4c3f7d1290
Adds multi-channel SDF font texture generation and rendering support. Adds per-font oversampling support. Adds FontData import plugins (for dynamic fonts, BMFonts and monospaced image fonts), font texture cache pre-generation and loading. Adds BMFont binary format and outline support.
155 lines
7.1 KiB
C++
155 lines
7.1 KiB
C++
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#include "msdf-error-correction.h"
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#include <vector>
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#include "arithmetics.hpp"
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#include "Bitmap.h"
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#include "contour-combiners.h"
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#include "MSDFErrorCorrection.h"
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namespace msdfgen {
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template <int N>
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static void msdfErrorCorrectionInner(const BitmapRef<float, N> &sdf, const Shape &shape, const Projection &projection, double range, const MSDFGeneratorConfig &config) {
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if (config.errorCorrection.mode == ErrorCorrectionConfig::DISABLED)
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return;
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Bitmap<byte, 1> stencilBuffer;
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if (!config.errorCorrection.buffer)
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stencilBuffer = Bitmap<byte, 1>(sdf.width, sdf.height);
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BitmapRef<byte, 1> stencil;
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stencil.pixels = config.errorCorrection.buffer ? config.errorCorrection.buffer : (byte *) stencilBuffer;
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stencil.width = sdf.width, stencil.height = sdf.height;
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MSDFErrorCorrection ec(stencil, projection, range);
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ec.setMinDeviationRatio(config.errorCorrection.minDeviationRatio);
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ec.setMinImproveRatio(config.errorCorrection.minImproveRatio);
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switch (config.errorCorrection.mode) {
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case ErrorCorrectionConfig::DISABLED:
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case ErrorCorrectionConfig::INDISCRIMINATE:
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break;
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case ErrorCorrectionConfig::EDGE_PRIORITY:
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ec.protectCorners(shape);
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ec.protectEdges<N>(sdf);
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break;
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case ErrorCorrectionConfig::EDGE_ONLY:
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ec.protectAll();
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break;
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}
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if (config.errorCorrection.distanceCheckMode == ErrorCorrectionConfig::DO_NOT_CHECK_DISTANCE || (config.errorCorrection.distanceCheckMode == ErrorCorrectionConfig::CHECK_DISTANCE_AT_EDGE && config.errorCorrection.mode != ErrorCorrectionConfig::EDGE_ONLY)) {
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ec.findErrors<N>(sdf);
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if (config.errorCorrection.distanceCheckMode == ErrorCorrectionConfig::CHECK_DISTANCE_AT_EDGE)
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ec.protectAll();
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}
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if (config.errorCorrection.distanceCheckMode == ErrorCorrectionConfig::ALWAYS_CHECK_DISTANCE || config.errorCorrection.distanceCheckMode == ErrorCorrectionConfig::CHECK_DISTANCE_AT_EDGE) {
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if (config.overlapSupport)
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ec.findErrors<OverlappingContourCombiner, N>(sdf, shape);
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else
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ec.findErrors<SimpleContourCombiner, N>(sdf, shape);
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}
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ec.apply(sdf);
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}
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template <int N>
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static void msdfErrorCorrectionShapeless(const BitmapRef<float, N> &sdf, const Projection &projection, double range, double minDeviationRatio, bool protectAll) {
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Bitmap<byte, 1> stencilBuffer(sdf.width, sdf.height);
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MSDFErrorCorrection ec(stencilBuffer, projection, range);
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ec.setMinDeviationRatio(minDeviationRatio);
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if (protectAll)
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ec.protectAll();
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ec.findErrors<N>(sdf);
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ec.apply(sdf);
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}
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void msdfErrorCorrection(const BitmapRef<float, 3> &sdf, const Shape &shape, const Projection &projection, double range, const MSDFGeneratorConfig &config) {
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msdfErrorCorrectionInner(sdf, shape, projection, range, config);
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}
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void msdfErrorCorrection(const BitmapRef<float, 4> &sdf, const Shape &shape, const Projection &projection, double range, const MSDFGeneratorConfig &config) {
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msdfErrorCorrectionInner(sdf, shape, projection, range, config);
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}
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void msdfFastDistanceErrorCorrection(const BitmapRef<float, 3> &sdf, const Projection &projection, double range, double minDeviationRatio) {
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msdfErrorCorrectionShapeless(sdf, projection, range, minDeviationRatio, false);
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}
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void msdfFastDistanceErrorCorrection(const BitmapRef<float, 4> &sdf, const Projection &projection, double range, double minDeviationRatio) {
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msdfErrorCorrectionShapeless(sdf, projection, range, minDeviationRatio, false);
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}
