548 lines
18 KiB
C
548 lines
18 KiB
C
/*
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The MIT License (MIT)
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Copyright (c) 2016 Fred Sundvik
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files (the "Software"), to deal
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in the Software without restriction, including without limitation the rights
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to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in all
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copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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SOFTWARE.
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*/
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#include "visualizer.h"
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#include "config.h"
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#include <string.h>
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#ifdef PROTOCOL_CHIBIOS
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#include "ch.h"
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#endif
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#include "gfx.h"
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#ifdef LCD_BACKLIGHT_ENABLE
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#include "lcd_backlight.h"
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#endif
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//#define DEBUG_VISUALIZER
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#ifdef DEBUG_VISUALIZER
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#include "debug.h"
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#else
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#include "nodebug.h"
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#endif
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#ifdef USE_SERIAL_LINK
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#include "serial_link/protocol/transport.h"
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#include "serial_link/system/serial_link.h"
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#endif
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// Define this in config.h
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#ifndef VISUALIZER_THREAD_PRIORITY
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#define "Visualizer thread priority not defined"
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#endif
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static visualizer_keyboard_status_t current_status = {
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.layer = 0xFFFFFFFF,
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.default_layer = 0xFFFFFFFF,
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.leds = 0xFFFFFFFF,
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.suspended = false,
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};
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static bool same_status(visualizer_keyboard_status_t* status1, visualizer_keyboard_status_t* status2) {
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return status1->layer == status2->layer &&
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status1->default_layer == status2->default_layer &&
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status1->leds == status2->leds &&
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status1->suspended == status2->suspended;
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}
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static bool visualizer_enabled = false;
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#define MAX_SIMULTANEOUS_ANIMATIONS 4
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static keyframe_animation_t* animations[MAX_SIMULTANEOUS_ANIMATIONS] = {};
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#ifdef USE_SERIAL_LINK
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MASTER_TO_ALL_SLAVES_OBJECT(current_status, visualizer_keyboard_status_t);
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static remote_object_t* remote_objects[] = {
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REMOTE_OBJECT(current_status),
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};
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#endif
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GDisplay* LCD_DISPLAY = 0;
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GDisplay* LED_DISPLAY = 0;
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__attribute__((weak))
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GDisplay* get_lcd_display(void) {
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return gdispGetDisplay(0);
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}
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__attribute__((weak))
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GDisplay* get_led_display(void) {
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return gdispGetDisplay(1);
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}
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void start_keyframe_animation(keyframe_animation_t* animation) {
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animation->current_frame = -1;
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animation->time_left_in_frame = 0;
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animation->need_update = true;
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int free_index = -1;
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for (int i=0;i<MAX_SIMULTANEOUS_ANIMATIONS;i++) {
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if (animations[i] == animation) {
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return;
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}
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if (free_index == -1 && animations[i] == NULL) {
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free_index=i;
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}
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}
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if (free_index!=-1) {
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animations[free_index] = animation;
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}
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}
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void stop_keyframe_animation(keyframe_animation_t* animation) {
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animation->current_frame = animation->num_frames;
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animation->time_left_in_frame = 0;
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animation->need_update = true;
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animation->first_update_of_frame = false;
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animation->last_update_of_frame = false;
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for (int i=0;i<MAX_SIMULTANEOUS_ANIMATIONS;i++) {
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if (animations[i] == animation) {
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animations[i] = NULL;
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return;
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}
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}
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}
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void stop_all_keyframe_animations(void) {
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for (int i=0;i<MAX_SIMULTANEOUS_ANIMATIONS;i++) {
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if (animations[i]) {
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animations[i]->current_frame = animations[i]->num_frames;
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animations[i]->time_left_in_frame = 0;
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animations[i]->need_update = true;
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animations[i]->first_update_of_frame = false;
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animations[i]->last_update_of_frame = false;
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animations[i] = NULL;
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}
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}
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}
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static bool update_keyframe_animation(keyframe_animation_t* animation, visualizer_state_t* state, systemticks_t delta, systemticks_t* sleep_time) {
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// TODO: Clean up this messy code
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dprintf("Animation frame%d, left %d, delta %d\n", animation->current_frame,
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animation->time_left_in_frame, delta);
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if (animation->current_frame == animation->num_frames) {
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animation->need_update = false;
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return false;
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}
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if (animation->current_frame == -1) {
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animation->current_frame = 0;
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animation->time_left_in_frame = animation->frame_lengths[0];
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animation->need_update = true;
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animation->first_update_of_frame = true;
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} else {
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animation->time_left_in_frame -= delta;
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while (animation->time_left_in_frame <= 0) {
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int left = animation->time_left_in_frame;
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if (animation->need_update) {
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animation->time_left_in_frame = 0;
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animation->last_update_of_frame = true;
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(*animation->frame_functions[animation->current_frame])(animation, state);
