Use integer arithmetic for light sensor

build-number.txt

@@ -1 +1 @@
-333
+361

src/animation.c

@@ -276,12 +276,9 @@ LED_Colour_t Animation_GetColour(unsigned int step, unsigned int brightness)
 
     LED_Colour_t colour = Animation_ColourLUT[index];
 
-    colour.r = ((unsigned int)colour.r * brightness)
+    colour.r = ((unsigned int)colour.r * brightness) >> LIGHTSENSOR_BITS;
-        >> ANIMATION_BRIGHTNESS_BITS;
+    colour.g = ((unsigned int)colour.g * brightness) >> LIGHTSENSOR_BITS;
-    colour.g = ((unsigned int)colour.g * brightness)
+    colour.b = ((unsigned int)colour.b * brightness) >> LIGHTSENSOR_BITS;
-        >> ANIMATION_BRIGHTNESS_BITS;
-    colour.b = ((unsigned int)colour.b * brightness)
-        >> ANIMATION_BRIGHTNESS_BITS;
 
     return colour;
 }
@@ -305,7 +302,6 @@ void Animation_Poll(void)
         return;
     }
     LED_FrameFlag = false;
-    Animation_DrawGradient(60000, 50000,
+    Animation_DrawGradient(60000, 50000, LightSensor_RelativeBrightness);
-        ANIMATION_MAX_BRIGHTNESS * LightSensor_RelativeBrightness);
     LED_Commit();
 }

src/animation.h

@@ -3,10 +3,6 @@
 #include "led.h"
 
 #define ANIMATION_STEPS         65535
-#define ANIMATION_BRIGHTNESS_BITS \
-                                16
-#define ANIMATION_MAX_BRIGHTNESS \
-                                (1 << ANIMATION_BRIGHTNESS_BITS)
 
 extern const unsigned int Animation_LEDOrder[LED_COUNT];
 

src/light_sensor.c

@@ -4,13 +4,13 @@ volatile unsigned int LightSensor_Measurement;
 volatile bool LightSensor_NewMeasurement = false;
 
 // Rolling average of the brightness measurement
-float LightSensor_AbsoluteBrightness = 0.5f;
+unsigned int LightSensor_AbsoluteBrightness = LIGHTSENSOR_MAX / 2;
 
 // Maximum and minimum encountered so far
-float LightSensor_MinimumBrightness = 1.0f;
+unsigned int LightSensor_MinimumBrightness = LIGHTSENSOR_MAX;
-float LightSensor_MaximumBrightness = 0.0f;
+unsigned int LightSensor_MaximumBrightness = 0;
 
-float LightSensor_RelativeBrightness;
+int LightSensor_RelativeBrightness;
 
 static void LightSensor_Measure(void)
 {
@@ -66,35 +66,38 @@ void LightSensor_Poll(void)
     {
         unsigned int measurement = LightSensor_Measurement;
         LightSensor_NewMeasurement = false;
-        float brightness = 65535.0f / measurement;
+        unsigned int brightness = ((1 << 31)
-        LightSensor_AbsoluteBrightness = LIGHTSENSOR_LAMBDA * LightSensor_AbsoluteBrightness
+            / (measurement + 1)) >> (31 - 16);
-            + (1.0f - LIGHTSENSOR_LAMBDA) * brightness;
+        // LightSensor_AbsoluteBrightness = LIGHTSENSOR_LAMBDA * LightSensor_AbsoluteBrightness
+        //     + (1.0f - LIGHTSENSOR_LAMBDA) * brightness;
+        LightSensor_AbsoluteBrightness -= LightSensor_AbsoluteBrightness >> LIGHTSENSOR_LAMBDA_BITS;
+        LightSensor_AbsoluteBrightness += brightness >> LIGHTSENSOR_LAMBDA_BITS;
 
-        if(LightSensor_AbsoluteBrightness < LightSensor_MinimumBrightness)
+        if(brightness < LightSensor_MinimumBrightness)
         {
-            LightSensor_MinimumBrightness = LightSensor_AbsoluteBrightness;
+            LightSensor_MinimumBrightness = brightness;
         }
-        if(LightSensor_AbsoluteBrightness > LightSensor_MaximumBrightness)
+        if(brightness > LightSensor_MaximumBrightness)
         {
-            LightSensor_MaximumBrightness = LightSensor_AbsoluteBrightness;
+            LightSensor_MaximumBrightness = brightness;
         }
 
         // Scale and saturate to get relative brightness value
-        float range = LightSensor_MaximumBrightness
+        int range = LightSensor_MaximumBrightness
             - LightSensor_MinimumBrightness;
-        float low = LightSensor_MinimumBrightness
+        int low = LightSensor_MinimumBrightness
-            + range * LIGHTSENSOR_LOW_BOUND;
+            + LIGHTSENSOR_LOW_BOUND * range / LIGHTSENSOR_MAX;
-        float high = LightSensor_MinimumBrightness
+        int high = LightSensor_MinimumBrightness
-            + range * LIGHTSENSOR_HIGH_BOUND;
+            + LIGHTSENSOR_HIGH_BOUND * range / LIGHTSENSOR_MAX;
         LightSensor_RelativeBrightness = (LightSensor_AbsoluteBrightness - low)
-            / (high - low);
+            * LIGHTSENSOR_MAX / (high - low);
-        if(LightSensor_RelativeBrightness < 0.0f)
+        if(LightSensor_RelativeBrightness < 0)
         {
-            LightSensor_RelativeBrightness = 0.0f;
+            LightSensor_RelativeBrightness = 0;
         }
-        if(LightSensor_RelativeBrightness > 1.0f)
+        if(LightSensor_RelativeBrightness > LIGHTSENSOR_MAX)
         {
-            LightSensor_RelativeBrightness = 1.0f;
+            LightSensor_RelativeBrightness = LIGHTSENSOR_MAX;
         }
     }
 }

src/light_sensor.h

@@ -8,15 +8,19 @@
 // ADC polling interval in milliseconds
 #define LIGHTSENSOR_INTERVAL    250
 
+// Resolution of the brightness output
+#define LIGHTSENSOR_BITS        12
+#define LIGHTSENSOR_MAX         (1 << LIGHTSENSOR_BITS)
+
 // 'Forgetting factor' of the rolling brightness average
-#define LIGHTSENSOR_LAMBDA      0.9f
+#define LIGHTSENSOR_LAMBDA_BITS 4
 
 // Bounds for converting absolute to relative brightness: Consider everything
 // near the minimum or maximum 0.0 or 1.0, respectively
-#define LIGHTSENSOR_LOW_BOUND   0.005f
+#define LIGHTSENSOR_LOW_BOUND   ((unsigned int)(0.005 * LIGHTSENSOR_MAX))
-#define LIGHTSENSOR_HIGH_BOUND  0.9f
+#define LIGHTSENSOR_HIGH_BOUND  ((unsigned int)(0.9 * LIGHTSENSOR_MAX))
 
-extern float LightSensor_RelativeBrightness;
+extern int LightSensor_RelativeBrightness;
 
 void LightSensor_Init(void);
 void LightSensor_Poll(void);