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/*
Copyright 2013 Jun Wako <wakojun@gmail.com>

This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 2 of the License, or
(at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program.  If not, see <http://www.gnu.org/licenses/>.
*/
#include "host.h"
#include "report.h"
#include "debug.h"
#include "action_util.h"
#include "action_layer.h"
#include "timer.h"
#include "keycode_config.h"

extern keymap_config_t keymap_config;


static inline void add_key_byte(uint8_t code);
static inline void del_key_byte(uint8_t code);
#ifdef NKRO_ENABLE
static inline void add_key_bit(uint8_t code);
static inline void del_key_bit(uint8_t code);
#endif

static uint8_t real_mods = 0;
static uint8_t weak_mods = 0;
static uint8_t macro_mods = 0;

#ifdef USB_6KRO_ENABLE
#define RO_ADD(a, b) ((a + b) % KEYBOARD_REPORT_KEYS)
#define RO_SUB(a, b) ((a - b + KEYBOARD_REPORT_KEYS) % KEYBOARD_REPORT_KEYS)
#define RO_INC(a) RO_ADD(a, 1)
#define RO_DEC(a) RO_SUB(a, 1)
static int8_t cb_head = 0;
static int8_t cb_tail = 0;
static int8_t cb_count = 0;
#endif

// TODO: pointer variable is not needed
//report_keyboard_t keyboard_report = {};
report_keyboard_t *keyboard_report = &(report_keyboard_t){};

#ifndef NO_ACTION_ONESHOT
static int8_t oneshot_mods = 0;
static int8_t oneshot_locked_mods = 0;
int8_t get_oneshot_locked_mods(void) { return oneshot_locked_mods; }
void set_oneshot_locked_mods(int8_t mods) { oneshot_locked_mods = mods; }
void clear_oneshot_locked_mods(void) { oneshot_locked_mods = 0; }
#if (defined(ONESHOT_TIMEOUT) && (ONESHOT_TIMEOUT > 0))
static int16_t oneshot_time = 0;
inline bool has_oneshot_mods_timed_out() {
  return TIMER_DIFF_16(timer_read(), oneshot_time) >= ONESHOT_TIMEOUT;
}
#endif
#endif

/* oneshot layer */
#ifndef NO_ACTION_ONESHOT
/* oneshot_layer_data bits
* LLLL LSSS
* where:
*   L => are layer bits
*   S => oneshot state bits
*/
static int8_t oneshot_layer_data = 0;

inline uint8_t get_oneshot_layer(void) { return oneshot_layer_data >> 3; }
inline uint8_t get_oneshot_layer_state(void) { return oneshot_layer_data & 0b111; }

#if (defined(ONESHOT_TIMEOUT) && (ONESHOT_TIMEOUT > 0))
static int16_t oneshot_layer_time = 0;
inline bool has_oneshot_layer_timed_out() {
    return TIMER_DIFF_16(timer_read(), oneshot_layer_time) >= ONESHOT_TIMEOUT &&
        !(get_oneshot_layer_state() & ONESHOT_TOGGLED);
}
#endif

/* Oneshot layer */
void set_oneshot_layer(uint8_t layer, uint8_t state)
{
    oneshot_layer_data = layer << 3 | state;
    layer_on(layer);
#if (defined(ONESHOT_TIMEOUT) && (ONESHOT_TIMEOUT > 0))
    oneshot_layer_time = timer_read();
#endif
}
void reset_oneshot_layer(void) {
    oneshot_layer_data = 0;
#if (defined(ONESHOT_TIMEOUT) && (ONESHOT_TIMEOUT > 0))
    oneshot_layer_time = 0;
#endif
}
void clear_oneshot_layer_state(oneshot_fullfillment_t state)
{
    uint8_t start_state = oneshot_layer_data;
    oneshot_layer_data &= ~state;
    if (!get_oneshot_layer_state() && start_state != oneshot_layer_data) {
        layer_off(get_oneshot_layer());
#if (defined(ONESHOT_TIMEOUT) && (ONESHOT_TIMEOUT > 0))
    oneshot_layer_time = 0;
#endif
    }
}
bool is_oneshot_layer_active(void)
{
    return get_oneshot_layer_state();
}
#endif

