shithub: choc

ref: 690a424ae8e8f549e05ba678b725aead3572cda9
dir: /src/heretic/i_ibm.c/

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//
// Copyright(C) 1993-1996 Id Software, Inc.
// Copyright(C) 1993-2008 Raven Software
// Copyright(C) 2005-2014 Simon Howard
//
// 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.
//

// I_IBM.C

#include <dos.h>
#include <conio.h>
#include <stdlib.h>
#include <stdarg.h>
#include <graph.h>
#include "doomdef.h"
#include "r_local.h"
#include "dmx.h"
#include "v_video.h"

// Macros

#define DPMI_INT 0x31
//#define NOKBD
//#define NOTIMER

// Public Data

int DisplayTicker = 0;

// Code

void main(int argc, char **argv)
{
    myargc = argc;
    myargv = argv;
    D_DoomMain();
}

void I_StartupNet(void);
void I_ShutdownNet(void);
void I_ReadExternDriver(void);

typedef struct
{
    unsigned edi, esi, ebp, reserved, ebx, edx, ecx, eax;
    unsigned short flags, es, ds, fs, gs, ip, cs, sp, ss;
} dpmiregs_t;

extern dpmiregs_t dpmiregs;

void I_ReadMouse(void);
void I_InitDiskFlash(void);

extern int usemouse, usejoystick;

extern void **lumpcache;

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

							CONSTANTS

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

#define SC_INDEX                0x3C4
#define SC_RESET                0
#define SC_CLOCK                1
#define SC_MAPMASK              2
#define SC_CHARMAP              3
#define SC_MEMMODE              4

#define CRTC_INDEX              0x3D4
#define CRTC_H_TOTAL    0
#define CRTC_H_DISPEND  1
#define CRTC_H_BLANK    2
#define CRTC_H_ENDBLANK 3
#define CRTC_H_RETRACE  4
#define CRTC_H_ENDRETRACE 5
#define CRTC_V_TOTAL    6
#define CRTC_OVERFLOW   7
#define CRTC_ROWSCAN    8
#define CRTC_MAXSCANLINE 9
#define CRTC_CURSORSTART 10
#define CRTC_CURSOREND  11
#define CRTC_STARTHIGH  12
#define CRTC_STARTLOW   13
#define CRTC_CURSORHIGH 14
#define CRTC_CURSORLOW  15
#define CRTC_V_RETRACE  16
#define CRTC_V_ENDRETRACE 17
#define CRTC_V_DISPEND  18
#define CRTC_OFFSET             19
#define CRTC_UNDERLINE  20
#define CRTC_V_BLANK    21
#define CRTC_V_ENDBLANK 22
#define CRTC_MODE               23
#define CRTC_LINECOMPARE 24


#define GC_INDEX                0x3CE
#define GC_SETRESET             0
#define GC_ENABLESETRESET 1
#define GC_COLORCOMPARE 2
#define GC_DATAROTATE   3
#define GC_READMAP              4
#define GC_MODE                 5
#define GC_MISCELLANEOUS 6
#define GC_COLORDONTCARE 7
#define GC_BITMASK              8

#define ATR_INDEX               0x3c0
#define ATR_MODE                16
#define ATR_OVERSCAN    17
#define ATR_COLORPLANEENABLE 18
#define ATR_PELPAN              19
#define ATR_COLORSELECT 20

#define STATUS_REGISTER_1    0x3da

#define PEL_WRITE_ADR   0x3c8
#define PEL_READ_ADR    0x3c7
#define PEL_DATA                0x3c9
#define PEL_MASK                0x3c6

boolean grmode;

//==================================================
//
// joystick vars
//
//==================================================

boolean joystickpresent;
extern unsigned joystickx, joysticky;
boolean I_ReadJoystick(void);   // returns false if not connected


//==================================================

#define VBLCOUNTER              34000   // hardware tics to a frame


#define TIMERINT 8
#define KEYBOARDINT 9

#define CRTCOFF (_inbyte(STATUS_REGISTER_1)&1)
#define CLI     _disable()
#define STI     _enable()

#define _outbyte(x,y) (outp(x,y))
#define _outhword(x,y) (outpw(x,y))

#define _inbyte(x) (inp(x))
#define _inhword(x) (inpw(x))

#define MOUSEB1 1
#define MOUSEB2 2
#define MOUSEB3 4

boolean mousepresent;
//static  int tsm_ID = -1; // tsm init flag

//===============================

int ticcount;

