SDL video: Use a hardware surface and double buffering

[libpicofe.git] / in_sdl.c

/*
 * (C) Gražvydas "notaz" Ignotas, 2012
 *
 * This work is licensed under the terms of any of these licenses
 * (at your option):
 *  - GNU GPL, version 2 or later.
 *  - GNU LGPL, version 2.1 or later.
 *  - MAME license.
 * See the COPYING file in the top-level directory.
 */

#include <stdio.h>
#include <SDL.h>
#include "input.h"
#include "in_sdl.h"

#define IN_SDL_PREFIX "sdl:"
/* should be machine word for best performace */
typedef unsigned long keybits_t;
#define KEYBITS_WORD_BITS (sizeof(keybits_t) * 8)

struct in_sdl_state {
        SDL_Joystick *joy;
        int joy_id;
        int axis_keydown[2];
        keybits_t keystate[SDLK_LAST / KEYBITS_WORD_BITS + 1];
};

static void (*ext_event_handler)(void *event);

static const char * const in_sdl_keys[SDLK_LAST] = {
        [SDLK_BACKSPACE] = "backspace",
        [SDLK_TAB] = "tab",
        [SDLK_CLEAR] = "clear",
        [SDLK_RETURN] = "return",
        [SDLK_PAUSE] = "pause",
        [SDLK_ESCAPE] = "escape",
        [SDLK_SPACE] = "space",
        [SDLK_EXCLAIM]  = "!",
        [SDLK_QUOTEDBL]  = "\"",
        [SDLK_HASH]  = "#",
        [SDLK_DOLLAR]  = "$",
        [SDLK_AMPERSAND]  = "&",
        [SDLK_QUOTE] = "'",
        [SDLK_LEFTPAREN] = "(",
        [SDLK_RIGHTPAREN] = ")",
        [SDLK_ASTERISK] = "*",
        [SDLK_PLUS] = "+",
        [SDLK_COMMA] = ",",
        [SDLK_MINUS] = "-",
        [SDLK_PERIOD] = ".",
        [SDLK_SLASH] = "/",
        [SDLK_0] = "0",
        [SDLK_1] = "1",
        [SDLK_2] = "2",
        [SDLK_3] = "3",
        [SDLK_4] = "4",
        [SDLK_5] = "5",
        [SDLK_6] = "6",
        [SDLK_7] = "7",
        [SDLK_8] = "8",
        [SDLK_9] = "9",
        [SDLK_COLON] = ":",
        [SDLK_SEMICOLON] = ";",
        [SDLK_LESS] = "<",
        [SDLK_EQUALS] = "=",
        [SDLK_GREATER] = ">",
        [SDLK_QUESTION] = "?",
        [SDLK_AT] = "@",
        [SDLK_LEFTBRACKET] = "[",
        [SDLK_BACKSLASH] = "\\",
        [SDLK_RIGHTBRACKET] = "]",
        [SDLK_CARET] = "^",
        [SDLK_UNDERSCORE] = "_",
        [SDLK_BACKQUOTE] = "`",
        [SDLK_a] = "a",
        [SDLK_b] = "b",
        [SDLK_c] = "c",
        [SDLK_d] = "d",
        [SDLK_e] = "e",
        [SDLK_f] = "f",
        [SDLK_g] = "g",
        [SDLK_h] = "h",
        [SDLK_i] = "i",
        [SDLK_j] = "j",
        [SDLK_k] = "k",
        [SDLK_l] = "l",
        [SDLK_m] = "m",
        [SDLK_n] = "n",
        [SDLK_o] = "o",
        [SDLK_p] = "p",
        [SDLK_q] = "q",
        [SDLK_r] = "r",
        [SDLK_s] = "s",
        [SDLK_t] = "t",
        [SDLK_u] = "u",
        [SDLK_v] = "v",
        [SDLK_w] = "w",
        [SDLK_x] = "x",
        [SDLK_y] = "y",
        [SDLK_z] = "z",
        [SDLK_DELETE] = "delete",

        [SDLK_KP0] = "[0]",
        [SDLK_KP1] = "[1]",
        [SDLK_KP2] = "[2]",
        [SDLK_KP3] = "[3]",
        [SDLK_KP4] = "[4]",
        [SDLK_KP5] = "[5]",
        [SDLK_KP6] = "[6]",
        [SDLK_KP7] = "[7]",
        [SDLK_KP8] = "[8]",
        [SDLK_KP9] = "[9]",
        [SDLK_KP_PERIOD] = "[.]",
        [SDLK_KP_DIVIDE] = "[/]",
        [SDLK_KP_MULTIPLY] = "[*]",
        [SDLK_KP_MINUS] = "[-]",
        [SDLK_KP_PLUS] = "[+]",
        [SDLK_KP_ENTER] = "enter",
        [SDLK_KP_EQUALS] = "equals",