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animation->last_update_of_frame = false;
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}
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animation->current_frame++;
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animation->need_update = true;
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animation->first_update_of_frame = true;
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if (animation->current_frame == animation->num_frames) {
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if (animation->loop) {
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animation->current_frame = 0;
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}
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else {
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stop_keyframe_animation(animation);
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return false;
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}
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}
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delta = -left;
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animation->time_left_in_frame = animation->frame_lengths[animation->current_frame];
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animation->time_left_in_frame -= delta;
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}
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}
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if (animation->need_update) {
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animation->need_update = (*animation->frame_functions[animation->current_frame])(animation, state);
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animation->first_update_of_frame = false;
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}
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systemticks_t wanted_sleep = animation->need_update ? gfxMillisecondsToTicks(10) : (unsigned)animation->time_left_in_frame;
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if (wanted_sleep < *sleep_time) {
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*sleep_time = wanted_sleep;
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}
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return true;
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}
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void run_next_keyframe(keyframe_animation_t* animation, visualizer_state_t* state) {
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int next_frame = animation->current_frame + 1;
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if (next_frame == animation->num_frames) {
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next_frame = 0;
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}
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keyframe_animation_t temp_animation = *animation;
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temp_animation.current_frame = next_frame;
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temp_animation.time_left_in_frame = animation->frame_lengths[next_frame];
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temp_animation.first_update_of_frame = true;
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temp_animation.last_update_of_frame = false;
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temp_animation.need_update = false;
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visualizer_state_t temp_state = *state;
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(*temp_animation.frame_functions[next_frame])(&temp_animation, &temp_state);
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}
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bool keyframe_no_operation(keyframe_animation_t* animation, visualizer_state_t* state) {
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(void)animation;
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(void)state;
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return false;
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}
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#ifdef LCD_BACKLIGHT_ENABLE
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bool keyframe_animate_backlight_color(keyframe_animation_t* animation, visualizer_state_t* state) {
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int frame_length = animation->frame_lengths[animation->current_frame];
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int current_pos = frame_length - animation->time_left_in_frame;
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uint8_t t_h = LCD_HUE(state->target_lcd_color);
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uint8_t t_s = LCD_SAT(state->target_lcd_color);
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uint8_t t_i = LCD_INT(state->target_lcd_color);
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uint8_t p_h = LCD_HUE(state->prev_lcd_color);
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uint8_t p_s = LCD_SAT(state->prev_lcd_color);
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uint8_t p_i = LCD_INT(state->prev_lcd_color);
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uint8_t d_h1 = t_h - p_h; //Modulo arithmetic since we want to wrap around
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int d_h2 = t_h - p_h;
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// Chose the shortest way around
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int d_h = abs(d_h2) < d_h1 ? d_h2 : d_h1;
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int d_s = t_s - p_s;
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int d_i = t_i - p_i;
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int hue = (d_h * current_pos) / frame_length;
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int sat = (d_s * current_pos) / frame_length;
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int intensity = (d_i * current_pos) / frame_length;
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//dprintf("%X -> %X = %X\n", p_h, t_h, hue);
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hue += p_h;
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sat += p_s;
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intensity += p_i;
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state->current_lcd_color = LCD_COLOR(hue, sat, intensity);
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lcd_backlight_color(
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LCD_HUE(state->current_lcd_color),
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LCD_SAT(state->current_lcd_color),
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LCD_INT(state->current_lcd_color));
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return true;
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}
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bool keyframe_set_backlight_color(keyframe_animation_t* animation, visualizer_state_t* state) {
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(void)animation;
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state->prev_lcd_color = state->target_lcd_color;
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state->current_lcd_color = state->target_lcd_color;
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lcd_backlight_color(
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LCD_HUE(state->current_lcd_color),
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LCD_SAT(state->current_lcd_color),
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LCD_INT(state->current_lcd_color));
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return false;
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}
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#endif // LCD_BACKLIGHT_ENABLE
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#ifdef LCD_ENABLE
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bool keyframe_display_layer_text(keyframe_animation_t* animation, visualizer_state_t* state) {
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(void)animation;
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gdispClear(White);
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gdispDrawString(0, 10, state->layer_text, state->font_dejavusansbold12, Black);
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gdispFlush();
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return false;
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}
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static void format_layer_bitmap_string(uint16_t default_layer, uint16_t layer, char* buffer) {
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for (int i=0; i<16;i++)
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{
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uint32_t mask = (1u << i);
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if (default_layer & mask) {
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if (layer & mask) {
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*buffer = 'B';
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} else {
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*buffer = 'D';
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}
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} else if (layer & mask) {
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*buffer = '1';
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} else {
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*buffer = '0';
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}
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++buffer;
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if (i==3 || i==7 || i==11) {
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*buffer = ' ';
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++buffer;
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}
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}
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*buffer = 0;
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}
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bool keyframe_display_layer_bitmap(keyframe_animation_t* animation, visualizer_state_t* state) {
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(void)animation;
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const char* layer_help = "1=On D=Default B=Both";
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char layer_buffer[16 + 4]; // 3 spaces and one null terminator
