/** * @file utils/video_pattern_generator.cpp * @author Colin Perkins * @author Martin Benes * @author Lukas Hejtmanek * @author Petr Holub * @author Milos Liska * @author Jiri Matela * @author Dalibor Matura <255899@mail.muni.cz> * @author Ian Wesley-Smith * @author Martin Pulec */ /* * Copyright (c) 2005-2006 University of Glasgow * Copyright (c) 2005-2024 CESNET * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, is permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * 3. Neither the name of CESNET nor the names of its contributors may be * used to endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHORS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESSED OR IMPLIED WARRANTIES, INCLUDING, * BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO * EVENT SHALL THE AUTHORS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /** * @file * @todo * Do the rendering in 16 bits */ #include #include #include #include #include #include #include #include #include #include "color.h" #include "debug.h" #include "pixfmt_conv.h" #include "ug_runtime_error.hpp" #include "utils/color_out.h" #include "utils/macros.h" #include "utils/string_view_utils.hpp" #include "utils/text.h" #include "video.h" #include "video_capture/testcard_common.h" #include "video_pattern_generator.h" #define BLANK_USAGE "blank[=0x]" #define MOD_NAME "[vid. patt. generator] " constexpr size_t headroom = 128; // headroom for cases when dst color_spec has wider block size constexpr int rg48_bpp = 6; using namespace std::string_literals; using std::copy; using std::cout; using std::default_random_engine; using std::exception; using std::for_each; using std::make_unique; using std::min; using std::stoi; using std::stoll; using std::string; using std::string_view; using std::to_string; using std::unique_ptr; using std::uniform_int_distribution; using std::vector; enum class generator_depth { bits8, ///< RGBA bits16 ///< RG48 }; class image_pattern { public: static unique_ptr create(string const &pattern, string const ¶ms); auto init(int width, int height, enum generator_depth depth) noexcept { size_t data_len = width * height * rg48_bpp + headroom; vector out(data_len); auto actual_bit_depth = fill(width, height, out.data()); if (depth == generator_depth::bits8 && actual_bit_depth == generator_depth::bits16) { convert_rg48_to_rgba(width, height, out.data()); } if (depth == generator_depth::bits16 && actual_bit_depth == generator_depth::bits8) { convert_rgba_to_rg48(width, height, out.data()); } return out; } virtual ~image_pattern() = default; image_pattern() = default; image_pattern(const image_pattern &) = delete; image_pattern & operator=(const image_pattern &) = delete; image_pattern(image_pattern &&) = delete; image_pattern && operator=(image_pattern &&) = delete; private: /// @retval bit depth used by the generator (either 8 or 16) virtual enum generator_depth fill(int width, int height, unsigned char *data) = 0; /// @note in-place virtual void convert_rgba_to_rg48(int width, int height, unsigned char *data) { for (int y = height - 1; y >= 0; --y) { for (int x = width - 1; x >= 0; --x) { unsigned char *in_pix = data + 4 * (y * width + x); unsigned char *out_pix = data + 6 * (y * width + x); unsigned char r = *in_pix++; unsigned char g = *in_pix++; unsigned char b = *in_pix++; *out_pix++ = 0; *out_pix++ = r; *out_pix++ = 0; *out_pix++ = g; *out_pix++ = 0; *out_pix++ = b; } } } /// @note in-place virtual void convert_rg48_to_rgba(int