190 lines
5.8 KiB
C++
190 lines
5.8 KiB
C++
/* keybrd_shift_reg.ino
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Tested on Teensy LC and daisy chained 74HC165 shift registers
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The keyboard hardware for this sketch has 4 shift registers,
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with every 4th input pin connected to a pull-down resistor and matrix column, also the 31st key.
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Unused input pins are not grounded, so add this line to RowScanner_SPIShiftRegisters::scan():
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//clear unpowered pins (for testing on breadboard)
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rowState &= 0b11110001000100010001000100010001; //todo
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Layout
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| Left | **0**|**1**| | Right |**0**|**1**|**2**|**3**|**4**|**5**|**6**|**7**|**8**|
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|:-----:|------|-----| |:-----:|-----|-----|-----|-----|-----|-----|-----|-----|-----|
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| **0** |capLck| a | | **0** | 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 |
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| **1** | b | c | | **1** | a | b | c | d | e | f | g | h | i |
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*/
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// ################## GLOBAL ###################
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// ================= INCLUDES ==================
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#include <Debug.h>
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#include <ScanDelay.h>
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#include <LED_PinNumber.h>
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//Codes
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#include <Code_Sc.h>
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#include <Code_LEDLock.h>
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//Matrix
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#include <Row_uC.h>
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#include <SPI.h>
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#include <Row_ShiftRegisters.h>
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// =============== CONFIGURATION ===============
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ScanDelay scanDelay(9000);
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//active state of left matrix
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const bool RowScanner_PinsArray::STROBE_ON = LOW;
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const bool RowScanner_PinsArray::STROBE_OFF = HIGH;
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const uint8_t RowScanner_SPIShiftRegisters::SHIFT_LOAD = 10;
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//active state of right matrix
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const bool RowScanner_SPIShiftRegisters::STROBE_ON = LOW;
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const bool RowScanner_SPIShiftRegisters::STROBE_OFF = HIGH;
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Debug debug;
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// ================= LEFT PINS =================
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uint8_t readPins[] = {14, 15};
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uint8_t KEY_COUNT = sizeof(readPins)/sizeof(*readPins);
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// ==================== LEDs ===================
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LED_PinNumber LED1(16);
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//sometimes OS takes 6 seconds to recongnize keyboard, LED blinks from the begining
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void wait()
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{
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for (uint8_t count = 0; count < 6; count++)
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{
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//print count
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Keyboard.print(count);
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Keyboard.print(F(" "));
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//blink LED
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LED1.on();
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delay(500);
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LED1.off();
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delay(500);
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}
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}
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// =================== CODES ===================
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Code_Sc s_a(KEY_A);
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Code_Sc s_b(KEY_B);
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Code_Sc s_c(KEY_C);
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Code_Sc s_d(KEY_D);
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Code_Sc s_e(KEY_E);
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Code_Sc s_f(KEY_F);
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Code_Sc s_g(KEY_G);
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Code_Sc s_h(KEY_H);
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Code_Sc s_i(KEY_I);
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Code_Sc s_u(KEY_U);
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Code_Sc s_v(KEY_V);
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Code_Sc s_w(KEY_W);
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Code_Sc s_x(KEY_X);
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Code_Sc s_z(KEY_Z);
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Code_Sc s_0(KEY_0);
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Code_Sc s_1(KEY_1);
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Code_Sc s_2(KEY_2);
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Code_Sc s_3(KEY_3);
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Code_Sc s_4(KEY_4);
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Code_Sc s_5(KEY_5);
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Code_Sc s_6(KEY_6);
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Code_Sc s_7(KEY_7);
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Code_Sc s_8(KEY_8);
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Code_LEDLock o_capsLock(KEY_CAPS_LOCK, LED1);
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// ================= LEFT ROWS =================
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Key* ptrsKeys_L0[] = { &o_capsLock, &s_a };
