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430 lines
9.8 KiB
430 lines
9.8 KiB
15 years ago
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//========================================================================
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//
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4 years ago
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// SplashXPathScanner.cpp
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15 years ago
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//
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//========================================================================
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#include <aconf.h>
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#ifdef USE_GCC_PRAGMAS
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#pragma implementation
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#endif
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#include <stdlib.h>
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#include <string.h>
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#include "gmem.h"
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#include "SplashMath.h"
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#include "SplashXPath.h"
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#include "SplashBitmap.h"
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#include "SplashXPathScanner.h"
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//------------------------------------------------------------------------
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struct SplashIntersect {
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int x0, x1; // intersection of segment with [y, y+1)
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int count; // EO/NZWN counter increment
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};
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static int cmpIntersect(const void *p0, const void *p1) {
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return ((SplashIntersect *)p0)->x0 - ((SplashIntersect *)p1)->x0;
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}
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//------------------------------------------------------------------------
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// SplashXPathScanner
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//------------------------------------------------------------------------
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SplashXPathScanner::SplashXPathScanner(SplashXPath *xPathA, GBool eoA) {
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SplashXPathSeg *seg;
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SplashCoord xMinFP, yMinFP, xMaxFP, yMaxFP;
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int i;
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xPath = xPathA;
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eo = eoA;
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// compute the bbox
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if (xPath->length == 0) {
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xMin = yMin = 1;
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xMax = yMax = 0;
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} else {
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seg = &xPath->segs[0];
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if (seg->x0 <= seg->x1) {
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xMinFP = seg->x0;
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xMaxFP = seg->x1;
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} else {
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xMinFP = seg->x1;
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xMaxFP = seg->x0;
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}
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if (seg->flags & splashXPathFlip) {
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yMinFP = seg->y1;
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yMaxFP = seg->y0;
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} else {
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yMinFP = seg->y0;
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yMaxFP = seg->y1;
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}
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for (i = 1; i < xPath->length; ++i) {
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seg = &xPath->segs[i];
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if (seg->x0 < xMinFP) {
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xMinFP = seg->x0;
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} else if (seg->x0 > xMaxFP) {
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xMaxFP = seg->x0;
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}
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if (seg->x1 < xMinFP) {
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xMinFP = seg->x1;
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} else if (seg->x1 > xMaxFP) {
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xMaxFP = seg->x1;
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}
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if (seg->flags & splashXPathFlip) {
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if (seg->y0 > yMaxFP) {
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yMaxFP = seg->y0;
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}
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} else {
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if (seg->y1 > yMaxFP) {
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yMaxFP = seg->y1;
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}
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}
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}
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xMin = splashFloor(xMinFP);
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xMax = splashFloor(xMaxFP);
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yMin = splashFloor(yMinFP);
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yMax = splashFloor(yMaxFP);
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}
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interY = yMin - 1;
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xPathIdx = 0;
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inter = NULL;
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interLen = interSize = 0;
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}
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SplashXPathScanner::~SplashXPathScanner() {
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gfree(inter);
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}
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void SplashXPathScanner::getBBoxAA(int *xMinA, int *yMinA,
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int *xMaxA, int *yMaxA) {
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*xMinA = xMin / splashAASize;
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*yMinA = yMin / splashAASize;
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*xMaxA = xMax / splashAASize;
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*yMaxA = yMax / splashAASize;
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}
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void SplashXPathScanner::getSpanBounds(int y, int *spanXMin, int *spanXMax) {
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if (interY != y) {
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computeIntersections(y);
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}
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if (interLen > 0) {
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*spanXMin = inter[0].x0;
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*spanXMax = inter[interLen - 1].x1;
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} else {
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*spanXMin = xMax + 1;
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*spanXMax = xMax;
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}
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}
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GBool SplashXPathScanner::test(int x, int y) {
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int count, i;
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if (interY != y) {
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computeIntersections(y);
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}
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count = 0;
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for (i = 0; i < interLen && inter[i].x0 <= x; ++i) {
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if (x <= inter[i].x1) {
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return gTrue;
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}
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count += inter[i].count;
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}
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return eo ? (count & 1) : (count != 0);
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}
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GBool SplashXPathScanner::testSpan(int x0, int x1, int y) {
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int count, xx1, i;
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if (interY != y) {
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computeIntersections(y);
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}
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count = 0;
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for (i = 0; i < interLen && inter[i].x1 < x0; ++i) {
