pcsx2/plugins/onepad_legacy/KeyStatus.cpp

/*  OnePAD - author: arcum42(@gmail.com)
 *  Copyright (C) 2011
 *
 *  Based on ZeroPAD, author zerofrog@gmail.com
 *  Copyright (C) 2006-2007
 *
 *  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, write to the Free Software
 *  Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA
 */

#include "KeyStatus.h"

void KeyStatus::Init()
{
    for (int pad = 0; pad < GAMEPAD_NUMBER; pad++)
    {
        m_button[pad] = 0xFFFF;
        m_internal_button_kbd[pad] = 0xFFFF;
        m_internal_button_joy[pad] = 0xFFFF;
        m_state_acces[pad] = false;

        for (int index = 0; index < MAX_KEYS; index++)
        {
            m_button_pressure[pad][index] = 0xFF;
            m_internal_button_pressure[pad][index] = 0xFF;
        }

        m_analog[pad].lx = m_analog_released_val;
        m_analog[pad].ly = m_analog_released_val;
        m_analog[pad].rx = m_analog_released_val;
        m_analog[pad].ry = m_analog_released_val;
        m_internal_analog_kbd[pad].lx = m_analog_released_val;
        m_internal_analog_kbd[pad].ly = m_analog_released_val;
        m_internal_analog_kbd[pad].rx = m_analog_released_val;
        m_internal_analog_kbd[pad].ry = m_analog_released_val;
        m_internal_analog_joy[pad].lx = m_analog_released_val;
        m_internal_analog_joy[pad].ly = m_analog_released_val;
        m_internal_analog_joy[pad].rx = m_analog_released_val;
        m_internal_analog_joy[pad].ry = m_analog_released_val;
    }
}

void KeyStatus::press(u32 pad, u32 index, s32 value)
{
    if (!IsAnalogKey(index))
    {
        m_internal_button_pressure[pad][index] = value;
        if (m_state_acces[pad])
            clear_bit(m_internal_button_kbd[pad], index);
        else
            clear_bit(m_internal_button_joy[pad], index);
    }
    else
    {
        // clamp value
        if (value > MAX_ANALOG_VALUE)
            value = MAX_ANALOG_VALUE;
        else if (value < -MAX_ANALOG_VALUE)
            value = -MAX_ANALOG_VALUE;

        //                          Left -> -- -> Right
        // Value range :        FFFF8002 -> 0  -> 7FFE
        // Force range :			  80 -> 0  -> 7F
        // Normal mode : expect value 0  -> 80 -> FF
        // Reverse mode: expect value FF -> 7F -> 0
        u8 force = (value / 256);
        if (analog_is_reversed(pad, index))
            analog_set(pad, index, m_analog_released_val - force);
        else
            analog_set(pad, index, m_analog_released_val + force);
    }
}

void KeyStatus::release(u32 pad, u32 index)
{
    if (!IsAnalogKey(index))
    {
        if (m_state_acces[pad])
            set_bit(m_internal_button_kbd[pad], index);
        else
            set_bit(m_internal_button_joy[pad], index);
    }
    else
    {
        analog_set(pad, index, m_analog_released_val);
    }
}

u16 KeyStatus::get(u32 pad)
{
    return m_button[pad];
}

void KeyStatus::analog_set(u32 pad, u32 index, u8 value)
{
    PADAnalog *m_internal_analog_ref;
    if (m_state_acces[pad])
        m_internal_analog_ref = &m_internal_analog_kbd[pad];
    else
        m_internal_analog_ref = &m_internal_analog_joy[pad];

    switch (index)
    {
        case PAD_R_LEFT:
        case PAD_R_RIGHT:
            m_internal_analog_ref->rx = value;
            break;

        case PAD_R_DOWN:
        case PAD_R_UP:
            m_internal_analog_ref->ry = value;
            break;

        case PAD_L_LEFT:
        case PAD_L_RIGHT:
            m_internal_analog_ref->lx = value;
            break;

        case PAD_L_DOWN:
        case PAD_L_UP:
            m_internal_analog_ref->ly = value;
            break;

        default:
            break;
    }
}

bool KeyStatus::analog_is_reversed(u32 pad, u32 index)
{
    switch (index)
    {
        case PAD_L_RIGHT:
        case PAD_L_LEFT:
            return (conf->pad_options[pad].reverse_lx);

        case PAD_R_LEFT:
        case PAD_R_RIGHT:
            return (conf->pad_options[pad].reverse_rx);

        case PAD_L_UP:
        case PAD_L_DOWN:
            return (conf->pad_options[pad].reverse_ly);

        case PAD_R_DOWN:
        case PAD_R_UP:
            return (conf->pad_options[pad].reverse_ry);

        default:
            return false;
    }
}

u8 KeyStatus::get(u32 pad, u32 index)
{
    switch (index)
    {
        case PAD_R_LEFT:
        case PAD_R_RIGHT:
            return m_analog[pad].rx;

        case PAD_R_DOWN:
        case PAD_R_UP:
            return m_analog[pad].ry;

        case PAD_L_LEFT:
        case PAD_L_RIGHT:
            return m_analog[pad].lx;

        case PAD_L_DOWN:
        case PAD_L_UP:
            return m_analog[pad].ly;

        default:
            return m_button_pressure[pad][index];
    }
}

u8 KeyStatus::analog_merge(u8 kbd, u8 joy)
{
    if (kbd != m_analog_released_val)
        return kbd;
    else
        return joy;
}

void KeyStatus::commit_status(u32 pad)
{
    m_button[pad] = m_internal_button_kbd[pad] & m_internal_button_joy[pad];

    for (int index = 0; index < MAX_KEYS; index++)
        m_button_pressure[pad][index] = m_internal_button_pressure[pad][index];

    m_analog[pad].lx = analog_merge(m_internal_analog_kbd[pad].lx, m_internal_analog_joy[pad].lx);
    m_analog[pad].ly = analog_merge(m_internal_analog_kbd[pad].ly, m_internal_analog_joy[pad].ly);
    m_analog[pad].rx = analog_merge(m_internal_analog_kbd[pad].rx, m_internal_analog_joy[pad].rx);
    m_analog[pad].ry = analog_merge(m_internal_analog_kbd[pad].ry, m_internal_analog_joy[pad].ry);
}