shithub: rott

ref: 6d23f3b1a6fc84fea43d894834b2eb0dbd1e4f14
dir: /src/fli_util.c/

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/*
Copyright (C) 1994-1995 Apogee Software, Ltd.

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.

*/
/* pcclone.c - This file contains all the machine specific bits of the
 * flic reader.  It's job is to set up data structures and routines for
 * the Screen, Clock, and Key structures,  and the Machine structure
 * that contains them all.
 *
 * For optimum performance a flic-reader should be coded in assembler.
 * However you can get significantly greater performance merely by
 * recoding in assembler the three routines: screen_copy_seg(),
 * screen_repeat_one() and screen_repeat_two().
 *
 * Copyright (c) 1992 Jim Kent.  This file may be freely used, modified,
 * copied and distributed.  This file was first published as part of
 * an article for Dr. Dobb's Journal March 1993 issue.
 */

#include "cin_glob.h"
#include <bios.h>
#include <dos.h>
#include <time.h>
#include <stdlib.h>
#include <mem.h>
#include <limits.h>
#include <fcntl.h>
#include <io.h>
#include <conio.h>
#include "fli_type.h"
#include "fli_util.h"
#include "fli_def.h"
#include "fli_main.h"
//MED
#include "memcheck.h"

static Ushort screenlookup[200];

/** Screen oriented stuff. **/

static Boolean set_vmode(Uchar mode)
/* Ask bios to set video mode. */
{
    union REGS regs;

    regs.h.ah = 0;		/* Set Video Mode request. */
    regs.h.al = mode;	/* For our specific mode. */
    int86(0x10, &regs, &regs);
    return TRUE;
// return (regs.x.cflag == 0);	/* Carry flag clear? */
}

static Uchar get_vmode()
/* Ask bios for current video mode. */
{
    union REGS regs;

    regs.h.ah = 0xF;			/* Get Video Mode request. */
    int86(0x10, &regs, &regs);
    return regs.h.al;
}

ErrCode screen_open(Screen *s)
/* Put machine into graphics mode and fill out screen structure. */
{
    ClearStruct(s);			/* Start in a known state... */
    s->old_mode = get_vmode();
    if (set_vmode(0x13))
    {
        if (get_vmode() == 0x13)
        {
            int i;

            s->is_open = TRUE;	/* Now it's open. */
            s->width = 320;
            s->height = 200;
            for (i=0; i<200; i++)
                screenlookup[i]=320*i;
            s->pixels = (unsigned char *)0xA0000;  /* Base video screen address. */
            return Success;
        }
    }
    /* If got to here have failed.  Restore old video mode and return
     * failure code. */
    set_vmode(s->old_mode);
    return ErrDisplay;
}

void screen_close(Screen *s)
/* Close screen.  Restore original display mode. */
{
    if (s->is_open)		/* Don't do this twice... */
    {
//   set_vmode(s->old_mode);
        ClearStruct(s);		/* Discourage use after it's closed... */
    }
}

int screen_width(Screen *s)
/* Return width of screen. */
{
    return s->width;
}

int screen_height(Screen *s)
/* Return height of screen. */
{
    return s->height;
}

void screen_put_dot(Screen *s, int x, int y, Pixel color)
/* Set one dot. */
{
    /* First clip it. */
    if (x < 0 || y < 0 || x >= s->width || y >= s->height)
        return;

    /* Then set it. */
    s->pixels[screenlookup[y] + x] = color;
}

static Boolean line_clip(Screen *s, int *px, int *py, int *pwidth)
/* Clip a horizontal line segment so that it fits on the screen.
 * Return FALSE if clipped out entirely. */
{
    int x = *px;
    int y = *py;
    int width = *pwidth;
    int xend = x + width;

    if (y < 0 || y >= s->height || xend < 0 || x >= s->width)
        return FALSE;	/* Clipped off screen. */
    if (x < 0)
    {
        *pwidth = width = width + x;		/* and shortens width. */
        *px = 0;
    }
    if (xend > s->width)
    {
        *pwidth = width = width - (xend - s->width);
    }
    if (width < 0)
        return FALSE;
    return TRUE;
}

void screen_copy_seg(Screen *s, int x, int y, Pixel  *pixels, int count)
/* Copy pixels from memory into screen. */
{
    Pixel  *pt;
    int unclipped_x = x;