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count += inter[i].count;
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}
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// invariant: the subspan [x0,xx1] is inside the path
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xx1 = x0 - 1;
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while (xx1 < x1) {
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if (i >= interLen) {
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return gFalse;
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}
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if (inter[i].x0 > xx1 + 1 &&
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!(eo ? (count & 1) : (count != 0))) {
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return gFalse;
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}
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if (inter[i].x1 > xx1) {
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xx1 = inter[i].x1;
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}
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count += inter[i].count;
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++i;
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}
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return gTrue;
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}
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GBool SplashXPathScanner::getNextSpan(int y, int *x0, int *x1) {
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int xx0, xx1;
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if (interY != y) {
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computeIntersections(y);
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}
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if (interIdx >= interLen) {
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return gFalse;
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}
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xx0 = inter[interIdx].x0;
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xx1 = inter[interIdx].x1;
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interCount += inter[interIdx].count;
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++interIdx;
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while (interIdx < interLen &&
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(inter[interIdx].x0 <= xx1 ||
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(eo ? (interCount & 1) : (interCount != 0)))) {
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if (inter[interIdx].x1 > xx1) {
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xx1 = inter[interIdx].x1;
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}
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interCount += inter[interIdx].count;
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++interIdx;
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}
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*x0 = xx0;
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*x1 = xx1;
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return gTrue;
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}
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void SplashXPathScanner::computeIntersections(int y) {
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SplashCoord xSegMin, xSegMax, ySegMin, ySegMax, xx0, xx1;
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SplashXPathSeg *seg;
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int i, j;
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// find the first segment that intersects [y, y+1)
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i = (y >= interY) ? xPathIdx : 0;
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while (i < xPath->length &&
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xPath->segs[i].y0 < y && xPath->segs[i].y1 < y) {
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++i;
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}
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xPathIdx = i;
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// find all of the segments that intersect [y, y+1) and create an
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// Intersect element for each one
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interLen = 0;
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for (j = i; j < xPath->length; ++j) {
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seg = &xPath->segs[j];
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if (seg->flags & splashXPathFlip) {
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ySegMin = seg->y1;
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ySegMax = seg->y0;
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} else {
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ySegMin = seg->y0;
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ySegMax = seg->y1;
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}
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// ensure that: ySegMin < y+1
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// y <= ySegMax
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if (ySegMin >= y + 1) {
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break;
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}
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if (ySegMax < y) {
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continue;
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}
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if (interLen == interSize) {
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if (interSize == 0) {
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interSize = 16;
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} else {
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interSize *= 2;
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}
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inter = (SplashIntersect *)greallocn(inter, interSize,
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sizeof(SplashIntersect));
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}
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if (seg->flags & splashXPathHoriz) {
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xx0 = seg->x0;
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xx1 = seg->x1;
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} else if (seg->flags & splashXPathVert) {
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xx0 = xx1 = seg->x0;
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} else {
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if (seg->x0 < seg->x1) {
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xSegMin = seg->x0;
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xSegMax = seg->x1;
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} else {
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xSegMin = seg->x1;
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xSegMax = seg->x0;
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}
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// intersection with top edge
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xx0 = seg->x0 + ((SplashCoord)y - seg->y0) * seg->dxdy;
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// intersection with bottom edge
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xx1 = seg->x0 + ((SplashCoord)y + 1 - seg->y0) * seg->dxdy;
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// the segment may not actually extend to the top and/or bottom edges
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if (xx0 < xSegMin) {
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xx0 = xSegMin;
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} else if (xx0 > xSegMax) {
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xx0 = xSegMax;
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}
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if (xx1 < xSegMin) {
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xx1 = xSegMin;
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} else if (xx1 > xSegMax) {
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xx1 = xSegMax;
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}
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}
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if (xx0 < xx1) {
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inter[interLen].x0 = splashFloor(xx0);
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inter[interLen].x1 = splashFloor(xx1);
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} else {
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inter[interLen].x0 = splashFloor(xx1);
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inter[interLen].x1 = splashFloor(xx0);
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}
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if (ySegMin <= y &&
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(SplashCoord)y < ySegMax &&
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!(seg->flags & splashXPathHoriz)) {
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inter[interLen].count = eo ? 1
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: (seg->flags & splashXPathFlip) ? 1 : -1;
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} else {
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inter[interLen].count = 0;
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}
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++interLen;
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}
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qsort(inter, interLen, sizeof(SplashIntersect), &cmpIntersect);
