Source to src/gui-sdl/dlgFloppy.c
/*
Previous - dlgFloppy.c
This file is distributed under the GNU Public License, version 2 or at
your option any later version. Read the file gpl.txt for details.
*/
const char DlgFloppy_fileid[] = "Previous dlgFloppy.c : " __DATE__ " " __TIME__;
#include <assert.h>
#include "main.h"
#include "configuration.h"
#include "dialog.h"
#include "sdlgui.h"
#include "file.h"
#include "floppy.h"
#define DUAL_FLOPPY_DRIVE 0 /* Real NeXT hardware only supports one drive */
#define FLPDLG_CONNECTED0 3
#define FLPDLG_INSERT0 6
#define FLPDLG_READONLY0 7
#define FLPDLG_DISKNAME0 8
#if DUAL_FLOPPY_DRIVE
#define FLPDLG_CONNECTED1 10
#define FLPDLG_INSERT1 13
#define FLPDLG_READONLY1 14
#define FLPDLG_DISKNAME1 15
#define FLPDLG_EXIT 17
#else
#define FLPDLG_EXIT 10
#endif
/* Constant strings */
#define FLPDLG_EJECT_WARNING "WARNING: Don't eject manually if a guest system is running. Risk of data loss. Eject now?"
#define FLPDLG_BADSIZE_ERROR "ERROR: Can't insert floppy disk. Bad disk size. Must be 720K, 1440K or 2880K."
/* Variable strings */
char insrtejct0[16] = "Insert";
char insrtejct1[16] = "Insert";
/* The floppy drive dialog: */
static SGOBJ flpdlg[] =
{
#if DUAL_FLOPPY_DRIVE
{ SGBOX, 0, 0, 0,0, 64,30, NULL },
#else
{ SGBOX, 0, 0, 0,0, 64,20, NULL },
#endif
{ SGTEXT, 0, 0, 23,1, 10,1, "Floppy disk drives" },
{ SGTEXT, 0, 0, 2,4, 16,1, "Floppy Drive 0:" },
{ SGCHECKBOX, 0, 0, 20, 4, 11, 1, "Connected" },
{ SGBOX, 0, 0, 2,6, 60,6, NULL },
{ SGTEXT, 0, 0, 4,7, 14,1, "Floppy disk:" },
{ SGBUTTON, 0, 0, 20,7, 10,1, insrtejct0 },
{ SGTEXT, 0, 0, 32,7, 17,1, NULL },
{ SGTEXT, 0, 0, 4,9, 56,1, NULL },
#if DUAL_FLOPPY_DRIVE
{ SGTEXT, 0, 0, 2,14, 16,1, "Floppy Drive 1:" },
{ SGCHECKBOX, 0, 0, 20, 14, 11, 1, "Connected" },
{ SGBOX, 0, 0, 2,16, 60,6, NULL },
{ SGTEXT, 0, 0, 4,17, 14,1, "Floppy disk:" },
{ SGBUTTON, 0, 0, 20,17, 10,1, insrtejct1 },
{ SGTEXT, 0, 0, 32,17, 17,1, NULL },
{ SGTEXT, 0, 0, 4,19, 56,1, NULL },
{ SGTEXT, 0, 0, 2,24, 14,1, "Note: Floppy disk drives do not work with 68030 based Cubes." },
{ SGBUTTON, SG_DEFAULT, 0, 21,27, 21,1, "Back to main menu" },
#else
{ SGTEXT, 0, 0, 2,14, 14,1, "Note: Floppy disk drives do not work with 68030 based Cubes." },
{ SGBUTTON, SG_DEFAULT, 0, 21,17, 21,1, "Back to main menu" },
#endif
{ -1, 0, 0, 0,0, 0,0, NULL }
};
/**
* Let user browse given directory, set directory if one selected.
* return false if none selected, otherwise return true.
*/
/*static bool DlgDisk_BrowseDir(char *dlgname, char *confname, int maxlen)
{
char *str, *selname;
selname = SDLGui_FileSelect(confname, NULL, false);
if (selname)
{
strcpy(confname, selname);
free(selname);
str = strrchr(confname, PATHSEP);
if (str != NULL)
str[1] = 0;
File_CleanFileName(confname);
File_ShrinkName(dlgname, confname, maxlen);
return true;
}
return false;
}*/
/**
* Show and process the hard disk dialog.