    /* First let's do some clipping. */
    if (!line_clip(s, &x, &y, &count))
        return;

    pixels += (x - unclipped_x);   /* Clipping change in start position. */

    /* Calculate start screen address. */
    pt = s->pixels + (unsigned)screenlookup[y] + (unsigned)x;

    /* Copy pixels to display. */
    memcpy (pt,pixels,count);
}

void screen_repeat_one(Screen *s, int x, int y, Pixel color, int count)
/* Draw a horizontal line of a solid color */
{
    Pixel  *pt;

    /* First let's do some clipping. */
    if (!line_clip(s, &x, &y, &count))
        return;

    /* Calculate start screen address. */
    pt = s->pixels + (unsigned)screenlookup[y] + (unsigned)x;

    /* Repeat pixel on display. */
    memset (pt,color,count);
}

void screen_repeat_two(Screen *s, int x, int y, Pixels2 pixels2, int count)
/* Repeat 2 pixels count times on screen. */
{
    Pixels2  *pt;
    int is_odd;

    /* First let's do some clipping. */
    count <<= 1;		/* Convert from word to pixel count. */
    if (!line_clip(s, &x, &y, &count))
        return;
    is_odd = (count&1);		/* Did it turn odd after clipping?  Ack! */
    count >>= 1;			/* Convert back to word count. */

    /* Calculate start screen address. */
    pt = (Pixels2  *)(s->pixels + (unsigned)screenlookup[y] + (unsigned)x);

    while (--count >= 0)	/* Go set screen 2 pixels at a time. */
        *pt++ = pixels2;

    if (is_odd)				/* Deal with pixel at end of screen if needed. */
    {
        Pixel  *end = (Pixel  *)pt;
        *end = pixels2.pixels[0];
    }
}


void screen_put_colors(Screen *s, int start, Color  *colors, int count)
/* Set count colors in color map starting at start.  RGB values
 * go from 0 to 255. */
{
    int end = start + count;
    int ix;

    for (ix = start; ix < end; ++ix)
    {
        outportb(0x3C8, ix);
        outportb(0x3C9, colors->r>>2);
        outportb(0x3C9, colors->g>>2);
        outportb(0x3C9, colors->b>>2);
        ++colors;
    }
}

void screen_put_colors_64(Screen *s, int start, Color  *colors, int count)
/* Set count colors in color map starting at start.  RGB values
 * go from 0 to 64. */
{
    int end = start + count;
    int ix;

    for (ix = start; ix < end; ++ix)
    {
        outportb(0x3C8, ix);
        outportb(0x3C9, colors->r);
        outportb(0x3C9, colors->g);
        outportb(0x3C9, colors->b);
        ++colors;
    }
}

/** MemPtr stuff - to allocate and free blocks of memory > 64K. */

ErrCode big_alloc(MemPtr *bb, Ulong size)
/* Allocate a big block. */
{
    (*bb) = SafeMalloc (size);
    return Success;
}

void big_free(MemPtr *bb)
/* Free up a big block. */
{
    SafeFree(*bb);
}

/** Stuff for reading files - regular and over 64k blocks at a time. **/

ErrCode file_open_to_read(FileHandle *phandle, char *name)
/* Open a binary file to read. */
{
    *phandle = SafeOpenRead(name);
    return Success;
}

ErrCode file_read_big_block(FileHandle handle, MemPtr bb, Ulong size)
/* Read in a big block.  Could be bigger than 64K. */
{
    SafeRead (handle,bb,size);
    return Success;
}


/** Machine oriented stuff - open and close the whole banana. **/

ErrCode machine_open(Machine *machine)
/* Open up machine: keyboard, clock, and screen. */
{
    ErrCode err;

    ClearStruct(machine);	/* Start it in a known state. */
//if ((err = key_open(&machine->key)) >= Success)
    {
//   if ((err = clock_open(&machine->clock)) >= Success)
        {
            if ((err = screen_open(&machine->screen)) >= Success)
                return Success;
//      clock_close(&machine->clock);
        }
//   key_close(&machine->key);
    }
    return err;
}

void machine_close(Machine *machine)
/* Close down machine. */
{
    screen_close(&machine->screen);
//clock_close(&machine->clock);
//key_close(&machine->key);
}