fusion-zauberstab/firmware/temp/vumeter.cpp

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#include "pt1.h"
#include "zauberstab.h"
unsigned long last_sample_time;
static int sample_counter = 0;
unsigned int top_led_pos = 0;
float rms_avg = 0;
float vu_filt = 0.0f;
float vu_filt_slow = 0.0f;
float dt;
Pt1<float> vu_pt1_fast{1.f, 1.f};
Pt1<float> vu_pt1_slow{1.f, 0.05f};
void setup()
{
zauberstab_init();
Serial.begin(115200);
FastLED.setBrightness(100);
}
void loop()
{
if (micros() - last_sample_time >= 500)
{
last_sample_time = micros();
int32_t sample = get_sample();
float in = sample * sample;
sample_counter++;
rms_avg += (in - rms_avg) / (sample_counter + 1);
}
EVERY_N_MILLIS(10)
{
float vu = 20 * log10f(rms_avg);
vu_filt = vu_pt1_fast.update(vu, 0.01f);
vu_filt_slow = vu_pt1_slow.update(vu_filt, 0.01f);
// Serial.println(vu);
int max_led = vu_filt;
int top_led = vu_filt_slow;
max_led = max_led > 0xFF ? 0xFF : max_led;
if (top_led < max_led)
{
vu_pt1_slow.y_n1 = vu_filt;
top_led = max_led;
}
fill_solid(leds, NUM_LEDS, CRGB::Black);
for (int i = 0; i < max_led; i++)
{
int idx = map(i, 0, NUM_LEDS, 0, 0xFF);
leds[i] = ColorFromPalette(RainbowColors_p, idx);
}
leds[top_led] = CRGB::White;
FastLED.show();
rms_avg = 0.0f;
sample_counter = 0;
}
}