void send_keyboard_report(void) {
    keyboard_report->mods  = real_mods;
    keyboard_report->mods |= weak_mods;
    keyboard_report->mods |= macro_mods;
#ifndef NO_ACTION_ONESHOT
    if (oneshot_mods) {
#if (defined(ONESHOT_TIMEOUT) && (ONESHOT_TIMEOUT > 0))
        if (has_oneshot_mods_timed_out()) {
            dprintf("Oneshot: timeout\n");
            clear_oneshot_mods();
        }
#endif
        keyboard_report->mods |= oneshot_mods;
        if (has_anykey()) {
            clear_oneshot_mods();
        }
    }

#endif
    host_keyboard_send(keyboard_report);
}

/* key */
void add_key(uint8_t key)
{
#ifdef NKRO_ENABLE
    if (keyboard_protocol && keymap_config.nkro) {
        add_key_bit(key);
        return;
    }
#endif
    add_key_byte(key);
}

void del_key(uint8_t key)
{
#ifdef NKRO_ENABLE
    if (keyboard_protocol && keymap_config.nkro) {
        del_key_bit(key);
        return;
    }
#endif
    del_key_byte(key);
}

void clear_keys(void)
{
    // not clear mods
    for (int8_t i = 1; i < KEYBOARD_REPORT_SIZE; i++) {
        keyboard_report->raw[i] = 0;
    }
}


/* modifier */
uint8_t get_mods(void) { return real_mods; }
void add_mods(uint8_t mods) { real_mods |= mods; }
void del_mods(uint8_t mods) { real_mods &= ~mods; }
void set_mods(uint8_t mods) { real_mods = mods; }
void clear_mods(void) { real_mods = 0; }

/* weak modifier */
uint8_t get_weak_mods(void) { return weak_mods; }
void add_weak_mods(uint8_t mods) { weak_mods |= mods; }
void del_weak_mods(uint8_t mods) { weak_mods &= ~mods; }
void set_weak_mods(uint8_t mods) { weak_mods = mods; }
void clear_weak_mods(void) { weak_mods = 0; }

/* macro modifier */
uint8_t get_macro_mods(void) { return macro_mods; }
void add_macro_mods(uint8_t mods) { macro_mods |= mods; }
void del_macro_mods(uint8_t mods) { macro_mods &= ~mods; }
void set_macro_mods(uint8_t mods) { macro_mods = mods; }
void clear_macro_mods(void) { macro_mods = 0; }

/* Oneshot modifier */
#ifndef NO_ACTION_ONESHOT
void set_oneshot_mods(uint8_t mods)
{
    oneshot_mods = mods;
#if (defined(ONESHOT_TIMEOUT) && (ONESHOT_TIMEOUT > 0))
    oneshot_time = timer_read();
#endif
}
void clear_oneshot_mods(void)
{
    oneshot_mods = 0;
#if (defined(ONESHOT_TIMEOUT) && (ONESHOT_TIMEOUT > 0))
    oneshot_time = 0;
#endif
}
uint8_t get_oneshot_mods(void)
{
    return oneshot_mods;
}
#endif

/*
 * inspect keyboard state
 */
uint8_t has_anykey(void)
{
    uint8_t cnt = 0;
    for (uint8_t i = 1; i < KEYBOARD_REPORT_SIZE; i++) {
        if (keyboard_report->raw[i])
            cnt++;
    }
    return cnt;
}

uint8_t has_anymod(void)
{
    return bitpop(real_mods);
}

uint8_t get_first_key(void)
{
#ifdef NKRO_ENABLE
    if (keyboard_protocol && keymap_config.nkro) {
        uint8_t i = 0;
        for (; i < KEYBOARD_REPORT_BITS && !keyboard_report->nkro.bits[i]; i++)
            ;
        return i<<3 | biton(keyboard_report->nkro.bits[i]);
    }
#endif
#ifdef USB_6KRO_ENABLE
    uint8_t i = cb_head;
    do {
        if (keyboard_report->keys[i] != 0) {
            break;
        }
        i = RO_INC(i);
    } while (i != cb_tail);
    return keyboard_report->keys[i];
#else
    return keyboard_report->keys[0];
#endif
}



