451 lines
13 KiB
C
451 lines
13 KiB
C
/* ----------------------------------------------------------------------------
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* main()
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* ----------------------------------------------------------------------------
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* Copyright (c) 2012 Ben Blazak <benblazak.dev@gmail.com>
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* Released under The MIT License (MIT) (see "license.md")
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* Project located at <https://github.com/benblazak/ergodox-firmware>
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* ------------------------------------------------------------------------- */
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#include <stdbool.h>
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#include <stdint.h>
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// --------------------------------------------------------------------
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// hardware
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// --------------------------------------------------------------------
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#define KBD_DEBUG // comment out to disable the debug interface completely
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#include "./keyboard/controller.c"
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#include "./keyboard/keyboard.h"
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// --------------------------------------------------------------------
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// types and forward declarations
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// --------------------------------------------------------------------
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typedef uint8_t u8;
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typedef uint16_t u16;
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typedef u8 keycode;
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typedef u16 media_keycode;
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typedef u8 layer;
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typedef void (*keyfunc)(void);
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#include "./main.h"
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// ----------------------------------------------------------------------------
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// layout data
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// ----------------------------------------------------------------------------
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#include "./keyboard/layout.c"
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// defines:
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// #define KB_Layers #{Layers.size}
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// static const keycode PROGMEM _kb_layout[KB_LAYERS][KB_ROWS][KB_COLUMNS];
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// static const keyfunc PROGMEM _kb_layout_press[KB_LAYERS][KB_ROWS][KB_COLUMNS];
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// static const keyfunc PROGMEM _kb_layout_release[KB_LAYERS][KB_ROWS][KB_COLUMNS];
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// ----------------------------------------------------------------------------
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// globals
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// ----------------------------------------------------------------------------
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static bool _kb_is_pressed[KB_ROWS][KB_COLUMNS];
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static bool (*kb_is_pressed)[KB_ROWS][KB_COLUMNS] = &_kb_is_pressed;
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static bool _kb_was_pressed[KB_ROWS][KB_COLUMNS];
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static bool (*kb_was_pressed)[KB_ROWS][KB_COLUMNS] = &_kb_was_pressed;
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static layer layers_pressed[KB_ROWS][KB_COLUMNS];
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static u8 current_row;
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static u8 current_col;
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static layer current_layer;
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static keycode current_keycode;
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static bool current_is_pressed;
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static bool layers_active[KB_LAYERS];
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static layer layers_top = 0;
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static bool layer_sticky_on;
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static bool layer_sticky[KB_LAYERS];
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static bool layer_sticky_done;
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static u8 mod_sticky;
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static bool mod_sticky_done;
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// ----------------------------------------------------------------------------
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int main() {
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// initialize
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init_hw();
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init_layers();
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init_sticky();
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// never return
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main_key_loop();
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return 0;
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}
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// --------------------------------------------------------------------------------------
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void main_key_loop() {
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for (;;) {
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// swap `kb_is_pressed` and `kb_was_pressed`, then update
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bool (*temp)[KB_ROWS][KB_COLUMNS] = kb_was_pressed;
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kb_was_pressed = kb_is_pressed;
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kb_is_pressed = temp;
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kb_update_matrix(*kb_is_pressed);
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// - execute key functions when their key changes state
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// - keep track of which layers the keys were on when they were pressed
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// (so they can be released using the function from that layer)
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for (u8 row=0; row<KB_ROWS; row++) {
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for (u8 col=0; col<KB_COLUMNS; col++) {
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current_is_pressed = (*kb_is_pressed)[row][col];
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bool was_pressed = (*kb_was_pressed)[row][col];
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if (current_is_pressed != was_pressed) {
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if (current_is_pressed) {
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current_layer = layers_top;
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layers_pressed[row][col] = current_layer;
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} else {
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current_layer = layers_pressed[row][col];
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}
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// set remaining vars, and "execute" key
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current_row = row;
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current_col = col;
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current_keycode = kb_keycode(current_layer, current_row, current_col);
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exec_key();
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}
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}
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}
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// send the USB report (even if nothing's changed)
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usb_keyboard_send();
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usb_extra_consumer_send();
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// unset sticky keys if necessary
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if (layer_sticky_on && layer_sticky_done) {
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for (layer l=1; l < KB_LAYERS; l++) {
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if (layer_sticky[l]) {
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layer_disable(l);
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layer_sticky[l] = false;
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}
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}
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layer_sticky_on = false;
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layer_sticky_done = false;
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}
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if (mod_sticky && mod_sticky_done) {
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keyboard_modifier_keys &= ~mod_sticky;
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usb_keyboard_send();
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mod_sticky = 0;
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mod_sticky_done = false;
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}
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// debounce in ms; see keyswitch spec for necessary value
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_delay_ms(5);
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}
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}
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// ----------------------------------------------------------------------------
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// init functions
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// ----------------------------------------------------------------------------
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void init_hw() {
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kb_init();
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usb_init();
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while (!usb_configured());
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}
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void init_sticky() {
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for (layer l=1; l < KB_LAYERS; l++) {
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layer_sticky[l] = false;
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}
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layer_sticky_on = false;
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mod_sticky = 0;
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layer_sticky_done = false;
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mod_sticky_done = false;
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}
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void init_layers() {
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for (layer l=0; l < KB_LAYERS; l++) {
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layers_active[l] = false;
