精致睡眠

2024-09-23 18:48:20 +02:00 · 2017-11-24 15:17:11 -05:00 · 2017-11-24 15:17:11 -05:00 · 05196e2cbc
commit 05196e2cbc
parent 0cd6127249
1 changed files with 42 additions and 43 deletions
--- a/sanro/sanro.ino
+++ b/sanro/sanro.ino
@ -14,51 +14,53 @@
 #define CHANNELS 2
-#define SAMPLE_CACHE_LENGTH 12
+#define SAMPLE_CACHE_LENGTH 5
 #define POWER_CACHE_LENGTH 3
-#define LIGHT_THRES 8000
+#define DON_SILENCE_THRES 5e3
-#define HEAVY_THRES 20000
+#define DON_LIGHT_THRES   5e4
 #define DON_HEAVY_THRES   1e5
-#define FORCED_FREQ 1000
+#define KAT_SILENCE_THRES 2e3
 #define KAT_LIGHT_THRES   5e3
 #define KAT_HEAVY_THRES   1e4
 //#define FORCED_PERIOD 700
 #include "cache.h"
-unsigned long int lastTime;
+unsigned long lastTime;
-float channelSample [CHANNELS];
+float channelSample[CHANNELS];
-float lastChannelSample [CHANNELS];
+Cache <float, SAMPLE_CACHE_LENGTH> sampleCache[CHANNELS];
-Cache <float, SAMPLE_CACHE_LENGTH> sampleCache [CHANNELS];
+float power[CHANNELS];
 float power [CHANNELS];
 Cache <float, POWER_CACHE_LENGTH> powerCache [CHANNELS];
 bool triggered [CHANNELS];
 float light_thres[] = {DON_LIGHT_THRES, KAT_LIGHT_THRES};
 float heavy_thres[] = {DON_HEAVY_THRES, KAT_HEAVY_THRES};
 float silence_thres[] = {DON_SILENCE_THRES, KAT_SILENCE_THRES};
 int input_pins[] = {A0, A1}; // Don, Kat
 int output_pins[] = {A2, A3, A4, A5}; // Left Don, Left Kat, Right Don, Right Kat
 String debug_output[] = {"DON", "KAT"};
 void setup() {
  pinMode(A0, INPUT);
  pinMode(A1, INPUT);
  pinMode(A2, OUTPUT);
  pinMode(A3, OUTPUT);
  pinMode(A4, OUTPUT);
  pinMode(A5, OUTPUT);
-  Serial.begin (9600);
+  Serial.begin (115200);
-  analogReference (INTERNAL);
+//  analogReference (INTERNAL);
  for (short int i = 0; i < CHANNELS; i++) {
    power [i] = 0;
    lastChannelSample [i] = 0;
    triggered [i] = false;
  }
  lastTime = 0;
 }
 void loop() {
-  
+  lastTime = micros ();
  for (short int i = 0; i < CHANNELS; i++) {
    channelSample[i] = analogRead(input_pins[i]);
    sampleCache[i].put(channelSample [i]);
@ -68,36 +70,33 @@ void loop() {
    tempInt = sampleCache[i].get();
    power[i] += tempInt * tempInt;
-    powerCache[i].put(power[i]);
+    if (power[i] < silence_thres[i]) {
    lastChannelSample[i] = channelSample[i];
    if (powerCache[i].get(1) < LIGHT_THRES) {
      triggered[i] = false;
      digitalWrite(output_pins[i], HIGH);
      digitalWrite(output_pins[i] + 2, HIGH);
      digitalWrite(LED_BUILTIN, LOW);
-    }
+      triggered[i] = false;
-
+    } else if (power[i] > light_thres[i]) {
      if (!triggered [i]) {
      for (short int j = 0; j < POWER_CACHE_LENGTH - 1; j++) {
        if (powerCache [i].get (j - 1) >= powerCache [i].get (j)) {
          break;
        } else if (powerCache [i].get (1) >= HEAVY_THRES) {
          triggered [i] = true;
        digitalWrite(output_pins[i], LOW);
        if (power[i] >= heavy_thres[i]) {
          digitalWrite(output_pins[i] + 2, LOW);
        }
        digitalWrite(LED_BUILTIN, HIGH);
-        } else if (powerCache [i].get (1) >= LIGHT_THRES) {
+//        Serial.println(debug_output[i]);
-          triggered [i] = true;
+      }
-          digitalWrite(output_pins[i], LOW);
+      triggered[i] = true;
-          digitalWrite(LED_BUILTIN, HIGH);
+      if (i == 0) {
        triggered[1] = true;
        break;
      }
    }
  }
-
+  Serial.print(power[0]);
-    unsigned int frameTime = micros () - lastTime;
+  Serial.print("\t");
-    lastTime = micros ();
+  Serial.println(power[1]);
-    if (frameTime < FORCED_FREQ) {
+}
-      delayMicroseconds (FORCED_FREQ - frameTime);
+
-    }
+void longMicroDelay (float microTime) {
-  }
+  delay (microTime / 1000);
  delayMicroseconds (microTime - floor(microTime / 1000) * 1000);
 }