*/
void DlgFloppy_Main(void)
{
int but;
char dlgname_flp[FLP_MAX_DRIVES][64];
SDLGui_CenterDlg(flpdlg);
/* Set up dialog to actual values: */
/* Floppy disk image: */
if (ConfigureParams.Floppy.drive[0].bDriveConnected && ConfigureParams.Floppy.drive[0].bDiskInserted) {
File_ShrinkName(dlgname_flp[0], ConfigureParams.Floppy.drive[0].szImageName,
flpdlg[FLPDLG_DISKNAME0].w);
sprintf(insrtejct0, "Eject");
} else {
dlgname_flp[0][0] = '\0';
sprintf(insrtejct0, "Insert");
}
flpdlg[FLPDLG_DISKNAME0].txt = dlgname_flp[0];
#if DUAL_FLOPPY_DRIVE
if (ConfigureParams.Floppy.drive[1].bDriveConnected && ConfigureParams.Floppy.drive[1].bDiskInserted) {
File_ShrinkName(dlgname_flp[1], ConfigureParams.Floppy.drive[1].szImageName,
flpdlg[FLPDLG_DISKNAME1].w);
sprintf(insrtejct1, "Eject");
} else {
dlgname_flp[1][0] = '\0';
sprintf(insrtejct1, "Insert");
}
flpdlg[FLPDLG_DISKNAME1].txt = dlgname_flp[1];
#endif
/* Drive connected true or false? */
if (ConfigureParams.Floppy.drive[0].bDriveConnected)
flpdlg[FLPDLG_CONNECTED0].state |= SG_SELECTED;
else
flpdlg[FLPDLG_CONNECTED0].state &= ~SG_SELECTED;
#if DUAL_FLOPPY_DRIVE
if (ConfigureParams.Floppy.drive[1].bDriveConnected)
flpdlg[FLPDLG_CONNECTED1].state |= SG_SELECTED;
else
flpdlg[FLPDLG_CONNECTED1].state &= ~SG_SELECTED;
#endif
/* Draw and process the dialog */
do
{
/* Write protection true or false? */
if (ConfigureParams.Floppy.drive[0].bWriteProtected)
flpdlg[FLPDLG_READONLY0].txt = "read-only";
else
flpdlg[FLPDLG_READONLY0].txt = "";
#if DUAL_FLOPPY_DRIVE
if (ConfigureParams.Floppy.drive[1].bWriteProtected)
flpdlg[FLPDLG_READONLY1].txt = "read-only";
else
flpdlg[FLPDLG_READONLY1].txt = "";
#endif
but = SDLGui_DoDialog(flpdlg, NULL);
switch (but)
{
case FLPDLG_INSERT0:
if (!ConfigureParams.Floppy.drive[0].bDiskInserted) {
if (SDLGui_DiskSelect(dlgname_flp[0], ConfigureParams.Floppy.drive[0].szImageName,
flpdlg[FLPDLG_DISKNAME0].w, &ConfigureParams.Floppy.drive[0].bWriteProtected)) {
if (Floppy_Insert(0)) {
DlgAlert_Notice(FLPDLG_BADSIZE_ERROR);
ConfigureParams.Floppy.drive[0].bWriteProtected = false;
ConfigureParams.Floppy.drive[0].szImageName[0] = '\0';
dlgname_flp[0][0] = '\0';
break;
}
ConfigureParams.Floppy.drive[0].bDiskInserted = true;
sprintf(insrtejct0, "Eject");
if (!ConfigureParams.Floppy.drive[0].bDriveConnected) {
ConfigureParams.Floppy.drive[0].bDriveConnected = true;
flpdlg[FLPDLG_CONNECTED0].state |= SG_SELECTED;
}
}
} else {
if (DlgAlert_Query(FLPDLG_EJECT_WARNING)) {
ConfigureParams.Floppy.drive[0].bDiskInserted = false;
ConfigureParams.Floppy.drive[0].bWriteProtected = false;
sprintf(insrtejct0, "Insert");
ConfigureParams.Floppy.drive[0].szImageName[0] = '\0';
dlgname_flp[0][0] = '\0';
Floppy_Eject(0);
}
}
break;
case FLPDLG_CONNECTED0:
if (ConfigureParams.Floppy.drive[0].bDriveConnected) {
ConfigureParams.Floppy.drive[0].bDriveConnected = false;
ConfigureParams.Floppy.drive[0].bDiskInserted = false;
sprintf(insrtejct0, "Insert");
ConfigureParams.Floppy.drive[0].bWriteProtected = false;
ConfigureParams.Floppy.drive[0].szImageName[0] = '\0';
dlgname_flp[0][0] = '\0';
} else {
ConfigureParams.Floppy.drive[0].bDriveConnected = true;
}
break;
#if DUAL_FLOPPY_DRIVE
case FLPDLG_INSERT1:
if (!ConfigureParams.Floppy.drive[1].bDiskInserted) {
if (SDLGui_DiskSelect(dlgname_flp[1], ConfigureParams.Floppy.drive[1].szImageName,
flpdlg[FLPDLG_DISKNAME1].w, &ConfigureParams.Floppy.drive[1].bWriteProtected)) {
if (Floppy_Insert(1)) {
DlgAlert_Notice(FLPDLG_BADSIZE_ERROR);
ConfigureParams.Floppy.drive[1].bWriteProtected = false;
ConfigureParams.Floppy.drive[1].szImageName[0] = '\0';
dlgname_flp[1][0] = '\0';
break;
}
ConfigureParams.Floppy.drive[1].bDiskInserted = true;
sprintf(insrtejct1, "Eject");
if (!ConfigureParams.Floppy.drive[1].bDriveConnected) {
ConfigureParams.Floppy.drive[1].bDriveConnected = true;
flpdlg[FLPDLG_CONNECTED1].state |= SG_SELECTED;
}
}
} else {
if (DlgAlert_Query(FLPDLG_EJECT_WARNING)) {
ConfigureParams.Floppy.drive[1].bDiskInserted = false;
ConfigureParams.Floppy.drive[1].bWriteProtected = false;
sprintf(insrtejct1, "Insert");
ConfigureParams.Floppy.drive[1].szImageName[0] = '\0';
dlgname_flp[1][0] = '\0';
Floppy_Eject(1);
}
}
break;
case FLPDLG_CONNECTED1:
if (ConfigureParams.Floppy.drive[1].bDriveConnected) {
ConfigureParams.Floppy.drive[1].bDriveConnected = false;
ConfigureParams.Floppy.drive[1].bDiskInserted = false;
sprintf(insrtejct1, "Insert");
ConfigureParams.Floppy.drive[1].bWriteProtected = false;
ConfigureParams.Floppy.drive[1].szImageName[0] = '\0';
dlgname_flp[1][0] = '\0';
} else {
ConfigureParams.Floppy.drive[1].bDriveConnected = true;
}
break;
#endif
default:
break;
}
}
while (but != FLPDLG_EXIT && but != SDLGUI_QUIT
&& but != SDLGUI_ERROR && !bQuitProgram);
}