// -*- mode: c++; c-basic-offset: 2; indent-tabs-mode: nil; -*- // Copyright (C) 2013 Henner Zeller // // This program is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation version 2. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see // // C-bridge for led matrix. #include "led-matrix-c.h" #include #include #include "led-matrix.h" #include "graphics.h" // Make sure C++ is in sync with C static_assert(sizeof(rgb_matrix::RGBMatrix::Options) == sizeof(RGBLedMatrixOptions), "C and C++ out of sync"); static_assert(sizeof(rgb_matrix::RuntimeOptions) == sizeof(RGBLedRuntimeOptions), "C and C++ out of sync"); // Our opaque dummy structs to communicate with the c-world struct RGBLedMatrix {}; struct LedCanvas {}; struct LedFont {}; static rgb_matrix::RGBMatrix *to_matrix(struct RGBLedMatrix *matrix) { return reinterpret_cast(matrix); } static struct RGBLedMatrix *from_matrix(rgb_matrix::RGBMatrix *matrix) { return reinterpret_cast(matrix); } static rgb_matrix::FrameCanvas *to_canvas(struct LedCanvas *canvas) { return reinterpret_cast(canvas); } static struct LedCanvas *from_canvas(rgb_matrix::FrameCanvas *canvas) { return reinterpret_cast(canvas); } static rgb_matrix::Font *to_font(struct LedFont *font) { return reinterpret_cast(font); } static struct LedFont *from_font(rgb_matrix::Font *font) { return reinterpret_cast(font); } static rgb_matrix::Color* to_color(struct Color* color) { return reinterpret_cast(color); } static struct RGBLedMatrix *led_matrix_create_from_options_optional_edit( struct RGBLedMatrixOptions *opts, struct RGBLedRuntimeOptions *rt_opts, int *argc, char ***argv, bool remove_consumed_flags) { rgb_matrix::RuntimeOptions default_rt; rgb_matrix::RGBMatrix::Options default_opts; if (opts) { // Copy between C struct and C++ struct. The C++ struct already has a // default constructor that sets some values. These we override with the // C-struct values if available. // We assume everything non-zero has an explicit value. #define OPT_COPY_IF_SET(o) if (opts->o) default_opts.o = opts->o OPT_COPY_IF_SET(hardware_mapping); OPT_COPY_IF_SET(rows); OPT_COPY_IF_SET(cols); OPT_COPY_IF_SET(chain_length); OPT_COPY_IF_SET(parallel); OPT_COPY_IF_SET(pwm_bits); OPT_COPY_IF_SET(pwm_lsb_nanoseconds); OPT_COPY_IF_SET(pwm_dither_bits); OPT_COPY_IF_SET(brightness); OPT_COPY_IF_SET(scan_mode); OPT_COPY_IF_SET(row_address_type); OPT_COPY_IF_SET(multiplexing); OPT_COPY_IF_SET(disable_hardware_pulsing); OPT_COPY_IF_SET(show_refresh_rate); OPT_COPY_IF_SET(inverse_colors); OPT_COPY_IF_SET(led_rgb_sequence); OPT_COPY_IF_SET(pixel_mapper_config); OPT_COPY_IF_SET(panel_type); OPT_COPY_IF_SET(limit_refresh_rate_hz); OPT_COPY_IF_SET(disable_busy_waiting); #undef OPT_COPY_IF_SET } if (rt_opts) { // Same story as RGBMatrix::Options #define RT_OPT_COPY_IF_SET(o) if (rt_opts->o) default_rt.o = rt_opts->o RT_OPT_COPY_IF_SET(gpio_slowdown); RT_OPT_COPY_IF_SET(daemon); RT_OPT_COPY_IF_SET(drop_privileges); RT_OPT_COPY_IF_SET(do_gpio_init); RT_OPT_COPY_IF_SET(drop_priv_user); RT_OPT_COPY_IF_SET(drop_priv_group); #undef RT_OPT_COPY_IF_SET } rgb_matrix::RGBMatrix::Options matrix_options = default_opts; rgb_matrix::RuntimeOptions runtime_opt = default_rt; if (argc != NULL && argv != NULL) { if (!ParseOptionsFromFlags(argc, argv, &matrix_options, &runtime_opt, remove_consumed_flags)) { rgb_matrix::PrintMatrixFlags(stderr, default_opts, default_rt); return NULL; } } if (opts) { #define ACTUAL_VALUE_BACK_TO_OPT(o) opts->o = matrix_options.o