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}
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layers_active[0] = true;
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}
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// ----------------------------------------------------------------------------
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// layer functions
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// ----------------------------------------------------------------------------
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// find highest active layer
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layer highest_active_layer(layer offset) {
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if (offset < layers_top) {
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for (layer l = layers_top - offset; l > 0 && l < KB_LAYERS; l--) {
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if (layers_active[l]) { return l; }
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}
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}
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// the base layer is always active
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return 0;
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}
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// enable a layer
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void layer_enable(layer l) {
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if (l >= KB_LAYERS) { return; }
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layers_active[l] = true;
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if (l > layers_top) {
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layers_top = l;
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}
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}
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// disable a layer
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void layer_disable(layer l) {
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// base layer stays always on
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if (l >= KB_LAYERS || l == 0) { return; }
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layers_active[l] = false;
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if (l == layers_top) {
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layers_top = highest_active_layer(1);
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}
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}
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bool is_layer_keyfunc(keyfunc f) {
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if (f == &kbfun_layer_press_release || f == &kbfun_layer_sticky) {
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return true;
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}
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return false;
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}
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void layer_enable_upto(layer max_layer) {
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// FIXME clean this up
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// pressing a key implicitly activates all lower layers as well
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for (layer l=0; l <= KB_LAYERS; l++) {
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void (*key_function)(void) = kb_keyfunc_press(l, current_row, current_col);
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if (is_layer_keyfunc(key_function)) {
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layer enable_layer = (layer) kb_keycode(l, current_row, current_col);
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if (enable_layer <= max_layer) {
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layer_enable(enable_layer);
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}
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}
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}
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}
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// ----------------------------------------------------------------------------
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// layout info
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// ----------------------------------------------------------------------------
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keycode kb_keycode (layer l, u8 row, u8 col) { return (keycode) pgm_read_byte(&(_kb_layout[l][row][col])); }
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keyfunc kb_keyfunc_press (layer l, u8 row, u8 col) { return (keyfunc) pgm_read_word(&(_kb_layout_press[l][row][col])); }
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keyfunc kb_keyfunc_release (layer l, u8 row, u8 col) { return (keyfunc) pgm_read_word(&(_kb_layout_release[l][row][col])); }
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// ----------------------------------------------------------------------------
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// keyfunc primitives
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// ----------------------------------------------------------------------------
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// basic keypresses
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void _kbfun_normal_press_release(bool press, keycode key) {
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if (key == 0) { return; } // noop
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if (press) {
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for (u8 i=0; i < sizeof(keyboard_keys); i++) {
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if (keyboard_keys[i] == 0) {
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keyboard_keys[i] = key;
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return;
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}
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}
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} else {
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for (u8 i=0; i < sizeof(keyboard_keys); i++) {
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if (keyboard_keys[i] == key) {
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keyboard_keys[i] = 0;
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return;
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}
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}
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}
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}
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void _kbfun_mediakey_press_release(bool press, keycode key) {
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media_keycode media_key = _media_code_lookup(key);
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if (press) {
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consumer_key = media_key;
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} else {
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// only one media key can be pressed at a time, so only clear most recent one
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if (media_key == consumer_key) {
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consumer_key = 0;
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}
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}
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}
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void _kbfun_modifier_press_release(bool press, keycode key) {
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if (press) {
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keyboard_modifier_keys |= (1<<key);
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} else {
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keyboard_modifier_keys &= ~(1<<key);
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}
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}
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bool _kbfun_normal_is_pressed(keycode key) {
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for (u8 i=0; i < sizeof(keyboard_keys); i++) {
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if (keyboard_keys[i] == key) {
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return true;
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}
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}
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return false;
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}
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bool _kbfun_mediakey_is_pressed(keycode key) {
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return (consumer_key != 0);
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}
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bool _kbfun_modifier_is_pressed(keycode key) {
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return (keyboard_modifier_keys & (1<<key));
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}
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void _kbfun_normal_sticky_done() {
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layer_sticky_done = true;
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mod_sticky_done = true;
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}
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// ----------------------------------------------------------------------------
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// basic keyfuncs
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// ----------------------------------------------------------------------------
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// execute the keypress or keyrelease function (if it exists) of the key at the current possition
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void exec_key() {
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void (*key_function)(void) =
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( (current_is_pressed)
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? kb_keyfunc_press(current_layer, current_row, current_col)
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: kb_keyfunc_release(current_layer, current_row, current_col) );
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if (key_function) { (*key_function)(); }
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}
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// normal key
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void kbfun_normal_press_release() {
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_kbfun_normal_sticky_done();
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_kbfun_normal_press_release(current_is_pressed, current_keycode);
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}
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// media key
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void kbfun_mediakey_press_release() {
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_kbfun_normal_sticky_done();
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_kbfun_mediakey_press_release(current_is_pressed, current_keycode);
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}
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// modifier
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void kbfun_modifier_press_release() {
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layer_sticky_done = true;
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_kbfun_modifier_press_release(current_is_pressed, current_keycode);
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}
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// layer key
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void kbfun_layer_press_release() {
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layer_sticky_done = true; // don't disable sticky mods!
