Merge remote-tracking branch 'origin/master' into develop
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a75204743a
@ -129,10 +129,29 @@ void matrix_init(void) {
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uint8_t matrix_scan(void) {
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uint8_t matrix_scan(void) {
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bool changed = false;
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bool changed = false;
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// Try to re-init right side
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if (!mcp23018_initd) {
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if (++mcp23018_reset_loop == 0) {
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// if (++mcp23018_reset_loop >= 1300) {
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// since mcp23018_reset_loop is 8 bit - we'll try to reset once in 255 matrix scans
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// this will be approx bit more frequent than once per second
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print("trying to reset mcp23018\n");
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mcp23018_init();
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if (!mcp23018_initd) {
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print("left side not responding\n");
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} else {
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print("left side attached\n");
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#ifdef RGB_MATRIX_ENABLE
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rgb_matrix_init();
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#endif
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}
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}
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}
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matrix_row_t data = 0;
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matrix_row_t data = 0;
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// actual matrix
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// actual matrix
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for (uint8_t row = 0; row < ROWS_PER_HAND; row++) {
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for (uint8_t row = 0; row <= ROWS_PER_HAND; row++) {
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// strobe row
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// strobe row
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switch (row) {
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switch (row) {
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case 0: writePinHigh(B10); break;
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case 0: writePinHigh(B10); break;
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case 1: writePinHigh(B11); break;
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case 1: writePinHigh(B11); break;
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@ -140,94 +159,81 @@ uint8_t matrix_scan(void) {
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case 3: writePinHigh(B13); break;
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case 3: writePinHigh(B13); break;
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case 4: writePinHigh(B14); break;
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case 4: writePinHigh(B14); break;
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case 5: writePinHigh(B15); break;
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case 5: writePinHigh(B15); break;
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case 6: break; // Left hand has 6 rows
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}
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}
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// need wait to settle pin state
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matrix_io_delay();
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// read col data
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data = (
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(readPin(A0) << 0 ) |
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(readPin(A1) << 1 ) |
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(readPin(A2) << 2 ) |
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(readPin(A3) << 3 ) |
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(readPin(A6) << 4 ) |
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(readPin(A7) << 5 ) |
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(readPin(B0) << 6 )
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);
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// unstrobe row
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switch (row) {
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case 0: writePinLow(B10); break;
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case 1: writePinLow(B11); break;
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case 2: writePinLow(B12); break;
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case 3: writePinLow(B13); break;
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case 4: writePinLow(B14); break;
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case 5: writePinLow(B15); break;
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}
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if (matrix_debouncing[row] != data) {
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matrix_debouncing[row] = data;
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debouncing = true;
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debouncing_time = timer_read();
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changed = true;
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}
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}
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for (uint8_t row = 0; row <= ROWS_PER_HAND; row++) {
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// right side
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// right side
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if (mcp23018_initd) {
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// #define MCP23_ROW_PINS { GPB5, GBP4, GBP3, GBP2, GBP1, GBP0 } outputs
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// #define MCP23_COL_PINS { GPA0, GBA1, GBA2, GBA3, GBA4, GBA5, GBA6 } inputs
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if (!mcp23018_initd) {
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// select row
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if (++mcp23018_reset_loop == 0) {
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mcp23018_tx[0] = 0x12; // GPIOA
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// if (++mcp23018_reset_loop >= 1300) {
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mcp23018_tx[1] = (0b01111111 & ~(1 << (row))) | ((uint8_t)!mcp23018_leds[2] << 7); // activate row
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// since mcp23018_reset_loop is 8 bit - we'll try to reset once in 255 matrix scans
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mcp23018_tx[2] = ((uint8_t)!mcp23018_leds[1] << 6) | ((uint8_t)!mcp23018_leds[0] << 7); // activate row
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// this will be approx bit more frequent than once per second
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print("trying to reset mcp23018\n");
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if (MSG_OK != i2c_transmit(MCP23018_DEFAULT_ADDRESS << 1, mcp23018_tx, 3, I2C_TIMEOUT)) {
