/* ibm1130_gui.c: IBM 1130 CPU simulator Console Display
*
* Based on the SIMH package written by Robert M Supnik
*
* (C) Copyright 2002, Brian Knittel.
* You may freely use this program, but: it offered strictly on an AS-IS, AT YOUR OWN
* RISK basis, there is no warranty of fitness for any purpose, and the rest of the
* usual yada-yada. Please keep this notice and the copyright in any distributions
* or modifications.
*
* This is not a supported product, but I welcome bug reports and fixes.
* Mail to simh@ibm1130.org
*
* 30-Dec-05 BLK Fixed mask for IAR and SAR register display and added display
* of Arithmetic Factor, per Carl Claunch.
*
* 09-Apr-04 BLK Changed code to use stock windows cursor IDC_HAND if available
*
* 02-Dec-02 BLK Changed display, added printer and card reader icons
* Added drag and drop support for scripts and card decks
* Added support for physical card reader and printer (hides icons)
*
* 17-May-02 BLK Pulled out of ibm1130_cpu.c
*/
/* ------------------------------------------------------------------------
* Definitions
* ------------------------------------------------------------------------ */
#include <stdarg.h>
#include <ctype.h>
#include <math.h>
#include "ibm1130_defs.h"
#include "ibm1130res.h"
#include "sim_tmxr.h"
#define UPDATE_BY_TIMER
#ifdef UPDATE_BY_TIMER
# define UPDATE_INTERVAL 20 /* set to desired number of updates/second */
#else
# define UPDATE_INTERVAL 5000 /* GUI: set to 100000/f where f = desired updates/second of 1130 time */
#endif
#define UNIT_V_CR_EMPTY (UNIT_V_UF + 5) /* NOTE: THESE MUST MATCH THE DEFINITION IN ibm1130_cr.c */
#define UNIT_CR_EMPTY (1u << UNIT_V_CR_EMPTY)
#define UNIT_V_PHYSICAL (UNIT_V_UF + 9)
#define UNIT_PHYSICAL (1u << UNIT_V_PHYSICAL)
#define UNIT_V_PHYSICAL_PTR (UNIT_V_UF + 10) /* NOTE: THESE MUST MATCH THE DEFINITION IN ibm1130_prt.c */
#define UNIT_PHYSICAL_PTR (1u << UNIT_V_PHYSICAL_PTR)
/* I think I had it wrong; Program Load actually does start the processor after
* reading in the card?
*/
#define PROGRAM_LOAD_STARTS_CPU
/* ------------------------------------------------------------------------
* Function declarations
* ------------------------------------------------------------------------ */
t_stat console_reset (DEVICE *dptr);
/* ------------------------------------------------------------------------
* Console display - on Windows builds (only) this code displays the 1130 console
* and toggle switches. It really enhances the experience.
*
* Currently, when the IPS throttle is nonzero, I update the display after every
* UPDATE_INTERVAL instructions, plus or minus a random amount to avoid aliased
* sampling in loops. When UPDATE_INTERVAL is defined as zero, we update every
* instruction no matter what the throttle. This makes the simulator too slow
* but it's cool and helpful during development.
* ------------------------------------------------------------------------ */
#define UNIT_V_DISPLAY (UNIT_V_UF + 0)
#define UNIT_DISPLAY (1u << UNIT_V_DISPLAY)
MTAB console_mod[] = {
{ UNIT_DISPLAY, 0, "off", "OFF", NULL },
{ UNIT_DISPLAY, UNIT_DISPLAY, "on", "ON", NULL },
{ 0 }
};
UNIT console_unit = {UDATA (NULL, UNIT_DISABLE|UNIT_DISPLAY, 0) };
DEVICE console_dev = {
"GUI", &console_unit, NULL, console_mod,
1, 16, 16, 1, 16, 16,
NULL, NULL, console_reset,
NULL, NULL, NULL
};
/* reset for the "console" display device */
extern UNIT cr_unit; /* pointers to 1442 and 1132 (1403) printers */
extern UNIT prt_unit;
extern UNIT dsk_unit[];
extern int boot_drive;
extern t_bool program_is_loaded;
#ifndef GUI_SUPPORT
void update_gui (int force) {} /* stubs for non-GUI builds */
void forms_check (int set) {}
void print_check (int set) {}
void keyboard_select (int select) {}
void keyboard_selected (int select) {}
void disk_ready (int ready) {}
void disk_unlocked (int unlocked) {}
void gui_run (int running) {}
static void init_console_window (void) {}
static void destroy_console_window (void) {}
t_stat console_reset (DEVICE *dptr) {return SCPE_OK;}
long stuff_cmd (char *cmd) {return 0;}
t_bool stuff_and_wait (char *cmd, int timeout, int delay) {return FALSE;}
char *read_cmdline (char *ptr, int size, FILE *stream) {return read_line(ptr, size, stream);}
void remark_cmd (char *remark) {sim_printf("%s\n", remark);}
#else
static HWND hConsoleWindow = NULL;
t_stat console_reset (DEVICE *dptr)
{
if (! sim_gui) {
SETBIT(console_unit.flags, UNIT_DIS); /* disable the GUI */
CLRBIT(console_unit.flags, UNIT_DISPLAY); /* turn the GUI off */
} else {
if (!hConsoleWindow)
