mirror of
https://github.com/Keychron/qmk_firmware.git
synced 2024-11-27 11:06:37 +06:00
2bfac351ed
* initial commit, this now mostly works - RGB controls work - Dynamic keymap still broken due to eeprom - Via works * STM32 eeprom update - Update EEPROM emulation library to handle 8bit data like AVR. - This library also allows for multiple page pairs resulting in greater EEPROM size flexibility * hs60 changes * HS60 hhkb added * Update keyboards/hs60/v2/config.h Co-Authored-By: yiancar <yiangosyiangou@cytanet.com.cy>
253 lines
8.1 KiB
C
253 lines
8.1 KiB
C
/* Copyright 2017 Jason Williams
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* Copyright 2018 Jack Humbert
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* Copyright 2018 Yiancar
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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, either version 2 of the License, or
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* (at your option) any later version.
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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://www.gnu.org/licenses/>.
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*/
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#ifdef __AVR__
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#include <avr/interrupt.h>
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#include <avr/io.h>
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#include <util/delay.h>
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#else
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#include "wait.h"
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#endif
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#include "is31fl3733.h"
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#include <string.h>
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#include "i2c_master.h"
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#include "progmem.h"
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// This is a 7-bit address, that gets left-shifted and bit 0
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// set to 0 for write, 1 for read (as per I2C protocol)
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// The address will vary depending on your wiring:
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// 00 <-> GND
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// 01 <-> SCL
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// 10 <-> SDA
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// 11 <-> VCC
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// ADDR1 represents A1:A0 of the 7-bit address.
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// ADDR2 represents A3:A2 of the 7-bit address.
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// The result is: 0b101(ADDR2)(ADDR1)
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#define ISSI_ADDR_DEFAULT 0x50
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#define ISSI_COMMANDREGISTER 0xFD
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#define ISSI_COMMANDREGISTER_WRITELOCK 0xFE
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#define ISSI_INTERRUPTMASKREGISTER 0xF0
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#define ISSI_INTERRUPTSTATUSREGISTER 0xF1
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#define ISSI_PAGE_LEDCONTROL 0x00 //PG0
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#define ISSI_PAGE_PWM 0x01 //PG1
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#define ISSI_PAGE_AUTOBREATH 0x02 //PG2
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#define ISSI_PAGE_FUNCTION 0x03 //PG3
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#define ISSI_REG_CONFIGURATION 0x00 //PG3
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#define ISSI_REG_GLOBALCURRENT 0x01 //PG3
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#define ISSI_REG_RESET 0x11// PG3
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#define ISSI_REG_SWPULLUP 0x0F //PG3
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#define ISSI_REG_CSPULLUP 0x10 //PG3
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#ifndef ISSI_TIMEOUT
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#define ISSI_TIMEOUT 100
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#endif
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#ifndef ISSI_PERSISTENCE
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#define ISSI_PERSISTENCE 0
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#endif
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// Transfer buffer for TWITransmitData()
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uint8_t g_twi_transfer_buffer[20];
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// These buffers match the IS31FL3733 PWM registers.
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// The control buffers match the PG0 LED On/Off registers.
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// Storing them like this is optimal for I2C transfers to the registers.
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// We could optimize this and take out the unused registers from these
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// buffers and the transfers in IS31FL3733_write_pwm_buffer() but it's
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// probably not worth the extra complexity.
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uint8_t g_pwm_buffer[DRIVER_COUNT][192];
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bool g_pwm_buffer_update_required = false;
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uint8_t g_led_control_registers[DRIVER_COUNT][24] = { { 0 }, { 0 } };
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bool g_led_control_registers_update_required = false;
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void IS31FL3733_write_register( uint8_t addr, uint8_t reg, uint8_t data )
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{
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g_twi_transfer_buffer[0] = reg;
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g_twi_transfer_buffer[1] = data;
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#if ISSI_PERSISTENCE > 0
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for (uint8_t i = 0; i < ISSI_PERSISTENCE; i++) {
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if (i2c_transmit(addr << 1, g_twi_transfer_buffer, 2, ISSI_TIMEOUT) == 0)
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break;
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}
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#else
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i2c_transmit(addr << 1, g_twi_transfer_buffer, 2, ISSI_TIMEOUT);
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#endif
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}
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void IS31FL3733_write_pwm_buffer( uint8_t addr, uint8_t *pwm_buffer )
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{
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// assumes PG1 is already selected
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// transmit PWM registers in 12 transfers of 16 bytes
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// g_twi_transfer_buffer[] is 20 bytes
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// iterate over the pwm_buffer contents at 16 byte intervals
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for ( int i = 0; i < 192; i += 16 ) {
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g_twi_transfer_buffer[0] = i;
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// copy the data from i to i+15
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// device will auto-increment register for data after the first byte
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// thus this sets registers 0x00-0x0F, 0x10-0x1F, etc. in one transfer
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for ( int j = 0; j < 16; j++ ) {
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g_twi_transfer_buffer[1 + j] = pwm_buffer[i + j];
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}
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#if ISSI_PERSISTENCE > 0
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for (uint8_t i = 0; i < ISSI_PERSISTENCE; i++) {
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if (i2c_transmit(addr << 1, g_twi_transfer_buffer, 17, ISSI_TIMEOUT) == 0)
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break;
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}
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#else
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i2c_transmit(addr << 1, g_twi_transfer_buffer, 17, ISSI_TIMEOUT);
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#endif
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}
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}
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void IS31FL3733_init( uint8_t addr )
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{
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// In order to avoid the LEDs being driven with garbage data
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// in the LED driver's PWM registers, shutdown is enabled last.