// REGS stuff used for int calls
union REGS regs;
struct SREGS segregs;

boolean novideo;                // if true, stay in text mode for debugging

#define KBDQUESIZE 32
byte keyboardque[KBDQUESIZE];
int kbdtail, kbdhead;

#define KEY_LSHIFT      0xfe

#define KEY_INS         (0x80+0x52)
#define KEY_DEL         (0x80+0x53)
#define KEY_PGUP        (0x80+0x49)
#define KEY_PGDN        (0x80+0x51)
#define KEY_HOME        (0x80+0x47)
#define KEY_END         (0x80+0x4f)

#define SC_RSHIFT       0x36
#define SC_LSHIFT       0x2a

byte scantokey[128] = {
//  0           1       2       3       4       5       6       7
//  8           9       A       B       C       D       E       F
    0, 27, '1', '2', '3', '4', '5', '6',
    '7', '8', '9', '0', '-', '=', KEY_BACKSPACE, 9,     // 0
    'q', 'w', 'e', 'r', 't', 'y', 'u', 'i',
    'o', 'p', '[', ']', 13, KEY_RCTRL, 'a', 's',        // 1
    'd', 'f', 'g', 'h', 'j', 'k', 'l', ';',
    39, '`', KEY_LSHIFT, 92, 'z', 'x', 'c', 'v',        // 2
    'b', 'n', 'm', ',', '.', '/', KEY_RSHIFT, '*',
    KEY_RALT, ' ', 0, KEY_F1, KEY_F2, KEY_F3, KEY_F4, KEY_F5,   // 3
    KEY_F6, KEY_F7, KEY_F8, KEY_F9, KEY_F10, 0, 0, KEY_HOME,
    KEY_UPARROW, KEY_PGUP, '-', KEY_LEFTARROW, '5', KEY_RIGHTARROW, '+', KEY_END,       //4
    KEY_DOWNARROW, KEY_PGDN, KEY_INS, KEY_DEL, 0, 0, 0, KEY_F11,
    KEY_F12, 0, 0, 0, 0, 0, 0, 0,       // 5
    0, 0, 0, 0, 0, 0, 0, 0,
    0, 0, 0, 0, 0, 0, 0, 0,     // 6
    0, 0, 0, 0, 0, 0, 0, 0,
    0, 0, 0, 0, 0, 0, 0, 0      // 7
};

//==========================================================================

//--------------------------------------------------------------------------
//
// FUNC I_GetTime
//
// Returns time in 1/35th second tics.
//
//--------------------------------------------------------------------------

int I_GetTime(void)
{
#ifdef NOTIMER
    ticcount++;
#endif
    return (ticcount);
}

//--------------------------------------------------------------------------
//
// PROC I_ColorBorder
//
//--------------------------------------------------------------------------

void I_ColorBorder(void)
{
    int i;

    I_WaitVBL(1);
    _outbyte(PEL_WRITE_ADR, 0);
    for (i = 0; i < 3; i++)
    {
        _outbyte(PEL_DATA, 63);
    }
}

//--------------------------------------------------------------------------
//
// PROC I_UnColorBorder
//
//--------------------------------------------------------------------------

void I_UnColorBorder(void)
{
    int i;

    I_WaitVBL(1);
    _outbyte(PEL_WRITE_ADR, 0);
    for (i = 0; i < 3; i++)
    {
        _outbyte(PEL_DATA, 0);
    }
}

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

								USER INPUT

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

//--------------------------------------------------------------------------
//
// PROC I_WaitVBL
//
//--------------------------------------------------------------------------

void I_WaitVBL(int vbls)
{
    int i;
    int old;
    int stat;

    if (novideo)
    {
        return;
    }
    while (vbls--)
    {
        do
        {
            stat = inp(STATUS_REGISTER_1);
            if (stat & 8)
            {
                break;
            }
        }
        while (1);
        do
        {
            stat = inp(STATUS_REGISTER_1);
            if ((stat & 8) == 0)
            {
                break;
            }
        }
        while (1);
    }
}

//--------------------------------------------------------------------------
//
// PROC I_SetPalette
//
// Palette source must use 8 bit RGB elements.
//
//--------------------------------------------------------------------------

void I_SetPalette(byte * palette)
{
    int i;

    if (novideo)
    {
        return;
    }
    I_WaitVBL(1);
    _outbyte(PEL_WRITE_ADR, 0);
    for (i = 0; i < 768; i++)
    {
        _outbyte(PEL_DATA, (gammatable[usegamma][*palette++]) >> 2);
    }
}

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

							GRAPHICS MODE

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

byte *pcscreen, *destscreen, *destview;