hConsoleWindow = GetConsoleWindow();
}
update_gui(FALSE);
return SCPE_OK;
}
/* scp_panic - report fatal internal programming error */
void scp_panic (const char *msg)
{
fprintf(stderr, "%s\n", msg);
exit(1);
}
#ifdef _WIN32
/* only _WIN32 is defined right now */
#include <windows.h>
#define BUTTON_WIDTH 90
#define BUTTON_HEIGHT 50
#define IDC_UNUSED 0
#define IDC_DISK_UNLOCK 1
#define IDC_RUN 2
#define IDC_KEYBOARD_SELECT 3
#define IDC_POWER_ON 4
#define IDC_FILE_READY 5
#define IDC_PARITY_CHECK 6
#define IDC_FORMS_CHECK 7
#define IDC_POWER 8
#define IDC_PROGRAM_START 9
#define IDC_PROGRAM_STOP 10
#define IDC_LOAD_IAR 11
#define IDC_KEYBOARD 12
#define IDC_IMM_STOP 13
#define IDC_RESET 14
#define IDC_PROGRAM_LOAD 15
#define IDC_TEAR 16 /* standard button */
#define IDC_1442 17 /* device images */
#define IDC_1132 18
#define LAMPTIME 500 /* 500 msec delay on updating */
#define FLASH_TIMER_ID 1
#define UPDATE_TIMER_ID 2
#define RUNSWITCH_X 689 /* center of the run mode switch dial */
#define RUNSWITCH_Y 107
#define TOGGLES_X 122 /* left edge of series of toggle switches */
#define TXTBOX_X 200 /* text labels showing attached devices */
#define TXTBOX_Y 300
#define TXTBOX_WIDTH 195
#define TXTBOX_HEIGHT 12
static BOOL class_defined = FALSE;
static HWND hConsoleWnd = NULL;
static HBITMAP hBitmap = NULL;
static HFONT hFont = NULL;
static HFONT hBtnFont = NULL;
static HFONT hTinyFont = NULL;
static HBRUSH hbLampOut = NULL;
static HBRUSH hbWhite = NULL;
static HBRUSH hbBlack = NULL;
static HBRUSH hbGray = NULL;
static HPEN hSwitchPen = NULL;
static HPEN hWhitePen = NULL;
static HPEN hBlackPen = NULL;
static HPEN hLtGreyPen = NULL;
static HPEN hGreyPen = NULL;
static HPEN hDkGreyPen = NULL;
static int hUpdateTimer = 0;
static int hFlashTimer = 0;
static HCURSOR hcArrow = NULL;
static HCURSOR hcHand = NULL;
static HINSTANCE hInstance;
static HDC hCDC = NULL;
static char szConsoleClassName[] = "1130CONSOLE";
static DWORD PumpID = 0;
static HANDLE hPump = INVALID_HANDLE_VALUE;
static int bmwid, bmht;
static HANDLE hbm1442_full, hbm1442_empty, hbm1442_eof, hbm1442_middle;
static HANDLE hbm1132_full, hbm1132_empty;
static struct tag_btn {
int x, y, wx, wy;
char *txt;
BOOL pushable, state;
COLORREF clr;
HBRUSH hbrLit, hbrDark;
HWND hBtn;
BOOL subclassed;
} btn[] = {
0, 0, BUTTON_WIDTH, BUTTON_HEIGHT, "", FALSE, FALSE, RGB(255,255,180), NULL, NULL, NULL, TRUE,
0, 1, BUTTON_WIDTH, BUTTON_HEIGHT, "DISK\nUNLOCK", FALSE, TRUE, RGB(255,255,180), NULL, NULL, NULL, TRUE,
0, 2, BUTTON_WIDTH, BUTTON_HEIGHT, "RUN", FALSE, FALSE, RGB(0,255,0), NULL, NULL, NULL, TRUE,
0, 3, BUTTON_WIDTH, BUTTON_HEIGHT, "K B\nSELECT", FALSE, FALSE, RGB(255,255,180), NULL, NULL, NULL, TRUE,
1, 0, BUTTON_WIDTH, BUTTON_HEIGHT, "POWER\nON", FALSE, TRUE, RGB(255,255,180), NULL, NULL, NULL, TRUE,
1, 1, BUTTON_WIDTH, BUTTON_HEIGHT, "FILE\nREADY", FALSE, FALSE, RGB(0,255,0), NULL, NULL, NULL, TRUE,
1, 2, BUTTON_WIDTH, BUTTON_HEIGHT, "PARITY\nCHECK", FALSE, FALSE, RGB(255,0,0), NULL, NULL, NULL, TRUE,
1, 3, BUTTON_WIDTH, BUTTON_HEIGHT, "FORMS\nCHECK", FALSE, FALSE, RGB(255,255,0), NULL, NULL, NULL, TRUE,
2, 0, BUTTON_WIDTH, BUTTON_HEIGHT, "POWER", TRUE, FALSE, RGB(255,255,180), NULL, NULL, NULL, TRUE,
2, 1, BUTTON_WIDTH, BUTTON_HEIGHT, "PROGRAM\nSTART", TRUE, FALSE, RGB(0,255,0), NULL, NULL, NULL, TRUE,
2, 2, BUTTON_WIDTH, BUTTON_HEIGHT, "PROGRAM\nSTOP", TRUE, FALSE, RGB(255,0,0), NULL, NULL, NULL, TRUE,
2, 3, BUTTON_WIDTH, BUTTON_HEIGHT, "LOAD\nIAR", TRUE, FALSE, RGB(0,0,255), NULL, NULL, NULL, TRUE,
3, 0, BUTTON_WIDTH, BUTTON_HEIGHT, "KEYBOARD", TRUE, FALSE, RGB(255,255,180), NULL, NULL, NULL, TRUE,
3, 1, BUTTON_WIDTH, BUTTON_HEIGHT, "IMM\nSTOP", TRUE, FALSE, RGB(255,0,0), NULL, NULL, NULL, TRUE,
3, 2, BUTTON_WIDTH, BUTTON_HEIGHT, "RESET", TRUE, FALSE, RGB(0,0,255), NULL, NULL, NULL, TRUE,
3, 3, BUTTON_WIDTH, BUTTON_HEIGHT, "PROGRAM\nLOAD", TRUE, FALSE, RGB(0,0,255), NULL, NULL, NULL, TRUE,
TXTBOX_X+40, TXTBOX_Y+25, 35, 12, "Tear", TRUE, FALSE, 0, NULL, NULL, NULL, FALSE,
635, 238, 110, 110, "EMPTY_1442", TRUE, FALSE, 0, NULL, NULL, NULL, FALSE,
635, 366, 110, 110, "EMPTY_1132", TRUE, FALSE, 0, NULL, NULL, NULL, FALSE,
};
#define NBUTTONS (sizeof(btn) / sizeof(btn[0]))
#define STATE_1442_EMPTY 0 /* no cards (no file attached) */
#define STATE_1442_FULL 1 /* cards in hopper (file attached at BOF) */
#define STATE_1442_MIDDLE 2 /* cards in hopper and stacker (file attached, neither EOF nor BOF) */
#define STATE_1442_EOF 3 /* cards in stacker (file attached, at EOF) */