        [SDLK_UP] = "up",
        [SDLK_DOWN] = "down",
        [SDLK_RIGHT] = "right",
        [SDLK_LEFT] = "left",
        [SDLK_INSERT] = "insert",
        [SDLK_HOME] = "home",
        [SDLK_END] = "end",
        [SDLK_PAGEUP] = "page up",
        [SDLK_PAGEDOWN] = "page down",

        [SDLK_F1] = "f1",
        [SDLK_F2] = "f2",
        [SDLK_F3] = "f3",
        [SDLK_F4] = "f4",
        [SDLK_F5] = "f5",
        [SDLK_F6] = "f6",
        [SDLK_F7] = "f7",
        [SDLK_F8] = "f8",
        [SDLK_F9] = "f9",
        [SDLK_F10] = "f10",
        [SDLK_F11] = "f11",
        [SDLK_F12] = "f12",
        [SDLK_F13] = "f13",
        [SDLK_F14] = "f14",
        [SDLK_F15] = "f15",

        [SDLK_NUMLOCK] = "numlock",
        [SDLK_CAPSLOCK] = "caps lock",
        [SDLK_SCROLLOCK] = "scroll lock",
        [SDLK_RSHIFT] = "right shift",
        [SDLK_LSHIFT] = "left shift",
        [SDLK_RCTRL] = "right ctrl",
        [SDLK_LCTRL] = "left ctrl",
        [SDLK_RALT] = "right alt",
        [SDLK_LALT] = "left alt",
        [SDLK_RMETA] = "right meta",
        [SDLK_LMETA] = "left meta",
        [SDLK_LSUPER] = "left super",   /* "Windows" keys */
        [SDLK_RSUPER] = "right super",  
        [SDLK_MODE] = "alt gr",
        [SDLK_COMPOSE] = "compose",
};

static void in_sdl_probe(void)
{
        struct in_sdl_state *state;
        SDL_Joystick *joy;
        int i, joycount;
        char name[256];

        state = calloc(1, sizeof(*state));
        if (state == NULL) {
                fprintf(stderr, "in_sdl: OOM\n");
                return;
        }

        in_register(IN_SDL_PREFIX "keys", -1, state, SDLK_LAST,
                in_sdl_keys, 0);

        /* joysticks go here too */
        SDL_InitSubSystem(SDL_INIT_JOYSTICK);

        joycount = SDL_NumJoysticks();
        for (i = 0; i < joycount; i++) {
                joy = SDL_JoystickOpen(i);
                if (joy == NULL)
                        continue;

                state = calloc(1, sizeof(*state));
                if (state == NULL) {
                        fprintf(stderr, "in_sdl: OOM\n");
                        break;
                }
                state->joy = joy;
                state->joy_id = i;

                snprintf(name, sizeof(name), IN_SDL_PREFIX "%s", SDL_JoystickName(i));
                in_register(name, -1, state, SDLK_LAST, in_sdl_keys, 0);
        }

        if (joycount > 0)
                SDL_JoystickEventState(SDL_ENABLE);
}

static void in_sdl_free(void *drv_data)
{
        struct in_sdl_state *state = drv_data;

        if (state != NULL) {
                if (state->joy != NULL)
                        SDL_JoystickClose(state->joy);
                free(state);
        }
}

static const char * const *
in_sdl_get_key_names(int *count)
{
        *count = SDLK_LAST;
        return in_sdl_keys;
}

/* could use SDL_GetKeyState, but this gives better packing */
static void update_keystate(keybits_t *keystate, int sym, int is_down)
{
        keybits_t *ks_word, mask;

        mask = 1;
        mask <<= sym & (KEYBITS_WORD_BITS - 1);
        ks_word = keystate + sym / KEYBITS_WORD_BITS;
        if (is_down)
                *ks_word |= mask;
        else
                *ks_word &= ~mask;
}

static int handle_event(struct in_sdl_state *state, SDL_Event *event,
        int *kc_out, int *down_out)
{
        if (event->type != SDL_KEYDOWN && event->type != SDL_KEYUP)
                return -1;

        update_keystate(state->keystate, event->key.keysym.sym,
                event->type == SDL_KEYDOWN);
        if (kc_out != NULL)
                *kc_out = event->key.keysym.sym;
        if (down_out != NULL)
                *down_out = event->type == SDL_KEYDOWN;

        return 1;
}

static int handle_joy_event(struct in_sdl_state *state, SDL_Event *event,
        int *kc_out, int *down_out)
{
        int kc = -1, down = 0, ret = 0;