/*
==============
=
= I_Update
=
==============
*/

int UpdateState;
extern int screenblocks;

void I_Update(void)
{
    int i;
    byte *dest;
    int tics;
    static int lasttic;

//
// blit screen to video
//
    if (DisplayTicker)
    {
        if (screenblocks > 9 || UpdateState & (I_FULLSCRN | I_MESSAGES))
        {
            dest = (byte *) screen;
        }
        else
        {
            dest = (byte *) pcscreen;
        }
        tics = ticcount - lasttic;
        lasttic = ticcount;
        if (tics > 20)
        {
            tics = 20;
        }
        for (i = 0; i < tics; i++)
        {
            *dest = 0xff;
            dest += 2;
        }
        for (i = tics; i < 20; i++)
        {
            *dest = 0x00;
            dest += 2;
        }
    }
    if (UpdateState == I_NOUPDATE)
    {
        return;
    }
    if (UpdateState & I_FULLSCRN)
    {
        memcpy(pcscreen, screen, SCREENWIDTH * SCREENHEIGHT);
        UpdateState = I_NOUPDATE;       // clear out all draw types
    }
    if (UpdateState & I_FULLVIEW)
    {
        if (UpdateState & I_MESSAGES && screenblocks > 7)
        {
            for (i = 0; i <
                 (viewwindowy + viewheight) * SCREENWIDTH; i += SCREENWIDTH)
            {
                memcpy(pcscreen + i, screen + i, SCREENWIDTH);
            }
            UpdateState &= ~(I_FULLVIEW | I_MESSAGES);
        }
        else
        {
            for (i = viewwindowy * SCREENWIDTH + viewwindowx; i <
                 (viewwindowy + viewheight) * SCREENWIDTH; i += SCREENWIDTH)
            {
                memcpy(pcscreen + i, screen + i, viewwidth);
            }
            UpdateState &= ~I_FULLVIEW;
        }
    }
    if (UpdateState & I_STATBAR)
    {
        memcpy(pcscreen + SCREENWIDTH * (SCREENHEIGHT - SBARHEIGHT),
               screen + SCREENWIDTH * (SCREENHEIGHT - SBARHEIGHT),
               SCREENWIDTH * SBARHEIGHT);
        UpdateState &= ~I_STATBAR;
    }
    if (UpdateState & I_MESSAGES)
    {
        memcpy(pcscreen, screen, SCREENWIDTH * 28);
        UpdateState &= ~I_MESSAGES;
    }

//  memcpy(pcscreen, screen, SCREENHEIGHT*SCREENWIDTH);
}

//--------------------------------------------------------------------------
//
// PROC I_InitGraphics
//
//--------------------------------------------------------------------------

void I_InitGraphics(void)
{
    if (novideo)
    {
        return;
    }
    grmode = true;
    regs.w.ax = 0x13;
    int386(0x10, (const union REGS *) &regs, &regs);
    pcscreen = destscreen = (byte *) 0xa0000;
    I_SetPalette(W_CacheLumpName("PLAYPAL", PU_CACHE));
    I_InitDiskFlash();
}

//--------------------------------------------------------------------------
//
// PROC I_ShutdownGraphics
//
//--------------------------------------------------------------------------

void I_ShutdownGraphics(void)
{

    if (*(byte *) 0x449 == 0x13)        // don't reset mode if it didn't get set
    {
        regs.w.ax = 3;
        int386(0x10, &regs, &regs);     // back to text mode
    }
}

//--------------------------------------------------------------------------
//
// PROC I_ReadScreen
//
// Reads the screen currently displayed into a linear buffer.
//
//--------------------------------------------------------------------------

void I_ReadScreen(byte * scr)
{
    memcpy(scr, screen, SCREENWIDTH * SCREENHEIGHT);
}


//===========================================================================

/*
===================
=
= I_StartTic
=
// called by D_DoomLoop
// called before processing each tic in a frame
// can call D_PostEvent
// asyncronous interrupt functions should maintain private ques that are
// read by the syncronous functions to be converted into events
===================
*/

/*
 OLD STARTTIC STUFF

void   I_StartTic (void)
{
	int             k;
	event_t ev;


	I_ReadMouse ();

//
// keyboard events
//
	while (kbdtail < kbdhead)
	{
		k = keyboardque[kbdtail&(KBDQUESIZE-1)];

//      if (k==14)
//              I_Error ("exited");

		kbdtail++;

