s_ix = startPts[0].x; s_iy = startPts[0].y; if (setDestinationNoData) { for (int x = dst_min_x; x < clipMinX; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort; </BUG> dstPixelOffset += dstPixelStride; } } else
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort[k2];
37,126
final int offsetY = KERNEL_LINE_DIM * (int) (shift * fracy); final int pos = posx + posy; if (!roiBounds.contains(x0, y0)) { if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort; </BUG> } } } else {
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort[k2];
37,127
weight &= (0xffff - (1 << 4 * h + z)); } } } if (weight == 0 || tmpROI == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort; </BUG> } else { for (int h = 0; h < KERNEL_LINE_DIM; h++) { long tempSum = 0;
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort[k2];
37,128
dstPixelOffset += dstPixelStride; } if (setDestinationNoData && clipMinX <= clipMaxX) { for (int x = clipMaxX; x < dst_max_x; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort; </BUG> dstPixelOffset += dstPixelStride; } }
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataShort[k2];
37,129
result = (int) ((sum + round) >> precisionBits); dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = result; } } else if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt; </BUG> } } if (fracx < fracdx1) {
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,130
s_ix = startPts[0].x; s_iy = startPts[0].y; if (setDestinationNoData) { for (int x = dst_min_x; x < clipMinX; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt; </BUG> dstPixelOffset += dstPixelStride; } } else
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,131
final int posyROI = (s_iy - srcRectY) * roiScanlineStride; final int baseIndex = (posx / dst_num_bands) + posyROI; if (baseIndex > roiDataLength || roiDataArray[baseIndex] == 0) { if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = desti...
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,132
: 0); } } } if (tmpROI == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt; </BUG> } else { for (int h = 0; h < KERNEL_LINE_DIM; h++) { long tempSum = 0;
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,133
dstPixelOffset += dstPixelStride; } if (setDestinationNoData && clipMinX <= clipMaxX) { for (int x = clipMaxX; x < dst_max_x; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt; </BUG> dstPixelOffset += dstPixelStride; } }
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,134
s_ix = startPts[0].x; s_iy = startPts[0].y; if (setDestinationNoData) { for (int x = dst_min_x; x < clipMinX; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt; </BUG> dstPixelOffset += dstPixelStride; } } else
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,135
int x0 = src.getX() + posx / srcPixelStride; int y0 = src.getY() + posy / srcScanlineStride; if (!roiBounds.contains(x0, y0)) { if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt; </BUG> } } } else {
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,136
pixelKernel[h][z] = srcDataArrays[k2][pos + (z - 1) tmpROI += roiIter.getSample(x0 + h - 1, y0 + z - 1, 0) & 0xff; } } if (tmpROI == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt; </BUG> } else { for (int h = 0; h < KERNEL_LINE_DIM; h++) { long tempSum = 0;
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,137
dstPixelOffset += dstPixelStride; } if (setDestinationNoData && clipMinX <= clipMaxX) { for (int x = clipMaxX; x < dst_max_x; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt; </BUG> dstPixelOffset += dstPixelStride; } }
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,138
weightVert &= (0x0F - (1 << h)); } sumArray[h] = ((tempSum + round) >> precisionBits); } if (weight == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt; </BUG> } else { long[] tempData = bicubicInpainting(sumArray, weightVert, emptyArray);
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,139
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = result; } } } else if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt; </BUG> } } if (fracx < fracdx1) {
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,140
s_ix = startPts[0].x; s_iy = startPts[0].y; if (setDestinationNoData) { for (int x = dst_min_x; x < clipMinX; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt; </BUG> dstPixelOffset += dstPixelStride; } } else
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,141
final int offsetY = KERNEL_LINE_DIM * (int) (shift * fracy); final int pos = posx + posy; if (baseIndex > roiDataLength || roiDataArray[baseIndex] == 0) { if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt; </BUG> }...