#define STATE_1442_HIDDEN 4 /* simulator is attached to physical card reader */
#define STATE_1132_EMPTY 0 /* no paper hanging out of printer */
#define STATE_1132_FULL 1 /* paper hanging out of printer */
#define STATE_1132_HIDDEN 2 /* printer is attached to physical printer */
static struct tag_txtbox {
int x, y;
char *txt;
char *unitname;
int idctrl;
} txtbox[] = {
TXTBOX_X, TXTBOX_Y, "Card Reader", "CR", -1,
TXTBOX_X, TXTBOX_Y+ 25, "Printer", "PRT", IDC_1132,
TXTBOX_X, TXTBOX_Y+ 50, "Disk 0", "DSK0", -1,
TXTBOX_X, TXTBOX_Y+ 75, "Disk 1", "DSK1", -1,
TXTBOX_X, TXTBOX_Y+100, "Disk 2", "DSK2", -1,
TXTBOX_X, TXTBOX_Y+125, "Disk 3", "DSK3", -1,
TXTBOX_X, TXTBOX_Y+150, "Disk 4", "DSK4", -1,
};
#define NTXTBOXES (sizeof(txtbox) / sizeof(txtbox[0]))
#define TXTBOX_BOTTOM (TXTBOX_Y+150)
static void init_console_window (void);
static void destroy_console_window (void);
LRESULT CALLBACK ConsoleWndProc (HWND hWnd, UINT uMsg, WPARAM wParam, LPARAM lParam);
static DWORD WINAPI Pump (LPVOID arg);
static void accept_dropped_file (HANDLE hDrop);
static void tear_printer (void);
#define NIXOBJECT(hObj) if (hObj != NULL) {DeleteObject(hObj); hObj = NULL;}
/* ------------------------------------------------------------------------
* init_console_window - display the 1130 console. Actually just creates a thread
* to run the Pump routine which does the actual work.
* ------------------------------------------------------------------------ */
static void init_console_window (void)
{
static BOOL did_atexit = FALSE;
if (hConsoleWnd != NULL)
return;
if (PumpID == 0)
hPump = CreateThread(NULL, 0, Pump, 0, 0, &PumpID);
if (! did_atexit) {
atexit(destroy_console_window);
did_atexit = TRUE;
}
}
/* ------------------------------------------------------------------------
* destroy_console_window - delete GDI objects.
* ------------------------------------------------------------------------ */
static void destroy_console_window (void)
{
int i;
if (hConsoleWnd != NULL)
SendMessage(hConsoleWnd, WM_CLOSE, 0, 0); /* cross thread call is OK */
if (hPump != INVALID_HANDLE_VALUE) { /* this is not the most graceful way to do it */
TerminateThread(hPump, 0);
hPump = INVALID_HANDLE_VALUE;
PumpID = 0;
hConsoleWnd = NULL;
}
if (hCDC != NULL) {
DeleteDC(hCDC);
hCDC = NULL;
}
NIXOBJECT(hBitmap)
NIXOBJECT(hbLampOut)
NIXOBJECT(hFont)
NIXOBJECT(hBtnFont);
NIXOBJECT(hTinyFont);
NIXOBJECT(hcHand)
NIXOBJECT(hSwitchPen)
NIXOBJECT(hLtGreyPen)
NIXOBJECT(hGreyPen)
NIXOBJECT(hDkGreyPen)
for (i = 0; i < NBUTTONS; i++) {
NIXOBJECT(btn[i].hbrLit);
NIXOBJECT(btn[i].hbrDark);
}
/* if (class_defined) {
UnregisterClass(hInstance, szConsoleClassName);
class_defined = FALSE;
}
*/
}
/* ------------------------------------------------------------------------
* these variables hold the displayed versions of the system registers
* ------------------------------------------------------------------------ */
static int shown_iar = 0, shown_sar = 0, shown_sbr = 0, shown_afr = 0, shown_acc = 0, shown_ext = 0;
static int shown_op = 0, shown_tag = 0, shown_irq = 0, shown_ccc = 0, shown_cnd = 0, shown_wait = 0;
static int shown_ces = 0, shown_arf = 0, shown_runmode = MODE_RUN;
static int CND;
/* ------------------------------------------------------------------------
* RedrawRegion - mark a region for redrawing without background erase
* ------------------------------------------------------------------------ */
static void RedrawRegion (HWND hWnd, int left, int top, int right, int bottom)
{
RECT r;
r.left = left;
r.top = top;
r.right = right;
r.bottom = bottom;
InvalidateRect(hWnd, &r, FALSE);
}
/* ------------------------------------------------------------------------
* RepaintRegion - mark a region for redrawing with background erase
* ------------------------------------------------------------------------ */
static void RepaintRegion (HWND hWnd, int left, int top, int right, int bottom)
{
RECT r;
r.left = left;
r.top = top;
r.right = right;
r.bottom = bottom;
InvalidateRect(hWnd, &r, TRUE);
}
/* ------------------------------------------------------------------------
* update_gui - sees if anything on the console display has changed, and invalidates
* the changed regions. Then it calls UpdateWindow to force an immediate repaint. This
* function (update_gui) should probably not be called every time through the main
* instruction loop but it should be called at least whenever wait_state or int_req change, and then
* every so many instructions. It's also called after every simh command so manual changes are
* reflected instantly.
