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413 lines
15 KiB
C
413 lines
15 KiB
C
1 year ago
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/* -*- mode: c; c-basic-offset: 2; indent-tabs-mode: nil; -*-
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* Copyright (C) 2013 Henner Zeller <h.zeller@acm.org>
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation version 2.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://gnu.org/licenses/gpl-2.0.txt>
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*
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* Controlling 16x32 or 32x32 RGB matrixes via GPIO. It allows daisy chaining
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* of a string of these, and also connecting a parallel string on newer
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* Raspberry Pis with more GPIO pins available.
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*
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* This is a C-binding (for the C++ library) to allow easy binding and
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* integration with other languages. The symbols are exported in librgbmatrix.a
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* and librgbmatrix.so. You still need to call the final link with
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*
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* See examples-api-use/c-example.c for a usage example.
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*
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*/
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#ifndef RPI_RGBMATRIX_C_H
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#define RPI_RGBMATRIX_C_H
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#include <stdint.h>
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#include <stdio.h>
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#include <stdbool.h>
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#ifdef __cplusplus
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extern "C" {
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#endif
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struct RGBLedMatrix;
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struct LedCanvas;
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struct LedFont;
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/**
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* Parameters to create a new matrix.
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*
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* To get the defaults, non-set values have to be initialized to zero, so you
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* should zero out this struct before setting anything.
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*/
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struct RGBLedMatrixOptions {
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/*
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* Name of the hardware mapping used. If passed NULL here, the default
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* is used.
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*/
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const char *hardware_mapping;
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/* The "rows" are the number of rows supported by the display, so 32 or 16.
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* Default: 32.
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* Corresponding flag: --led-rows
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*/
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int rows;
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/* The "cols" are the number of columns per panel. Typically something
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* like 32, but also 64 is possible. Sometimes even 40.
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* cols * chain_length is the total length of the display, so you can
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* represent a 64 wide display as cols=32, chain=2 or cols=64, chain=1;
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* same thing.
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* Flag: --led-cols
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*/
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int cols;
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/* The chain_length is the number of displays daisy-chained together
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* (output of one connected to input of next). Default: 1
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* Corresponding flag: --led-chain
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*/
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int chain_length;
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/* The number of parallel chains connected to the Pi; in old Pis with 26
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* GPIO pins, that is 1, in newer Pis with 40 interfaces pins, that can
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* also be 2 or 3. The effective number of pixels in vertical direction is
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* then thus rows * parallel. Default: 1
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* Corresponding flag: --led-parallel
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*/
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int parallel;
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/* Set PWM bits used for output. Default is 11, but if you only deal with
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* limited comic-colors, 1 might be sufficient. Lower require less CPU and
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* increases refresh-rate.
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* Corresponding flag: --led-pwm-bits
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*/
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int pwm_bits;
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/* Change the base time-unit for the on-time in the lowest
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* significant bit in nanoseconds.
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* Higher numbers provide better quality (more accurate color, less
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* ghosting), but have a negative impact on the frame rate.
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* Corresponding flag: --led-pwm-lsb-nanoseconds
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*/
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int pwm_lsb_nanoseconds;
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/* The lower bits can be time-dithered for higher refresh rate.
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* Corresponding flag: --led-pwm-dither-bits
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*/
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int pwm_dither_bits;
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/* The initial brightness of the panel in percent. Valid range is 1..100
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* Corresponding flag: --led-brightness
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*/
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int brightness;
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/* Scan mode: 0=progressive, 1=interlaced
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* Corresponding flag: --led-scan-mode
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*/
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int scan_mode;
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/* Default row address type is 0, corresponding to direct setting of the
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* row, while row address type 1 is used for panels that only have A/B,
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* typically some 64x64 panels
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*/
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int row_address_type; /* Corresponding flag: --led-row-addr-type */
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/* Type of multiplexing. 0 = direct, 1 = stripe, 2 = checker (typical 1:8)
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*/
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int multiplexing;
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/** The following boolean flags are off by default **/
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/* Allow to use the hardware subsystem to create pulses. This won't do
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* anything if output enable is not connected to GPIO 18.
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* Corresponding flag: --led-hardware-pulse
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*/
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bool disable_hardware_pulsing; /* Flag: --led-hardware-pulse */
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bool show_refresh_rate; /* Flag: --led-show-refresh */
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bool inverse_colors; /* Flag: --led-inverse */
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/* In case the internal sequence of mapping is not "RGB", this contains the
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* real mapping. Some panels mix up these colors.
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*/
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const char *led_rgb_sequence; /* Corresponding flag: --led-rgb-sequence */
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/* A string describing a sequence of pixel mappers that should be applied
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* to this matrix. A semicolon-separated list of pixel-mappers with optional
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* parameter.
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*/
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const char *pixel_mapper_config; /* Corresponding flag: --led-pixel-mapper */
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/*
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* Panel type. Typically just NULL, but certain panels (FM6126) require
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* an initialization sequence
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*/
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const char *panel_type; /* Corresponding flag: --led-panel-type */
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/* Limit refresh rate of LED panel. This will help on a loaded system
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* to keep a constant refresh rate. <= 0 for no limit.
