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Example_Keyboards/Heathkit H89/Heathkit_H89_Keyboard_RevF.ino
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Example_Keyboards/Heathkit H89/Heathkit_H89_Keyboard_RevF.ino
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/* Copyright 2020 Frank Adams
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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// This software implements a Heathkit H89 Keyboard Controller using a Teensy 3.2 directly soldered to
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// a 34 pin ribbon cable connected to the pins on the keyboard.
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// This routine uses the Teensyduino "Micro-Manager Method" to send Normal and Modifier
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// keys over USB.
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// Description of Teensyduino keyboard functions is at www.pjrc.com/teensy/td_keyboard.html
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//
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// Revision History
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// Initial Release June 16, 2020
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// Rev A June 17, 2020 - Fixed row pin 18 that shows up twice in schematic
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// Rev B June 17, 2020 - Fixed the zero key
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// Rev C June 18, 2020 - Changed how Caps lock is reported (the mechanical switch locks down)
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// Rev D June 18, 2020 - Fixed semicolon
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// Rev E June 19, 2020 - Really fixed the zero and oh keys
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//
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#define MODIFIERKEY_FN 0x8f // give Fn key a fake HID code
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#define CAPS_LED 13 // Teensy LED shows Caps-Lock
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#define NUM_LED 32 // Wire a Num Lock LED with a current limit resistor to this I/O pin
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#define SCRL_LED 33 // Wire a Scroll Lock LED with a current limit resistor to this I/O pin
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#define CONTROL_KEY 11 // I/O 11 is ribbon pin 15 - Control key
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#define SHIFT_RIGHT_KEY 17 // I/O 17 is ribbon 21 - Shift Right key
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#define SHIFT_LEFT_KEY 20 // I/O 20 is ribbon 25 - Shift Left key
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#define CAPS_LOCK_KEY 9 // I/O 9 is ribbon 13 - Caps Lock key
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#define NUM_LOCK_KEY 15 // I/O 15 is ribbon 19 - Num Lock key but is labeled BREAK
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//
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const byte rows_max = 10; // sets the number of rows in the matrix
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const byte cols_max = 9; // sets the number of columns in the matrix
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//
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// Load the normal key matrix with the Teensyduino key names
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// described at www.pjrc.com/teensy/td_keyboard.html
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// A zero indicates no normal key at that location.
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int normal[rows_max][cols_max] = {
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{KEY_9,KEY_O,KEY_L,KEY_PERIOD,0,KEYPAD_9,KEYPAD_6,KEYPAD_3,KEYPAD_ENTER},
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{KEY_8,KEY_I,KEY_K,KEY_COMMA,0,KEYPAD_8,KEYPAD_5,KEYPAD_2,KEYPAD_PERIOD},
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{KEY_7,KEY_U,KEY_J,KEY_M,0,KEYPAD_7,KEYPAD_4,KEYPAD_1,KEYPAD_0},
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{KEY_6,KEY_Y,KEY_H,KEY_N,KEY_DELETE,0,0,0,0},
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{KEY_5,KEY_T,KEY_G,KEY_B,KEY_F5,KEY_BACKSPACE,KEY_DELETE,0,0},
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{KEY_4,KEY_R,KEY_F,KEY_V,KEY_F4,KEY_TILDE,KEY_DOWN,KEY_ENTER,0},
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{KEY_3,KEY_E,KEY_D,KEY_C,KEY_F3,KEY_EQUAL,KEY_BACKSLASH,KEY_RIGHT_BRACE,0},
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{KEY_2,KEY_W,KEY_S,KEY_X,KEY_F2,KEY_MINUS,KEY_LEFT_BRACE,KEY_QUOTE,0},
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{KEY_1,KEY_Q,KEY_A,KEY_Z,KEY_F1,KEY_0,KEY_P,KEY_SEMICOLON,KEY_SLASH},
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{KEY_ESC,KEY_TAB,KEY_SCROLL_LOCK,KEY_SPACE,0,0,0,0,0}
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};
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// Initialize the old_key matrix with one's.