ACTUAL_VALUE_BACK_TO_OPT(hardware_mapping); ACTUAL_VALUE_BACK_TO_OPT(rows); ACTUAL_VALUE_BACK_TO_OPT(cols); ACTUAL_VALUE_BACK_TO_OPT(chain_length); ACTUAL_VALUE_BACK_TO_OPT(parallel); ACTUAL_VALUE_BACK_TO_OPT(pwm_bits); ACTUAL_VALUE_BACK_TO_OPT(pwm_lsb_nanoseconds); ACTUAL_VALUE_BACK_TO_OPT(pwm_dither_bits); ACTUAL_VALUE_BACK_TO_OPT(brightness); ACTUAL_VALUE_BACK_TO_OPT(scan_mode); ACTUAL_VALUE_BACK_TO_OPT(row_address_type); ACTUAL_VALUE_BACK_TO_OPT(multiplexing); ACTUAL_VALUE_BACK_TO_OPT(disable_hardware_pulsing); ACTUAL_VALUE_BACK_TO_OPT(show_refresh_rate); ACTUAL_VALUE_BACK_TO_OPT(inverse_colors); ACTUAL_VALUE_BACK_TO_OPT(led_rgb_sequence); ACTUAL_VALUE_BACK_TO_OPT(pixel_mapper_config); ACTUAL_VALUE_BACK_TO_OPT(panel_type); ACTUAL_VALUE_BACK_TO_OPT(limit_refresh_rate_hz); ACTUAL_VALUE_BACK_TO_OPT(disable_busy_waiting); #undef ACTUAL_VALUE_BACK_TO_OPT } if (rt_opts) { #define ACTUAL_VALUE_BACK_TO_RT_OPT(o) rt_opts->o = runtime_opt.o ACTUAL_VALUE_BACK_TO_RT_OPT(gpio_slowdown); ACTUAL_VALUE_BACK_TO_RT_OPT(daemon); ACTUAL_VALUE_BACK_TO_RT_OPT(drop_privileges); ACTUAL_VALUE_BACK_TO_RT_OPT(do_gpio_init); ACTUAL_VALUE_BACK_TO_RT_OPT(drop_priv_user); ACTUAL_VALUE_BACK_TO_RT_OPT(drop_priv_group); #undef ACTUAL_VALUE_BACK_TO_RT_OPT } rgb_matrix::RGBMatrix *matrix = rgb_matrix::RGBMatrix::CreateFromOptions(matrix_options, runtime_opt); return from_matrix(matrix); } struct RGBLedMatrix *led_matrix_create_from_options( struct RGBLedMatrixOptions *opts, int *argc, char ***argv) { return led_matrix_create_from_options_optional_edit(opts, NULL, argc, argv, true); } struct RGBLedMatrix *led_matrix_create_from_options_const_argv( struct RGBLedMatrixOptions *opts, int argc, char **argv) { return led_matrix_create_from_options_optional_edit(opts, NULL, &argc, &argv, false); } struct RGBLedMatrix *led_matrix_create_from_options_and_rt_options( struct RGBLedMatrixOptions *opts, struct RGBLedRuntimeOptions * rt_opts) { return led_matrix_create_from_options_optional_edit(opts, rt_opts, NULL, NULL, false); } struct RGBLedMatrix *led_matrix_create(int rows, int chained, int parallel) { struct RGBLedMatrixOptions opts; memset(&opts, 0, sizeof(opts)); opts.rows = rows; opts.chain_length = chained; opts.parallel = parallel; return led_matrix_create_from_options(&opts, NULL, NULL); } void led_matrix_print_flags(FILE *out) { rgb_matrix::RGBMatrix::Options defaults; rgb_matrix::RuntimeOptions rt_opt; rt_opt.daemon = -1; rt_opt.drop_privileges = -1; rgb_matrix::PrintMatrixFlags(out, defaults, rt_opt); } void led_matrix_delete(struct RGBLedMatrix *matrix) { delete to_matrix(matrix); } struct LedCanvas *led_matrix_get_canvas(struct RGBLedMatrix *matrix) { return from_canvas(to_matrix(matrix)->SwapOnVSync(NULL)); } struct LedCanvas *led_matrix_create_offscreen_canvas(struct RGBLedMatrix *m) { return from_canvas(to_matrix(m)->CreateFrameCanvas()); } struct LedCanvas *led_matrix_swap_on_vsync(struct RGBLedMatrix *matrix, struct LedCanvas *canvas) { return from_canvas(to_matrix(matrix)->SwapOnVSync(to_canvas(canvas))); } void led_matrix_set_brightness(struct RGBLedMatrix *matrix, uint8_t brightness) { to_matrix(matrix)->SetBrightness(brightness); } uint8_t led_matrix_get_brightness(struct RGBLedMatrix *matrix) { return to_matrix(matrix)->brightness(); } void led_canvas_get_size(const struct LedCanvas *canvas, int *width, int *height) { rgb_matrix::FrameCanvas *c = to_canvas((struct LedCanvas*)canvas); if (c == NULL ) return; if (width != NULL) *width = c->width(); if (height != NULL) *height = c->height(); } void led_canvas_set_pixel(struct LedCanvas *canvas, int x, int y, uint8_t r, uint8_t g, uint8_t b) { to_canvas(canvas)->SetPixel(x, y, r, g, b); } void led_canvas_set_pixels(struct LedCanvas *canvas, int x, int y, int width, int height, struct Color *colors) { to_canvas(canvas)->SetPixels(x, y, width, height, to_color(colors)); } void led_canvas_clear(struct LedCanvas *canvas) { to_canvas(canvas)->Clear(); } void led_canvas_fill(struct LedCanvas *canvas, uint8_t r, uint8_t g, uint8_t b) { to_canvas(canvas)->Fill(r, g, b); } struct LedFont *load_font(const char *bdf_font_file) { rgb_matrix::Font* font = new rgb_matrix::Font(); font->LoadFont(bdf_font_file); return from_font(font); } int baseline_font(struct LedFont * font) { return to_font(font)->baseline(); } int height_font(struct LedFont * font) { return to_font(font)->height(); } struct LedFont *create_outline_font(struct LedFont * font) { rgb_matrix::Font* outlineFont = to_font(font)->CreateOutlineFont(); return from_font(outlineFont); } void delete_font(struct LedFont *font) { delete to_font(font); } // -- Some utility functions. void set_image(struct LedCanvas *c, int canvas_offset_x, int canvas_offset_y, const uint8_t *image_buffer, size_t buffer_size_bytes, int image_width, int image_height, char is_bgr) { SetImage(to_canvas(c), canvas_offset_x, canvas_offset_y, image_buffer, buffer_size_bytes, image_width, image_height, is_bgr); } // Draw text, a standard NUL terminated C-string encoded in UTF-8, // with given "font" at "x","y" with "color". // "color" always needs to be set (hence it is a reference), // "background_color" is a pointer to optionally be NULL for transparency. // "kerning_offset" allows for additional spacing between characters (can be // negative) // Returns how many pixels we advanced on the screen. int draw_text(struct LedCanvas *c, struct LedFont *font, int x, int y, uint8_t r, uint8_t g, uint8_t b, const char *utf8_text, int kerning_offset) { const rgb_matrix::Color col = rgb_matrix::Color(r, g, b); return DrawText(to_canvas(c), *to_font(font), x, y, col, NULL, utf8_text, kerning_offset); } // Draw text, a standard NUL terminated C-string encoded in UTF-8, // with given "font" at "x","y" with "color". // Draw text as above, but vertically (top down). // The text is a standard NUL terminated C-string encoded in UTF-8. // "font, "x", "y", "color" and "background_color" are same as DrawText(). // "kerning_offset" allows for additional spacing between characters (can be // negative). // Returns font height to advance up on the screen. int vertical_draw_text(struct LedCanvas *c, struct LedFont *font, int x, int y, uint8_t r, uint8_t g, uint8_t b, const char *utf8_text, int kerning_offset = 0) { const rgb_matrix::Color col = rgb_matrix::Color(r, g, b); return VerticalDrawText(to_canvas(c), *to_font(font), x, y, col, NULL, utf8_text, kerning_offset); } // Draw a circle centered at "x", "y", with a radius of "radius" and with "color" void draw_circle(struct LedCanvas *c, int xx, int y, int radius, uint8_t r, uint8_t g, uint8_t b) { const rgb_matrix::Color col = rgb_matrix::Color( r,g,b ); DrawCircle(to_canvas(c), xx, y, radius, col); } // Draw a line from "x0", "y0" to "x1", "y1" and with "color" void draw_line(struct LedCanvas *c, int x0, int y0, int x1, int y1, uint8_t r, uint8_t g, uint8_t b) { const rgb_matrix::Color col = rgb_matrix::Color(r, g, b); DrawLine(to_canvas(c), x0, y0, x1, y1, col); }