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@ -89,7 +89,7 @@ void TestMode_::testMatrix() {
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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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// Clear out the key event buffer so we don't get messed up information from
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// Clear out the key event buffer so we don't get messed up information from
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// taps during LED test mode.
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// taps during LED test mode.
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for(auto temp =0; temp<16; temp++) {
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for (auto temp = 0; temp < 16; temp++) {
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KeyboardHardware.readMatrix();
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KeyboardHardware.readMatrix();
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}
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}
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while (1) {
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while (1) {
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@ -102,17 +102,17 @@ void TestMode_::testMatrix() {
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uint8_t keynum = (row * 8) + (col);
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uint8_t keynum = (row * 8) + (col);
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uint8_t keyState = ((bitRead(KeyboardHardware.previousLeftHandState.all, keynum) << 1) |
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uint8_t keyState = ((bitRead(KeyboardHardware.previousLeftHandState.all, keynum) << 1) |
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(bitRead(KeyboardHardware.leftHandState.all, keynum) << 0));
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(bitRead(KeyboardHardware.leftHandState.all, keynum) << 0));
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if ( keyState == TOGGLED_ON ) {
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if (keyState == TOGGLED_ON) {
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if (cyclesSinceStateChange[keynum] < CHATTER_CYCLE_LIMIT) {
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if (cyclesSinceStateChange[keynum] < CHATTER_CYCLE_LIMIT) {
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bitSet(leftBadKeys, keynum);
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bitSet(leftBadKeys, keynum);
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}
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}
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cyclesSinceStateChange[keynum] = 0;
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cyclesSinceStateChange[keynum] = 0;
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} else if (cyclesSinceStateChange[keynum] <= CHATTER_CYCLE_LIMIT) {
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} else if (cyclesSinceStateChange[keynum] <= CHATTER_CYCLE_LIMIT) {
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cyclesSinceStateChange[keynum]++;
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cyclesSinceStateChange[keynum]++;
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}
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}
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@ -132,24 +132,24 @@ void TestMode_::testMatrix() {
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keyState = ((bitRead(KeyboardHardware.previousRightHandState.all, keynum) << 1) |
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keyState = ((bitRead(KeyboardHardware.previousRightHandState.all, keynum) << 1) |
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(bitRead(KeyboardHardware.rightHandState.all, keynum) << 0));
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(bitRead(KeyboardHardware.rightHandState.all, keynum) << 0));
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if ( keyState == TOGGLED_ON) {
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if (keyState == TOGGLED_ON) {
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if (cyclesSinceStateChange[keynum+32] < CHATTER_CYCLE_LIMIT) {
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if (cyclesSinceStateChange[keynum + 32] < CHATTER_CYCLE_LIMIT) {
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bitSet(rightBadKeys, keynum);
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bitSet(rightBadKeys, keynum);
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}
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}
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cyclesSinceStateChange[keynum+32] = 0;
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cyclesSinceStateChange[keynum + 32] = 0;
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} else if (cyclesSinceStateChange[keynum+32] <= CHATTER_CYCLE_LIMIT) {
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} else if (cyclesSinceStateChange[keynum + 32] <= CHATTER_CYCLE_LIMIT) {
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cyclesSinceStateChange[keynum+32]++;
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cyclesSinceStateChange[keynum + 32]++;
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}
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}
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// If the key is held down
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// If the key is held down
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if (keyState == HELD) {
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if (keyState == HELD) {
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KeyboardHardware.setCrgbAt(row, 15 - col, green);
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KeyboardHardware.setCrgbAt(row, 15 - col, green);
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}
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}
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// If we triggered chatter detection ever on this key
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// If we triggered chatter detection ever on this key
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else if (bitRead(rightBadKeys, keynum) == 1 ) {
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else if (bitRead(rightBadKeys, keynum) == 1) {
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KeyboardHardware.setCrgbAt(row, 15 - col, red);
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KeyboardHardware.setCrgbAt(row, 15 - col, red);
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}
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}
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