/* Copyright (C) 2011,2014 by Jacob Alexander * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ // ----- Includes ----- // AVR Includes #include #include // Project Includes #include // Local Includes #include "matrix_scan.h" // Matrix Configuration #include // ----- Macros ----- // -- pinSetup Macros -- #define REG_SET(reg) reg |= (1 << ( matrix[row*(MAX_ROW_SIZE+1)+col] % 10 ) ) // Modulo 10 for the define offset for each pin set 12 or 32 -> shift of 2 #define REG_UNSET(reg) reg &= ~(1 << ( matrix[row*(MAX_ROW_SIZE+1)+col] % 10 ) ) #define PIN_SET(pin,scan,direction) \ switch ( direction ) { \ case columnSet: PIN_SET_COL(pin,scan); \ case rowSet: PIN_SET_ROW(pin,scan); \ } \ break // TODO Only scanCol_powrRow Tested (and powrRow) #define PIN_SET_COL(pin,scan) \ switch ( scan ) { \ case scanCol: \ case scanRow_powrCol: \ case scanDual: \ REG_SET(port##pin); break; \ case scanCol_powrRow: REG_UNSET(ddr##pin); REG_UNSET(DDR##pin); \ REG_SET(port##pin); REG_SET(PORT##pin); break; \ case powrRow: break; \ case powrCol: REG_SET(ddr##pin); REG_SET(DDR##pin); \ REG_SET(port##pin); REG_SET(PORT##pin); break; \ } \ break // TODO Only scanCol_powrRow Tested (and powrRow) #define PIN_SET_ROW(pin,scan) \ switch ( scan ) { \ case scanRow_powrCol: REG_UNSET(ddr##pin); REG_SET(port##pin); break; \ case scanRow: \ case scanDual: \ REG_SET(port##pin); break; \ case scanCol_powrRow: REG_SET(ddr##pin); REG_SET(DDR##pin); \ REG_UNSET(port##pin); REG_UNSET(PORT##pin); break; \ case powrRow: REG_SET(ddr##pin); REG_SET(DDR##pin); \ REG_SET(port##pin); REG_SET(PORT##pin); break; \ case powrCol: break; \ } \ break #define PIN_CASE(pinLetter) \ case pin##pinLetter##0: \ case pin##pinLetter##1: \ case pin##pinLetter##2: \ case pin##pinLetter##3: \ case pin##pinLetter##4: \ case pin##pinLetter##5: \ case pin##pinLetter##6: \ case pin##pinLetter##7 // -- Column Scan Macros -- #define PIN_TEST_COL(pin) \ scanCode = matrix[row*(MAX_ROW_SIZE+1)+col]; \ if ( scanCode && !( pin & ( 1 << ( matrix[0*(MAX_ROW_SIZE+1)+col] % 10 ) ) ) ) \ { \ detectArray[scanCode]++; \ } \ break // -- Row Scan Macros -- #define PIN_TEST_ROW(pin) \ scanCode = matrix[row*(MAX_ROW_SIZE+1)+col]; \ if ( scanCode && !( pin & ( 1 << ( matrix[row*(MAX_ROW_SIZE+1)+0] % 10 ) ) ) ) \ { \ detectArray[scanCode]++; \ } \ break // -- Scan Dual Macros -- #define PIN_DUALTEST_ROW(pin) \ scanCode = matrix[row*(MAX_ROW_SIZE+1)+col]; \ if ( scanCode \ && !( pin & ( 1 << ( matrix[row*(MAX_ROW_SIZE+1)+0] % 10 ) ) ) \ && detectArray[scanCode] & 0x01 ) \ { \ detectArray[scanCode]++; \ } \ else \ { \ if ( detectArray[scanCode] & 0x01 ) \ detectArray[scanCode]--; \ } \ break // ----- Variables ----- uint8_t showDebug = 0; // Debug Variables for GPIO setting uint8_t portA = 0x00; uint8_t portB = 0x00; uint8_t portC = 0x00; uint8_t portD = 0x00; uint8_t portE = 0x00; uint8_t portF = 0x00; uint8_t ddrA = 0x00; uint8_t ddrB = 0x00; uint8_t ddrC = 0x00; uint8_t ddrD = 0x00; uint8_t ddrE = 0x00; uint8_t ddrF = 0x00; // ----- Functions ----- void matrix_debugPins(void); // Pin Setup Debug inline void matrix_debugPins() { char tmpStr[6]; info_print("Initial Matrix Pin Setup"); info_print(" ddrA ddrB ddrC ddrD ddrE ddrF"); print(" "); hexToStr_op( ddrA, tmpStr, 2 ); dPrintStrs( " 0x", tmpStr ); hexToStr_op( ddrB, tmpStr, 2 ); dPrintStrs( " 0x", tmpStr ); hexToStr_op( ddrC, tmpStr, 2 ); dPrintStrs( " 0x", tmpStr ); hexToStr_op( ddrD, tmpStr, 2 ); dPrintStrs( " 0x", tmpStr ); hexToStr_op( ddrE, tmpStr, 2 ); dPrintStrs( " 0x", tmpStr ); hexToStr_op( ddrF, tmpStr, 2 ); dPrintStrs( " 0x", tmpStr ); print("\n"); info_print("portA portB portC portD portE portF"); print(" "); hexToStr_op( portA, tmpStr, 2 ); dPrintStrs( " 0x", tmpStr ); hexToStr_op( portB, tmpStr, 2 ); dPrintStrs( " 0x", tmpStr ); hexToStr_op( portC, tmpStr, 2 ); dPrintStrs( " 0x", tmpStr ); hexToStr_op( portD, tmpStr, 2 ); dPrintStrs( " 0x", tmpStr ); hexToStr_op( portE, tmpStr, 2 ); dPrintStrs( " 0x", tmpStr ); hexToStr_op( portF, tmpStr, 2 ); dPrintStrs( " 0x", tmpStr ); print("\n"); showDebug++; } // Column Setup inline void matrix_columnSet( uint8_t *matrix, uint8_t scanType, uint16_t startIndex, uint16_t colsToIterate ) { // Calculate the number of pins to iterate over uint8_t maxColumns = startIndex + colsToIterate - 1; if ( maxColumns > MAX_COL_SIZE ) maxColumns = MAX_COL_SIZE; uint16_t row, col; // Columns for ( col = startIndex, row = 0; col <= maxColumns; col++ ) { // We can't pass 2D arrays, so just point to the first element and calculate directly switch ( matrix[row*(MAX_ROW_SIZE+1)+col] ) { #if defined(__AVR_AT90USB1286__) PIN_CASE(A): PIN_SET(A, scanType, columnSet); #endif PIN_CASE(B): PIN_SET(B, scanType, columnSet); PIN_CASE(C): PIN_SET(C, scanType, columnSet); PIN_CASE(D): PIN_SET(D, scanType, columnSet); PIN_CASE(E): PIN_SET(E, scanType, columnSet); PIN_CASE(F): PIN_SET(F, scanType, columnSet); default: continue; } } } // Row Setup inline void matrix_rowSet( uint8_t *matrix, uint8_t scanType, uint16_t startIndex, uint8_t rowsToIterate ) { // Calculate the number of pins to iterate over uint16_t maxRows = startIndex + rowsToIterate - 1; if ( maxRows > MAX_ROW_SIZE ) maxRows = MAX_ROW_SIZE; uint16_t row, col; // Rows for ( col = 0, row = startIndex; row <= maxRows; row++ ) { // We can't pass 2D arrays, so just point to the first element and calculate directly switch ( matrix[row*(MAX_ROW_SIZE+1)+col] ) { #if defined(__AVR_AT90USB1286__) PIN_CASE(A): PIN_SET(A, scanType, rowSet); #endif PIN_CASE(B): PIN_SET(B, scanType, rowSet); PIN_CASE(C): PIN_SET(C, scanType, rowSet); PIN_CASE(D): PIN_SET(D, scanType, rowSet); PIN_CASE(E): PIN_SET(E, scanType, rowSet); PIN_CASE(F): PIN_SET(F, scanType, rowSet); default: continue; } } } // Goes through the defined matrix and matrix mode, and sets the initial state of all of the available pins void matrix_pinSetup( uint8_t *matrix, uint8_t scanType ) { // Loop through all the pin assignments, for the initial pin settings matrix_rowSet ( matrix, scanType, 1, MAX_ROW_SIZE ); matrix_columnSet( matrix, scanType, 1, MAX_COL_SIZE ); // Pin Status if ( showDebug == 0 ) // Only show once { matrix_debugPins(); } } // Scans the given matrix determined by the scanMode method inline void matrix_scan( uint8_t *matrix, uint8_t *detectArray ) { // Loop variables for all modes uint16_t col = 1; uint16_t row = 1; uint16_t scanCode = 0; // TODO Only scanCol_powrRow tested // Column Scan and Column Scan, Power Row #if scanMode == scanCol || scanMode == scanCol_powrRow for ( ; row <= MAX_ROW_SIZE; row++ ) { // Power