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mcp23018_init();
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dprintf("error hori\n");
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if (!mcp23018_initd) {
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mcp23018_initd = false;
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print("left side not responding\n");
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}
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} else {
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print("left side attached\n");
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// read col
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#ifdef RGB_MATRIX_ENABLE
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rgb_matrix_init();
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mcp23018_tx[0] = 0x13; // GPIOB
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#endif
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if (MSG_OK != i2c_readReg(MCP23018_DEFAULT_ADDRESS << 1, mcp23018_tx[0], &mcp23018_rx[0], 1, I2C_TIMEOUT)) {
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}
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dprintf("error vert\n");
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mcp23018_initd = false;
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}
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data = ~(mcp23018_rx[0] & 0b00111111);
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// data = 0x01;
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if (matrix_debouncing_right[row] != data) {
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matrix_debouncing_right[row] = data;
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debouncing_right = true;
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debouncing_time_right = timer_read();
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changed = true;
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}
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}
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}
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}
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// #define MCP23_ROW_PINS { GPB5, GBP4, GBP3, GBP2, GBP1, GBP0 } outputs
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// left side
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// #define MCP23_COL_PINS { GPA0, GBA1, GBA2, GBA3, GBA4, GBA5, GBA6 } inputs
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if (row < ROWS_PER_HAND) {
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// i2c comm incur enough wait time
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if (!mcp23018_initd) {
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// need wait to settle pin state
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matrix_io_delay();
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}
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// read col data
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data = (
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(readPin(A0) << 0 ) |
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(readPin(A1) << 1 ) |
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(readPin(A2) << 2 ) |
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(readPin(A3) << 3 ) |
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(readPin(A6) << 4 ) |
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(readPin(A7) << 5 ) |
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(readPin(B0) << 6 )
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);
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// unstrobe row
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switch (row) {
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case 0: writePinLow(B10); break;
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case 1: writePinLow(B11); break;
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case 2: writePinLow(B12); break;
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case 3: writePinLow(B13); break;
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case 4: writePinLow(B14); break;
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case 5: writePinLow(B15); break;
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case 6: break;
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}
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// select row
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if (matrix_debouncing[row] != data) {
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matrix_debouncing[row] = data;
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mcp23018_tx[0] = 0x12; // GPIOA
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debouncing = true;
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mcp23018_tx[1] = (0b01111111 & ~(1 << (row))) | ((uint8_t)!mcp23018_leds[2] << 7); // activate row
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debouncing_time = timer_read();
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mcp23018_tx[2] = ((uint8_t)!mcp23018_leds[1] << 6) | ((uint8_t)!mcp23018_leds[0] << 7); // activate row
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changed = true;
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}
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if (MSG_OK != i2c_transmit(MCP23018_DEFAULT_ADDRESS << 1, mcp23018_tx, 3, I2C_TIMEOUT)) {
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dprintf("error hori\n");
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mcp23018_initd = false;
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}
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// read col
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mcp23018_tx[0] = 0x13; // GPIOB
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if (MSG_OK != i2c_readReg(MCP23018_DEFAULT_ADDRESS << 1, mcp23018_tx[0], &mcp23018_rx[0], 1, I2C_TIMEOUT)) {
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dprintf("error vert\n");
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mcp23018_initd = false;
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}
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data = ~(mcp23018_rx[0] & 0b00111111);
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// data = 0x01;
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if (matrix_debouncing_right[row] != data) {
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matrix_debouncing_right[row] = data;
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debouncing_right = true;
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debouncing_time_right = timer_read();
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changed = true;
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}
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}
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}
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}
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// Debounce both hands
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if (debouncing && timer_elapsed(debouncing_time) > DEBOUNCE) {
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if (debouncing && timer_elapsed(debouncing_time) > DEBOUNCE) {
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for (int row = 0; row < ROWS_PER_HAND; row++) {
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for (int row = 0; row < ROWS_PER_HAND; row++) {
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matrix[row] = matrix_debouncing[row];
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matrix[row] = matrix_debouncing[row];
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