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// 1 = key not pressed, 0 = key is pressed
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boolean old_key[rows_max][cols_max] = {
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{1,1,1,1,1,1,1,1,1},
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{1,1,1,1,1,1,1,1,1},
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{1,1,1,1,1,1,1,1,1},
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{1,1,1,1,1,1,1,1,1},
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{1,1,1,1,1,1,1,1,1},
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{1,1,1,1,1,1,1,1,1},
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{1,1,1,1,1,1,1,1,1},
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{1,1,1,1,1,1,1,1,1},
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{1,1,1,1,1,1,1,1,1}
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};
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//
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// Define the Teensy 3.2 I/O numbers (translated from the ribbon pin #)
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// Ribbon Cable# 14,16,18,20,22,24,26,28,30,32
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// Teensy I/O # 10,12,14,16,18,19,21,23,24,26
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int Row_IO[rows_max] = {10,12,14,16,18,19,21,23,24,26}; // Teensy 3.2 I/O numbers for rows
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//
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// Ribbon Cable # 02,04,06,08,10,03,05,07,09
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// Teensy I/O # 00,02,04,06,08,01,03,05,07
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int Col_IO[cols_max] = {0,2,4,6,8,1,3,5,7}; // Teensy 3.2 I/O numbers for columns
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// Declare variables that will be used by functions
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boolean slots_full = LOW; // Goes high when slots 1 thru 6 contain normal keys
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// slot 1 thru slot 6 hold the normal key values to be sent over USB.
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int slot1 = 0; //value of 0 means the slot is empty and can be used.
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int slot2 = 0;
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int slot3 = 0;
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int slot4 = 0;
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int slot5 = 0;
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int slot6 = 0;
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//
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int mod_shift_l = 0; // These variables are sent over USB as modifier keys.
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int mod_shift_r = 0; // Each is either set to 0 or MODIFIER_ ...
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int mod_ctrl_l = 0;
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//
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// Function to load the key name into the first available slot
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void load_slot(int key) {
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if (!slot1) {
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slot1 = key;
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}
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else if (!slot2) {
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slot2 = key;
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}
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else if (!slot3) {
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slot3 = key;
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}
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else if (!slot4) {
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slot4 = key;
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}
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else if (!slot5) {
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slot5 = key;
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}
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else if (!slot6) {
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slot6 = key;
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}
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if (!slot1 || !slot2 || !slot3 || !slot4 || !slot5 || !slot6) {
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slots_full = LOW; // slots are not full
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}
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else {
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slots_full = HIGH; // slots are full
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}
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}
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//
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// Function to clear the slot that contains the key name
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void clear_slot(int key) {
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if (slot1 == key) {
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slot1 = 0;
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}
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else if (slot2 == key) {
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slot2 = 0;
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}
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else if (slot3 == key) {
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slot3 = 0;
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}
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else if (slot4 == key) {
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slot4 = 0;
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}
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else if (slot5 == key) {
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slot5 = 0;
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}
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else if (slot6 == key) {
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slot6 = 0;
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}
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if (!slot1 || !slot2 || !slot3 || !slot4 || !slot5 || !slot6) {
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slots_full = LOW; // slots are not full
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}
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else {
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slots_full = HIGH; // slots are full
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}
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}
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//
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// Function to load the modifier key name into the appropriate mod variable
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void load_mod(int m_key) {
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if (m_key == MODIFIERKEY_LEFT_SHIFT) {
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mod_shift_l = m_key;
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}
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else if (m_key == MODIFIERKEY_RIGHT_SHIFT) {
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mod_shift_r = m_key;
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}
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else if (m_key == MODIFIERKEY_LEFT_CTRL) {
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mod_ctrl_l = m_key;
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}
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}
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//
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// Function to load 0 into the appropriate mod variable