		// extended keyboard shift key bullshit
		if ( (k&0x7f)==KEY_RSHIFT )
		{
			if ( keyboardque[(kbdtail-2)&(KBDQUESIZE-1)]==0xe0 )
				continue;
			k &= 0x80;
			k |= KEY_RSHIFT;
		}

		if (k==0xe0)
			continue;               // special / pause keys
		if (keyboardque[(kbdtail-2)&(KBDQUESIZE-1)] == 0xe1)
			continue;                               // pause key bullshit

		if (k==0xc5 && keyboardque[(kbdtail-2)&(KBDQUESIZE-1)] == 0x9d)
		{
			ev.type = ev_keydown;
			ev.data1 = KEY_PAUSE;
			D_PostEvent (&ev);
			continue;
		}

		if (k&0x80)
			ev.type = ev_keyup;
		else
			ev.type = ev_keydown;
		k &= 0x7f;

		ev.data1 = k;
		//ev.data1 = scantokey[k];

		D_PostEvent (&ev);
	}
}
*/

#define SC_UPARROW              0x48
#define SC_DOWNARROW    0x50
#define SC_LEFTARROW            0x4b
#define SC_RIGHTARROW   0x4d

void I_StartTic(void)
{
    int k;
    event_t ev;


    I_ReadMouse();

//
// keyboard events
//
    while (kbdtail < kbdhead)
    {
        k = keyboardque[kbdtail & (KBDQUESIZE - 1)];
        kbdtail++;

        // extended keyboard shift key bullshit
        if ((k & 0x7f) == SC_LSHIFT || (k & 0x7f) == SC_RSHIFT)
        {
            if (keyboardque[(kbdtail - 2) & (KBDQUESIZE - 1)] == 0xe0)
                continue;
            k &= 0x80;
            k |= SC_RSHIFT;
        }

        if (k == 0xe0)
            continue;           // special / pause keys
        if (keyboardque[(kbdtail - 2) & (KBDQUESIZE - 1)] == 0xe1)
            continue;           // pause key bullshit

        if (k == 0xc5
            && keyboardque[(kbdtail - 2) & (KBDQUESIZE - 1)] == 0x9d)
        {
            ev.type = ev_keydown;
            ev.data1 = KEY_PAUSE;
            D_PostEvent(&ev);
            continue;
        }

        if (k & 0x80)
            ev.type = ev_keyup;
        else
            ev.type = ev_keydown;
        k &= 0x7f;
        switch (k)
        {
            case SC_UPARROW:
                ev.data1 = KEY_UPARROW;
                break;
            case SC_DOWNARROW:
                ev.data1 = KEY_DOWNARROW;
                break;
            case SC_LEFTARROW:
                ev.data1 = KEY_LEFTARROW;
                break;
            case SC_RIGHTARROW:
                ev.data1 = KEY_RIGHTARROW;
                break;
            default:
                ev.data1 = scantokey[k];
                break;
        }
        D_PostEvent(&ev);
    }

}


void I_ReadKeys(void)
{
    int k;
    event_t ev;


    while (1)
    {
        while (kbdtail < kbdhead)
        {
            k = keyboardque[kbdtail & (KBDQUESIZE - 1)];
            kbdtail++;
            printf("0x%x\n", k);
            if (k == 1)
                I_Quit();
        }
    }
}

/*
===============
=
= I_StartFrame
=
===============
*/

void I_StartFrame(void)
{
    I_JoystickEvents();
    I_ReadExternDriver();
}

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

					TIMER INTERRUPT

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

void I_ColorBlack(int r, int g, int b)
{
    _outbyte(PEL_WRITE_ADR, 0);
    _outbyte(PEL_DATA, r);
    _outbyte(PEL_DATA, g);
    _outbyte(PEL_DATA, b);
}


/*
================
=
= I_TimerISR
=
================
*/

int I_TimerISR(void)
{
    ticcount++;
    return 0;
}

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

						KEYBOARD

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

void (__interrupt __far * oldkeyboardisr) () = NULL;

int lastpress;

/*
================
=
= I_KeyboardISR
=
================
*/

void __interrupt I_KeyboardISR(void)
{
// Get the scan code

    keyboardque[kbdhead & (KBDQUESIZE - 1)] = lastpress = _inbyte(0x60);
    kbdhead++;

// acknowledge the interrupt

    _outbyte(0x20, 0x20);
}



/*
===============
=
= I_StartupKeyboard
=
===============
*/

void I_StartupKeyboard(void)
{
#ifndef NOKBD
    oldkeyboardisr = _dos_getvect(KEYBOARDINT);
    _dos_setvect(0x8000 | KEYBOARDINT, I_KeyboardISR);
#endif

