i2c_puppet-Linux/app/keyboard.c

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#include "app_config.h"
#include "fifo.h"
#include "keyboard.h"
#include "reg.h"
#include <stdio.h> // BGB
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#include <pico/stdlib.h>
#define LIST_SIZE 10 // size of the list keeping track of all the pressed keys
struct entry
{
char chr;
char alt;
enum key_mod mod;
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};
struct list_item
{
const struct entry *p_entry;
uint32_t hold_start_time;
enum key_state state;
bool mods[KEY_MOD_ID_LAST];
char effective_key;
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};
static const uint8_t row_pins[NUM_OF_ROWS] =
{
PINS_ROWS
};
static const uint8_t col_pins[NUM_OF_COLS] =
{
PINS_COLS
};
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wmissing-field-initializers"
static const struct entry kbd_entries[][NUM_OF_COLS] =
{
{ { KEY_JOY_CENTER }, { 'W', '1' }, { 'G', '/' }, { 'S', '4' }, { 'L', '"' }, { 'H' , ':' } },
{ { }, { 'Q', '#' }, { 'R', '3' }, { 'E', '2' }, { 'O', '+' }, { 'U', '_' } },
{ { KEY_BTN_LEFT1 }, { '~', '0' }, { 'F', '6' }, { .mod = KEY_MOD_ID_SHL }, { 'K', '\'' }, { 'J', ';' } },
{ { }, { ' ', '\t' }, { 'C', '9' }, { 'Z', '7' }, { 'M', '.' }, { 'N', ',' } },
{ { KEY_BTN_LEFT2 }, { .mod = KEY_MOD_ID_SYM }, { 'T', '(' }, { 'D', '5' }, { 'I', '-' }, { 'Y', ')' } },
{ { KEY_BTN_RIGHT1 }, { .mod = KEY_MOD_ID_ALT }, { 'V', '?' }, { 'X', '8' }, { '$', '`' }, { 'B', '!' } },
{ { }, { 'A', '*' }, { .mod = KEY_MOD_ID_SHR }, { 'P', '@' }, { '\b' }, { '\n', '|' } },
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};
#if NUM_OF_BTNS > 0
static const struct entry btn_entries[NUM_OF_BTNS] =
{
BTN_KEYS
};
static const uint8_t btn_pins[NUM_OF_BTNS] =
{
PINS_BTNS
};
#endif
#pragma GCC diagnostic pop
static struct
{
struct key_lock_callback *lock_callbacks;
struct key_callback *key_callbacks;
struct list_item list[LIST_SIZE];
bool mods[KEY_MOD_ID_LAST];
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bool capslock_changed;
bool capslock;
bool numlock_changed;
bool numlock;
} self;
static void transition_to(struct list_item * const p_item, const enum key_state next_state)
{
const struct entry * const p_entry = p_item->p_entry;
p_item->state = next_state;
if (!p_entry)
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return;
if (p_item->effective_key == '\0') {
char key = p_entry->chr;
switch (p_entry->mod) {
case KEY_MOD_ID_ALT:
if (reg_is_bit_set(REG_ID_CFG, CFG_REPORT_MODS))
key = KEY_MOD_ALT;
break;
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case KEY_MOD_ID_SHL:
if (reg_is_bit_set(REG_ID_CFG, CFG_REPORT_MODS))
key = KEY_MOD_SHL;
break;
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case KEY_MOD_ID_SHR:
if (reg_is_bit_set(REG_ID_CFG, CFG_REPORT_MODS))
key = KEY_MOD_SHR;
break;
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case KEY_MOD_ID_SYM:
if (reg_is_bit_set(REG_ID_CFG, CFG_REPORT_MODS))
key = KEY_MOD_SYM;
break;
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default:
{
if (reg_is_bit_set(REG_ID_CFG, CFG_USE_MODS)) {
const bool shift = (self.mods[KEY_MOD_ID_SHL] || self.mods[KEY_MOD_ID_SHR]) | self.capslock;
const bool alt = self.mods[KEY_MOD_ID_ALT] | self.numlock;
// const bool is_button = (key <= KEY_BTN_RIGHT1) || ((key >= KEY_BTN_LEFT2) && (key <= KEY_BTN_RIGHT2));
const bool is_button = ((key == KEY_BTN_RIGHT1)
|| (key == KEY_BTN_RIGHT2)
|| (key == KEY_BTN_LEFT1)
|| (key == KEY_BTN_LEFT2));
const bool control = self.mods[KEY_MOD_ID_SYM];
if (is_button) {
switch (key) {
case KEY_BTN_LEFT1:
if (alt) {
key = '>';
} else if (shift) {
key = '<';
} else if (control) {
key = 'x';
} else {
key =0x1B; // ESC
}
break;
case KEY_BTN_LEFT2:
if (alt) {
key = ']';
} else if (shift) {
key = '[';
} else if (control) {
key ='x';
} else {
key = '%';
}
break;