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void clear_mod(int m_key) {
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if (m_key == MODIFIERKEY_LEFT_SHIFT) {
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mod_shift_l = 0;
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}
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else if (m_key == MODIFIERKEY_RIGHT_SHIFT) {
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mod_shift_r = 0;
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}
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else if (m_key == MODIFIERKEY_LEFT_CTRL) {
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mod_ctrl_l = 0;
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}
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}
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//
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// Function to send the modifier keys over usb
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void send_mod() {
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Keyboard.set_modifier(mod_shift_l | mod_shift_r | mod_ctrl_l);
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Keyboard.send_now();
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}
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//
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// Function to send the normal keys in the 6 slots over usb
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void send_normals() {
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Keyboard.set_key1(slot1);
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Keyboard.set_key2(slot2);
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Keyboard.set_key3(slot3);
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Keyboard.set_key4(slot4);
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Keyboard.set_key5(slot5);
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Keyboard.set_key6(slot6);
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Keyboard.send_now();
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}
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//
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// Function to set a pin to high impedance (acts like open drain output)
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void go_z(int pin)
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{
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pinMode(pin, INPUT);
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digitalWrite(pin, HIGH);
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}
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//
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// Function to set a pin as an input with a pullup
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void go_pu(int pin)
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{
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pinMode(pin, INPUT_PULLUP);
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digitalWrite(pin, HIGH);
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}
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//
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// Function to send a pin to a logic low
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void go_0(int pin)
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{
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pinMode(pin, OUTPUT);
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digitalWrite(pin, LOW);
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}
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//
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// Function to send a pin to a logic high
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void go_1(int pin)
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{
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pinMode(pin, OUTPUT);
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digitalWrite(pin, HIGH);
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}
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//
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//----------------------------------Setup-------------------------------------------
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void setup() {
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for (int a = 0; a < cols_max; a++) { // loop thru all column pins
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go_pu(Col_IO[a]); // set each column pin as an input with a pullup
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}
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//
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for (int b = 0; b < rows_max; b++) { // loop thru all row pins
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go_z(Row_IO[b]); // set each row pin as a floating output
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}
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//
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go_pu(CONTROL_KEY); // set I/O 11 as an input with a pullup (this is ribbon pin 15 - Control key
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go_pu(SHIFT_RIGHT_KEY); // set I/O 17 as an input with a pullup (this is ribbon pin 21 - Shift Right key
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go_pu(SHIFT_LEFT_KEY); // set I/O 20 as an input with a pullup (this is ribbon pin 25 - Shift Left key
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go_pu(CAPS_LOCK_KEY); // set I/O 9 as an input with a pullup (this is ribbon pin 13 - Caps Lock key
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go_pu(NUM_LOCK_KEY); // set I/O 15 as an input with a pullup (this is ribbon pin 19 - Num Lock key but labeled BREAK
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}
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//
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extern volatile uint8_t keyboard_leds; // 8 bits sent from Pi to Teensy that give keyboard LED status. Caps lock is bit D1.
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//
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boolean Cntrl_pressed = HIGH; // Initialize Control key to HIGH = "not pressed"
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boolean ShiftR_pressed = HIGH; // Initialize Shift right key to HIGH = "not pressed"
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boolean ShiftL_pressed = HIGH; // Initialize Shift left key to HIGH = "not pressed"
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boolean NumLck_pressed = HIGH; // Initialize Num Lock key to HIGH = "not pressed"
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boolean CapsLck_pressed = HIGH; // Initialize Caps Lock key to HIGH = "not pressed"
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//
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//---------------------------------Main Loop---------------------------------------------
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//
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void loop() {
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// Scan keyboard matrix with an outer loop that drives each row low and an inner loop that reads every column (with pull ups).
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// The routine looks at each key's present state (by reading the column input pin) and also the previous state from the last scan
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// that was 30msec ago. The status of a key that was just pressed or just released is sent over USB and the state is saved in the old_key matrix.
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// The keyboard keys will read as logic low if they are pressed (negative logic).
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// The old_key matrix also uses negative logic (low=pressed).