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void msdfFastEdgeErrorCorrection(const BitmapRef<float, 3> &sdf, const Projection &projection, double range, double minDeviationRatio) {
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msdfErrorCorrectionShapeless(sdf, projection, range, minDeviationRatio, true);
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}
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void msdfFastEdgeErrorCorrection(const BitmapRef<float, 4> &sdf, const Projection &projection, double range, double minDeviationRatio) {
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msdfErrorCorrectionShapeless(sdf, projection, range, minDeviationRatio, true);
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}
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// Legacy version
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inline static bool detectClash(const float *a, const float *b, double threshold) {
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// Sort channels so that pairs (a0, b0), (a1, b1), (a2, b2) go from biggest to smallest absolute difference
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float a0 = a[0], a1 = a[1], a2 = a[2];
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float b0 = b[0], b1 = b[1], b2 = b[2];
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float tmp;
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if (fabsf(b0-a0) < fabsf(b1-a1)) {
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tmp = a0, a0 = a1, a1 = tmp;
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tmp = b0, b0 = b1, b1 = tmp;
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}
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if (fabsf(b1-a1) < fabsf(b2-a2)) {
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tmp = a1, a1 = a2, a2 = tmp;
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tmp = b1, b1 = b2, b2 = tmp;
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if (fabsf(b0-a0) < fabsf(b1-a1)) {
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tmp = a0, a0 = a1, a1 = tmp;
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tmp = b0, b0 = b1, b1 = tmp;
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}
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}
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return (fabsf(b1-a1) >= threshold) &&
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!(b0 == b1 && b0 == b2) && // Ignore if other pixel has been equalized
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fabsf(a2-.5f) >= fabsf(b2-.5f); // Out of the pair, only flag the pixel farther from a shape edge
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}
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template <int N>
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static void msdfErrorCorrectionInner_legacy(const BitmapRef<float, N> &output, const Vector2 &threshold) {
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std::vector<std::pair<int, int> > clashes;
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int w = output.width, h = output.height;
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for (int y = 0; y < h; ++y)
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for (int x = 0; x < w; ++x) {
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if (
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(x > 0 && detectClash(output(x, y), output(x-1, y), threshold.x)) ||
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(x < w-1 && detectClash(output(x, y), output(x+1, y), threshold.x)) ||
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(y > 0 && detectClash(output(x, y), output(x, y-1), threshold.y)) ||
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(y < h-1 && detectClash(output(x, y), output(x, y+1), threshold.y))
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)
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clashes.push_back(std::make_pair(x, y));
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}
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for (std::vector<std::pair<int, int> >::const_iterator clash = clashes.begin(); clash != clashes.end(); ++clash) {
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float *pixel = output(clash->first, clash->second);
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float med = median(pixel[0], pixel[1], pixel[2]);
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pixel[0] = med, pixel[1] = med, pixel[2] = med;
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}
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#ifndef MSDFGEN_NO_DIAGONAL_CLASH_DETECTION
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clashes.clear();
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for (int y = 0; y < h; ++y)
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for (int x = 0; x < w; ++x) {
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if (
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(x > 0 && y > 0 && detectClash(output(x, y), output(x-1, y-1), threshold.x+threshold.y)) ||
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(x < w-1 && y > 0 && detectClash(output(x, y), output(x+1, y-1), threshold.x+threshold.y)) ||
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(x > 0 && y < h-1 && detectClash(output(x, y), output(x-1, y+1), threshold.x+threshold.y)) ||
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(x < w-1 && y < h-1 && detectClash(output(x, y), output(x+1, y+1), threshold.x+threshold.y))
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)
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clashes.push_back(std::make_pair(x, y));
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}
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for (std::vector<std::pair<int, int> >::const_iterator clash = clashes.begin(); clash != clashes.end(); ++clash) {
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float *pixel = output(clash->first, clash->second);
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float med = median(pixel[0], pixel[1], pixel[2]);
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pixel[0] = med, pixel[1] = med, pixel[2] = med;
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}
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#endif
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}
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void msdfErrorCorrection_legacy(const BitmapRef<float, 3> &output, const Vector2 &threshold) {
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msdfErrorCorrectionInner_legacy(output, threshold);
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}
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void msdfErrorCorrection_legacy(const BitmapRef<float, 4> &output, const Vector2 &threshold) {
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msdfErrorCorrectionInner_legacy(output, threshold);
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}
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}
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