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Row_uC row_L0(0, readPins, ptrsKeys_L0, KEY_COUNT);
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Key* ptrsKeys_L1[] = { &s_b, &s_c };
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Row_uC row_L1(1, readPins, ptrsKeys_L1, KEY_COUNT);
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// ================= RIGHT ROWS ================
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//typedef should be large in /home/wolfv/Documents/Arduino/keybrd_proj/keybrd/src/config_keybrd.h
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//Row_ShiftRegisters(STROBE_PIN, ptrsKeys[], KEY_COUNT)
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//the s_z are place holders and should not print
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/*
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//prints 0 1
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Key* ptrsKeys_R0[] = { &s_0, &s_z, &s_z, &s_z, &s_1, &s_z, &s_z, &s_z };
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const uint8_t KEY_R0_COUNT = sizeof(ptrsKeys_R0)/sizeof(*ptrsKeys_R0);
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Row_ShiftRegisters row_R0(8, ptrsKeys_R0, KEY_R0_COUNT);
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//prints a b
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Key* ptrsKeys_R1[] = { &s_a, &s_z, &s_z, &s_z, &s_b, &s_z, &s_z, &s_z };
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const uint8_t KEY_R1_COUNT = sizeof(ptrsKeys_R1)/sizeof(*ptrsKeys_R1);
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Row_ShiftRegisters row_R1(9, ptrsKeys_R1, KEY_R1_COUNT);
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*/
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/*
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//prints 0 1 2
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Key* ptrsKeys_R0[] = { &s_0, &s_z, &s_z, &s_z, &s_1, &s_z, &s_z, &s_z,
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&s_2, &s_z, &s_z, &s_z };
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const uint8_t KEY_R0_COUNT = sizeof(ptrsKeys_R0)/sizeof(*ptrsKeys_R0);
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Row_ShiftRegisters row_R0(8, ptrsKeys_R0, KEY_R0_COUNT);
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*/
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/*
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//prints 0 1 2 3
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Key* ptrsKeys_R0[] = { &s_0, &s_z, &s_z, &s_z, &s_1, &s_z, &s_z, &s_z,
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&s_2, &s_z, &s_z, &s_z, &s_3, &s_z, &s_z, &s_z };
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const uint8_t KEY_R0_COUNT = sizeof(ptrsKeys_R0)/sizeof(*ptrsKeys_R0);
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Row_ShiftRegisters row_R0(8, ptrsKeys_R0, KEY_R0_COUNT);
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*/
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/*
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//prints 0 1 2 3 4 5
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Key* ptrsKeys_R0[] = { &s_0, &s_z, &s_z, &s_z, &s_1, &s_z, &s_z, &s_z,
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&s_2, &s_z, &s_z, &s_z, &s_3, &s_z, &s_z, &s_z,
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&s_4, &s_z, &s_z, &s_z, &s_5, &s_z, &s_z, &s_z };
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const uint8_t KEY_R0_COUNT = sizeof(ptrsKeys_R0)/sizeof(*ptrsKeys_R0);
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Row_ShiftRegisters row_R0(8, ptrsKeys_R0, KEY_R0_COUNT);
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*/
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//prints 0 1 2 3 3 4 5 6, microseconds_per_scan=87 with SAMPLE_COUNT 4
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Key* ptrsKeys_R0[] = { &s_0, &s_z, &s_z, &s_z, &s_1, &s_z, &s_z, &s_z,
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&s_2, &s_z, &s_z, &s_z, &s_3, &s_z, &s_z, &s_z,
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&s_4, &s_z, &s_z, &s_z, &s_5, &s_z, &s_z, &s_z,
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&s_6, &s_z, &s_z, &s_z, &s_3, &s_4, &s_5, &s_6 };
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const uint8_t KEY_R0_COUNT = sizeof(ptrsKeys_R0)/sizeof(*ptrsKeys_R0);
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Row_ShiftRegisters row_R0(0, ptrsKeys_R0, KEY_R0_COUNT);
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//prints a b c d u v w x
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Key* ptrsKeys_R1[] = { &s_a, &s_z, &s_z, &s_z, &s_b, &s_z, &s_z, &s_z,
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&s_c, &s_z, &s_z, &s_z, &s_d, &s_z, &s_z, &s_z,
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&s_e, &s_z, &s_z, &s_z, &s_f, &s_z, &s_z, &s_z,
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&s_g, &s_z, &s_z, &s_z, &s_u, &s_v, &s_w, &s_x };
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const uint8_t KEY_R1_COUNT = sizeof(ptrsKeys_R1)/sizeof(*ptrsKeys_R1);
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Row_ShiftRegisters row_R1(1, ptrsKeys_R1, KEY_R1_COUNT);
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// ################### MAIN ####################
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void setup()
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{
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Keyboard.begin();
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wait();
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SPI.begin();
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row_R0.begin();
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row_R1.begin();
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Keyboard.println(F("keybrd_shift_reg.ino"));
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}
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void loop()
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{
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//left matrix
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row_L0.process();
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row_L1.process();
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//right matrix
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row_R0.process();
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row_R1.process();
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scanDelay.delay();
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//delay(100);
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//Keyboard.println("");
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//debug.print_microseconds_per_scan();
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}
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