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//
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// Modifier Keys - Control and Shift right and left are not part of the matrix
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// **********Control Key*********
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if (!digitalRead(CONTROL_KEY) && (Cntrl_pressed)) { //check if control key was just pressed
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Cntrl_pressed = LOW; // save state as pressed
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load_mod(MODIFIERKEY_LEFT_CTRL); // function reads which modifier key is pressed and loads it into the appropriate mod_... variable
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send_mod(); // function sends the state of all modifier keys over usb including the one that just got pressed
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}
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else if (digitalRead(CONTROL_KEY) && (!Cntrl_pressed)) { //check if control key is not pressed and was previously pressed
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Cntrl_pressed = HIGH; // save state as not pressed
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clear_mod(MODIFIERKEY_LEFT_CTRL); // function reads which modifier key was released and loads 0 into the appropriate mod_... variable
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send_mod(); // function sends all mod's over usb including the one that just released
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}
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// **********Shift Right Key*********
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if (!digitalRead(SHIFT_RIGHT_KEY) && (ShiftR_pressed)) { //check if shift right key was just pressed
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ShiftR_pressed = LOW; // save state as pressed
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load_mod(MODIFIERKEY_RIGHT_SHIFT); // function reads which modifier key is pressed and loads it into the appropriate mod_... variable
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send_mod(); // function sends the state of all modifier keys over usb including the one that just got pressed
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}
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else if (digitalRead(SHIFT_RIGHT_KEY) && (!ShiftR_pressed)) { //check if shift right key is not pressed and was previously pressed
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ShiftR_pressed = HIGH; // save state as not pressed
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clear_mod(MODIFIERKEY_RIGHT_SHIFT); // function reads which modifier key was released and loads 0 into the appropriate mod_... variable
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send_mod(); // function sends all mod's over usb including the one that just released
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}
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// **********Shift Left Key*********
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if (!digitalRead(SHIFT_LEFT_KEY) && (ShiftL_pressed)) { //check if shift left key was just pressed
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ShiftL_pressed = LOW; // save state as pressed
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load_mod(MODIFIERKEY_LEFT_SHIFT); // function reads which modifier key is pressed and loads it into the appropriate mod_... variable
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send_mod(); // function sends the state of all modifier keys over usb including the one that just got pressed
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}
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else if (digitalRead(SHIFT_LEFT_KEY) && (!ShiftL_pressed)) { //check if shift left key is not pressed and was previously pressed
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ShiftL_pressed = HIGH; // save state as not pressed
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clear_mod(MODIFIERKEY_LEFT_SHIFT); // function reads which modifier key was released and loads 0 into the appropriate mod_... variable
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send_mod(); // function sends all mod's over usb including the one that just released
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}
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// ***********end of modifier key section
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//
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// Special keys
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//
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// *******Num Lock is implemented using the Break Key which is not part of the matrix*******
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if (!digitalRead(NUM_LOCK_KEY) && (NumLck_pressed)) { //check if Num lock key was just pressed
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NumLck_pressed = LOW; // save state as pressed
