clean leds

bikewheel.html

@@ -39,7 +39,7 @@
         let canvas_out_elem = document.getElementById("canvas_out");
         let canvas_out2_elem = document.getElementById("canvas_out2");
 
-
+        // helper for printing number as hex value
         let intToHex = function (color, int16) {
             let text = color.toString(16);
 
@@ -64,8 +64,8 @@
                     let canvas_context = canvas_elem.getContext("2d");
                     canvas_context.drawImage(image, 0, 0);
 
-                    const num_segments = num_segments_elem.value;
-                    const num_leds = num_leds_elem.value;
+                    const num_segments = parseInt(num_segments_elem.value);
+                    const num_leds = parseInt(num_leds_elem.value);
                     const led_offset = Math.floor(led_offset_elem.value);
 
                     const offset_x = image.width / 2;
@@ -76,7 +76,7 @@
                     let canvas_out_context = canvas_out_elem.getContext("2d");
                     canvas_out_elem.width = image.width;
                     canvas_out_elem.height = image.height;
-                    let out_data = canvas_out_context.createImageData(image.width, image.height);
+                    let out_data = canvas_out_context.createImageData(canvas_out_elem.width, canvas_out_elem.height);
 
 
                     let canvas_out2_context = canvas_out2_elem.getContext("2d");
@@ -88,17 +88,16 @@
 
                     for (let led = 0; led < num_leds; led++) {
                         for (let seg = 0; seg < num_segments; seg++) {
-                            let x = offset_x + (led_offset + led) * Math.cos((seg * (1 / num_segments) * 360) * (Math.PI / 180));
-                            let y = offset_y + (led_offset + led) * Math.sin((seg * (1 / num_segments) * 360) * (Math.PI / 180));
+                            let x = Math.floor(offset_x + (led_offset + led) * Math.cos((seg * (1 / num_segments) * 360) * (Math.PI / 180)));
+                            let y = Math.floor(offset_y + (led_offset + led) * Math.sin((seg * (1 / num_segments) * 360) * (Math.PI / 180)));
                             if (!data[seg]) {
                                 data[seg] = new Array();
                             }
-                            //  data[seg][led] =  Math.floor(x) + ":" + Math.floor(y);
-                            data[seg][led] = canvas_context.getImageData(Math.floor(x), Math.floor(y), 1, 1).data;
+                            data[seg][led] = canvas_context.getImageData(x, y, 1, 1).data;
                             for (let i = 0; i < 3; i++) {
                                 data[seg][led][i] = data[seg][led][i] - (data[seg][led][i] % 32);
                             }
-                            let index = 4 * (Math.floor(x) + Math.floor(y) * image.width);
+                            let index = 4 * (x + y * canvas_out_elem.width);
                             out_data.data[index] = data[seg][led][0];
                             out_data.data[index + 1] = data[seg][led][1];
                             out_data.data[index + 2] = data[seg][led][2];

led_bikewheel.ino

@@ -1,7 +1,7 @@
 // Copyright 2020 Lukas Haubaum
 //
 // Licensed under MIT license
-// 
+//
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
@@ -31,8 +31,8 @@
 #define LED_COUNT 26     // how many LEDs on one stripe
 #define LED_STRIPES 2    // how many LEDs stripes on wheel
 
-int strip_matrix_offset[LED_STRIPES] = {0, 0}; // given offset in segments for stripe
-bool strip_matrix_invert[LED_STRIPES] = {false, true};                    // set LEDs in revert order for stripe
+int strip_matrix_offset[LED_STRIPES] = {0, 0};         // given offset in segments for stripe
+bool strip_matrix_invert[LED_STRIPES] = {false, true}; // set LEDs in revert order for stripe
 // \CONFIGURE
 
 // LED stripes
@@ -44,8 +44,8 @@ Adafruit_NeoPixel ledStrip(LED_COUNT *LED_STRIPES, LED_PIN, NEO_GRB + NEO_KHZ800
 #define LED_DATA_PIN 3  // data pin for LED strip
 #define LED_CLOCK_PIN 2 // clock pin for LED strip
 APA102<LED_DATA_PIN, LED_CLOCK_PIN> ledStrip;
-#define BRIGHTNESS 1     // brightness for LED strip [0-31]
-rgb_color color_buffer[LED_COUNT * LED_STRIPES];                     // color buffer to write to LED stripe
+#define BRIGHTNESS 1    // brightness for LED strip [0-31]
+rgb_color color_buffer[LED_COUNT * LED_STRIPES]; // color buffer to write to LED stripe
 #endif
 
 float passed = 0;
@@ -67,6 +67,12 @@ void setup()
   ledStrip.begin();
   ledStrip.show();
   ledStrip.setBrightness(BRIGHTNESS);
+#else
+  for (int i = 0; i < LED_COUNT * 4; i++)        // loop over all LEDs
+  {
+    color_buffer[i] = rgb_color(0, 0, 0); // set to black
+  }
+  ledStrip.write(color_buffer, LED_COUNT * LED_STRIPES, 0);          // write buffer to stripes
 #endif
 }