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gdispClear(White);
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gdispDrawString(0, 0, layer_help, state->font_fixed5x8, Black);
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format_layer_bitmap_string(state->status.default_layer, state->status.layer, layer_buffer);
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gdispDrawString(0, 10, layer_buffer, state->font_fixed5x8, Black);
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format_layer_bitmap_string(state->status.default_layer >> 16, state->status.layer >> 16, layer_buffer);
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gdispDrawString(0, 20, layer_buffer, state->font_fixed5x8, Black);
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gdispFlush();
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return false;
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}
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#endif // LCD_ENABLE
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bool keyframe_disable_lcd_and_backlight(keyframe_animation_t* animation, visualizer_state_t* state) {
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(void)animation;
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(void)state;
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#ifdef LCD_ENABLE
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gdispSetPowerMode(powerOff);
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#endif
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#ifdef LCD_BACKLIGHT_ENABLE
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lcd_backlight_hal_color(0, 0, 0);
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#endif
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return false;
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}
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bool keyframe_enable_lcd_and_backlight(keyframe_animation_t* animation, visualizer_state_t* state) {
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(void)animation;
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(void)state;
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#ifdef LCD_ENABLE
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gdispSetPowerMode(powerOn);
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#endif
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return false;
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}
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bool enable_visualization(keyframe_animation_t* animation, visualizer_state_t* state) {
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(void)animation;
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(void)state;
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dprint("User visualizer inited\n");
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visualizer_enabled = true;
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return false;
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}
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// TODO: Optimize the stack size, this is probably way too big
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static DECLARE_THREAD_STACK(visualizerThreadStack, 1024);
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static DECLARE_THREAD_FUNCTION(visualizerThread, arg) {
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(void)arg;
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GListener event_listener;
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geventListenerInit(&event_listener);
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geventAttachSource(&event_listener, (GSourceHandle)¤t_status, 0);
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visualizer_keyboard_status_t initial_status = {
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.default_layer = 0xFFFFFFFF,
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.layer = 0xFFFFFFFF,
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.leds = 0xFFFFFFFF,
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.suspended = false,
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};
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visualizer_state_t state = {
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.status = initial_status,
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.current_lcd_color = 0,
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#ifdef LCD_ENABLE
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.font_fixed5x8 = gdispOpenFont("fixed_5x8"),
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.font_dejavusansbold12 = gdispOpenFont("DejaVuSansBold12")
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#endif
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};
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initialize_user_visualizer(&state);
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state.prev_lcd_color = state.current_lcd_color;
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#ifdef LCD_BACKLIGHT_ENABLE
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lcd_backlight_color(
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LCD_HUE(state.current_lcd_color),
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LCD_SAT(state.current_lcd_color),
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LCD_INT(state.current_lcd_color));
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#endif
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systemticks_t sleep_time = TIME_INFINITE;
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systemticks_t current_time = gfxSystemTicks();
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while(true) {
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systemticks_t new_time = gfxSystemTicks();
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systemticks_t delta = new_time - current_time;
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current_time = new_time;
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bool enabled = visualizer_enabled;
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if (!same_status(&state.status, ¤t_status)) {
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if (visualizer_enabled) {
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if (current_status.suspended) {
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stop_all_keyframe_animations();
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visualizer_enabled = false;
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state.status = current_status;
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user_visualizer_suspend(&state);
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}
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else {
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state.status = current_status;
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update_user_visualizer_state(&state);
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}
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state.prev_lcd_color = state.current_lcd_color;
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}
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}
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if (!enabled && state.status.suspended && current_status.suspended == false) {
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// Setting the status to the initial status will force an update
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// when the visualizer is enabled again
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state.status = initial_status;
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state.status.suspended = false;
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stop_all_keyframe_animations();
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user_visualizer_resume(&state);
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state.prev_lcd_color = state.current_lcd_color;
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}
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sleep_time = TIME_INFINITE;
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for (int i=0;i<MAX_SIMULTANEOUS_ANIMATIONS;i++) {
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if (animations[i]) {
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update_keyframe_animation(animations[i], &state, delta, &sleep_time);
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}
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}
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#ifdef LED_ENABLE
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gdispGFlush(LED_DISPLAY);
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#endif
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#ifdef EMULATOR
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draw_emulator();
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#endif
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// The animation can enable the visualizer
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// And we might need to update the state when that happens
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// so don't sleep
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if (enabled != visualizer_enabled) {
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sleep_time = 0;
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}
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systemticks_t after_update = gfxSystemTicks();
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unsigned update_delta = after_update - current_time;
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if (sleep_time != TIME_INFINITE) {
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if (sleep_time > update_delta) {
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sleep_time -= update_delta;
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}
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else {
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sleep_time = 0;
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}
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}
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dprintf("Update took %d, last delta %d, sleep_time %d\n", update_delta, delta, sleep_time);
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#ifdef PROTOCOL_CHIBIOS
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// The gEventWait function really takes milliseconds, even if the documentation says ticks.