width, int height, unsigned char *data) { for (int y = 0; y < height; ++y) { for (int x = 0; x < width; ++x) { unsigned char *in_pix = data + 6 * (y * width + x); unsigned char *out_pix = data + 4 * (y * width + x); *out_pix++ = in_pix[1]; *out_pix++ = in_pix[3]; *out_pix++ = in_pix[5]; *out_pix++ = 0xFFU; } } } }; class image_pattern_bars : public image_pattern { public: explicit image_pattern_bars(string const &init) { if (init == "help"s) { col() << "Testcard bar usage:\n\t" << SBOLD(SRED("-t testcard:pattern=bars") << "[=text]") << " - optionally annotate with text" << "\n"; throw 1; } annotate = init; } private: enum generator_depth fill(int width, int height, unsigned char *data) override { int col_num = 0; int rect_size = COL_NUM; struct testcard_rect r{}; struct testcard_pixmap pixmap{}; pixmap.w = width; pixmap.h = height; pixmap.data = data; rect_size = (width + rect_size - 1) / rect_size; for (int j = 0; j < height; j += rect_size) { uint32_t grey = 0xFF010101U; if (j == rect_size * 2) { r.w = width; r.h = rect_size / 4; r.x = 0; r.y = j; testcard_fillRect(&pixmap, &r, 0xFFFFFFFFU); r.h = rect_size - (rect_size * 3 / 4); r.y = j + rect_size * 3 / 4; testcard_fillRect(&pixmap, &r, 0xFF000000U); } for (int i = 0; i < width; i += rect_size) { r.x = i; r.y = j; r.w = rect_size; r.h = min(rect_size, height - r.y); LOG(LOG_LEVEL_DEBUG) << MOD_NAME << "Fill rect at " << r.x << "," << r.y << "\n"; if (j != rect_size * 2) { testcard_fillRect(&pixmap, &r, rect_colors[col_num]); col_num = (col_num + 1) % COL_NUM; } else { r.h = rect_size / 2; r.y += rect_size / 4; testcard_fillRect(&pixmap, &r, grey); grey += 0x00010101U * (255 / COL_NUM); } } } if (!annotate.empty()) { draw_line((char *) data, width * 4, annotate.c_str(), 0xFFFFFFFF, true); } return generator_depth::bits8; } string annotate; }; /** * @todo Proper SMPTE test pattern has different in bottom third. */ template class image_pattern_ebu_smpte_bars : public image_pattern { static constexpr uint32_t bars[] = { uint32_t{0xFFU << 24U | f << 16U | f << 8U | f }, uint32_t{0xFFU << 24U | 0U << 16U | f << 8U | f }, uint32_t{0xFFU << 24U | f << 16U | f << 8U | 0U }, uint32_t{0xFFU << 24U | 0U << 16U | f << 8U | 0U }, uint32_t{0xFFU << 24U | f << 16U | 0U << 8U | f }, uint32_t{0xFFU << 24U | 0U << 16U | 0U << 8U | f }, uint32_t{0xFFU << 24U | f << 16U | 0U << 8U | 0U }, uint32_t{0xFFU << 24U | 0U << 16U | 0U << 8U | 0U }, }; enum generator_depth fill(int width, int height, unsigned char *data) override { int col_num = 0; const int rect_size = (width + columns - 1) / columns; struct testcard_rect r{}; struct testcard_pixmap pixmap{}; pixmap.w = width; pixmap.h = height; pixmap.data = data; for (int j = 0; j < height; j += rect_size) { for (int i = 0; i < width; i += rect_size) { r.x = i; r.y = j; r.w = rect_size; r.h = min(rect_size, height - r.y); log_msg(LOG_LEVEL_DEBUG, MOD_NAME "Fill rect at %d,%d\n", r.x, r.y); testcard_fillRect(&pixmap, &r, bars[col_num]); col_num = (col_num + 1) % columns; } } return generator_depth::bits8; } friend class image_pattern_smpte_bars; }; class image_pattern_smpte_bars : public image_pattern_ebu_smpte_bars<0xBFU, 7> { static constexpr uint32_t bottom_bars[] = { uint32_t{0xFFU << 24U | 105 << 16U | 63 << 8U | 0U }, uint32_t{0xFFFFFFFFU }, uint32_t{0xFFU << 24U | 119U << 16U | 0U << 8U | 0U }, uint32_t{0xFF000000U }, uint32_t{0xFF000000U }, uint32_t{0xFF000000U }, }; enum generator_depth fill(int width, int