288 lines
13 KiB
C++
288 lines
13 KiB
C++
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#include "../msdfgen.h"
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#include <vector>
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#include "edge-selectors.h"
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#include "contour-combiners.h"
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#include "ShapeDistanceFinder.h"
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namespace msdfgen {
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template <typename DistanceType>
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class DistancePixelConversion;
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template <>
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class DistancePixelConversion<double> {
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double invRange;
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public:
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typedef BitmapRef<float, 1> BitmapRefType;
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inline explicit DistancePixelConversion(double range) : invRange(1/range) { }
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inline void operator()(float *pixels, double distance) const {
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*pixels = float(invRange*distance+.5);
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}
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};
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template <>
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class DistancePixelConversion<MultiDistance> {
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double invRange;
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public:
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typedef BitmapRef<float, 3> BitmapRefType;
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inline explicit DistancePixelConversion(double range) : invRange(1/range) { }
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inline void operator()(float *pixels, const MultiDistance &distance) const {
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pixels[0] = float(invRange*distance.r+.5);
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pixels[1] = float(invRange*distance.g+.5);
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pixels[2] = float(invRange*distance.b+.5);
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}
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};
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template <>
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class DistancePixelConversion<MultiAndTrueDistance> {
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double invRange;
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public:
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typedef BitmapRef<float, 4> BitmapRefType;
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inline explicit DistancePixelConversion(double range) : invRange(1/range) { }
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inline void operator()(float *pixels, const MultiAndTrueDistance &distance) const {
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pixels[0] = float(invRange*distance.r+.5);
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pixels[1] = float(invRange*distance.g+.5);
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pixels[2] = float(invRange*distance.b+.5);
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pixels[3] = float(invRange*distance.a+.5);
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}
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};
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template <class ContourCombiner>
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void generateDistanceField(const typename DistancePixelConversion<typename ContourCombiner::DistanceType>::BitmapRefType &output, const Shape &shape, const Projection &projection, double range) {
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DistancePixelConversion<typename ContourCombiner::DistanceType> distancePixelConversion(range);
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#ifdef MSDFGEN_USE_OPENMP
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#pragma omp parallel
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#endif
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{
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ShapeDistanceFinder<ContourCombiner> distanceFinder(shape);
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bool rightToLeft = false;
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#ifdef MSDFGEN_USE_OPENMP
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#pragma omp for
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#endif
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for (int y = 0; y < output.height; ++y) {
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int row = shape.inverseYAxis ? output.height-y-1 : y;
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for (int col = 0; col < output.width; ++col) {
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int x = rightToLeft ? output.width-col-1 : col;
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Point2 p = projection.unproject(Point2(x+.5, y+.5));
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typename ContourCombiner::DistanceType distance = distanceFinder.distance(p);
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distancePixelConversion(output(x, row), distance);
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}
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rightToLeft = !rightToLeft;
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}
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}
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}
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void generateSDF(const BitmapRef<float, 1> &output, const Shape &shape, const Projection &projection, double range, const GeneratorConfig &config) {
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if (config.overlapSupport)
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generateDistanceField<OverlappingContourCombiner<TrueDistanceSelector> >(output, shape, projection, range);
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else
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generateDistanceField<SimpleContourCombiner<TrueDistanceSelector> >(output, shape, projection, range);
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}
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void generatePseudoSDF(const BitmapRef<float, 1> &output, const Shape &shape, const Projection &projection, double range, const GeneratorConfig &config) {
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if (config.overlapSupport)
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generateDistanceField<OverlappingContourCombiner<PseudoDistanceSelector> >(output, shape, projection, range);
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else
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generateDistanceField<SimpleContourCombiner<PseudoDistanceSelector> >(output, shape, projection, range);
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}
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void generateMSDF(const BitmapRef<float, 3> &output, const Shape &shape, const Projection &projection, double range, const MSDFGeneratorConfig &config) {
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if (config.overlapSupport)
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generateDistanceField<OverlappingContourCombiner<MultiDistanceSelector> >(output, shape, projection, range);
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else
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generateDistanceField<SimpleContourCombiner<MultiDistanceSelector> >(output, shape, projection, range);
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msdfErrorCorrection(output, shape, projection, range, config);
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}
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void generateMTSDF(const BitmapRef<float, 4> &output, const Shape &shape, const Projection &projection, double range, const MSDFGeneratorConfig &config) {