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,142
weight &= (0xffff - (1 << 4 * h + z)); } } } if (weight == 0 || tmpROI == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt; </BUG> } else { for (int h = 0; h < KERNEL_LINE_DIM; h++) { long tempSum = 0;
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,143
dstPixelOffset += dstPixelStride; } if (setDestinationNoData && clipMinX <= clipMaxX) { for (int x = clipMaxX; x < dst_max_x; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt; </BUG> dstPixelOffset += dstPixelStride; } }
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,144
s_ix = startPts[0].x; s_iy = startPts[0].y; if (setDestinationNoData) { for (int x = dst_min_x; x < clipMinX; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt; </BUG> dstPixelOffset += dstPixelStride; } } else
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,145
final int offsetY = KERNEL_LINE_DIM * (int) (shift * fracy); final int pos = posx + posy; if (!roiBounds.contains(x0, y0)) { if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt; </BUG> } } } else {
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,146
weight &= (0xffff - (1 << 4 * h + z)); } } } if (weight == 0 || tmpROI == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt; </BUG> } else { for (int h = 0; h < KERNEL_LINE_DIM; h++) { long tempSum = 0;
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,147
dstPixelOffset += dstPixelStride; } if (setDestinationNoData && clipMinX <= clipMaxX) { for (int x = clipMaxX; x < dst_max_x; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt; </BUG> dstPixelOffset += dstPixelStride; } }
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataInt[k2];
37,148
s_ix = startPts[0].x; s_iy = startPts[0].y; if (setDestinationNoData) { for (int x = dst_min_x; x < clipMinX; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat; </BUG> dstPixelOffset += dstPixelStride; } } else
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat[k2];
37,149
final int posyROI = (s_iy - srcRectY) * roiScanlineStride; final int baseIndex = (posx / dst_num_bands) + posyROI; if (baseIndex > roiDataLength || roiDataArray[baseIndex] == 0) { if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = desti...
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat[k2];
37,150
: 0); } } } if (tmpROI == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat; </BUG> } else { for (int h = 0; h < KERNEL_LINE_DIM; h++) { float tempSum = 0;
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat[k2];
37,151
dstPixelOffset += dstPixelStride; } if (setDestinationNoData && clipMinX <= clipMaxX) { for (int x = clipMaxX; x < dst_max_x; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat; </BUG> dstPixelOffset += dstPixelStride; } }
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat[k2];
37,152
s_ix = startPts[0].x; s_iy = startPts[0].y; if (setDestinationNoData) { for (int x = dst_min_x; x < clipMinX; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat; </BUG> dstPixelOffset += dstPixelStride; } } else
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat[k2];
37,153
int x0 = src.getX() + posx / srcPixelStride; int y0 = src.getY() + posy / srcScanlineStride; if (!roiBounds.contains(x0, y0)) { if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat; </BUG> } } } else {
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat[k2];
37,154
pixelKernel[h][z] = srcDataArrays[k2][pos + (z - 1) tmpROI += roiIter.getSample(x0 + h - 1, y0 + z - 1, 0) & 0xff; } } if (tmpROI == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat; </BUG> } else { for (int h = 0; h < KERNEL_LINE_DIM; h++) { float tempSum = 0;
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat[k2];
37,155
dstPixelOffset += dstPixelStride; } if (setDestinationNoData && clipMinX <= clipMaxX) { for (int x = clipMaxX; x < dst_max_x; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat; </BUG> dstPixelOffset += dstPixelStride; } }
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat[k2];
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weightVert &= (0x0F - (1 << h)); } sumArray[h] = tempSum; } if (weight == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat; </BUG> } else { double[] tempData = bicubicInpaintingDouble(sumArray, weightVert, emptyArray);
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat[k2];
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sum = 0; } } } else if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat; </BUG> } } if (fracx < fracdx1) {
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat[k2];
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s_ix = startPts[0].x; s_iy = startPts[0].y; if (setDestinationNoData) { for (int x = dst_min_x; x < clipMinX; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat; </BUG> dstPixelOffset += dstPixelStride; } } else
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat[k2];
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final int offsetY = KERNEL_LINE_DIM * (int) (shift * fracy); final int pos = posx + posy; if (baseIndex > roiDataLength || roiDataArray[baseIndex] == 0) { if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat; </BUG>...
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat[k2];
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weight &= (0xffff - (1 << 4 * h + z)); } } } if (weight == 0 || tmpROI == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat; </BUG> } else { for (int h = 0; h < KERNEL_LINE_DIM; h++) { double tempSum = 0;
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat[k2];
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dstPixelOffset += dstPixelStride; } if (setDestinationNoData && clipMinX <= clipMaxX) { for (int x = clipMaxX; x < dst_max_x; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat; </BUG> dstPixelOffset += dstPixelStride; } }
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat[k2];
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s_ix = startPts[0].x; s_iy = startPts[0].y; if (setDestinationNoData) { for (int x = dst_min_x; x < clipMinX; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat; </BUG> dstPixelOffset += dstPixelStride; } } else
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat[k2];
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final int offsetY = KERNEL_LINE_DIM * (int) (shift * fracy); final int pos = posx + posy; if (!roiBounds.contains(x0, y0)) { if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat; </BUG> } } } else {
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat[k2];
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weight &= (0xffff - (1 << 4 * h + z)); } } } if (weight == 0 || tmpROI == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat; </BUG> } else { for (int h = 0; h < KERNEL_LINE_DIM; h++) { double tempSum = 0;
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat[k2];
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dstPixelOffset += dstPixelStride; } if (setDestinationNoData && clipMinX <= clipMaxX) { for (int x = clipMaxX; x < dst_max_x; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat; </BUG> dstPixelOffset += dstPixelStride; } }
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataFloat[k2];
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s_ix = startPts[0].x; s_iy = startPts[0].y; if (setDestinationNoData) { for (int x = dst_min_x; x < clipMinX; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble; </BUG> dstPixelOffset += dstPixelStride; } } else
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble[k2];
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final int posyROI = (s_iy - srcRectY) * roiScanlineStride; final int baseIndex = (posx / dst_num_bands) + posyROI; if (baseIndex > roiDataLength || roiDataArray[baseIndex] == 0) { if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = desti...