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interY = y;
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interIdx = 0;
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interCount = 0;
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}
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void SplashXPathScanner::renderAALine(SplashBitmap *aaBuf,
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int *x0, int *x1, int y) {
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int xx0, xx1, xx, xxMin, xxMax, yy;
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Guchar mask;
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SplashColorPtr p;
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memset(aaBuf->getDataPtr(), 0, aaBuf->getRowSize() * aaBuf->getHeight());
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xxMin = aaBuf->getWidth();
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xxMax = -1;
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for (yy = 0; yy < splashAASize; ++yy) {
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computeIntersections(splashAASize * y + yy);
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while (interIdx < interLen) {
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xx0 = inter[interIdx].x0;
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xx1 = inter[interIdx].x1;
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interCount += inter[interIdx].count;
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++interIdx;
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while (interIdx < interLen &&
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(inter[interIdx].x0 <= xx1 ||
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(eo ? (interCount & 1) : (interCount != 0)))) {
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if (inter[interIdx].x1 > xx1) {
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xx1 = inter[interIdx].x1;
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}
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interCount += inter[interIdx].count;
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++interIdx;
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}
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if (xx0 < 0) {
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xx0 = 0;
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}
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++xx1;
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if (xx1 > aaBuf->getWidth()) {
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xx1 = aaBuf->getWidth();
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}
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// set [xx0, xx1) to 1
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if (xx0 < xx1) {
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xx = xx0;
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p = aaBuf->getDataPtr() + yy * aaBuf->getRowSize() + (xx >> 3);
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if (xx & 7) {
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mask = 0xff >> (xx & 7);
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if ((xx & ~7) == (xx1 & ~7)) {
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mask &= (Guchar)(0xff00 >> (xx1 & 7));
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}
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*p++ |= mask;
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xx = (xx & ~7) + 8;
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}
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for (; xx + 7 < xx1; xx += 8) {
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*p++ |= 0xff;
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}
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if (xx < xx1) {
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*p |= (Guchar)(0xff00 >> (xx1 & 7));
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}
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}
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if (xx0 < xxMin) {
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xxMin = xx0;
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}
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if (xx1 > xxMax) {
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xxMax = xx1;
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}
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}
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}
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*x0 = xxMin / splashAASize;
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*x1 = (xxMax - 1) / splashAASize;
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}
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void SplashXPathScanner::clipAALine(SplashBitmap *aaBuf,
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int *x0, int *x1, int y) {
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int xx0, xx1, xx, yy;
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Guchar mask;
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SplashColorPtr p;
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for (yy = 0; yy < splashAASize; ++yy) {
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xx = *x0 * splashAASize;
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computeIntersections(splashAASize * y + yy);
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while (interIdx < interLen && xx < (*x1 + 1) * splashAASize) {
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xx0 = inter[interIdx].x0;
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xx1 = inter[interIdx].x1;
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interCount += inter[interIdx].count;
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++interIdx;
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while (interIdx < interLen &&
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(inter[interIdx].x0 <= xx1 ||
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(eo ? (interCount & 1) : (interCount != 0)))) {
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if (inter[interIdx].x1 > xx1) {
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xx1 = inter[interIdx].x1;
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}
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interCount += inter[interIdx].count;
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++interIdx;
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}
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if (xx0 > aaBuf->getWidth()) {
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xx0 = aaBuf->getWidth();
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}
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// set [xx, xx0) to 0
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if (xx < xx0) {
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p = aaBuf->getDataPtr() + yy * aaBuf->getRowSize() + (xx >> 3);
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if (xx & 7) {
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mask = (Guchar)(0xff00 >> (xx & 7));
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if ((xx & ~7) == (xx0 & ~7)) {
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mask |= 0xff >> (xx0 & 7);
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}
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*p++ &= mask;
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xx = (xx & ~7) + 8;
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}
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for (; xx + 7 <= xx0; xx += 8) {
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*p++ = 0x00;
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}
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if (xx < xx0) {
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*p &= 0xff >> (xx0 & 7);
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}
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}
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if (xx1 >= xx) {
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xx = xx1 + 1;
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}
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}
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xx0 = (*x1 + 1) * splashAASize;
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if (xx0 > aaBuf->getWidth()) xx0 = aaBuf->getWidth();
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// set [xx, xx0) to 0
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if (xx < xx0) {
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p = aaBuf->getDataPtr() + yy * aaBuf->getRowSize() + (xx >> 3);
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if (xx & 7) {
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mask = (Guchar)(0xff00 >> (xx & 7));
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if ((xx & ~7) == (xx0 & ~7)) {
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mask &= 0xff >> (xx0 & 7);
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}
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*p++ &= mask;
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xx = (xx & ~7) + 8;
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}
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for (; xx + 7 <= xx0; xx += 8) {
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*p++ = 0x00;
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}
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if (xx < xx0) {
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*p &= 0xff >> (xx0 & 7);
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}
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}
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}
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}
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