case KEY_BTN_RIGHT1:
if (alt) {
key = '}';
} else if (shift) {
key = '{';
} else if (control) {
key = 'x';
} else {
key = '=';
}
break;
case KEY_BTN_RIGHT2:
if (alt) {
key = '&';
} else if (shift) {
key = '^';
} else if (control) {
key = 'x'; // TODO
} else {
key = '\\';
}
break;
default:
// printf(" ERROR: Illegal key: %d\n", key);
;
}
} else if (alt) {
printf(" alt \n");
key = p_entry->alt;
} else if (key >= 'A' && key <= 'Z') {
printf(" letter\n");
if (control) { // If the SYM key is held down, it's a control key
key = key - 0x40;
} else if (!shift) { // lower case letter
key = (key + ' ');
} else {
// it's an uppercase letter - do nothing
}
}
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}
break;
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}
}
p_item->effective_key = key;
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}
if (p_item->effective_key == '\0')
return;
keyboard_inject_event(p_item->effective_key, next_state);
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}
static void next_item_state(struct list_item * const p_item, const bool pressed)
{
switch (p_item->state) {
case KEY_STATE_IDLE:
if (pressed) {
if (p_item->p_entry->mod != KEY_MOD_ID_NONE)
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self.mods[p_item->p_entry->mod] = true;
if (!self.capslock_changed && self.mods[KEY_MOD_ID_SHR] && self.mods[KEY_MOD_ID_ALT]) {
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self.capslock = true;
self.capslock_changed = true;
}
if (!self.numlock_changed && self.mods[KEY_MOD_ID_SHL] && self.mods[KEY_MOD_ID_ALT]) {
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self.numlock = true;
self.numlock_changed = true;
}
if (!self.capslock_changed && (self.mods[KEY_MOD_ID_SHL] || self.mods[KEY_MOD_ID_SHR])) {
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self.capslock = false;
self.capslock_changed = true;
}
if (!self.numlock_changed && (self.mods[KEY_MOD_ID_SHL] || self.mods[KEY_MOD_ID_SHR])) {
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self.numlock = false;
self.numlock_changed = true;
}
if (!self.mods[KEY_MOD_ID_ALT]) {
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self.capslock_changed = false;
self.numlock_changed = false;
}
if (self.lock_callbacks && (self.capslock_changed || self.numlock_changed)) {
struct key_lock_callback *cb = self.lock_callbacks;
while (cb) {
cb->func(self.capslock_changed, self.numlock_changed);
cb = cb->next;
}
}
transition_to(p_item, KEY_STATE_PRESSED);
p_item->hold_start_time = to_ms_since_boot(get_absolute_time());
}
break;
case KEY_STATE_PRESSED:
if ((to_ms_since_boot(get_absolute_time()) - p_item->hold_start_time) > (reg_get_value(REG_ID_HLD) * 10)) {
transition_to(p_item, KEY_STATE_HOLD);
} else if(!pressed) {
transition_to(p_item, KEY_STATE_RELEASED);
}
break;
case KEY_STATE_HOLD:
if (!pressed)
transition_to(p_item, KEY_STATE_RELEASED);
break;
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case KEY_STATE_RELEASED:
{
if (p_item->p_entry->mod != KEY_MOD_ID_NONE)
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self.mods[p_item->p_entry->mod] = false;
p_item->p_entry = NULL;
p_item->effective_key = '\0';
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transition_to(p_item, KEY_STATE_IDLE);
break;
}
}
}
static int64_t timer_task(alarm_id_t id, void *user_data)
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{
(void)id;
(void)user_data;
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for (uint32_t c = 0; c < NUM_OF_COLS; ++c) {
gpio_pull_up(col_pins[c]);
gpio_put(col_pins[c], 0);
gpio_set_dir(col_pins[c], GPIO_OUT);
for (uint32_t r = 0; r < NUM_OF_ROWS; ++r) {
const bool pressed = (gpio_get(row_pins[r]) == 0);
const int32_t key_idx = (int32_t)((r * NUM_OF_COLS) + c);
int32_t list_idx = -1;
for (int32_t i = 0; i < LIST_SIZE; ++i) {
if (self.list[i].p_entry != &((const struct entry*)kbd_entries)[key_idx])