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble[k2];
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: 0); } } } if (tmpROI == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble; </BUG> } else { for (int h = 0; h < KERNEL_LINE_DIM; h++) { double tempSum = 0;
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble[k2];
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dstPixelOffset += dstPixelStride; } if (setDestinationNoData && clipMinX <= clipMaxX) { for (int x = clipMaxX; x < dst_max_x; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble; </BUG> dstPixelOffset += dstPixelStride; } }
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble[k2];
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s_ix = startPts[0].x; s_iy = startPts[0].y; if (setDestinationNoData) { for (int x = dst_min_x; x < clipMinX; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble; </BUG> dstPixelOffset += dstPixelStride; } } else
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble[k2];
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int x0 = src.getX() + posx / srcPixelStride; int y0 = src.getY() + posy / srcScanlineStride; if (!roiBounds.contains(x0, y0)) { if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble; </BUG> } } } else {
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble[k2];
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pixelKernel[h][z] = srcDataArrays[k2][pos + (z - 1) tmpROI += roiIter.getSample(x0 + h - 1, y0 + z - 1, 0) & 0xff; } } if (tmpROI == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble; </BUG> } else { for (int h = 0; h < KERNEL_LINE_DIM; h++) { double tempSum = 0;
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble[k2];
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dstPixelOffset += dstPixelStride; } if (setDestinationNoData && clipMinX <= clipMaxX) { for (int x = clipMaxX; x < dst_max_x; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble; </BUG> dstPixelOffset += dstPixelStride; } }
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble[k2];
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weightVert &= (0x0F - (1 << h)); } sumArray[h] = tempSum; } if (weight == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble; </BUG> } else { double[] tempData = bicubicInpaintingDouble(sumArray, weightVert, emptyArray);
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble[k2];
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sum = 0; } } } else if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble; </BUG> } } if (fracx < fracdx1) {
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble[k2];
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s_ix = startPts[0].x; s_iy = startPts[0].y; if (setDestinationNoData) { for (int x = dst_min_x; x < clipMinX; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble; </BUG> dstPixelOffset += dstPixelStride; } } else
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble[k2];
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final int offsetY = KERNEL_LINE_DIM * (int) (shift * fracy); final int pos = posx + posy; if (baseIndex > roiDataLength || roiDataArray[baseIndex] == 0) { if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble; </BUG...