//I_ReadKeys ();
}


void I_ShutdownKeyboard(void)
{
    if (oldkeyboardisr)
        _dos_setvect(KEYBOARDINT, oldkeyboardisr);
    *(short *) 0x41c = *(short *) 0x41a;        // clear bios key buffer
}



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

							MOUSE

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


int I_ResetMouse(void)
{
    regs.w.ax = 0;              // reset
    int386(0x33, &regs, &regs);
    return regs.w.ax;
}



/*
================
=
= StartupMouse
=
================
*/

void I_StartupCyberMan(void);

void I_StartupMouse(void)
{
    int (far * function) ();

    //
    // General mouse detection
    //
    mousepresent = 0;
    if (M_CheckParm("-nomouse") || !usemouse)
        return;

    if (I_ResetMouse() != 0xffff)
    {
        tprintf("Mouse: not present ", 0);
        return;
    }
    tprintf("Mouse: detected ", 0);

    mousepresent = 1;

    I_StartupCyberMan();
}


/*
================
=
= ShutdownMouse
=
================
*/

void I_ShutdownMouse(void)
{
    if (!mousepresent)
        return;

    I_ResetMouse();
}


/*
================
=
= I_ReadMouse
=
================
*/

void I_ReadMouse(void)
{
    event_t ev;

//
// mouse events
//
    if (!mousepresent)
        return;

    ev.type = ev_mouse;

    memset(&dpmiregs, 0, sizeof(dpmiregs));
    dpmiregs.eax = 3;           // read buttons / position
    DPMIInt(0x33);
    ev.data1 = dpmiregs.ebx;

    dpmiregs.eax = 11;          // read counters
    DPMIInt(0x33);
    ev.data2 = (short) dpmiregs.ecx;
    ev.data3 = -(short) dpmiregs.edx;

    D_PostEvent(&ev);
}

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

					JOYSTICK

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

int joyxl, joyxh, joyyl, joyyh;

boolean WaitJoyButton(void)
{
    int oldbuttons, buttons;

    oldbuttons = 0;
    do
    {
        I_WaitVBL(1);
        buttons = ((inp(0x201) >> 4) & 1) ^ 1;
        if (buttons != oldbuttons)
        {
            oldbuttons = buttons;
            continue;
        }

        if ((lastpress & 0x7f) == 1)
        {
            joystickpresent = false;
            return false;
        }
    }
    while (!buttons);

    do
    {
        I_WaitVBL(1);
        buttons = ((inp(0x201) >> 4) & 1) ^ 1;
        if (buttons != oldbuttons)
        {
            oldbuttons = buttons;
            continue;
        }

        if ((lastpress & 0x7f) == 1)
        {
            joystickpresent = false;
            return false;
        }
    }
    while (buttons);

    return true;
}



/*
===============
=
= I_StartupJoystick
=
===============
*/

int basejoyx, basejoyy;

void I_StartupJoystick(void)
{
    int buttons;
    int count;
    int centerx, centery;

    joystickpresent = 0;
    if (M_CheckParm("-nojoy") || !usejoystick)
        return;

    if (!I_ReadJoystick())
    {
        joystickpresent = false;
        tprintf("joystick not found ", 0);
        return;
    }
    printf("joystick found\n");
    joystickpresent = true;

    printf("CENTER the joystick and press button 1:");
    if (!WaitJoyButton())
        return;
    I_ReadJoystick();
    centerx = joystickx;
    centery = joysticky;

    printf
        ("\nPush the joystick to the UPPER LEFT corner and press button 1:");
    if (!WaitJoyButton())
        return;
    I_ReadJoystick();
    joyxl = (centerx + joystickx) / 2;
    joyyl = (centerx + joysticky) / 2;

    printf
        ("\nPush the joystick to the LOWER RIGHT corner and press button 1:");
    if (!WaitJoyButton())
        return;
    I_ReadJoystick();
    joyxh = (centerx + joystickx) / 2;
    joyyh = (centery + joysticky) / 2;
    printf("\n");
}

/*
===============
=
= I_JoystickEvents
=
===============
*/

void I_JoystickEvents(void)
{
    event_t ev;

//
// joystick events
//
    if (!joystickpresent)
        return;

    I_ReadJoystick();
    ev.type = ev_joystick;
    ev.data1 = ((inp(0x201) >> 4) & 15) ^ 15;

    if (joystickx < joyxl)
        ev.data2 = -1;
    else if (joystickx > joyxh)
        ev.data2 = 1;
    else
        ev.data2 = 0;
    if (joysticky < joyyl)
        ev.data3 = -1;
    else if (joysticky > joyyh)
        ev.data3 = 1;
    else
        ev.data3 = 0;