        /* TODO: remaining axis */
        switch (event->type) {
        case SDL_JOYAXISMOTION:
                if (event->jaxis.which != state->joy_id)
                        return -2;
                if (event->jaxis.axis > 1)
                        break;
                if (-16384 <= event->jaxis.value && event->jaxis.value <= 16384) {
                        kc = state->axis_keydown[event->jaxis.axis];
                        state->axis_keydown[event->jaxis.axis] = 0;
                        ret = 1;
                }
                else if (event->jaxis.value < -16384) {
                        kc = state->axis_keydown[event->jaxis.axis];
                        if (kc)
                                update_keystate(state->keystate, kc, 0);
                        kc = event->jaxis.axis ? SDLK_UP : SDLK_LEFT;
                        state->axis_keydown[event->jaxis.axis] = kc;
                        down = 1;
                        ret = 1;
                }
                else if (event->jaxis.value > 16384) {
                        kc = state->axis_keydown[event->jaxis.axis];
                        if (kc)
                                update_keystate(state->keystate, kc, 0);
                        kc = event->jaxis.axis ? SDLK_DOWN : SDLK_RIGHT;
                        state->axis_keydown[event->jaxis.axis] = kc;
                        down = 1;
                        ret = 1;
                }
                break;

        case SDL_JOYBUTTONDOWN:
        case SDL_JOYBUTTONUP:
                if (event->jbutton.which != state->joy_id)
                        return -2;
                kc = (int)event->jbutton.button + SDLK_WORLD_0;
                down = event->jbutton.state == SDL_PRESSED;
                ret = 1;
                break;
        default:
                return -1;
        }

        if (ret)
                update_keystate(state->keystate, kc, down);
        if (kc_out != NULL)
                *kc_out = kc;
        if (down_out != NULL)
                *down_out = down;

        return ret;
}

#define JOY_EVENTS (SDL_JOYAXISMOTIONMASK | SDL_JOYBALLMOTIONMASK | SDL_JOYHATMOTIONMASK \
                    | SDL_JOYBUTTONDOWNMASK | SDL_JOYBUTTONUPMASK)

static int collect_events(struct in_sdl_state *state, int *one_kc, int *one_down)
{
        SDL_Event events[4];
        Uint32 mask = state->joy ? JOY_EVENTS : (SDL_ALLEVENTS & ~JOY_EVENTS);
        int count, maxcount;
        int i, ret, retval = 0;
        int num_events, num_peeped_events;
        SDL_Event *event;

        maxcount = (one_kc != NULL) ? 1 : sizeof(events) / sizeof(events[0]);

        SDL_PumpEvents();

        num_events = SDL_PeepEvents(NULL, 0, SDL_PEEKEVENT, mask);

        for (num_peeped_events = 0; num_peeped_events < num_events; num_peeped_events += count) {
                count = SDL_PeepEvents(events, maxcount, SDL_GETEVENT, mask);
                if (count <= 0)
                        break;
                for (i = 0; i < count; i++) {
                        event = &events[i];
                        if (state->joy)
                                ret = handle_joy_event(state,
                                        event, one_kc, one_down);
                        else
                                ret = handle_event(state,
                                        event, one_kc, one_down);
                        if (ret < 0) {
                                switch (ret) {
                                        case -2:
                                                SDL_PushEvent(event);
                                                break;
                                        default:
                                                if (ext_event_handler != NULL)
                                                        ext_event_handler(event);
                                                break;
                                }
                                continue;
                        }