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*/
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int limit_refresh_rate_hz; /* Corresponding flag: --led-limit-refresh */
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};
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/**
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* Runtime options to simplify doing common things for many programs such as
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* dropping privileges and becoming a daemon.
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*/
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struct RGBLedRuntimeOptions {
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int gpio_slowdown; // 0 = no slowdown. Flag: --led-slowdown-gpio
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// ----------
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// If the following options are set to disabled with -1, they are not
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// even offered via the command line flags.
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// ----------
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// Thre are three possible values here
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// -1 : don't leave choise of becoming daemon to the command line parsing.
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// If set to -1, the --led-daemon option is not offered.
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// 0 : do not becoma a daemon, run in forgreound (default value)
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// 1 : become a daemon, run in background.
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//
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// If daemon is disabled (= -1), the user has to call
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// RGBMatrix::StartRefresh() manually once the matrix is created, to leave
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// the decision to become a daemon
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// after the call (which requires that no threads have been started yet).
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// In the other cases (off or on), the choice is already made, so the thread
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// is conveniently already started for you.
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int daemon; // -1 disabled. 0=off, 1=on. Flag: --led-daemon
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// Drop privileges from 'root' to 'daemon' once the hardware is initialized.
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// This is usually a good idea unless you need to stay on elevated privs.
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int drop_privileges; // -1 disabled. 0=off, 1=on. flag: --led-drop-privs
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// By default, the gpio is initialized for you, but if you run on a platform
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// not the Raspberry Pi, this will fail. If you don't need to access GPIO
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// e.g. you want to just create a stream output (see content-streamer.h),
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// set this to false.
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bool do_gpio_init;
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// If drop privileges is enabled, this is the user/group we drop privileges
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// to. Unless chosen otherwise, the default is "daemon" for user and group.
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const char *drop_priv_user;
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const char *drop_priv_group;
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};
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/**
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* 24-bit RGB color.
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*/
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struct Color {
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uint8_t r;
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uint8_t g;
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uint8_t b;
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};
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/**
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* Universal way to create and initialize a matrix.
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* The "options" struct (if not NULL) contains all default configuration values
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* chosen by the programmer to create the matrix.
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*
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* If "argc" and "argv" are provided, this function also reads command line
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* flags provided, that then can override any of the defaults given.
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* The arguments that have been used from the command line are removed from
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* the argv list (and argc is adjusted) - that way these don't mess with your
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* own command line handling.
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*
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* The actual options used are filled back into the "options" struct if not
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* NULL.
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*
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* Usage:
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* ----------------
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* int main(int argc, char **argv) {
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* struct RGBLedMatrixOptions options;
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* memset(&options, 0, sizeof(options));
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* options.rows = 32; // You can set defaults if you want.
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* options.chain_length = 1;
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* struct RGBLedMatrix *matrix = led_matrix_create_from_options(&options,
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* &argc, &argv);
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* if (matrix == NULL) {
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* led_matrix_print_flags(stderr);
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* return 1;
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* }
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* // do additional commandline handling; then use matrix...
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* }
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* ----------------
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*/
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struct RGBLedMatrix *led_matrix_create_from_options(
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struct RGBLedMatrixOptions *options, int *argc, char ***argv);
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/* Same, but does not modify the argv array. */
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struct RGBLedMatrix *led_matrix_create_from_options_const_argv(
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struct RGBLedMatrixOptions *options, int argc, char **argv);
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/**
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* The way to completely initialize your matrix without using command line
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* flags to initialize some things.
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*
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* The actual options used are filled back into the "options" and "rt_options"
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* struct if not NULL. If they are null, the default value is used.
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*
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* Usage:
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* ----------------
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* int main(int argc, char **argv) {
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* struct RGBLedMatrixOptions options;
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* struct RGBLedRuntimeOptions rt_options;
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* memset(&options, 0, sizeof(options));
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* memset(&rt_options, 0, sizeof(rt_options));
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* options.rows = 32; // You can set defaults if you want.
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* options.chain_length = 1;
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* rt_options.gpio_slowdown = 4;
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* struct RGBLedMatrix *matrix = led_matrix_create_from_options_and_rt_options(&options, &rt_options);
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* if (matrix == NULL) {
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* return 1;
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* }
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* // do additional commandline handling; then use matrix...
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* }
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* ----------------
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*/
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struct RGBLedMatrix *led_matrix_create_from_options_and_rt_options(
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struct RGBLedMatrixOptions *opts, struct RGBLedRuntimeOptions * rt_opts);
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/**
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* Print available LED matrix options.
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*/
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void led_matrix_print_flags(FILE *out);
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/**
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* Simple form of led_matrix_create_from_options() with just the few
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* main options. Returns NULL if that was not possible.
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* The "rows" are the number of rows supported by the display, so 32, 16 or 8.
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*
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* Number of "chained_display"s tells many of these are daisy-chained together
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* (output of one connected to input of next).