* ------------------------------------------------------------------------ */
void update_gui (BOOL force)
{
int i;
BOOL state;
static int in_here = FALSE;
static int32 displayed = 0;
RECT xin;
if ((int32)(console_unit.flags & UNIT_DISPLAY) != displayed) { /* setting has changed */
displayed = console_unit.flags & UNIT_DISPLAY;
if (displayed)
init_console_window();
else
destroy_console_window();
}
if (hConsoleWnd == NULL)
return;
GUI_BEGIN_CRITICAL_SECTION /* only one thread at a time, please */
if (in_here) {
GUI_END_CRITICAL_SECTION
return;
}
in_here = TRUE;
GUI_END_CRITICAL_SECTION
CND = 0; /* combine carry and V as two bits */
if (C)
CND |= 2;
if (V)
CND |= 1;
if ((boot_drive<0) || (!program_is_loaded)) {
boot_drive = CES & 7;
if (boot_drive > 4)
boot_drive = -1;
}
if ((boot_drive>=0) && (dsk_unit[boot_drive].flags&UNIT_ATT)) {
disk_ready(TRUE);
disk_unlocked(FALSE);
}
else {
disk_ready(FALSE);
disk_unlocked(TRUE);
}
int_lamps |= int_req;
if (ipl >= 0)
int_lamps |= (0x20 >> ipl);
if (RUNMODE == MODE_LOAD)
SBR = CES; /* in load mode, SBR follows the console switches */
if (IAR != shown_iar)
{shown_iar = IAR; RedrawRegion(hConsoleWnd, 75, 8, 364, 32);} /* lamps: don't bother erasing bkgnd */
if (SAR != shown_sar)
{shown_sar = SAR; RedrawRegion(hConsoleWnd, 75, 42, 364, 65);}
if (ARF != shown_arf)
{shown_arf = ARF; RedrawRegion(hConsoleWnd, 75, 114, 364, 136);}
if (ACC != shown_acc)
{shown_acc = ACC; RedrawRegion(hConsoleWnd, 75, 141, 364, 164);}
if (EXT != shown_ext)
{shown_ext = EXT; RedrawRegion(hConsoleWnd, 75, 174, 364, 197);}
if (SBR != shown_sbr)
{shown_sbr = SBR; RedrawRegion(hConsoleWnd, 75, 77, 364, 97);}
if (OP != shown_op)
{shown_op = OP; RedrawRegion(hConsoleWnd, 501, 8, 595, 32);}
if (TAG != shown_tag)
{shown_tag = TAG; RedrawRegion(hConsoleWnd, 501, 77, 595, 97);}
if (int_lamps != shown_irq)
{shown_irq = int_lamps; RedrawRegion(hConsoleWnd, 501, 108, 595, 130);}
if (CCC != shown_ccc)
{shown_ccc = CCC; RedrawRegion(hConsoleWnd, 501, 141, 595, 164);}
if (CND != shown_cnd)
{shown_cnd = CND; RedrawRegion(hConsoleWnd, 501, 174, 595, 197);}
if ((wait_state|wait_lamp) != shown_wait)
{shown_wait= (wait_state|wait_lamp); RedrawRegion(hConsoleWnd, 380, 77, 414, 97);}
if (CES != shown_ces)
{shown_ces = CES; RepaintRegion(hConsoleWnd, TOGGLES_X-7, 230, TOGGLES_X+360, 275);} /* console entry sw: do erase bkgnd */
if (RUNMODE != shown_runmode)
{shown_runmode = RUNMODE;RepaintRegion(hConsoleWnd, RUNSWITCH_X-50, RUNSWITCH_Y-50, RUNSWITCH_X+50, RUNSWITCH_Y+50);}
int_lamps = 0;
/* this loop works with lamp buttons that are calculated on-the-fly only */
for (i = 0; i < NBUTTONS; i++) {
if (btn[i].pushable)
continue;
switch (i) {
case IDC_RUN:
state = hFlashTimer || (running && ! wait_state);
break;
/* this button is always off
case IDC_PARITY_CHECK
*/
/* these buttons are enabled/disabled directly
case IDC_POWER_ON:
case IDC_FILE_READY:
case IDC_FORMS_CHECK:
case IDC_KEYBOARD_SELECT:
case IDC_DISK_UNLOCK:
*/
default:
continue;
}
if (state != btn[i].state) { /* state has changed */
EnableWindow(btn[i].hBtn, state);
btn[i].state = state;
}
}
if (force) { /* if force flag is set, update text region */
SetRect(&xin, TXTBOX_X, TXTBOX_Y, TXTBOX_X+TXTBOX_WIDTH, TXTBOX_BOTTOM+2*TXTBOX_HEIGHT);
InvalidateRect(hConsoleWnd, &xin, TRUE);
}
state = ((cr_unit.flags & UNIT_ATT) == 0) ? STATE_1442_EMPTY :
(cr_unit.flags & UNIT_PHYSICAL) ? STATE_1442_HIDDEN :
(cr_unit.flags & UNIT_CR_EMPTY) ? STATE_1442_EOF :
cr_unit.pos ? STATE_1442_MIDDLE :
STATE_1442_FULL;
if (state != btn[IDC_1442].state) {
if (state == STATE_1442_HIDDEN)
ShowWindow(btn[IDC_1442].hBtn, SW_HIDE);
else {
if (btn[IDC_1442].state == STATE_1442_HIDDEN)
ShowWindow(btn[IDC_1442].hBtn, SW_SHOWNA);
SendMessage(btn[IDC_1442].hBtn, STM_SETIMAGE, IMAGE_BITMAP,
(LPARAM) (
(state == STATE_1442_FULL) ? hbm1442_full :
(state == STATE_1442_MIDDLE) ? hbm1442_middle :
(state == STATE_1442_EOF) ? hbm1442_eof :
hbm1442_empty));
}
btn[IDC_1442].state = state;
}
state = ((prt_unit.flags & UNIT_ATT) == 0) ? STATE_1132_EMPTY :
(prt_unit.flags & UNIT_PHYSICAL_PTR) ? STATE_1132_HIDDEN :
prt_unit.pos ? STATE_1132_FULL :
STATE_1132_EMPTY;
if (state != btn[IDC_1132].state) {
if (state == STATE_1132_HIDDEN)
ShowWindow(btn[IDC_1132].hBtn, SW_HIDE);
else {
if (btn[IDC_1132].state == STATE_1132_HIDDEN)
ShowWindow(btn[IDC_1132].hBtn, SW_SHOWNA);
SendMessage(btn[IDC_1132].hBtn, STM_SETIMAGE, IMAGE_BITMAP,
(LPARAM) (
(state == STATE_1132_FULL) ? hbm1132_full : hbm1132_empty));
}
btn[IDC_1132].state = state;
}
in_here = FALSE;
}
WNDPROC oldButtonProc = NULL;
/* ------------------------------------------------------------------------
* ------------------------------------------------------------------------ */
LRESULT CALLBACK ButtonProc (HWND hWnd, UINT uMsg, WPARAM wParam, LPARAM lParam)
{
int i;
i = GetWindowLongPtr(hWnd, GWLP_ID);
if (! btn[i].pushable) {
if (uMsg == WM_LBUTTONDOWN || uMsg == WM_LBUTTONUP || uMsg == WM_LBUTTONDBLCLK)
return 0;
if (uMsg == WM_CHAR)
if ((TCHAR) wParam == ' ')
return 0;
}
return CallWindowProc(oldButtonProc, hWnd, uMsg, wParam, lParam);
}
/* ------------------------------------------------------------------------
* ------------------------------------------------------------------------ */
static int occurs (char *txt, char ch)
{
int count = 0;
while (*txt)
if (*txt++ == ch)
count++;
return count;
}
/* ------------------------------------------------------------------------
* turns out to get properly colored buttons you have to paint them yourself. Sheesh.