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if (config.overlapSupport)
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generateDistanceField<OverlappingContourCombiner<MultiAndTrueDistanceSelector> >(output, shape, projection, range);
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else
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generateDistanceField<SimpleContourCombiner<MultiAndTrueDistanceSelector> >(output, shape, projection, range);
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msdfErrorCorrection(output, shape, projection, range, config);
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}
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// Legacy API
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void generateSDF(const BitmapRef<float, 1> &output, const Shape &shape, double range, const Vector2 &scale, const Vector2 &translate, bool overlapSupport) {
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generateSDF(output, shape, Projection(scale, translate), range, GeneratorConfig(overlapSupport));
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}
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void generatePseudoSDF(const BitmapRef<float, 1> &output, const Shape &shape, double range, const Vector2 &scale, const Vector2 &translate, bool overlapSupport) {
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generatePseudoSDF(output, shape, Projection(scale, translate), range, GeneratorConfig(overlapSupport));
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}
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void generateMSDF(const BitmapRef<float, 3> &output, const Shape &shape, double range, const Vector2 &scale, const Vector2 &translate, const ErrorCorrectionConfig &errorCorrectionConfig, bool overlapSupport) {
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generateMSDF(output, shape, Projection(scale, translate), range, MSDFGeneratorConfig(overlapSupport, errorCorrectionConfig));
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}
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void generateMTSDF(const BitmapRef<float, 4> &output, const Shape &shape, double range, const Vector2 &scale, const Vector2 &translate, const ErrorCorrectionConfig &errorCorrectionConfig, bool overlapSupport) {
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generateMTSDF(output, shape, Projection(scale, translate), range, MSDFGeneratorConfig(overlapSupport, errorCorrectionConfig));
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}
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// Legacy version
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void generateSDF_legacy(const BitmapRef<float, 1> &output, const Shape &shape, double range, const Vector2 &scale, const Vector2 &translate) {
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#ifdef MSDFGEN_USE_OPENMP
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#pragma omp parallel for
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#endif
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for (int y = 0; y < output.height; ++y) {
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int row = shape.inverseYAxis ? output.height-y-1 : y;
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for (int x = 0; x < output.width; ++x) {
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double dummy;
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Point2 p = Vector2(x+.5, y+.5)/scale-translate;
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SignedDistance minDistance;
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for (std::vector<Contour>::const_iterator contour = shape.contours.begin(); contour != shape.contours.end(); ++contour)
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for (std::vector<EdgeHolder>::const_iterator edge = contour->edges.begin(); edge != contour->edges.end(); ++edge) {
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SignedDistance distance = (*edge)->signedDistance(p, dummy);
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if (distance < minDistance)
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minDistance = distance;
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}
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*output(x, row) = float(minDistance.distance/range+.5);
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}
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}
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}
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void generatePseudoSDF_legacy(const BitmapRef<float, 1> &output, const Shape &shape, double range, const Vector2 &scale, const Vector2 &translate) {
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#ifdef MSDFGEN_USE_OPENMP
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#pragma omp parallel for
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#endif
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for (int y = 0; y < output.height; ++y) {
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int row = shape.inverseYAxis ? output.height-y-1 : y;
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for (int x = 0; x < output.width; ++x) {
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Point2 p = Vector2(x+.5, y+.5)/scale-translate;
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SignedDistance minDistance;
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const EdgeHolder *nearEdge = NULL;
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double nearParam = 0;
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for (std::vector<Contour>::const_iterator contour = shape.contours.begin(); contour != shape.contours.end(); ++contour)
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for (std::vector<EdgeHolder>::const_iterator edge = contour->edges.begin(); edge != contour->edges.end(); ++edge) {
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double param;
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SignedDistance distance = (*edge)->signedDistance(p, param);
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if (distance < minDistance) {
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minDistance = distance;
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nearEdge = &*edge;
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nearParam = param;
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}
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}
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if (nearEdge)
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(*nearEdge)->distanceToPseudoDistance(minDistance, p, nearParam);
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*output(x, row) = float(minDistance.distance/range+.5);
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}
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}
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}
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void generateMSDF_legacy(const BitmapRef<float, 3> &output, const Shape &shape, double range, const Vector2 &scale, const Vector2 &translate, ErrorCorrectionConfig errorCorrectionConfig) {
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#ifdef MSDFGEN_USE_OPENMP
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#pragma omp parallel for
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#endif
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for (int y = 0; y < output.height; ++y) {
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int row = shape.inverseYAxis ? output.height-y-1 : y;
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for (int x = 0; x < output.width; ++x) {
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Point2 p = Vector2(x+.5, y+.5)/scale-translate;
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struct {
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SignedDistance minDistance;
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const EdgeHolder *nearEdge;
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double nearParam;
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} r, g, b;