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*
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* The "parallel_display" number determines if there is one or two displays
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* connected in parallel to the GPIO port - this only works with newer
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* Raspberry Pi that have 40 interface pins.
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*
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* This creates a realtime thread and requires root access to access the GPIO
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* pins.
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* So if you run this in a daemon, this should be called after becoming a
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* daemon (as fork/exec stops threads) and before dropping privileges.
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*/
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struct RGBLedMatrix *led_matrix_create(int rows, int chained, int parallel);
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/**
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* Stop matrix and free memory.
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* Always call before the end of the program to properly reset the hardware
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*/
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void led_matrix_delete(struct RGBLedMatrix *matrix);
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/**
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* Get active canvas from LED matrix for you to draw on.
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* Ownership of returned pointer stays with the matrix, don't free().
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*/
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struct LedCanvas *led_matrix_get_canvas(struct RGBLedMatrix *matrix);
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/** Return size of canvas. */
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void led_canvas_get_size(const struct LedCanvas *canvas,
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int *width, int *height);
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/** Set pixel at (x, y) with color (r,g,b). */
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void led_canvas_set_pixel(struct LedCanvas *canvas, int x, int y,
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uint8_t r, uint8_t g, uint8_t b);
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/** Copies pixels to rectangle at (x, y) with size (width, height). */
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void led_canvas_set_pixels(struct LedCanvas *canvas, int x, int y,
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int width, int height, struct Color *colors);
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/** Clear screen (black). */
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void led_canvas_clear(struct LedCanvas *canvas);
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/** Fill matrix with given color. */
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void led_canvas_fill(struct LedCanvas *canvas, uint8_t r, uint8_t g, uint8_t b);
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/*** API to provide double-buffering. ***/
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/**
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* Create a new canvas to be used with led_matrix_swap_on_vsync()
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* Ownership of returned pointer stays with the matrix, don't free().
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*/
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struct LedCanvas *led_matrix_create_offscreen_canvas(struct RGBLedMatrix *matrix);
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/**
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* Swap the given canvas (created with create_offscreen_canvas) with the
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* currently active canvas on vsync (blocks until vsync is reached).
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* Returns the previously active canvas. So with that, you can create double
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* buffering:
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*
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* struct LedCanvas *offscreen = led_matrix_create_offscreen_canvas(...);
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* led_canvas_set_pixel(offscreen, ...); // not shown until swap-on-vsync
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* offscreen = led_matrix_swap_on_vsync(matrix, offscreen);
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* // The returned buffer, assigned to offscreen, is now the inactive buffer
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* // fill, then swap again.
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*/
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struct LedCanvas *led_matrix_swap_on_vsync(struct RGBLedMatrix *matrix,
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struct LedCanvas *canvas);
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uint8_t led_matrix_get_brightness(struct RGBLedMatrix *matrix);
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void led_matrix_set_brightness(struct RGBLedMatrix *matrix, uint8_t brightness);
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// Utility function: set an image from the given buffer containting pixels.
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//
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// Draw image of size "image_width" and "image_height" from pixel at
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// canvas-offset "canvas_offset_x", "canvas_offset_y". Image will be shown
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// cropped on the edges if needed.
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//
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// The canvas offset can be negative, i.e. the image start can be shifted
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// outside the image frame on the left/top edge.
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//
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// The buffer needs to be organized as rows with columns of three bytes
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// organized as rgb or bgr. Thus the size of the buffer needs to be exactly
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// (3 * image_width * image_height) bytes.
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//
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// The "image_buffer" parameters contains the data, "buffer_size_bytes" the
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// size in bytes.
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//
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// If "is_bgr" is 1, the buffer is treated as BGR pixel arrangement instead
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// of RGB with is_bgr = 0.
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void set_image(struct LedCanvas *c, int canvas_offset_x, int canvas_offset_y,
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const uint8_t *image_buffer, size_t buffer_size_bytes,
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int image_width, int image_height,
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char is_bgr);
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// Load a font given a path to a font file containing a bdf font.
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struct LedFont *load_font(const char *bdf_font_file);
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// Read the baseline of a font
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int baseline_font(struct LedFont *font);
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// Read the height of a font
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int height_font(struct LedFont *font);
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// Creates an outline font based on an existing font instance
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struct LedFont *create_outline_font(struct LedFont *font);
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// Delete a font originally created from load_font.
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void delete_font(struct LedFont *font);
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int draw_text(struct LedCanvas *c, struct LedFont *font, int x, int y,
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uint8_t r, uint8_t g, uint8_t b,
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const char *utf8_text, int kerning_offset);
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int vertical_draw_text(struct LedCanvas *c, struct LedFont *font, int x, int y,
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uint8_t r, uint8_t g, uint8_t b,
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const char *utf8_text, int kerning_offset);
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void draw_circle(struct LedCanvas *c, int x, int y, int radius,
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uint8_t r, uint8_t g, uint8_t b);
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void draw_line(struct LedCanvas *c, int x0, int y0, int x1, int y1,
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uint8_t r, uint8_t g, uint8_t b);
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#ifdef __cplusplus
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} // extern C
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#endif
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#endif
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