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load_slot(KEY_NUM_LOCK); // //update first available slot with num lock
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send_normals(); // send all slots over USB including the num lock key that was just pressed
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}
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else if (digitalRead(NUM_LOCK_KEY) && (!NumLck_pressed)) { //check if num lock key is not pressed and was previously pressed
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NumLck_pressed = HIGH; // save state as not pressed
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clear_slot(KEY_NUM_LOCK); //clear the slot that contains the num lock
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send_normals(); // send all slots over USB including the num lock that was just released
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}
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// *******Caps Lock is a mechanical key switch that will lock in the down position*******
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if (!digitalRead(CAPS_LOCK_KEY) && (CapsLck_pressed)) { //capture when it's first pushed and locked down
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CapsLck_pressed = LOW; // save state as pressed
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Keyboard.press(KEY_CAPS_LOCK); // send caps lock over usb
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delay(5); // delay 5 milliseconds before releasing to make sure it gets sent over USB
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Keyboard.release(KEY_CAPS_LOCK); // send a caps lock release over usb (even though it's stuck in the down position)
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}
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else if (digitalRead(CAPS_LOCK_KEY) && (!CapsLck_pressed)) { //capture when it's first pushed to release the locked down state
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CapsLck_pressed = HIGH; // save state as not pressed
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Keyboard.press(KEY_CAPS_LOCK); // send caps lock over usb
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delay(5); // delay 5 milliseconds before releasing to make sure it gets sent over USB
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||||||
|
Keyboard.release(KEY_CAPS_LOCK); // send a caps lock release over usb
|
||||||
|
}
|
||||||
|
//
|
||||||
|
// ***********Normal keys in this section
|
||||||
|
for (int x = 0; x < rows_max; x++) { // loop thru the rows
|
||||||
|
go_0(Row_IO[x]); // Activate Row (send it low)
|
||||||
|
delayMicroseconds(10); // give the row time to go low and settle out
|
||||||
|
for (int y = 0; y < cols_max; y++) { // loop thru the columns
|
||||||
|
if (normal[x][y] != 0) { // check if normal key exists at this location in the array
|
||||||
|
if (!digitalRead(Col_IO[y]) && (old_key[x][y]) && (!slots_full)) { // check if key pressed and not previously pressed and slots not full
|
||||||
|
old_key[x][y] = LOW; // Save state of key as "pressed"
|
||||||
|
load_slot(normal[x][y]); //update first available slot with normal key name
|
||||||
|
send_normals(); // send all slots over USB including the key that just got pressed
|
||||||
|
}
|
||||||
|
else if (digitalRead(Col_IO[y]) && (!old_key[x][y])) { //check if key is not pressed, but was previously pressed
|
||||||
|
old_key[x][y] = HIGH; // Save state of key as "not pressed"
|
||||||
|
clear_slot(normal[x][y]); //clear the slot that contains the normal key name
|
||||||
|
send_normals(); // send all slots over USB including the key that was just released
|
||||||
|
}
|
||||||
|
}
|
||||||
|
// **************end of normal key section
|
||||||
|
//
|
||||||
|
}
|
||||||
|
go_z(Row_IO[x]); // De-activate Row (send it to hi-z)
|
||||||
|
}
|
||||||
|
//
|
||||||
|
// **********keyboard scan complete
|
||||||
|
//
|
||||||
|
// Turn on or off the LEDs for Num Lock, Caps Lock, and Scroll Lock based on bit 0, 1, and 2 from the keyboard_leds
|
||||||
|
// variable controlled by the USB host computer
|
||||||
|
//
|
||||||
|
if (keyboard_leds & 1) { // mask off all bits but D0 and test if set
|
||||||
|
go_1(NUM_LED); // turn on the Num Lock LED
|
||||||
|
}
|
||||||
|
else {
|
||||||
|
go_0(NUM_LED); // turn off the Num Lock LED
|
||||||
|
}
|
||||||
|
//
|
||||||
|
//
|
||||||
|
if (keyboard_leds & 1<<1) { // mask off all bits but D1 and test if set
|
||||||
|
go_1(CAPS_LED); // turn on the Caps Lock LED
|
||||||
|
}
|
||||||
|
else {
|
||||||
|
go_0(CAPS_LED); // turn off the Caps Lock LED
|
||||||
|
}
|
||||||
|
//
|
||||||
|
//
|
||||||
|
if (keyboard_leds & 1<<2) { // mask off all bits but D2 and test if set
|
||||||
|
go_1(SCRL_LED); // turn on the Scroll Lock LED
|
||||||
|
}
|
||||||
|
else {
|
||||||
|
go_0(SCRL_LED); // turn off the Scroll Lock LED
|
||||||
|
}
|
||||||
|
//
|
||||||
|
|
||||||
|
delay(25); // The overall keyboard scanning rate is about 30ms
|
||||||
|
}
|
Loading…
Reference in a new issue