continue;
list_idx = i;
break;
}
if (list_idx > -1) {
next_item_state(&self.list[list_idx], pressed);
continue;
}
if (!pressed)
continue;
for (uint32_t i = 0 ; i < LIST_SIZE; ++i) {
if (self.list[i].p_entry != NULL)
continue;
self.list[i].p_entry = &((const struct entry*)kbd_entries)[key_idx];
self.list[i].effective_key = '\0';
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self.list[i].state = KEY_STATE_IDLE;
next_item_state(&self.list[i], pressed);
break;
}
}
gpio_put(col_pins[c], 1);
gpio_disable_pulls(col_pins[c]);
gpio_set_dir(col_pins[c], GPIO_IN);
}
#if NUM_OF_BTNS > 0
for (uint32_t b = 0; b < NUM_OF_BTNS; ++b) {
const bool pressed = (gpio_get(btn_pins[b]) == 0);
int32_t list_idx = -1;
for (int32_t i = 0; i < LIST_SIZE; ++i) {
if (self.list[i].p_entry != &((const struct entry*)btn_entries)[b])
continue;
list_idx = i;
break;
}
if (list_idx > -1) {
next_item_state(&self.list[list_idx], pressed);
continue;
}
if (!pressed)
continue;
for (uint32_t i = 0 ; i < LIST_SIZE; ++i) {
if (self.list[i].p_entry != NULL)
continue;
self.list[i].p_entry = &((const struct entry*)btn_entries)[b];
self.list[i].effective_key = '\0';
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self.list[i].state = KEY_STATE_IDLE;
next_item_state(&self.list[i], pressed);
break;
}
}
#endif
// negative value means interval since last alarm time
return -(reg_get_value(REG_ID_FRQ) * 1000);
}
void keyboard_inject_event(char key, enum key_state state)
{
const struct fifo_item item = { key, state };
if (!fifo_enqueue(item)) {
if (reg_is_bit_set(REG_ID_CFG, CFG_OVERFLOW_INT))
reg_set_bit(REG_ID_INT, INT_OVERFLOW);
if (reg_is_bit_set(REG_ID_CFG, CFG_OVERFLOW_ON))
fifo_enqueue_force(item);
}
struct key_callback *cb = self.key_callbacks;
while (cb) {
cb->func(key, state);
cb = cb->next;
}
}
bool keyboard_is_key_down(char key)
{
for (int32_t i = 0; i < LIST_SIZE; ++i) {
struct list_item *item = &self.list[i];
if (item->p_entry == NULL)
continue;
if ((item->state != KEY_STATE_PRESSED) && (item->state != KEY_STATE_HOLD))
continue;
if (item->effective_key != key)
continue;
return true;
}
return false;
}
bool keyboard_is_mod_on(enum key_mod mod)
{
return self.mods[mod];
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}
void keyboard_add_key_callback(struct key_callback *callback)
{
// first callback
if (!self.key_callbacks) {
self.key_callbacks = callback;
return;
}
// find last and insert after
struct key_callback *cb = self.key_callbacks;
while (cb->next)
cb = cb->next;
cb->next = callback;
}
void keyboard_add_lock_callback(struct key_lock_callback *callback)
{
// first callback
if (!self.lock_callbacks) {
self.lock_callbacks = callback;
return;
}
// find last and insert after
struct key_lock_callback *cb = self.lock_callbacks;
while (cb->next)
cb = cb->next;
cb->next = callback;
}
bool keyboard_get_capslock(void)
{
return self.capslock;
}
bool keyboard_get_numlock(void)
{
return self.numlock;
}
void keyboard_init(void)
{
for (int i = 0; i < KEY_MOD_ID_LAST; ++i)
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self.mods[i] = false;
// rows
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for (uint32_t i = 0; i < NUM_OF_ROWS; ++i) {
gpio_init(row_pins[i]);
gpio_pull_up(row_pins[i]);
gpio_set_dir(row_pins[i], GPIO_IN);
}
// cols
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for(uint32_t i = 0; i < NUM_OF_COLS; ++i) {
gpio_init(col_pins[i]);
gpio_set_dir(col_pins[i], GPIO_IN);
}
// btns
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#if NUM_OF_BTNS > 0
for(uint32_t i = 0; i < NUM_OF_BTNS; ++i) {
gpio_init(btn_pins[i]);
gpio_pull_up(btn_pins[i]);
gpio_set_dir(btn_pins[i], GPIO_IN);
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}
#endif
add_alarm_in_ms(reg_get_value(REG_ID_FRQ), timer_task, NULL, true);
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}