/* * Copyright 2020 Axel Waggershauser */ // SPDX-License-Identifier: Apache-2.0 #pragma once #include "BitMatrix.h" #include "Matrix.h" #include "Point.h" #include #include #include #include namespace ZXing { #ifdef PRINT_DEBUG class LogMatrix { using LogBuffer = Matrix; LogBuffer _log; const BitMatrix* _image = nullptr; int _scale = 1; public: void init(const BitMatrix* image, int scale = 1) { _image = image; _scale = scale; _log = LogBuffer(_image->width() * _scale, _image->height() * _scale); } void write(const char* fn) { assert(_image); FILE* f = fopen(fn, "wb"); // Write PPM header, P5 == grey, P6 == rgb fprintf(f, "P6\n%d %d\n255\n", _log.width(), _log.height()); // Write pixels for (int y = 0; y < _log.height(); ++y) for (int x = 0; x < _log.width(); ++x) { unsigned char pix[3]; unsigned char &r = pix[0], &g = pix[1], &b = pix[2]; r = g = b = _image->get(x / _scale, y / _scale) ? 0 : 255; if (_scale > 1 && x % _scale == _scale / 2 && y % _scale == _scale / 2) r = g = b = r ? 230 : 50; switch (_log.get(x, y)) { case 1: r = g = b = _scale > 1 ? 128 : (r ? 230 : 50); break; case 2: r = b = 50, g = 220; break; case 3: g = r = 100, b = 250; break; case 4: g = b = 100, r = 250; break; } fwrite(&pix, 3, 1, f); } fclose(f); } template void operator()(const PointT& p, int color = 1) { if (_image && _image->isIn(p)) _log.set(static_cast(p.x * _scale), static_cast(p.y * _scale), color); } void operator()(const PointT& p, int color) { operator()(centered(p), color); } template void operator()(const std::vector>& points, int color = 2) { for (auto p : points) operator()(p, color); } }; extern LogMatrix log; class LogMatrixWriter { LogMatrix &log; std::string fn; public: LogMatrixWriter(LogMatrix& log, const BitMatrix& image, int scale, std::string fn) : log(log), fn(fn) { log.init(&image, scale); } ~LogMatrixWriter() { log.write(fn.c_str()); } }; #else template void log(PointT, int = 0) {} #endif } // namespace ZXing