* On the plus side, this lets do a better job of aligning the button text than
* the button would by itself.
* ------------------------------------------------------------------------ */
void PaintButton (LPDRAWITEMSTRUCT dis)
{
int i = dis->CtlID, nc, nlines, x, y, dy;
BOOL down = dis->itemState & ODS_SELECTED;
HPEN hOldPen;
HFONT hOldFont;
UINT oldAlign;
COLORREF oldBk;
char *txt, *tstart;
if (! BETWEEN(i, 0, NBUTTONS-1))
return;
if (! btn[i].subclassed)
return;
FillRect(dis->hDC, &dis->rcItem, ((btn[i].pushable || power) && IsWindowEnabled(btn[i].hBtn)) ? btn[i].hbrLit : btn[i].hbrDark);
if (! btn[i].pushable) {
hOldPen = SelectObject(dis->hDC, hBlackPen);
MoveToEx(dis->hDC, dis->rcItem.left, dis->rcItem.top, NULL);
LineTo(dis->hDC, dis->rcItem.right-1, dis->rcItem.top);
LineTo(dis->hDC, dis->rcItem.right-1, dis->rcItem.bottom-1);
LineTo(dis->hDC, dis->rcItem.left, dis->rcItem.bottom-1);
LineTo(dis->hDC, dis->rcItem.left, dis->rcItem.top);
}
else if (down) {
/* do the three-D thing */
hOldPen = SelectObject(dis->hDC, hDkGreyPen);
MoveToEx(dis->hDC, dis->rcItem.left, dis->rcItem.bottom-2, NULL);
LineTo(dis->hDC, dis->rcItem.left, dis->rcItem.top);
LineTo(dis->hDC, dis->rcItem.right-1, dis->rcItem.top);
SelectObject(dis->hDC, hWhitePen);
MoveToEx(dis->hDC, dis->rcItem.left, dis->rcItem.bottom-1, NULL);
LineTo(dis->hDC, dis->rcItem.right-1, dis->rcItem.bottom-1);
LineTo(dis->hDC, dis->rcItem.right-1, dis->rcItem.top);
SelectObject(dis->hDC, hGreyPen);
MoveToEx(dis->hDC, dis->rcItem.left+1, dis->rcItem.bottom-3, NULL);
LineTo(dis->hDC, dis->rcItem.left+1, dis->rcItem.top+1);
LineTo(dis->hDC, dis->rcItem.right-3, dis->rcItem.top+1);
}
else {
hOldPen = SelectObject(dis->hDC, hWhitePen);
MoveToEx(dis->hDC, dis->rcItem.left, dis->rcItem.bottom-2, NULL);
LineTo(dis->hDC, dis->rcItem.left, dis->rcItem.top);
LineTo(dis->hDC, dis->rcItem.right-1, dis->rcItem.top);
SelectObject(dis->hDC, hDkGreyPen);
MoveToEx(dis->hDC, dis->rcItem.left, dis->rcItem.bottom-1, NULL);
LineTo(dis->hDC, dis->rcItem.right-1, dis->rcItem.bottom-1);
LineTo(dis->hDC, dis->rcItem.right-1, dis->rcItem.top);
SelectObject(dis->hDC, hGreyPen);
MoveToEx(dis->hDC, dis->rcItem.left+1, dis->rcItem.bottom-2, NULL);
LineTo(dis->hDC, dis->rcItem.right-2, dis->rcItem.bottom-2);
LineTo(dis->hDC, dis->rcItem.right-2, dis->rcItem.top+1);
}
SelectObject(dis->hDC, hOldPen);
hOldFont = SelectObject(dis->hDC, hBtnFont);
oldAlign = SetTextAlign(dis->hDC, TA_CENTER|TA_TOP);
oldBk = SetBkMode(dis->hDC, TRANSPARENT);
txt = btn[i].txt;
nlines = occurs(txt, '\n')+1;
x = (dis->rcItem.left + dis->rcItem.right) / 2;
y = (dis->rcItem.top + dis->rcItem.bottom) / 2;
dy = 14;
y = y - (nlines*dy)/2;
if (down) {
x += 1;
y += 1;
}
for (;;) {
for (nc = 0, tstart = txt; *txt && *txt != '\n'; txt++, nc++)
;
TextOut(dis->hDC, x, y, tstart, nc);
if (*txt == '\0')
break;
txt++;
y += dy;
}
SetTextAlign(dis->hDC, oldAlign);
SetBkMode(dis->hDC, oldBk);
SelectObject(dis->hDC, hOldFont);
}
/* ------------------------------------------------------------------------
* ------------------------------------------------------------------------ */
HWND CreateSubclassedButton (HWND hwParent, UINT_PTR i)
{
HWND hBtn;
int x, y;
int r, g, b;
y = bmht - (4*BUTTON_HEIGHT) + BUTTON_HEIGHT * btn[i].y;
x = (btn[i].x < 2) ? (btn[i].x*BUTTON_WIDTH) : (598 - (4-btn[i].x)*BUTTON_WIDTH);
if ((hBtn = CreateWindow("BUTTON", btn[i].txt, WS_CHILD|WS_VISIBLE|BS_CENTER|BS_MULTILINE|BS_OWNERDRAW,
x, y, BUTTON_WIDTH, BUTTON_HEIGHT, hwParent, (HMENU) i, hInstance, NULL)) == NULL)
return NULL;
btn[i].hBtn = hBtn;
if (oldButtonProc == NULL)
oldButtonProc = (WNDPROC) GetWindowLongPtr(hBtn, GWLP_WNDPROC);
btn[i].hbrLit = CreateSolidBrush(btn[i].clr);
if (! btn[i].pushable) {
r = GetRValue(btn[i].clr) / 4;
g = GetGValue(btn[i].clr) / 4;
b = GetBValue(btn[i].clr) / 4;
btn[i].hbrDark = CreateSolidBrush(RGB(r,g,b));
EnableWindow(hBtn, FALSE);
}
SetWindowLongPtr(hBtn, GWLP_WNDPROC, (UINT_PTR) ButtonProc);
return hBtn;
}
/* ------------------------------------------------------------------------
* Pump - thread that takes care of the console window. It has to be a separate thread so that it gets
* execution time even when the simulator is compute-bound or IO-blocked. This routine creates the window
* and runs a standard Windows message pump. The window function does the actual display work.