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r.nearEdge = g.nearEdge = b.nearEdge = NULL;
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r.nearParam = g.nearParam = b.nearParam = 0;
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for (std::vector<Contour>::const_iterator contour = shape.contours.begin(); contour != shape.contours.end(); ++contour)
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for (std::vector<EdgeHolder>::const_iterator edge = contour->edges.begin(); edge != contour->edges.end(); ++edge) {
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double param;
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SignedDistance distance = (*edge)->signedDistance(p, param);
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if ((*edge)->color&RED && distance < r.minDistance) {
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r.minDistance = distance;
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r.nearEdge = &*edge;
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r.nearParam = param;
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}
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if ((*edge)->color&GREEN && distance < g.minDistance) {
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g.minDistance = distance;
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g.nearEdge = &*edge;
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g.nearParam = param;
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}
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if ((*edge)->color&BLUE && distance < b.minDistance) {
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b.minDistance = distance;
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b.nearEdge = &*edge;
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b.nearParam = param;
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}
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}
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if (r.nearEdge)
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(*r.nearEdge)->distanceToPseudoDistance(r.minDistance, p, r.nearParam);
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if (g.nearEdge)
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(*g.nearEdge)->distanceToPseudoDistance(g.minDistance, p, g.nearParam);
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if (b.nearEdge)
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(*b.nearEdge)->distanceToPseudoDistance(b.minDistance, p, b.nearParam);
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output(x, row)[0] = float(r.minDistance.distance/range+.5);
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output(x, row)[1] = float(g.minDistance.distance/range+.5);
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output(x, row)[2] = float(b.minDistance.distance/range+.5);
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}
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}
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errorCorrectionConfig.distanceCheckMode = ErrorCorrectionConfig::DO_NOT_CHECK_DISTANCE;
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msdfErrorCorrection(output, shape, Projection(scale, translate), range, MSDFGeneratorConfig(false, errorCorrectionConfig));
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}
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void generateMTSDF_legacy(const BitmapRef<float, 4> &output, const Shape &shape, double range, const Vector2 &scale, const Vector2 &translate, ErrorCorrectionConfig errorCorrectionConfig) {
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#ifdef MSDFGEN_USE_OPENMP
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#pragma omp parallel for
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#endif
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for (int y = 0; y < output.height; ++y) {
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int row = shape.inverseYAxis ? output.height-y-1 : y;
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for (int x = 0; x < output.width; ++x) {
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Point2 p = Vector2(x+.5, y+.5)/scale-translate;
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SignedDistance minDistance;
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struct {
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SignedDistance minDistance;
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const EdgeHolder *nearEdge;
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double nearParam;
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} r, g, b;
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r.nearEdge = g.nearEdge = b.nearEdge = NULL;
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r.nearParam = g.nearParam = b.nearParam = 0;
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for (std::vector<Contour>::const_iterator contour = shape.contours.begin(); contour != shape.contours.end(); ++contour)
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for (std::vector<EdgeHolder>::const_iterator edge = contour->edges.begin(); edge != contour->edges.end(); ++edge) {
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double param;
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SignedDistance distance = (*edge)->signedDistance(p, param);
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if (distance < minDistance)
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minDistance = distance;
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if ((*edge)->color&RED && distance < r.minDistance) {
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r.minDistance = distance;
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r.nearEdge = &*edge;
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r.nearParam = param;
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}
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if ((*edge)->color&GREEN && distance < g.minDistance) {
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g.minDistance = distance;
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g.nearEdge = &*edge;
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g.nearParam = param;
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}
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if ((*edge)->color&BLUE && distance < b.minDistance) {
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b.minDistance = distance;
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b.nearEdge = &*edge;
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b.nearParam = param;
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}
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}
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if (r.nearEdge)
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(*r.nearEdge)->distanceToPseudoDistance(r.minDistance, p, r.nearParam);
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if (g.nearEdge)
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(*g.nearEdge)->distanceToPseudoDistance(g.minDistance, p, g.nearParam);
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if (b.nearEdge)
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(*b.nearEdge)->distanceToPseudoDistance(b.minDistance, p, b.nearParam);
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output(x, row)[0] = float(r.minDistance.distance/range+.5);
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output(x, row)[1] = float(g.minDistance.distance/range+.5);
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output(x, row)[2] = float(b.minDistance.distance/range+.5);
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output(x, row)[3] = float(minDistance.distance/range+.5);
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}
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}
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errorCorrectionConfig.distanceCheckMode = ErrorCorrectionConfig::DO_NOT_CHECK_DISTANCE;
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msdfErrorCorrection(output, shape, Projection(scale, translate), range, MSDFGeneratorConfig(false, errorCorrectionConfig));
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}
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}
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