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// Unfortunately there's no generic ugfx conversion from system time to milliseconds,
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// so let's do it in a platform dependent way.
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// On windows the system ticks is the same as milliseconds anyway
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if (sleep_time != TIME_INFINITE) {
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sleep_time = ST2MS(sleep_time);
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}
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#endif
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geventEventWait(&event_listener, sleep_time);
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}
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#ifdef LCD_ENABLE
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gdispCloseFont(state.font_fixed5x8);
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gdispCloseFont(state.font_dejavusansbold12);
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#endif
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return 0;
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}
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void visualizer_init(void) {
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#ifdef LCD_ENABLE
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gfxInit();
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#endif
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#ifdef LCD_BACKLIGHT_ENABLE
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lcd_backlight_init();
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#endif
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#ifdef USE_SERIAL_LINK
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add_remote_objects(remote_objects, sizeof(remote_objects) / sizeof(remote_object_t*) );
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#endif
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#ifdef LCD_ENABLE
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LCD_DISPLAY = get_lcd_display();
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#endif
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#ifdef LED_ENABLE
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LED_DISPLAY = get_led_display();
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#endif
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// We are using a low priority thread, the idea is to have it run only
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// when the main thread is sleeping during the matrix scanning
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gfxThreadCreate(visualizerThreadStack, sizeof(visualizerThreadStack),
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VISUALIZER_THREAD_PRIORITY, visualizerThread, NULL);
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}
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void update_status(bool changed) {
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if (changed) {
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GSourceListener* listener = geventGetSourceListener((GSourceHandle)¤t_status, NULL);
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if (listener) {
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geventSendEvent(listener);
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}
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}
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#ifdef USE_SERIAL_LINK
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static systime_t last_update = 0;
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systime_t current_update = chVTGetSystemTimeX();
|
|
systime_t delta = current_update - last_update;
|
|
if (changed || delta > MS2ST(10)) {
|
|
last_update = current_update;
|
|
visualizer_keyboard_status_t* r = begin_write_current_status();
|
|
*r = current_status;
|
|
end_write_current_status();
|
|
}
|
|
#endif
|
|
}
|
|
|
|
void visualizer_update(uint32_t default_state, uint32_t state, uint32_t leds) {
|
|
// Note that there's a small race condition here, the thread could read
|
|
// a state where one of these are set but not the other. But this should
|
|
// not really matter as it will be fixed during the next loop step.
|
|
// Alternatively a mutex could be used instead of the volatile variables
|
|
|
|
bool changed = false;
|
|
#ifdef USE_SERIAL_LINK
|
|
if (is_serial_link_connected ()) {
|
|
visualizer_keyboard_status_t* new_status = read_current_status();
|
|
if (new_status) {
|
|
if (!same_status(¤t_status, new_status)) {
|
|
changed = true;
|
|
current_status = *new_status;
|
|
}
|
|
}
|
|
}
|
|
else {
|
|
#else
|
|
{
|
|
#endif
|
|
visualizer_keyboard_status_t new_status = {
|
|
.layer = state,
|
|
.default_layer = default_state,
|
|
.leds = leds,
|
|
.suspended = current_status.suspended,
|
|
};
|
|
if (!same_status(¤t_status, &new_status)) {
|
|
changed = true;
|
|
current_status = new_status;
|
|
}
|
|
}
|
|
update_status(changed);
|
|
}
|
|
|
|
void visualizer_suspend(void) {
|
|
current_status.suspended = true;
|
|
update_status(true);
|
|
}
|
|
|
|
void visualizer_resume(void) {
|
|
current_status.suspended = false;
|
|
update_status(true);
|
|
}
|