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble[k2];
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weight &= (0xffff - (1 << 4 * h + z)); } } } if (weight == 0 || tmpROI == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble; </BUG> } else { for (int h = 0; h < KERNEL_LINE_DIM; h++) { double tempSum = 0;
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble[k2];
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dstPixelOffset += dstPixelStride; } if (setDestinationNoData && clipMinX <= clipMaxX) { for (int x = clipMaxX; x < dst_max_x; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble; </BUG> dstPixelOffset += dstPixelStride; } }
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble[k2];
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s_ix = startPts[0].x; s_iy = startPts[0].y; if (setDestinationNoData) { for (int x = dst_min_x; x < clipMinX; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble; </BUG> dstPixelOffset += dstPixelStride; } } else
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble[k2];
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final int offsetY = KERNEL_LINE_DIM * (int) (shift * fracy); final int pos = posx + posy; if (!roiBounds.contains(x0, y0)) { if (setDestinationNoData) { for (int k2 = 0; k2 < dst_num_bands; k2++) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble; </BUG> } } } else {
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble[k2];
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weight &= (0xffff - (1 << 4 * h + z)); } } } if (weight == 0 || tmpROI == 0) { <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble; </BUG> } else { for (int h = 0; h < KERNEL_LINE_DIM; h++) { double tempSum = 0;
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble[k2];
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dstPixelOffset += dstPixelStride; } if (setDestinationNoData && clipMinX <= clipMaxX) { for (int x = clipMaxX; x < dst_max_x; x++) { for (int k2 = 0; k2 < dst_num_bands; k2++) <BUG>dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble; </BUG> dstPixelOffset += dstPixelStride; } }
dstDataArrays[k2][dstPixelOffset + dstBandOffsets[k2]] = destinationNoDataDouble[k2];
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import java.sql.SQLException; import java.sql.Statement; import java.text.MessageFormat; import java.util.ArrayList; import java.util.Collection; <BUG>import java.util.Date; import java.util.HashSet; import java.util.List; import java.util.Set;</BUG> import java.util.concurrent.locks.Lock;
import java.util.HashMap; import java.util.Map; import java.util.Set;
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if (msgin != null) { try { msgin.close(); } catch (IOException e) { } <BUG>} } } protected void updateSourceSequence(SourceSequence seq) </BUG> throws SQLException {
releaseResources(stmt, null); protected void storeMessage(Identifier sid, RMMessage msg, boolean outbound) throws IOException, SQLException { storeMessage(connection, sid, msg, outbound); protected void updateSourceSequence(Connection con, SourceSequence seq)
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} catch (SQLException ex) { if (!isTableExistsError(ex)) { throw ex; } else { LOG.fine("Table CXF_RM_SRC_SEQUENCES already exists."); <BUG>verifyTable(SRC_SEQUENCES_TABLE_NAME, SRC_SEQUENCES_TABLE_COLS); </BUG> } } finally { stmt.close();
verifyTable(con, SRC_SEQUENCES_TABLE_NAME, SRC_SEQUENCES_TABLE_COLS);
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} catch (SQLException ex) { if (!isTableExistsError(ex)) { throw ex; } else { LOG.fine("Table CXF_RM_DEST_SEQUENCES already exists."); <BUG>verifyTable(DEST_SEQUENCES_TABLE_NAME, DEST_SEQUENCES_TABLE_COLS); </BUG> } } finally { stmt.close();
LOG.fine("Table CXF_RM_SRC_SEQUENCES already exists."); verifyTable(con, SRC_SEQUENCES_TABLE_NAME, SRC_SEQUENCES_TABLE_COLS);
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} } finally { stmt.close(); } for (String tableName : new String[] {OUTBOUND_MSGS_TABLE_NAME, INBOUND_MSGS_TABLE_NAME}) { <BUG>stmt = connection.createStatement(); try {</BUG> stmt.executeUpdate(MessageFormat.format(CREATE_MESSAGES_TABLE_STMT, tableName)); } catch (SQLException ex) { if (!isTableExistsError(ex)) {
stmt = con.createStatement(); try { stmt.executeUpdate(CREATE_DEST_SEQUENCES_TABLE_STMT);
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throw ex; } else { if (LOG.isLoggable(Level.FINE)) { LOG.fine("Table " + tableName + " already exists."); } <BUG>verifyTable(tableName, MESSAGES_TABLE_COLS); </BUG> } } finally { stmt.close();
LOG.fine("Table CXF_RM_SRC_SEQUENCES already exists."); verifyTable(con, SRC_SEQUENCES_TABLE_NAME, SRC_SEQUENCES_TABLE_COLS);
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if (newCols.size() > 0) { if (LOG.isLoggable(Level.FINE)) { LOG.log(Level.FINE, "Table " + tableName + " needs additional columns"); } for (String[] newCol : newCols) { <BUG>Statement st = connection.createStatement(); try {</BUG> st.executeUpdate(MessageFormat.format(ALTER_TABLE_STMT_STR, tableName, newCol[0], newCol[...
Statement st = con.createStatement(); try {
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if (nextReconnectAttempt < System.currentTimeMillis()) { nextReconnectAttempt = System.currentTimeMillis() + reconnectDelay; reconnectDelay = reconnectDelay * useExponentialBackOff; } } <BUG>} public static void deleteDatabaseFiles() {</BUG> deleteDatabaseFiles(DEFAULT_DATABASE_NAME, true); } public static void deleteD...
public static void deleteDatabaseFiles() {
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import org.apache.tika.batch.fs.FSProperties; import org.apache.tika.config.TikaConfig; import org.apache.tika.eval.db.ColInfo; import org.apache.tika.eval.db.Cols; import org.apache.tika.eval.db.TableInfo; <BUG>import org.apache.tika.eval.io.ExtractReader; import org.apache.tika.eval.io.IDBWriter;</BUG> import org.apa...
import org.apache.tika.eval.io.ExtractReaderException; import org.apache.tika.eval.io.IDBWriter;
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.addOption("numConsumers", true, "optional: number of consumer threads") .addOption(new Option("alterExtract", true, "for json-formatted extract files, " + "process full metadata list ('as_is'=default), " + "take just the first/container document ('first_only'), " + <BUG>"concatenate all content into the first metadata...