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if (current_is_pressed) {
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layer l = (layer) current_keycode;
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layer_enable_upto(l);
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} else {
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// letting go off a key releases *all* layers on that key
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for (layer l=0; l <= KB_LAYERS; l++) {
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void (*key_function)(void) = kb_keyfunc_release(l, current_row, current_col);
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if (is_layer_keyfunc(key_function)) {
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layer disable_layer = (layer) kb_keycode(l, current_row, current_col);
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layer_disable(disable_layer);
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}
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}
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}
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}
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// sticky layer key
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void kbfun_layer_sticky() {
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layer l = (layer) current_keycode;
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if (current_is_pressed) {
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layer_enable(l);
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layer_sticky_done = false;
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} else {
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if (layer_sticky_done) {
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layer_disable(l);
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} else {
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layer_sticky[l] = true;
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layer_sticky_on = true;
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layer_sticky_done = false;
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}
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}
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}
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// sticky modifier key
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void kbfun_modifier_sticky() {
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// TODO handle: sticky, then same modifier
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keycode mod = current_keycode;
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if (current_is_pressed) {
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kbfun_modifier_press_release();
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mod_sticky_done = false;
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} else {
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if (mod_sticky_done) {
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kbfun_modifier_press_release();
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} else {
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mod_sticky |= 1<<mod;
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mod_sticky_done = false;
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}
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}
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}
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// ----------------------------------------------------------------------------
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// combo keyfuncs
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// ----------------------------------------------------------------------------
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void _kbfun_combo_press_release(keycode combo_key) {
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_kbfun_modifier_press_release(current_is_pressed, combo_key);
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kbfun_normal_press_release();
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}
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void kbfun_shift_press_release() { _kbfun_combo_press_release(MOD_KEY_LeftShift); } // +shift
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void kbfun_control_press_release() { _kbfun_combo_press_release(MOD_KEY_LeftControl); } // +control
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void kbfun_alt_press_release() { _kbfun_combo_press_release(MOD_KEY_LeftAlt); } // +alt
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void kbfun_win_press_release() { _kbfun_combo_press_release(MOD_KEY_LeftGUI); } // +win
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// capslock
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void kbfun_capslock_press_release() {
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static u8 keys_pressed;
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static bool lshift_pressed;
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static bool rshift_pressed;
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keycode key = current_keycode;
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if (!current_is_pressed) { keys_pressed--; }
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// take care of the key that was actually pressed
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_kbfun_modifier_press_release(current_is_pressed, key);
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// take care of capslock (only on the press of the 2nd key)
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if (keys_pressed == 1 && current_is_pressed) {
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// save the state of left and right shift
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lshift_pressed = _kbfun_modifier_is_pressed(MOD_KEY_LeftShift);
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rshift_pressed = _kbfun_modifier_is_pressed(MOD_KEY_RightShift);
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// disable both
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_kbfun_modifier_press_release(false, MOD_KEY_LeftShift);
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_kbfun_modifier_press_release(false, MOD_KEY_RightShift);
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// press capslock, then release it
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_kbfun_normal_press_release(true, KEY_CapsLock); usb_keyboard_send();
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_kbfun_normal_press_release(false, KEY_CapsLock); usb_keyboard_send();
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// restore the state of left and right shift
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if (lshift_pressed) { _kbfun_modifier_press_release(true, MOD_KEY_LeftShift); }
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if (rshift_pressed) { _kbfun_modifier_press_release(true, MOD_KEY_RightShift); }
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}
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if (current_is_pressed) { keys_pressed++; }
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}
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