    D_PostEvent(&ev);
}



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

					DPMI STUFF

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

#define REALSTACKSIZE   1024

dpmiregs_t dpmiregs;

unsigned realstackseg;

void I_DivException(void);
int I_SetDivException(void);

void DPMIFarCall(void)
{
    segread(&segregs);
    regs.w.ax = 0x301;
    regs.w.bx = 0;
    regs.w.cx = 0;
    regs.x.edi = (unsigned) &dpmiregs;
    segregs.es = segregs.ds;
    int386x(DPMI_INT, &regs, &regs, &segregs);
}


void DPMIInt(int i)
{
    dpmiregs.ss = realstackseg;
    dpmiregs.sp = REALSTACKSIZE - 4;

    segread(&segregs);
    regs.w.ax = 0x300;
    regs.w.bx = i;
    regs.w.cx = 0;
    regs.x.edi = (unsigned) &dpmiregs;
    segregs.es = segregs.ds;
    int386x(DPMI_INT, &regs, &regs, &segregs);
}


/*
==============
=
= I_StartupDPMI
=
==============
*/

void I_StartupDPMI(void)
{
    extern char __begtext;
    extern char ___argc;
    int n, d;

//
// allocate a decent stack for real mode ISRs
//
    realstackseg = (int) I_AllocLow(1024) >> 4;

//
// lock the entire program down
//

//      _dpmi_lockregion (&__begtext, &___argc - &__begtext);


//
// catch divide by 0 exception
//
#if 0
    segread(&segregs);
    regs.w.ax = 0x0203;         // DPMI set processor exception handler vector
    regs.w.bx = 0;              // int 0
    regs.w.cx = segregs.cs;
    regs.x.edx = (int) &I_DivException;
    printf("%x : %x\n", regs.w.cx, regs.x.edx);
    int386(DPMI_INT, &regs, &regs);
#endif

#if 0
    n = I_SetDivException();
    printf("return: %i\n", n);
    n = 100;
    d = 0;
    printf("100 / 0 = %i\n", n / d);

    exit(1);
#endif
}



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

					TIMER INTERRUPT

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

void (__interrupt __far * oldtimerisr) ();


void IO_ColorBlack(int r, int g, int b)
{
    _outbyte(PEL_WRITE_ADR, 0);
    _outbyte(PEL_DATA, r);
    _outbyte(PEL_DATA, g);
    _outbyte(PEL_DATA, b);
}


/*
================
=
= IO_TimerISR
=
================
*/

//void __interrupt IO_TimerISR (void)

void __interrupt __far IO_TimerISR(void)
{
    ticcount++;
    _outbyte(0x20, 0x20);       // Ack the interrupt
}

/*
=====================
=
= IO_SetTimer0
=
= Sets system timer 0 to the specified speed
=
=====================
*/

void IO_SetTimer0(int speed)
{
    if (speed > 0 && speed < 150)
        I_Error("INT_SetTimer0: %i is a bad value", speed);

    _outbyte(0x43, 0x36);       // Change timer 0
    _outbyte(0x40, speed);
    _outbyte(0x40, speed >> 8);
}



/*
===============
=
= IO_StartupTimer
=
===============
*/

void IO_StartupTimer(void)
{
    oldtimerisr = _dos_getvect(TIMERINT);

    _dos_setvect(0x8000 | TIMERINT, IO_TimerISR);
    IO_SetTimer0(VBLCOUNTER);
}

void IO_ShutdownTimer(void)
{
    if (oldtimerisr)
    {
        IO_SetTimer0(0);        // back to 18.4 ips
        _dos_setvect(TIMERINT, oldtimerisr);
    }
}

//===========================================================================


/*
===============
=
= I_Init
=
= hook interrupts and set graphics mode
=
===============
*/

void I_Init(void)
{
    extern void I_StartupTimer(void);

    novideo = M_CheckParm("novideo");
    tprintf("I_StartupDPMI", 1);
    I_StartupDPMI();
    tprintf("I_StartupMouse ", 1);
    I_StartupMouse();
//      tprintf("I_StartupJoystick ",1);
//      I_StartupJoystick();
//      tprintf("I_StartupKeyboard ",1);
//      I_StartupKeyboard();
}


/*
===============
=
= I_Shutdown
=
= return to default system state
=
===============
*/

void I_Shutdown(void)
{
    I_ShutdownGraphics();
    IO_ShutdownTimer();
    S_ShutDown();
    I_ShutdownMouse();
    I_ShutdownKeyboard();

    IO_SetTimer0(0);
}


/*
================
=
= I_Error
=
================
*/

void I_Error(char *error, ...)
{
    union REGS regs;

    va_list argptr;