height, unsigned char *data) override { auto ret = image_pattern_ebu_smpte_bars<0xBFU, 7>::fill(width, height, data); // upper 2 3rds assert(ret == generator_depth::bits8); int columns = 7; struct testcard_pixmap pixmap{ .w = width, .h = height, .data = data }; const int mid_strip_height = height / 3 - width / 6; struct testcard_rect r{ .x = 0, .y = height / 3 * 2, .w = (width + columns - 1) / columns, .h = mid_strip_height}; for (int i = 0; i < columns; i += 1) { r.x = i * r.w; log_msg(LOG_LEVEL_DEBUG, MOD_NAME "Fill rect at %d,%d\n", r.x, r.y); if (i % 2 == 1) { testcard_fillRect(&pixmap, &r, 0); } else { testcard_fillRect( &pixmap, &r, image_pattern_ebu_smpte_bars< 0xBFU, 7>::bars[columns - 1 - i]); } } columns = 6; r.w = (width + columns - 1) / columns; r.h = width / 6; r.y += mid_strip_height; for (int i = 0; i < columns; i += 1) { r.x = i * r.w; log_msg(LOG_LEVEL_DEBUG, MOD_NAME "Fill rect at %d,%d\n", r.x, r.y); testcard_fillRect(&pixmap, &r, bottom_bars[i]); } // pluge - skipping a "superblack" and black bar r.x = 5 * (width / 7); r.w = (width / 7) / 3; r.x += 2 * r.w; log_msg(LOG_LEVEL_DEBUG, MOD_NAME "Fill rect at %d,%d\n", r.x, r.y); testcard_fillRect(&pixmap, &r, 0xFFU << 24 | 0x0A0A0A); return generator_depth::bits8; } }; class image_pattern_blank : public image_pattern { public: explicit image_pattern_blank(string const &init) { if (init == "help"s) { color_printf("Testcard " TBOLD("blank") " usage:\n"); color_printf("\t" TRED(TBOLD( "-t testcard:patt=" BLANK_USAGE)) "\n"); color_printf( "\nLeading zeros can be omitted, eg. " "`0xFF` produces a red pattern.\n"); color_printf( "Defaults to 0xFF000000.\n"); throw 1; } if (!init.empty()) { color = stoll(init, nullptr, 0); } } private: enum generator_depth fill(int width, int height, unsigned char *data) override { for (int i = 0; i < width * height; ++i) { (reinterpret_cast(data))[i] = color; } return generator_depth::bits8; } uint32_t color = 0xFF000000U; }; class image_pattern_gradient : public image_pattern { public: explicit image_pattern_gradient(const string &config) { if (!config.empty()) { color = stol(config, nullptr, 0); } } static constexpr uint32_t red = 0xFFU; private: enum generator_depth fill(int width, int height, unsigned char *data) override { auto *ptr = reinterpret_cast(data); for (int j = 0; j < height; j += 1) { uint16_t r = sin(static_cast(j) / height * M_PI) * (color & 0xFFU) / 0xFFU * 0xFF'FFU; uint16_t g = sin(static_cast(j) / height * M_PI) * ((color >> 8) & 0xFFU) / 0xFFU * 0xFF'FFU; uint16_t b = sin(static_cast(j) / height * M_PI) * ((color >> 16) & 0xFFU) / 0xFFU * 0xFF'FFU; for (int i = 0; i < width; i += 1) { *ptr++ = r; *ptr++ = g; *ptr++ = b; } } return generator_depth::bits16; } uint32_t color = image_pattern_gradient::red;; }; class image_pattern_gradient2 : public image_pattern { public: explicit image_pattern_gradient2(string const &config) { if (config.empty()) { return; } if (config == "help"s) { cout << "Testcard gradient2 usage:\n\t-t testcard:gradient2[=maxval] - maxval is 16-bit number\n"; throw 1; } val_max = stol(config, nullptr, 0); } private: unsigned int val_max = 0XFFFFU; enum generator_depth fill(int width, int height, unsigned char *data) override { assert(width > 1); // avoid division by zero auto *ptr = reinterpret_cast(data); for (int j = 0; j < height; j += 1) { for (int i = 0; i < width; i += 1) { unsigned int gray = i * val_max / (width - 1); *ptr++ = gray; *ptr++ = gray; *ptr++ = gray; } } return generator_depth::bits16; } }; class image_pattern_uv_plane : public image_pattern { public: explicit image_pattern_uv_plane(string const &y_lvl) { if (!y_lvl.empty()) { y_level = LIMIT_LO(16) + stof(y_lvl) * (LIMIT_HI_Y(16) - LIMIT_LO(16)); } } private: int y_level = (LIMIT_HI_Y(16) + LIMIT_LO(16)) / 2; enum generator_depth fill(int width, int height, unsigned char *data) override { assert(width > 1 && height > 1); // avoid division by zero auto *ptr = reinterpret_cast(data); auto *conv = get_decoder_from_to(Y416, RG48); int scale_cbcr = LIMIT_HI_CBCR(16) - LIMIT_LO(16); for (int j = 0; j < height; j += 1) { for (int i = 0; i < width; i += 1) { uint16_t uyva[4]; uyva[0] = LIMIT_LO(16) + i * scale_cbcr / (width - 1); uyva[1] = y_level; uyva[2] = LIMIT_LO(16) + j * scale_cbcr / (height - 1); uyva[3] = 0xFF'FF; conv((unsigned char *) ptr, (unsigned char *) uyva, 6, DEFAULT_R_SHIFT, DEFAULT_G_SHIFT, DEFAULT_B_SHIFT); ptr += 3; } } return generator_depth::bits16; } }; class image_pattern_noise : public image_pattern { default_random_engine rand_gen; enum generator_depth fill(int width, int height, unsigned char *data) override { uniform_int_distribution<> dist(0, 0xFFFF); for_each(reinterpret_cast(data), reinterpret_cast(data) + 3 * width * height, [&](uint16_t & c) { c = dist(rand_gen); }); return generator_depth::bits16; } }; struct image_pattern_pixel_bars : public image_pattern { explicit image_pattern_pixel_bars(string const &config) { if (config.empty()) { return; } if (config == "help"s) { color_printf( "\t" TBOLD("-t " "testcard:patt=image_bars[=[vert|hor|" "diag][,w[idth]=W]]") "\n"); throw 1; } char conf[STR_LEN]; snprintf_ch(conf, "%s", config.c_str()); char *tmp = conf; char *endptr = nullptr; while (char *item = strtok_r(tmp, ",", &endptr)) { tmp = nullptr; if (strncmp(item, "hor", 3) == 0) { type = COLS; } else if (strncmp(item, "ver", 3) == 0) { type = ROWS; } else if (strncmp(item, "dia", 3) == 0) { type = DIAG; } else if (IS_KEY_PREFIX(item, "width")) { fill_w = stoi(strchr(item, '=') + 1); } else { throw ug_runtime_error( string("Wrong option: ") + config); } } } private: enum { ROWS, COLS, DIAG } type = DIAG; int fill_w = 1; enum generator_depth fill(int width, int height, unsigned char *data) override { auto *ptr = reinterpret_cast(data); for (int j = 0; j < height; j += 1) { for (int i = 0; i < width; i += 1) { const int col_idx = type == DIAG ? i + j : type == ROWS ? i : j; *ptr++ = rect_colors[(col_idx / fill_w) % COL_NUM]; } } return generator_depth::bits8; } }; class image_pattern_raw : public image_pattern { public: explicit image_pattern_raw(string config) { if (config.empty()) { throw ug_runtime_error("Empty raw pattern is not allowed!"); } if (config.substr(0, "0x"s.length()) == "0x") { // strip optional "0x" config = config.substr(2); } while (!config.empty()) { unsigned char byte = 0; if (sscanf(config.c_str(), "%2hhx", &byte) == 1) { m_pattern.push_back(byte); } config = config.substr(min(config.size(), 2)); } } void raw_fill(unsigned char *data, size_t data_len) { while (data_len >= m_pattern.size()) { copy(m_pattern.begin(), m_pattern.end(), data); data += m_pattern.size(); data_len -= m_pattern.size(); } } private: enum generator_depth fill(int width, int height, unsigned char *data) override { memset(data, 0, width * height * 3); // placeholder only return generator_depth::bits8; } vector m_pattern; }; class image_pattern_text : public image_pattern { public: explicit image_pattern_text(const string & config) { if (config == "help"s) { col() << "Testcard text usage:\n\t" << SBOLD(SRED("-t testcard:pattern=text") << "[=pattern][,bg=0x]") << "\n"; throw 1; } if (!config.empty()) { string_view sv = config; bool text_set = false; while (!sv.empty()) { auto tok = tokenize(sv, ','); if (tok.substr(0,3) == "bg=") { bg = stol((string) tok.substr(3), nullptr, 0); } else if (tok.substr(0,3) == "fg=") { fg = stol((string) tok.substr(3), nullptr, 0); } else if (!text_set) { text = tok; text_set = true; } else { throw ug_runtime_error("Testcard text - wrong option: " + string(tok)); } } } } private: enum generator_depth fill(int width, int height, unsigned char *data) override { std::fill((uint32_t *)(void *) data, (uint32_t *)(void *) (data + width * height * 4), bg); string line; for (int i = 0; i < width; i += 8 * (text.size() + 1)) { line += " " + text; } for (int i = 0; i < height / 16; ++i) { draw_line((char *) data + (i * 16 * width * 4), width * 4, line.c_str(), fg, false); } return generator_depth::bits8; } string text = " !\"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\\]^_`abcdefghijklmnopqrstuvwxyz{|}~"; uint32_t bg = 0xFFCC00CCU; uint32_t fg = 0xFFFFFFFFU; }; class image_pattern_diagonal : public image_pattern{ public: explicit image_pattern_diagonal(const string & config) { if (config == "help"s) { col() << "Testcard diagonal usage:\n\t" << SBOLD(SRED("-t testcard:pattern=diagonal") << "[,bg=0x][,stride=][,line_width=]") << "\n"; throw 1; } if (!config.empty()) { string_view sv = config; while (!sv.empty()) { auto tok = tokenize(sv, ','); auto key = tokenize(tok, '='); auto val = tokenize(tok, '='); if (key == "bg") { bg = stol((string) val, nullptr, 0); } else if (key == "fg") { fg = stol((string) val, nullptr, 0); } else if (key == "stride") { stride = stol((string) val, nullptr, 0); } else if (key == "line_width") { line_width = stol((string) val, nullptr, 0); } else { throw ug_runtime_error("Testcard diagonal - wrong option: " + string(tok)); } } } } private: enum generator_depth fill(int width, int height, unsigned char *data) override { std::fill((uint32_t *)(void *) data, (uint32_t *)(void *) (data + width * height * 4), bg); for(int y = 0; y < height; y++){ for(int x = y % stride; x < width - line_width; x += stride){ for(int i = 0; i < line_width; i++){ *((uint32_t *) (void *) (data + (y*width + x + i) * 4)) = fg; } } for(int x = stride - (y % stride); x < width - line_width; x += stride){ for(int i = 0; i < line_width; i++){ *((uint32_t *) (void *) (data + (y*width + x + i) * 4)) = fg; } } } return generator_depth::bits8; } uint32_t bg = 0xFF000000U; uint32_t fg = 0xFFFFFFFFU; int stride = 80; int line_width = 4; }; unique_ptr image_pattern::create(string const &pattern, string const ¶ms) { if (pattern == "bars") { return make_unique(params); } if (pattern == "blank") { return make_unique(params); } if (pattern == "ebu_bars") { return make_unique>(); } if (pattern == "gradient") { return make_unique(params); } if (pattern == "gradient2") { return make_unique(params); } if (pattern == "noise") { return make_unique(); } if (pattern == "pixel_bars") { return make_unique(params); } if (pattern == "raw") { return make_unique(params); } if (pattern == "smpte_bars") { return make_unique(); } if (pattern == "text") { return make_unique(params); } if (pattern == "uv_plane") { return make_unique(params); } if (pattern == "diagonal") { return