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// Set up the mode and other settings, clear the PWM registers,
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// then disable software shutdown.
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// Unlock the command register.
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IS31FL3733_write_register( addr, ISSI_COMMANDREGISTER_WRITELOCK, 0xC5 );
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// Select PG0
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IS31FL3733_write_register( addr, ISSI_COMMANDREGISTER, ISSI_PAGE_LEDCONTROL );
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// Turn off all LEDs.
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for ( int i = 0x00; i <= 0x17; i++ )
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{
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IS31FL3733_write_register( addr, i, 0x00 );
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}
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// Unlock the command register.
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IS31FL3733_write_register( addr, ISSI_COMMANDREGISTER_WRITELOCK, 0xC5 );
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// Select PG1
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IS31FL3733_write_register( addr, ISSI_COMMANDREGISTER, ISSI_PAGE_PWM );
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// Set PWM on all LEDs to 0
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// No need to setup Breath registers to PWM as that is the default.
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for ( int i = 0x00; i <= 0xBF; i++ )
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{
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IS31FL3733_write_register( addr, i, 0x00 );
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}
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// Unlock the command register.
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IS31FL3733_write_register( addr, ISSI_COMMANDREGISTER_WRITELOCK, 0xC5 );
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// Select PG3
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IS31FL3733_write_register( addr, ISSI_COMMANDREGISTER, ISSI_PAGE_FUNCTION );
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// Set global current to maximum.
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IS31FL3733_write_register( addr, ISSI_REG_GLOBALCURRENT, 0xFF );
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// Disable software shutdown.
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IS31FL3733_write_register( addr, ISSI_REG_CONFIGURATION, 0x01 );
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// Wait 10ms to ensure the device has woken up.
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#ifdef __AVR__
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_delay_ms( 10 );
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#else
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wait_ms(10);
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#endif
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}
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void IS31FL3733_set_color( int index, uint8_t red, uint8_t green, uint8_t blue )
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{
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if ( index >= 0 && index < DRIVER_LED_TOTAL ) {
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is31_led led = g_is31_leds[index];
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g_pwm_buffer[led.driver][led.r] = red;
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g_pwm_buffer[led.driver][led.g] = green;
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g_pwm_buffer[led.driver][led.b] = blue;
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g_pwm_buffer_update_required = true;
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}
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}
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void IS31FL3733_set_color_all( uint8_t red, uint8_t green, uint8_t blue )
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{
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for ( int i = 0; i < DRIVER_LED_TOTAL; i++ )
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{
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IS31FL3733_set_color( i, red, green, blue );
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}
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}
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void IS31FL3733_set_led_control_register( uint8_t index, bool red, bool green, bool blue )
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{
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is31_led led = g_is31_leds[index];
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uint8_t control_register_r = led.r / 8;
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uint8_t control_register_g = led.g / 8;
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uint8_t control_register_b = led.b / 8;
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uint8_t bit_r = led.r % 8;
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uint8_t bit_g = led.g % 8;
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uint8_t bit_b = led.b % 8;
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if ( red ) {
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g_led_control_registers[led.driver][control_register_r] |= (1 << bit_r);
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} else {
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g_led_control_registers[led.driver][control_register_r] &= ~(1 << bit_r);
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}
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if ( green ) {
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g_led_control_registers[led.driver][control_register_g] |= (1 << bit_g);
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} else {
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g_led_control_registers[led.driver][control_register_g] &= ~(1 << bit_g);
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}
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if ( blue ) {
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g_led_control_registers[led.driver][control_register_b] |= (1 << bit_b);
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} else {
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g_led_control_registers[led.driver][control_register_b] &= ~(1 << bit_b);
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}
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g_led_control_registers_update_required = true;
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}
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void IS31FL3733_update_pwm_buffers( uint8_t addr1, uint8_t addr2 )
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{
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if ( g_pwm_buffer_update_required )
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{
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// Firstly we need to unlock the command register and select PG1
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IS31FL3733_write_register( addr1, ISSI_COMMANDREGISTER_WRITELOCK, 0xC5 );
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IS31FL3733_write_register( addr1, ISSI_COMMANDREGISTER, ISSI_PAGE_PWM );
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IS31FL3733_write_pwm_buffer( addr1, g_pwm_buffer[0] );
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//IS31FL3733_write_pwm_buffer( addr2, g_pwm_buffer[1] );
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}
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g_pwm_buffer_update_required = false;
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}
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void IS31FL3733_update_led_control_registers( uint8_t addr1, uint8_t addr2 )
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{
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if ( g_led_control_registers_update_required )
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{
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// Firstly we need to unlock the command register and select PG0
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IS31FL3733_write_register( addr1, ISSI_COMMANDREGISTER_WRITELOCK, 0xC5 );
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IS31FL3733_write_register( addr1, ISSI_COMMANDREGISTER, ISSI_PAGE_LEDCONTROL );
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for ( int i=0; i<24; i++ )
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{
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IS31FL3733_write_register(addr1, i, g_led_control_registers[0][i] );
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//IS31FL3733_write_register(addr2, i, g_led_control_registers[1][i] );
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}
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}
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}
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