* ------------------------------------------------------------------------ */
static DWORD WINAPI Pump (LPVOID arg)
{
MSG msg;
int wx, wy;
UINT_PTR i;
RECT r, ra;
BITMAP bm;
WNDCLASS cd;
HDC hDC;
HWND hActWnd;
hActWnd = GetForegroundWindow();
if (! class_defined) { /* register Window class */
hInstance = GetModuleHandle(NULL);
memset(&cd, 0, sizeof(cd));
cd.style = CS_NOCLOSE;
cd.lpfnWndProc = ConsoleWndProc;
cd.cbClsExtra = 0;
cd.cbWndExtra = 0;
cd.hInstance = hInstance;
cd.hIcon = NULL;
cd.hCursor = hcArrow;
cd.hbrBackground = NULL;
cd.lpszMenuName = NULL;
cd.lpszClassName = szConsoleClassName;
if (! RegisterClass(&cd)) {
PumpID = 0;
return 0;
}
class_defined = TRUE;
}
hbWhite = GetStockObject(WHITE_BRUSH); /* create or fetch useful GDI objects */
hbBlack = GetStockObject(BLACK_BRUSH); /* create or fetch useful GDI objects */
hbGray = GetStockObject(GRAY_BRUSH);
hSwitchPen = CreatePen(PS_SOLID, 5, RGB(255,255,255));
hWhitePen = GetStockObject(WHITE_PEN);
hBlackPen = GetStockObject(BLACK_PEN);
hLtGreyPen = CreatePen(PS_SOLID, 1, RGB(190,190,190));
hGreyPen = CreatePen(PS_SOLID, 1, RGB(128,128,128));
hDkGreyPen = CreatePen(PS_SOLID, 1, RGB(64,64,64));
hcArrow = LoadCursor(NULL, IDC_ARROW);
#ifdef IDC_HAND
hcHand = LoadCursor(NULL, IDC_HAND); /* use stock object provided by Windows */
if (hcHand == NULL)
hcHand = LoadCursor(hInstance, MAKEINTRESOURCE(IDC_MYHAND));
#else
hcHand = LoadCursor(hInstance, MAKEINTRESOURCE(IDC_MYHAND));
#endif
if (hBitmap == NULL)
hBitmap = LoadBitmap(hInstance, MAKEINTRESOURCE(IDB_CONSOLE));
if (hbLampOut == NULL)
hbLampOut = CreateSolidBrush(RGB(50,50,50));
if (hFont == NULL)
hFont = CreateFont(-10, 0, 0, 0, FW_NORMAL, 0, 0, 0, DEFAULT_CHARSET, OUT_DEFAULT_PRECIS, CLIP_DEFAULT_PRECIS, FIXED_PITCH, FF_SWISS, "Arial");
if (hBtnFont == NULL)
hBtnFont = CreateFont(-12, 0, 0, 0, FW_NORMAL, 0, 0, 0, DEFAULT_CHARSET, OUT_DEFAULT_PRECIS, CLIP_DEFAULT_PRECIS, FIXED_PITCH, FF_SWISS, "Arial");
if (hTinyFont == NULL)
hTinyFont = CreateFont(-10, 0, 0, 0, FW_NORMAL, 0, 0, 0, DEFAULT_CHARSET, OUT_DEFAULT_PRECIS, CLIP_DEFAULT_PRECIS, FIXED_PITCH, FF_SWISS, "Arial");
if (hConsoleWnd == NULL) { /* create window */
if ((hConsoleWnd = CreateWindow(szConsoleClassName, "IBM 1130", WS_OVERLAPPED|WS_CLIPCHILDREN, 0, 0, 200, 200, NULL, NULL, hInstance, NULL)) == NULL) {
PumpID = 0;
return 0;
}
DragAcceptFiles(hConsoleWnd, TRUE); /* let it accept dragged files (scripts) */
}
GetObject(hBitmap, sizeof(bm), &bm); /* get bitmap size */
bmwid = bm.bmWidth;
bmht = bm.bmHeight;
for (i = 0; i < NBUTTONS; i++) {
if (! btn[i].subclassed)
continue;
CreateSubclassedButton(hConsoleWnd, i);
if (! btn[i].pushable)
EnableWindow(btn[i].hBtn, btn[i].state);
}
/* This isn't needed anymore, now that we have the big printer icon -- it acts like a button now
* i = IDC_TEAR;
* btn[i].hBtn = CreateWindow("BUTTON", btn[i].txt, WS_CHILD|WS_VISIBLE|BS_CENTER,
* btn[i].x, btn[i].y, btn[i].wx, btn[i].wy, hConsoleWnd, (HMENU) i, hInstance, NULL);
*
* SendMessage(btn[i].hBtn, WM_SETFONT, (WPARAM) hTinyFont, TRUE);
*/
hbm1442_full = LoadBitmap(hInstance, "FULL_1442");
hbm1442_empty = LoadBitmap(hInstance, "EMPTY_1442");
hbm1442_eof = LoadBitmap(hInstance, "EOF_1442");
hbm1442_middle = LoadBitmap(hInstance, "MIDDLE_1442");
hbm1132_full = LoadBitmap(hInstance, "FULL_1132");
hbm1132_empty = LoadBitmap(hInstance, "EMPTY_1132");
i = IDC_1442;
btn[i].hBtn = CreateWindow("STATIC", btn[i].txt, WS_CHILD|WS_VISIBLE|SS_BITMAP|SS_SUNKEN|WS_BORDER|SS_REALSIZEIMAGE|SS_NOTIFY,
btn[i].x, btn[i].y, btn[i].wx, btn[i].wy, hConsoleWnd, (HMENU) i, hInstance, NULL);
btn[i].state = STATE_1442_EMPTY;
wx = SendMessage(btn[i].hBtn, STM_SETIMAGE, IMAGE_BITMAP, (LPARAM) hbm1442_empty);
i = IDC_1132;
btn[i].hBtn = CreateWindow("STATIC", btn[i].txt, WS_CHILD|WS_VISIBLE|SS_BITMAP|SS_SUNKEN|WS_BORDER|SS_REALSIZEIMAGE|SS_NOTIFY,
btn[i].x, btn[i].y, btn[i].wx, btn[i].wy, hConsoleWnd, (HMENU) i, hInstance, NULL);
btn[i].state = FALSE;
wx = SendMessage(btn[i].hBtn, STM_SETIMAGE, IMAGE_BITMAP, (LPARAM) hbm1132_empty);
GetWindowRect(hConsoleWnd, &r); /* get window size as created */