                        retval |= ret;
                        if (one_kc != NULL && ret)
                        {
                                // don't lose events other devices might want to handle
                                for (i++; i < count; i++)
                                        SDL_PushEvent(&events[i]);
                                goto out;
                        }
                }
        }

out:
        return retval;
}

static int in_sdl_update(void *drv_data, const int *binds, int *result)
{
        struct in_sdl_state *state = drv_data;
        keybits_t mask;
        int i, sym, bit, b;

        collect_events(state, NULL, NULL);

        for (i = 0; i < SDLK_LAST / KEYBITS_WORD_BITS + 1; i++) {
                mask = state->keystate[i];
                if (mask == 0)
                        continue;
                for (bit = 0; mask != 0; bit++, mask >>= 1) {
                        if ((mask & 1) == 0)
                                continue;
                        sym = i * KEYBITS_WORD_BITS + bit;

                        for (b = 0; b < IN_BINDTYPE_COUNT; b++)
                                result[b] |= binds[IN_BIND_OFFS(sym, b)];
                }
        }

        return 0;
}

static int in_sdl_update_keycode(void *drv_data, int *is_down)
{
        struct in_sdl_state *state = drv_data;
        int ret_kc = -1, ret_down = 0;

        collect_events(state, &ret_kc, &ret_down);

        if (is_down != NULL)
                *is_down = ret_down;

        return ret_kc;
}

struct menu_keymap {
        short key;
        short pbtn;
};

static const struct menu_keymap key_pbtn_map[] =
{
        { SDLK_UP,      PBTN_UP },
        { SDLK_DOWN,    PBTN_DOWN },
        { SDLK_LEFT,    PBTN_LEFT },
        { SDLK_RIGHT,   PBTN_RIGHT },
        /* XXX: maybe better set this from it's plat code somehow */
        { SDLK_RETURN,  PBTN_MOK },
        { SDLK_ESCAPE,  PBTN_MBACK },
        { SDLK_SEMICOLON,    PBTN_MA2 },
        { SDLK_QUOTE,        PBTN_MA3 },
        { SDLK_BACKSLASH,    PBTN_MENU },
        { SDLK_LEFTBRACKET,  PBTN_L },
        { SDLK_RIGHTBRACKET, PBTN_R },
};
#define KEY_PBTN_MAP_SIZE (sizeof(key_pbtn_map) / sizeof(key_pbtn_map[0]))

static const struct menu_keymap joybtn_pbtn_map[] =
{
        { SDLK_UP,      PBTN_UP },
        { SDLK_DOWN,    PBTN_DOWN },
        { SDLK_LEFT,    PBTN_LEFT },
        { SDLK_RIGHT,   PBTN_RIGHT },
        /* joystick */
        { SDLK_WORLD_0, PBTN_MOK },
        { SDLK_WORLD_1, PBTN_MBACK },
        { SDLK_WORLD_2, PBTN_MA2 },
        { SDLK_WORLD_3, PBTN_MA3 },
};
#define JOYBTN_PBTN_MAP_SIZE (sizeof(joybtn_pbtn_map) / sizeof(joybtn_pbtn_map[0]))

static int in_sdl_menu_translate(void *drv_data, int keycode, char *charcode)
{
        struct in_sdl_state *state = drv_data;
        const struct menu_keymap *map;
        int map_len;
        int ret = 0;
        int i;

        map = state->joy ? joybtn_pbtn_map : key_pbtn_map;
        map_len = state->joy ? JOYBTN_PBTN_MAP_SIZE : KEY_PBTN_MAP_SIZE;

        if (keycode < 0)
        {
                /* menu -> kc */
                keycode = -keycode;
                for (i = 0; i < map_len; i++)
                        if (map[i].pbtn == keycode)
                                return map[i].key;
        }
        else
        {
                for (i = 0; i < map_len; i++) {
                        if (map[i].key == keycode) {
                                ret = map[i].pbtn;
                                break;
                        }
                }

                if (charcode != NULL && (unsigned int)keycode < SDLK_LAST &&
                    in_sdl_keys[keycode] != NULL && in_sdl_keys[keycode][1] == 0)
                {
                        ret |= PBTN_CHAR;
                        *charcode = in_sdl_keys[keycode][0];
                }
        }

        return ret;
}

static const in_drv_t in_sdl_drv = {
        .prefix         = IN_SDL_PREFIX,
        .probe          = in_sdl_probe,
        .free           = in_sdl_free,
        .get_key_names  = in_sdl_get_key_names,
        .update         = in_sdl_update,
        .update_keycode = in_sdl_update_keycode,
        .menu_translate = in_sdl_menu_translate,
};

void in_sdl_init(const struct in_default_bind *defbinds,
                 void (*handler)(void *event))
{
        in_register_driver(&in_sdl_drv, defbinds);
        ext_event_handler = handler;
}