make_unique(params); } throw ug_runtime_error("Unknown pattern: "s + pattern + "!"s); } struct video_pattern_generator { virtual char *get_next() = 0; virtual ~video_pattern_generator() {} }; struct still_image_video_pattern_generator : public video_pattern_generator { still_image_video_pattern_generator(string const &pattern, string const ¶ms, int w, int h, codec_t c, int o) : width(w), height(h), color_spec(c), offset(o) { unique_ptr generator; try { generator = image_pattern::create(pattern, params); } catch (exception const &e) { LOG(LOG_LEVEL_ERROR) << MOD_NAME << e.what() << "\n"; throw 1; } if (!generator) { throw 2; } data = generator->init(width, height, generator_depth::bits8); codec_t codec_src = RGBA; if (get_decoder_from_to(RG48, color_spec) != NULL) { data = generator->init(width, height, generator_depth::bits16); codec_src = RG48; } vector src; data.swap(src); long data_len = vc_get_datalen(width, height, color_spec); data.resize(data_len * 2); testcard_convert_buffer(codec_src, color_spec, data.data(), src.data(), width, height); if (auto *raw_generator = dynamic_cast(generator.get())) { raw_generator->raw_fill(data.data(), data_len); } memcpy(data.data() + data_len, data.data(), data_len); } int width; int height; codec_t color_spec; vector data; int offset; long cur_pos = 0; long data_len = vc_get_datalen(width, height, color_spec); long linesize = vc_get_linesize(width, color_spec); char *get_next() override { auto ret = (char *) data.data() + cur_pos; cur_pos += offset; if (cur_pos >= data_len) { cur_pos = 0; } return ret; } }; struct gray_video_pattern_generator : public video_pattern_generator { gray_video_pattern_generator(int w, int h, codec_t c, string const& opts) : width(w), height(h), color_spec(c) { if (!opts.empty()) { if (opts == "help") { col() << "Usage:\n\t" SBOLD("gray[:step]") << " - interframe color increment (default " << DEFAULT_STEP << ")\n"; throw 1; } step = stoi(opts); } int col = 0; while (col < 0xFF) { int pixels = get_pf_block_pixels(color_spec); unsigned char rgba[MAX_PFB_SIZE * 4]; for (int i = 0; i < pixels * 4; ++i) { rgba[i] = (i + 1) % 4 != 0 ? col : 0xFFU; // handle alpha } int dst_bs = get_pf_block_bytes(color_spec); unsigned char dst[MAX_PFB_SIZE]; testcard_convert_buffer(RGBA, color_spec, dst, rgba, pixels, 1); auto next_frame = vector(data_len); for (int y = 0; y < height; ++y) { for (int x = 0; x < width / pixels; x += 1) { memcpy(next_frame.data() + y * vc_get_linesize(width, color_spec) + x * dst_bs, dst, dst_bs); } } data.push_back(std::move(next_frame)); col += step; } } char *get_next() override { auto *out = (char *) data[cur_idx++].data(); if (cur_idx * step >= 0xFF) { cur_idx = 0; } return out; } private: constexpr static int DEFAULT_STEP = 1; int step = DEFAULT_STEP; int width; int height; codec_t color_spec; int cur_idx = 0; long data_len = vc_get_datalen(width, height, color_spec); vector> data; }; struct interlaced_video_pattern_generator : public video_pattern_generator { interlaced_video_pattern_generator(int w, int h, codec_t color_spec) : width(w), height(h), linesize(vc_get_linesize(width, color_spec)) { if (width % step != 0) { throw ug_runtime_error( string("[interlaced] width must be divisible by ") + std::to_string(step) + "!"); } size_t rgb_linesize = vc_get_linesize(width, RGB); vector rgb(3 * h * rgb_linesize + 4 * (width / step) * rgb_linesize); memset(rgb.data(), 255, h * rgb_linesize); char *ptr = rgb.data() + h * rgb_linesize; auto