/* local functions */
static inline void add_key_byte(uint8_t code)
{
#ifdef USB_6KRO_ENABLE
    int8_t i = cb_head;
    int8_t empty = -1;
    if (cb_count) {
        do {
            if (keyboard_report->keys[i] == code) {
                return;
            }
            if (empty == -1 && keyboard_report->keys[i] == 0) {
                empty = i;
            }
            i = RO_INC(i);
        } while (i != cb_tail);
        if (i == cb_tail) {
            if (cb_tail == cb_head) {
                // buffer is full
                if (empty == -1) {
                    // pop head when has no empty space
                    cb_head = RO_INC(cb_head);
                    cb_count--;
                }
                else {
                    // left shift when has empty space
                    uint8_t offset = 1;
                    i = RO_INC(empty);
                    do {
                        if (keyboard_report->keys[i] != 0) {
                            keyboard_report->keys[empty] = keyboard_report->keys[i];
                            keyboard_report->keys[i] = 0;
                            empty = RO_INC(empty);
                        }
                        else {
                            offset++;
                        }
                        i = RO_INC(i);
                    } while (i != cb_tail);
                    cb_tail = RO_SUB(cb_tail, offset);
                }
            }
        }
    }
    // add to tail
    keyboard_report->keys[cb_tail] = code;
    cb_tail = RO_INC(cb_tail);
    cb_count++;
#else
    int8_t i = 0;
    int8_t empty = -1;
    for (; i < KEYBOARD_REPORT_KEYS; i++) {
        if (keyboard_report->keys[i] == code) {
            break;
        }
        if (empty == -1 && keyboard_report->keys[i] == 0) {
            empty = i;
        }
    }
    if (i == KEYBOARD_REPORT_KEYS) {
        if (empty != -1) {
            keyboard_report->keys[empty] = code;
        }
    }
#endif
}

static inline void del_key_byte(uint8_t code)
{
#ifdef USB_6KRO_ENABLE
    uint8_t i = cb_head;
    if (cb_count) {
        do {
            if (keyboard_report->keys[i] == code) {
                keyboard_report->keys[i] = 0;
                cb_count--;
                if (cb_count == 0) {
                    // reset head and tail
                    cb_tail = cb_head = 0;
                }
                if (i == RO_DEC(cb_tail)) {
                    // left shift when next to tail
                    do {
                        cb_tail = RO_DEC(cb_tail);
                        if (keyboard_report->keys[RO_DEC(cb_tail)] != 0) {
                            break;
                        }
                    } while (cb_tail != cb_head);
                }
                break;
            }
            i = RO_INC(i);
        } while (i != cb_tail);
    }
#else
    for (uint8_t i = 0; i < KEYBOARD_REPORT_KEYS; i++) {
        if (keyboard_report->keys[i] == code) {
            keyboard_report->keys[i] = 0;
        }
    }
#endif
}

#ifdef NKRO_ENABLE
static inline void add_key_bit(uint8_t code)
{
    if ((code>>3) < KEYBOARD_REPORT_BITS) {
        keyboard_report->nkro.bits[code>>3] |= 1<<(code&7);
    } else {
        dprintf("add_key_bit: can't add: %02X\n", code);
    }
}

static inline void del_key_bit(uint8_t code)
{
    if ((code>>3) < KEYBOARD_REPORT_BITS) {
        keyboard_report->nkro.bits[code>>3] &= ~(1<<(code&7));
    } else {
        dprintf("del_key_bit: can't del: %02X\n", code);
    }
}
#endif