    D_QuitNetGame();
    I_Shutdown();
    va_start(argptr, error);
    regs.x.eax = 0x3;
    int386(0x10, &regs, &regs);
    vprintf(error, argptr);
    va_end(argptr);
    printf("\n");
    exit(1);
}

//--------------------------------------------------------------------------
//
// I_Quit
//
// Shuts down net game, saves defaults, prints the exit text message,
// goes to text mode, and exits.
//
//--------------------------------------------------------------------------

void I_Quit(void)
{
    byte *scr;
    char *lumpName;
    int r;

    D_QuitNetGame();
    M_SaveDefaults();
    scr = (byte *) W_CacheLumpName("ENDTEXT", PU_CACHE);
    I_Shutdown();
    memcpy((void *) 0xb8000, scr, 80 * 25 * 2);
    regs.w.ax = 0x0200;
    regs.h.bh = 0;
    regs.h.dl = 0;
    regs.h.dh = 23;
    int386(0x10, (const union REGS *) &regs, &regs);    // Set text pos
    _settextposition(24, 1);
    exit(0);
}

/*
===============
=
= I_ZoneBase
=
===============
*/

byte *I_ZoneBase(int *size)
{
    int meminfo[32];
    int heap;
    int i;
    int block;
    byte *ptr;

    memset(meminfo, 0, sizeof(meminfo));
    segread(&segregs);
    segregs.es = segregs.ds;
    regs.w.ax = 0x500;          // get memory info
    regs.x.edi = (int) &meminfo;
    int386x(0x31, &regs, &regs, &segregs);

    heap = meminfo[0];
    printf("DPMI memory: 0x%x, ", heap);

    do
    {
        heap -= 0x10000;        // leave 64k alone
        if (heap > 0x800000)
            heap = 0x800000;
        ptr = malloc(heap);
    }
    while (!ptr);

    printf("0x%x allocated for zone\n", heap);
    if (heap < 0x180000)
        I_Error("Insufficient DPMI memory!");
#if 0
    regs.w.ax = 0x501;          // allocate linear block
    regs.w.bx = heap >> 16;
    regs.w.cx = heap & 0xffff;
    int386(0x31, &regs, &regs);
    if (regs.w.cflag)
        I_Error("Couldn't allocate DPMI memory!");

    block = (regs.w.si << 16) + regs.w.di;
#endif

    *size = heap;
    return ptr;
}

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

					DISK ICON FLASHING

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

void I_InitDiskFlash(void)
{
#if 0
    void *pic;
    byte *temp;

    pic = W_CacheLumpName("STDISK", PU_CACHE);
    temp = destscreen;
    destscreen = (byte *) 0xac000;
    V_DrawPatchDirect(SCREENWIDTH - 16, SCREENHEIGHT - 16, 0, pic);
    destscreen = temp;
#endif
}

// draw disk icon
void I_BeginRead(void)
{
#if 0
    byte *src, *dest;
    int y;

    if (!grmode)
        return;

// write through all planes
    outp(SC_INDEX, SC_MAPMASK);
    outp(SC_INDEX + 1, 15);
// set write mode 1
    outp(GC_INDEX, GC_MODE);
    outp(GC_INDEX + 1, inp(GC_INDEX + 1) | 1);

// copy to backup
    src = currentscreen + 184 * 80 + 304 / 4;
    dest = (byte *) 0xac000 + 184 * 80 + 288 / 4;
    for (y = 0; y < 16; y++)
    {
        dest[0] = src[0];
        dest[1] = src[1];
        dest[2] = src[2];
        dest[3] = src[3];
        src += 80;
        dest += 80;
    }

// copy disk over
    dest = currentscreen + 184 * 80 + 304 / 4;
    src = (byte *) 0xac000 + 184 * 80 + 304 / 4;
    for (y = 0; y < 16; y++)
    {
        dest[0] = src[0];
        dest[1] = src[1];
        dest[2] = src[2];
        dest[3] = src[3];
        src += 80;
        dest += 80;
    }


// set write mode 0
    outp(GC_INDEX, GC_MODE);
    outp(GC_INDEX + 1, inp(GC_INDEX + 1) & ~1);
#endif
}

// erase disk icon
void I_EndRead(void)
{
#if 0
    byte *src, *dest;
    int y;

    if (!grmode)
        return;

// write through all planes
    outp(SC_INDEX, SC_MAPMASK);
    outp(SC_INDEX + 1, 15);
// set write mode 1
    outp(GC_INDEX, GC_MODE);
    outp(GC_INDEX + 1, inp(GC_INDEX + 1) | 1);