each row separately matrix_rowSet( matrix, powrRow, row, 1 ); for ( col = 1; col <= MAX_COL_SIZE; col++ ) { // Scan over the pins for each of the columns, and using the pin alias to determine which pin to set // (e.g. / 10 is for the pin name (A,B,C,etc.) and % 10 is for the position of the pin (A1,A2,etc.)) switch ( matrix[0*(MAX_ROW_SIZE+1)+col] / 10 ) { #if defined(__AVR_AT90USB1286__) case 0: // PINA PIN_TEST_COL(PINA); #endif case 1: // PINB PIN_TEST_COL(PINB); case 2: // PINC PIN_TEST_COL(PINC); case 3: // PIND PIN_TEST_COL(PIND); case 4: // PINE PIN_TEST_COL(PINE); case 5: // PINF PIN_TEST_COL(PINF); } } // Unset the row power matrix_rowSet( matrix, scanMode, row, 1 ); } #endif // scanMode // Row Scan and Row Scan, Power Row #if scanMode == scanRow || scanMode == scanRow_powrCol for ( ; col <= MAX_COL_SIZE; col++ ) { // Power each column separately matrix_columnSet( matrix, powrCol, col, 1 ); for ( row = 1; row <= MAX_ROW_SIZE; row++ ) { // Scan over the pins for each of the rows, and using the pin alias to determine which pin to set // (e.g. / 10 is for the pin name (A,B,C,etc.) and % 10 is for the position of the pin (A1,A2,etc.)) switch ( matrix[row*(MAX_ROW_SIZE+1)+0] / 10 ) { #if defined(__AVR_AT90USB1286__) case 0: // PINA PIN_TEST_ROW(PINA); #endif case 1: // PINB PIN_TEST_ROW(PINB); case 2: // PINC PIN_TEST_ROW(PINC); case 3: // PIND PIN_TEST_ROW(PIND); case 4: // PINE PIN_TEST_ROW(PINE); case 5: // PINF PIN_TEST_ROW(PINF); } } // Unset the column power matrix_columnSet( matrix, scanMode, col, 1 ); } #endif // scanMode // Dual Scan #if scanMode == scanDual // First do a scan of all of the columns, marking each one //matrix_pinSetup( matrix, scanCol_powrRow, 0, MAX_ROW_SIZE, MAX_COL_SIZE ); TODO _delay_us( 1 ); for ( ; row < (MAX_COL_SIZE+1); row++ ) for ( ; col < (MAX_ROW_SIZE+1); col++ ) { // Scan over the pins for each of the columns, and using the pin alias to determine which pin to set // (e.g. / 10 is for the pin name (A,B,C,etc.) and % 10 is for the position of the pin (A1,A2,etc.)) switch ( matrix[0*(MAX_ROW_SIZE+1)+col] / 10 ) { #if defined(__AVR_AT90USB1286__) case 0: // PINA PIN_TEST_COL(PINA); #endif case 1: // PINB PIN_TEST_COL(PINB); case 2: // PINC PIN_TEST_COL(PINC); case 3: // PIND PIN_TEST_COL(PIND); case 4: // PINE PIN_TEST_COL(PINE); case 5: // PINF PIN_TEST_COL(PINF); } } // Next, do a scan of all of the rows, clearing any "vague" keys (only detected on row, but not column, or vice-versa) // And marking any keys that are detected on the row and column //matrix_pinSetup( matrix, scanRow_powrCol, 0, MAX_ROW_SIZE, MAX_COL_SIZE ); TODO _delay_us( 1 ); col = 1; row = 1; for ( ; col < (MAX_ROW_SIZE+1); col++ ) for ( ; row < (MAX_COL_SIZE+1); row++ ) { // Scan over the pins for each of the rows, and using the pin alias to determine which pin to set // (e.g. / 10 is for the pin name (A,B,C,etc.) and % 10 is for the position of the pin (A1,A2,etc.)) switch ( matrix[row*(MAX_ROW_SIZE+1)+0] / 10 ) { #if defined(__AVR_AT90USB1286__) case 0: // PINA PIN_DUALTEST_ROW(PINA); #endif case 1: // PINB PIN_DUALTEST_ROW(PINB); case 2: // PINC PIN_DUALTEST_ROW(PINC); case 3: // PIND PIN_DUALTEST_ROW(PIND); case 4: // PINE PIN_DUALTEST_ROW(PINE); case 5: // PINF PIN_DUALTEST_ROW(PINF); } } #endif }