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@ -4,6 +4,11 @@
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static LEDRainbowEffect testRainbowEffect;
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static LEDRainbowEffect testRainbowEffect;
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cRGB red;
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cRGB blue;
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#define LED_TEST_DELAY 2000
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TestMode_::TestMode_(void) {
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TestMode_::TestMode_(void) {
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}
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}
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@ -11,40 +16,39 @@ void TestMode_::TestLEDs(void) {
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// make all LEDs dim red
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// make all LEDs dim red
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LEDControl.set_all_leds_to(50,0,0);
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LEDControl.set_all_leds_to(50,0,0);
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led_sync();
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led_sync();
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delay(1000);
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delay(LED_TEST_DELAY);
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// make all LEDs dim blue
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// make all LEDs dim blue
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LEDControl.set_all_leds_to(0,50,0);
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LEDControl.set_all_leds_to(0,50,0);
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led_sync();
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led_sync();
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delay(1000);
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delay(LED_TEST_DELAY);
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// make all LEDs dim green
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// make all LEDs dim green
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LEDControl.set_all_leds_to(0,0,50);
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LEDControl.set_all_leds_to(0,0,50);
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led_sync();
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led_sync();
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delay(1000);
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delay(LED_TEST_DELAY);
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// make all LEDs dim white
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// make all LEDs dim white
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LEDControl.set_all_leds_to(50,50,50);
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LEDControl.set_all_leds_to(50,50,50);
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led_sync();
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led_sync();
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delay(1000);
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delay(LED_TEST_DELAY);
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// make all the LEDs bright red
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// make all the LEDs bright red
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LEDControl.set_all_leds_to(200,0,0);
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LEDControl.set_all_leds_to(200,0,0);
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led_sync();
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led_sync();
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delay(1000);
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delay(LED_TEST_DELAY);
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// make all the LEDs bright green
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// make all the LEDs bright green
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LEDControl.set_all_leds_to(0,200,0);
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LEDControl.set_all_leds_to(0,200,0);
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led_sync();
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led_sync();
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delay(1000);
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delay(LED_TEST_DELAY);
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// make all the LEDs bright blue
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// make all the LEDs bright blue
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LEDControl.set_all_leds_to(0,0,200);
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LEDControl.set_all_leds_to(0,0,200);
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led_sync();
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led_sync();
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delay(1000);
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delay(LED_TEST_DELAY);
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// make all the LEDs bright white (1.6A)
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// make all the LEDs bright white (1.6A)
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LEDControl.set_all_leds_to(160,160,160);
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LEDControl.set_all_leds_to(160,160,160);
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led_sync();
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led_sync();
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delay(1000);
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delay(LED_TEST_DELAY);
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// rainbow for 10 seconds
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// rainbow for 10 seconds
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for(auto i=0; i<10000; i++ ) {
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for(auto i=0; i<1000; i++ ) {
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testRainbowEffect.update();
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testRainbowEffect.update();
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led_sync();
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led_sync();
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delay(1);
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}
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}
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// set all the keys to red
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// set all the keys to red
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LEDControl.set_all_leds_to(50,0,0);
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LEDControl.set_all_leds_to(50,0,0);
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@ -56,14 +60,57 @@ void TestMode_::TestLEDs(void) {
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void TestMode_::TestMatrix () {
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void TestMode_::TestMatrix () {
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while(1) {
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KeyboardHardware.read_matrix();
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KeyboardHardware.read_matrix();
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for (byte row = 0; row < 4; row++) {
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for (byte col = 0; col < 8; col++) {
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uint8_t keynum = (row*8)+(col);
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uint8_t keyState = (bitRead(KeyboardHardware.previousLeftHandState.all, keynum) << 0) |
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(bitRead(KeyboardHardware.leftHandState.all, keynum) << 1);
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if(keyState ==3 ) {
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Serial.print(" Key: ");
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Serial.print(keynum);
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Serial.print(" value ");
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Serial.println(keyState);
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KeyboardHardware.led_set_crgb_at(row, 7-col, red);
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} else if (keyState ==1) {
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KeyboardHardware.led_set_crgb_at(row,7-col, blue);
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}
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keyState = (bitRead(KeyboardHardware.previousRightHandState.all, keynum) << 0) |
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(bitRead(KeyboardHardware.rightHandState.all, keynum) << 1);
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if(keyState ==3 ) {
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Serial.print(" Key: ");
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Serial.print(keynum);
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Serial.print(" value ");
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Serial.println(keyState);
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KeyboardHardware.led_set_crgb_at(row, 15-col, red);
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} else if (keyState ==1) {
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KeyboardHardware.led_set_crgb_at(row,15-col, blue);
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}
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}
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}
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KeyboardHardware.led_sync();
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}
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}
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}
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void TestMode_::setup() {
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void TestMode_::setup() {
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red.r=101;
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blue.b=101;
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// TestLEDs();
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eventHandlers[0] = handle_key_event_test;
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eventHandlers[0] = handle_key_event_test;
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}
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}
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void TestMode_::loop() {
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TestMatrix();
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}
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bool handle_key_event_test(Key mappedKey, byte row, byte col, uint8_t keyState) {
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bool handle_key_event_test(Key mappedKey, byte row, byte col, uint8_t keyState) {
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Serial.write(row);
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Serial.write(row);
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return false;
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return false;
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