// copy disk over
    dest = currentscreen + 184 * 80 + 304 / 4;
    src = (byte *) 0xac000 + 184 * 80 + 288 / 4;
    for (y = 0; y < 16; y++)
    {
        dest[0] = src[0];
        dest[1] = src[1];
        dest[2] = src[2];
        dest[3] = src[3];
        src += 80;
        dest += 80;
    }

// set write mode 0
    outp(GC_INDEX, GC_MODE);
    outp(GC_INDEX + 1, inp(GC_INDEX + 1) & ~1);
#endif
}



/*
=============
=
= I_AllocLow
=
=============
*/

byte *I_AllocLow(int length)
{
    byte *mem;

    // DPMI call 100h allocates DOS memory
    segread(&segregs);
    regs.w.ax = 0x0100;         // DPMI allocate DOS memory
    regs.w.bx = (length + 15) / 16;
    int386(DPMI_INT, &regs, &regs);
//      segment = regs.w.ax;
//   selector = regs.w.dx;
    if (regs.w.cflag != 0)
        I_Error("I_AllocLow: DOS alloc of %i failed, %i free",
                length, regs.w.bx * 16);


    mem = (void *) ((regs.x.eax & 0xFFFF) << 4);

    memset(mem, 0, length);
    return mem;
}

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

						NETWORKING

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

/* // FUCKED LINES
typedef struct
{
	char    priv[508];
   } doomdata_t;
*/// FUCKED LINES

#define DOOMCOM_ID              0x12345678l

/* // FUCKED LINES
typedef struct
{
	long    id;
	short   intnum;                 // DOOM executes an int to execute commands

// communication between DOOM and the driver
	short   command;                // CMD_SEND or CMD_GET
	short   remotenode;             // dest for send, set by get (-1 = no packet)
	short   datalength;             // bytes in doomdata to be sent

// info common to all nodes
	short   numnodes;               // console is allways node 0
	short   ticdup;                 // 1 = no duplication, 2-5 = dup for slow nets
	short   extratics;              // 1 = send a backup tic in every packet
	short   deathmatch;             // 1 = deathmatch
	short   savegame;               // -1 = new game, 0-5 = load savegame
	short   episode;                // 1-3
	short   map;                    // 1-9
	short   skill;                  // 1-5

// info specific to this node
	short   consoleplayer;
	short   numplayers;
	short   angleoffset;    // 1 = left, 0 = center, -1 = right
	short   drone;                  // 1 = drone

// packet data to be sent
	doomdata_t      data;
   } doomcom_t;
*/// FUCKED LINES

extern doomcom_t *doomcom;

/*
====================
=
= I_InitNetwork
=
====================
*/

void I_InitNetwork(void)
{
    int i;

    i = M_CheckParm("-net");
    if (!i)
    {
        //
        // single player game
        //
        doomcom = malloc(sizeof(*doomcom));
        memset(doomcom, 0, sizeof(*doomcom));
        netgame = false;
        doomcom->id = DOOMCOM_ID;
        doomcom->numplayers = doomcom->numnodes = 1;
        doomcom->deathmatch = false;
        doomcom->consoleplayer = 0;
        doomcom->ticdup = 1;
        doomcom->extratics = 0;
        return;
    }

    netgame = true;
    doomcom = (doomcom_t *) atoi(myargv[i + 1]);
//DEBUG
    doomcom->skill = startskill;
    doomcom->episode = startepisode;
    doomcom->map = startmap;
    doomcom->deathmatch = deathmatch;

}

void I_NetCmd(void)
{
    if (!netgame)
        I_Error("I_NetCmd when not in netgame");
    DPMIInt(doomcom->intnum);
}

int i_Vector;
externdata_t *i_ExternData;
boolean useexterndriver;

//=========================================================================
//
// I_CheckExternDriver
//
//              Checks to see if a vector, and an address for an external driver
//                      have been passed.
//=========================================================================

void I_CheckExternDriver(void)
{
    int i;

    if (!(i = M_CheckParm("-externdriver")))
    {
        return;
    }
    i_ExternData = (externdata_t *) atoi(myargv[i + 1]);
    i_Vector = i_ExternData->vector;

    useexterndriver = true;
}

//=========================================================================
//
// I_ReadExternDriver
//
//              calls the external interrupt, which should then update i_ExternDriver
//=========================================================================

void I_ReadExternDriver(void)
{
    event_t ev;

    if (useexterndriver)
    {
        DPMIInt(i_Vector);
    }
}