"concatenate all content into the first metadata item ('concatenate_content')")) .addOption("minExtractLength", true, "minimum extract length to process (in bytes)") .addOption("maxExtractLength", true, "maximum extract length to process (in bytes)"); }
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helpFormatter.printHelp( 80, "java -jar tika-eval-x.y.jar Compare -extractsA extractsA -extractsB extractsB -db mydb", "Tool: Compare", ExtractComparer.OPTIONS, <BUG>"Note: for h2 db, do not include the .mv.db at the end of the db name."); }</BUG> private final static String FIELD_A = "fa"; private final static String ...
"Note: do not include the .mv.db at the end of the db name."); }
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ExtractProfiler.CONTENTS_TABLE.getColInfos()); public static TableInfo EXCEPTION_TABLE_A = new TableInfo ("exceptions_a", ExtractProfiler.EXCEPTION_TABLE.getColInfos()); public static TableInfo EXCEPTION_TABLE_B = new TableInfo ("exceptions_b", ExtractProfiler.EXCEPTION_TABLE.getColInfos()); <BUG>public static TableInf...
public static TableInfo CONTENTS_TABLE_B = new TableInfo( "contents_b", public static TableInfo EXTRACT_EXCEPTION_TABLE_A = new TableInfo("extract_exceptions_a", ExtractProfiler.EXTRACT_EXCEPTION_TABLE.getColInfos()); public static TableInfo EXTRACT_EXCEPTION_TABLE_B = new TableInfo("extract_exceptions_b", ExtractProfi...
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public ExtractComparer(ArrayBlockingQueue<FileResource> queue, Path inputDir, Path extractsA, Path extractsB, IDBWriter writer, long minJsonLength, long maxJsonLength, ExtractReader.ALTER_METADATA_LIST alterExtractList) { super(queue, writer); <BUG>this.minJsonLength = minJsonLength; this.maxJsonLength = maxJsonLength...
this.minExtractLength = minJsonLength; this.maxExtractLength = maxJsonLength;
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Metadata metadataA = metadataListA.get(i); Metadata metadataB = null; writeProfileData(fpsA, i, metadataA, fileId, containerID, numAttachmentsA, PROFILES_A); writeExceptionData(fileId, metadataA, EXCEPTION_TABLE_A); int matchIndex = getMatch(i, metadataListA, metadataListB); <BUG>if (matchIndex > -1) { metadataB = meta...
if (matchIndex > -1 && ! handledB.contains(matchIndex)) { metadataB = metadataListB.get(matchIndex);
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for (int i = 0; i < metadataListB.size(); i++) { if (handledB.contains(i)) { continue; } Metadata metadataB = metadataListB.get(i); <BUG>String fileId = Integer.toString(ID.getAndIncrement()); </BUG> writeProfileData(fpsB, i, metadataB, fileId, containerID, numAttachmentsB, PROFILES_B); writeEmbeddedFilePathData(i, fil...
String fileId = (i == 0) ? containerID : Integer.toString(ID.getAndIncrement());
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import org.apache.tika.batch.FileResourceConsumer; import org.apache.tika.batch.fs.FSProperties; import org.apache.tika.config.TikaConfig; import org.apache.tika.eval.db.ColInfo; import org.apache.tika.eval.db.Cols; <BUG>import org.apache.tika.eval.db.TableInfo; import org.apache.tika.eval.io.IDBWriter;</BUG> import or...
import org.apache.tika.eval.io.ExtractReaderException; import org.apache.tika.eval.io.IDBWriter;
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".bz2", ".gzip", ".zip", }; static final long NON_EXISTENT_FILE_LENGTH = -1l; <BUG>public static TableInfo REF_EXTRACT_ERROR_TYPES = new TableInfo("ref_extract_error_types", new ColInfo(Cols.EXTRACT_ERROR_TYPE_ID, Types.INTEGER), new ColInfo(Cols.EXTRACT_ERROR_DESCRIPTION, Types.VARCHAR, 128) </BUG> );
public static TableInfo REF_EXTRACT_EXCEPTION_TYPES = new TableInfo("ref_extract_exception_types", new ColInfo(Cols.EXTRACT_EXCEPTION_TYPE_ID, Types.INTEGER), new ColInfo(Cols.EXTRACT_EXCEPTION_DESCRIPTION, Types.VARCHAR, 128)