wx = r.right - r.left + 1;
wy = r.bottom - r.top + 1;
if (hCDC == NULL) { /* get a memory DC and select the bitmap into ti */
hDC = GetDC(hConsoleWnd);
hCDC = CreateCompatibleDC(hDC);
SelectObject(hCDC, hBitmap);
ReleaseDC(hConsoleWnd, hDC);
}
GetClientRect(hConsoleWnd, &r);
wx = (wx - r.right - 1) + bmwid; /* compute new desired size based on how client area came out */
wy = (wy - r.bottom - 1) + bmht;
MoveWindow(hConsoleWnd, 0, 0, wx, wy, FALSE); /* resize window */
ShowWindow(hConsoleWnd, SW_SHOWNOACTIVATE); /* display it */
UpdateWindow(hConsoleWnd);
if (hActWnd != NULL) { /* bring console (sim) window back to top */
GetWindowRect(hConsoleWnd, &r);
ShowWindow(hActWnd, SW_NORMAL); /* and move it just below the display window */
SetWindowPos(hActWnd, HWND_TOP, 0, r.bottom, 0, 0, SWP_NOSIZE);
GetWindowRect(hActWnd, &ra);
if (ra.bottom >= GetSystemMetrics(SM_CYSCREEN)) { /* resize if it goes of bottom of screen */
ra.bottom = GetSystemMetrics(SM_CYSCREEN) - 1;
SetWindowPos(hActWnd, 0, 0, 0, ra.right-ra.left+1, ra.bottom-ra.top+1, SWP_NOZORDER|SWP_NOMOVE);
}
}
if (running) /* if simulator is already running, start update timer */
gui_run(TRUE);
while (GetMessage(&msg, hConsoleWnd, 0, 0)) { /* message pump - this basically loops forevermore */
TranslateMessage(&msg);
DispatchMessage(&msg);
}
if (hConsoleWnd != NULL) {
DragAcceptFiles(hConsoleWnd, FALSE); /* unregister as drag/drop target */
DestroyWindow(hConsoleWnd); /* but if a quit message got posted, clean up */
hConsoleWnd = NULL;
}
PumpID = 0;
return 0;
}
/* ------------------------------------------------------------------------
* DrawBits - starting at position (x,y), draw lamps for nbits bits of word 'bits', looking only at masked bits
* ------------------------------------------------------------------------ */
static void DrawBits (HDC hDC, int x, int y, int bits, int nbits, int mask, char *syms)
{
int i, b = 0x0001 << (nbits-1);
for (i = 0; i < nbits; i++, b >>= 1) {
if (mask & b) { /* select white or black lettering then write 2 chars */
SetTextColor(hDC, (b & bits && power) ? RGB(255,255,255) : RGB(0,0,0));
TextOut(hDC, x, y, syms, 2);
}
syms += 2; /* go to next symbol pair */
if (i < 10)
x += 15; /* step between lamps */
else
x += 19;
if (x < 500) {
if (b & 0x1110)
x += 10; /* step over nibble divisions on left side */
else if (b & 0x0001)
x += 9;
}
}
}
/* ------------------------------------------------------------------------
* DrawToggles - display the console sense switches
* ------------------------------------------------------------------------ */
static void DrawToggles (HDC hDC, int bits)
{
int b, x;
for (b = 0x8000, x = TOGGLES_X; b != 0; b >>= 1) {
if (shown_ces & b) { /* up */
SelectObject(hDC, hbWhite);
Rectangle(hDC, x, 232, x+9, 240);
SelectObject(hDC, hbGray);
Rectangle(hDC, x, 239, x+9, 255);
}
else { /* down */
SelectObject(hDC, hbWhite);
Rectangle(hDC, x, 263, x+9, 271);
SelectObject(hDC, hbGray);
Rectangle(hDC, x, 248, x+9, 264);
}
x += (b & 0x1111) ? 31 : 21;
}
}
/* ------------------------------------------------------------------------
* DrawRunmode - draw the run mode rotary switch's little tip
* ------------------------------------------------------------------------ */
void DrawRunmode (HDC hDC, int mode)
{
double angle = (mode*45. + 90.) * 3.1415926 / 180.; /* convert mode position to angle in radians */
double ca, sa; /* sine and cosine */
int x0, y0, x1, y1;
HPEN hOldPen;
ca = cos(angle);
sa = sin(angle);
x0 = RUNSWITCH_X + (int) (20.*ca + 0.5); /* inner radius */
y0 = RUNSWITCH_Y - (int) (20.*sa + 0.5);
x1 = RUNSWITCH_X + (int) (25.*ca + 0.5); /* outer radius */
y1 = RUNSWITCH_Y - (int) (25.*sa + 0.5);
hOldPen = SelectObject(hDC, hSwitchPen);
MoveToEx(hDC, x0, y0, NULL);
LineTo(hDC, x1, y1);
SelectObject(hDC, hOldPen);
}
/* ------------------------------------------------------------------------
* HandleClick - handle mouse clicks on the console window. Now we just
* look at the console sense switches. Actual says this is a real click, rather
* than a mouse-region test. Return value TRUE means the cursor is over a hotspot.