fill = [&](int col1, int col2) { for (int i = 0; i < width; i += step) { size_t fill_len = rgb_linesize - i * 3; memset(ptr, col1, fill_len); memset(ptr + fill_len, col2, rgb_linesize - fill_len); ptr += rgb_linesize; fill_len = MAX(0, (int) rgb_linesize - (i + 2 * step) * 3); memset(ptr, col1, fill_len); memset(ptr + fill_len, col2, rgb_linesize - fill_len); ptr += rgb_linesize; } }; fill(255, 0); memset(ptr, 0, h * rgb_linesize); ptr += h * rgb_linesize; fill(0, 255); memset(ptr, 255, h * rgb_linesize); vector rgba(rgb.size() / 3 * 4); for (unsigned i = 0; i < rgb.size(); i += 3) { rgba[i / 3 * 4] = rgb[i]; rgba[i / 3 * 4 + 1] = rgb[i + 1]; rgba[i / 3 * 4 + 2] = rgb[i + 2]; rgba[i / 3 * 4 + 3] = 0xff; } data.resize(3 * h * linesize + 4 * linesize * (w / step) + MAX_PADDING); testcard_convert_buffer(RGBA, color_spec, (unsigned char *) data.data(), (unsigned char *) rgba.data(), width, 3 * height + 4 * (width / step)); } char *get_next() override { auto *out = (char *) data.data() + cur_idx * linesize; cur_idx += 8; if (cur_idx >= 2 * height + 4 * width / step) { cur_idx = 0; } return out; } private: constexpr static int step = 3; int width; int height; size_t linesize; int cur_idx = 0; vector data; }; video_pattern_generator_t video_pattern_generator_create(const char *config, int width, int height, codec_t color_spec, int offset) { if (string(config) == "help") { col() << "Pattern to use, one of: \n"; for (const auto *p : { "bars", BLANK_USAGE, "diagonal*", "ebu_bars", "gradient[=0x]", "gradient2*", "gray", "interlaced", "noise", "raw=0xXX[YYZZ..]", "smpte_bars", "pixel_bars*", "uv_plane[=]", }) { col() << "\t- " << SBOLD(p) << "\n"; } col() << "\nNotes:\n"; col() << "\t- patterns " SBOLD("'gradient'") ", " SBOLD("'gradient2'") ", " SBOLD("'noise'") " and " SBOLD("'uv_plane'") " generate higher bit-depth " "patterns with"; for (codec_t c = VIDEO_CODEC_FIRST; c != VIDEO_CODEC_COUNT; c = static_cast(static_cast(c) + 1)) { if (get_decoder_from_to(RG48, c) != NULL && get_bits_per_component(c) > 8) { col() << " " << SBOLD(get_codec_name(c)); } } col() << "\n"; col() << "\t- pattern " << SBOLD("'raw'") " generates repeating sequence of given " "bytes without any color conversion\n"; col() << "\t- patterns marked with " << SBOLD("'*'") " provide help as its option\n"; return nullptr; } assert(width > 0 && height > 0); try { string pattern = config; string params; if (string::size_type delim = pattern.find('='); delim != string::npos) { params = pattern.substr(delim + 1); pattern = pattern.substr(0, delim); } if (pattern == "gray" || pattern == "grey") { return new gray_video_pattern_generator{width, height, color_spec, params}; } if (pattern == "interlaced") { return new interlaced_video_pattern_generator{width, height, color_spec}; } return new still_image_video_pattern_generator{pattern, params, width, height, color_spec, offset}; } catch (exception const &e) { LOG(LOG_LEVEL_ERROR) << MOD_NAME << e.what() << "\n"; return nullptr; } catch (...) { return nullptr; } } char *video_pattern_generator_next_frame(video_pattern_generator_t s) { return s->get_next(); } void video_pattern_generator_fill_data(video_pattern_generator_t s, const char *data) { auto &state = dynamic_cast(*s); memcpy(state.data.data(), data, state.data_len); memcpy(state.data.data() + state.data_len, data, state.data_len); } void video_pattern_generator_destroy(video_pattern_generator_t s) { delete s; } /* vim: set expandtab sw=8: */