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// Emacs style mode select   -*- C++ -*- 
//-----------------------------------------------------------------------------
//
// Copyright(C) 1993-1996 Id Software, Inc.
// Copyright(C) 1993-2008 Raven Software
//
// 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., 59 Temple Place - Suite 330, Boston, MA
// 02111-1307, USA.
//
//-----------------------------------------------------------------------------
// I_cyber.c

#include <dos.h>
#include <stdlib.h>


/*
====================================================

Doom control structure

The keybaord and joystick will add to the values set by the cyberman,
to a maximum of 0x19000 for forwardmove and sidemove.  Angleturn is
not bounded at all.

parm                    normal          fast
-----           ------          ----
forwardmove             0xc800          0x19000
sidemove                0xc000          0x14000
angleturn               0x2800000       0x5000000

The keyboard and joystick have a 1/3 second slow turn of 0x1400000 under
normal speed to help aiming.



====================================================
*/

typedef struct
{
    char forwardmove;           // *2048 for move
    char sidemove;              // *2048 for move
    short angleturn;            // <<16 for angle delta
    short consistancy;          // checks for net game
    unsigned char chatchar;
    unsigned char buttons;
} ticcmd_t;

#define BT_ATTACK               1
#define BT_USE                  2
#define BT_CHANGE               4       // if true, the next 3 bits hold weapon num
#define BT_WEAPONMASK   (8+16+32)
#define BT_WEAPONSHIFT  3



//==================================================
//
// CyberMan detection and usage info
//
//==================================================
#define DPMI_INT        0x31
#define MOUSE_INT       0x33

#define DOSMEMSIZE      64      // enough for any SWIFT structure

typedef struct
{
    short x;
    short y;
    short z;
    short pitch;
    short roll;
    short yaw;
    short buttons;
} SWIFT_3DStatus;

// DPMI real mode interrupt structure
static struct rminfo
{
    long EDI;
    long ESI;
    long EBP;
    long reserved_by_system;
    long EBX;
    long EDX;
    long ECX;
    long EAX;
    short flags;
    short ES, DS, FS, GS, IP, CS, SP, SS;
} RMI;

typedef struct
{
    unsigned char deviceType;
    unsigned char majorVersion;
    unsigned char minorVersion;
    unsigned char absRelFlags;
    unsigned char centeringFlags;
    unsigned char reserved[5];
} StaticDeviceData;

// values for deviceType:
#define DEVTYPE_CYBERMAN        1

short selector;
unsigned short segment;         // segment of DOS memory block
SWIFT_3DStatus *cyberstat;
int isCyberPresent;             // is CyberMan present?


static union REGS regs;
static struct SREGS sregs;


extern int mousepresent;

//===========================================================
//
// I_StartupCyberMan
//
// If a cyberman is present, init it and set isCyberPresent to 1
//===========================================================
void I_StartupCyberMan(void)
{
    StaticDeviceData *pbuf;
    int success = 0;

    isCyberPresent = 0;

    cyberstat = (SWIFT_3DStatus *) I_AllocLow(DOSMEMSIZE);
    segment = (int) cyberstat >> 4;

    pbuf = (StaticDeviceData *) cyberstat;
    memset(pbuf, 0, sizeof(StaticDeviceData));

    // Use DPMI call 300h to issue mouse interrupt
    memset(&RMI, 0, sizeof(RMI));
    RMI.EAX = 0x53C1;           // SWIFT: Get Static Device Data
    RMI.ES = segment;
    RMI.EDX = 0;
    memset(&sregs, 0, sizeof(sregs));
    regs.w.ax = 0x0300;         // DPMI: simulate interrupt
    regs.w.bx = MOUSE_INT;
    regs.w.cx = 0;
    regs.x.edi = FP_OFF(&RMI);
    sregs.es = FP_SEG(&RMI);
    int386x(DPMI_INT, &regs, &regs, &sregs);

    if ((short) RMI.EAX != 1)
    {
        // SWIFT functions not present
        tprintf
            ("CyberMan: Wrong mouse driver - no SWIFT support (AX=%04x).\n",
             (unsigned) (short) RMI.EAX);
    }
    else if (pbuf->deviceType != DEVTYPE_CYBERMAN)
    {
        // no SWIFT device, or not CyberMan
        if (pbuf->deviceType == 0)
        {
            tprintf("CyberMan: no SWIFT device connected.\n");
        }
        else
        {
            tprintf("CyberMan: SWIFT device is not a CyberMan! (type=%d)\n",
                    pbuf->deviceType);
        }
    }
    else
    {
        tprintf("CyberMan: CyberMan %d.%02d connected.\n",
                pbuf->majorVersion, pbuf->minorVersion);
        isCyberPresent = 1;
        mousepresent = 0;
    }
}



/*
===============
=
= I_ReadCyberCmds
=
===============
*/


int oldpos;

void I_ReadCyberCmd(ticcmd_t * cmd)
{
    int delta;

    // Use DPMI call 300h to issue mouse interrupt
    memset(&RMI, 0, sizeof(RMI));
    RMI.EAX = 0x5301;           // SWIFT: Get Position and Buttons
    RMI.ES = segment;
    RMI.EDX = 0;
    memset(&sregs, 0, sizeof(sregs));
    regs.w.ax = 0x0300;         // DPMI: simulate interrupt
    regs.w.bx = MOUSE_INT;
    regs.w.cx = 0;
    regs.x.edi = FP_OFF(&RMI);
    sregs.es = FP_SEG(&RMI);
    int386x(DPMI_INT, &regs, &regs, &sregs);

    if (cyberstat->y < -7900)
        cmd->forwardmove = 0xc800 / 2048;
    else if (cyberstat->y > 7900)
        cmd->forwardmove = -0xc800 / 2048;

    if (cyberstat->buttons & 4)
        cmd->buttons |= BT_ATTACK;
    if (cyberstat->buttons & 2)
        cmd->buttons |= BT_USE;

    delta = cyberstat->x - oldpos;
    oldpos = cyberstat->x;

    if (cyberstat->buttons & 1)
    {                           // strafe
        if (cyberstat->x < -7900)
            cmd->sidemove = -0xc800 / 2048;
        else if (cyberstat->x > 7900)
            cmd->sidemove = 0xc800 / 2048;
        else
            cmd->sidemove = delta * 40 / 2048;
    }
    else
    {
        if (cyberstat->x < -7900)
            cmd->angleturn = 0x280;
        else if (cyberstat->x > 7900)
            cmd->angleturn = -0x280;
        else
            cmd->angleturn = -delta * 0xa / 16;

    }

}


void I_Tactile(int on, int off, int total)
{
    if (!isCyberPresent)
        return;

    on /= 5;
    off /= 5;
    total /= 40;
    if (on > 255)
        on = 255;
    if (off > 255)
        off = 255;
    if (total > 255)
        total = 255;

    memset(&RMI, 0, sizeof(RMI));
    RMI.EAX = 0x5330;           // SWIFT: Get Position and Buttons
    RMI.EBX = on * 256 + off;
    RMI.ECX = total;
    memset(&sregs, 0, sizeof(sregs));
    regs.w.ax = 0x0300;         // DPMI: simulate interrupt
    regs.w.bx = MOUSE_INT;
    regs.w.cx = 0;
    regs.x.edi = FP_OFF(&RMI);
    sregs.es = FP_SEG(&RMI);
    int386x(DPMI_INT, &regs, &regs, &sregs);
}