* ------------------------------------------------------------------------ */
static BOOL HandleClick (HWND hWnd, int xh, int yh, BOOL actual, BOOL rightclick)
{
int b, x, r, ang, i;
for (b = 0x8000, x = TOGGLES_X; b != 0; b >>= 1) {
if (BETWEEN(xh, x-3, x+8+3) && BETWEEN(yh, 230, 275)) {
if (actual) {
CES ^= b; /* a hit. Invert the bit and redisplay */
update_gui(TRUE);
}
return TRUE;
}
x += (b & 0x1111) ? 31 : 21;
}
if (BETWEEN(xh, RUNSWITCH_X-50, RUNSWITCH_X+50) && BETWEEN(yh, RUNSWITCH_Y-50, RUNSWITCH_Y+50)) { /* hit near rotary switch */
ang = (int) (atan2(RUNSWITCH_X-xh, RUNSWITCH_Y-yh)*180./3.1415926); /* this does implicit 90 deg rotation by the way */
r = (int) sqrt((xh-RUNSWITCH_X)*(xh-RUNSWITCH_X)+(yh-RUNSWITCH_Y)*(yh-RUNSWITCH_Y));
if (r > 12) {
for (i = MODE_LOAD; i <= MODE_INT_RUN; i++) {
if (BETWEEN(ang, i*45-12, i*45+12)) {
if (actual) {
RUNMODE = i;
update_gui(TRUE);
}
return TRUE;
}
}
}
}
return FALSE;
}
/* ------------------------------------------------------------------------
* DrawConsole - refresh the console display. (This routine could be sped up by intersecting
* the various components' bounding rectangles with the repaint rectangle. The bounding rects
* could be put into an array and used both here and in the refresh routine).
*
* RedrawRegion -> force repaint w/o background redraw. used for lamps which are drawn in the same place in either state
* RepaintRegion-> repaint with background redraw. Used for toggles which change position.
* ------------------------------------------------------------------------ */
static void DrawConsole (HDC hDC, PAINTSTRUCT *ps)
{
static char digits[] = " 0 1 2 3 4 5 6 7 8 9101112131415";
static char cccs[] = "3216 8 4 2 1";
static char cnds[] = " C V";
static char waits[] = " W";
HFONT hOldFont, hOldBrush;
RECT xout, xin;
int i, n;
DEVICE *dptr;
UNIT *uptr;
t_bool enab;
char nametemp[50], *dispname;
hOldFont = SelectObject(hDC, hFont); /* use that tiny font */
hOldBrush = SelectObject(hDC, hbWhite);
SetBkMode(hDC, TRANSPARENT); /* overlay letters w/o changing background */
DrawBits(hDC, 76, 15, shown_iar, 16, mem_mask, digits); /* register holds only 15 bits */
DrawBits(hDC, 76, 48, shown_sar, 16, mem_mask, digits); /* but let's display only used bits */
DrawBits(hDC, 76, 81, shown_sbr, 16, 0xFFFF, digits);
DrawBits(hDC, 76, 114, shown_arf, 16, 0xFFFF, digits);
DrawBits(hDC, 76, 147, shown_acc, 16, 0xFFFF, digits);
DrawBits(hDC, 76, 180, shown_ext, 16, 0xFFFF, digits);
DrawBits(hDC, 506, 15, shown_op, 5, 0x001F, digits);
DrawBits(hDC, 506, 81, shown_tag, 4, 0x0007, digits);
DrawBits(hDC, 506, 114, shown_irq, 6, 0x003F, digits);
DrawBits(hDC, 506, 147, shown_ccc, 6, 0x003F, cccs);
DrawBits(hDC, 506, 180, shown_cnd, 2, 0x0003, cnds);
DrawBits(hDC, 390, 81, shown_wait?1:0,1, 0x0001, waits);
DrawToggles(hDC, shown_ces);
DrawRunmode(hDC, shown_runmode);
SelectObject(hDC, hOldFont);
SelectObject(hDC, hOldBrush);
SetBkColor(hDC, RGB(0,0,0));
SetRect(&xin, TXTBOX_X, TXTBOX_Y, TXTBOX_X+TXTBOX_WIDTH, TXTBOX_BOTTOM+TXTBOX_HEIGHT);
if (IntersectRect(&xout, &xin, &ps->rcPaint)) {
hOldFont = SelectObject(hDC, hTinyFont);
for (i = 0; i < NTXTBOXES; i++) {
enab = FALSE;
dptr = find_unit(txtbox[i].unitname, &uptr);
if (dptr != NULL && uptr != NULL) {
if (uptr->flags & UNIT_DIS) {
SetTextColor(hDC, RGB(128,0,0));
}
else if (uptr->flags & UNIT_ATT) {
SetTextColor(hDC, RGB(0,0,255));
if ((n = strlen(uptr->filename)) > 30) {
strcpy(nametemp, "...");
strcpy(nametemp+3, uptr->filename+n-30);
dispname = nametemp;
}
else
dispname = uptr->filename;
TextOut(hDC, txtbox[i].x+25, txtbox[i].y+TXTBOX_HEIGHT, dispname, strlen(dispname));
SetTextColor(hDC, RGB(255,255,255));
enab = TRUE;
}
else {
SetTextColor(hDC, RGB(128,128,128));
}
TextOut(hDC, txtbox[i].x, txtbox[i].y, txtbox[i].txt, strlen(txtbox[i].txt));
}
if (txtbox[i].idctrl >= 0)
EnableWindow(btn[txtbox[i].idctrl].hBtn, enab);
}
SelectObject(hDC, hOldFont);
}
}
/* ------------------------------------------------------------------------
* Handles button presses. Remember that this occurs in the context of
* the Pump thread, not the simulator thread.
* ------------------------------------------------------------------------ */
void flash_run (void)
{
EnableWindow(btn[IDC_RUN].hBtn, TRUE); /* enable the run lamp */
if (hFlashTimer != 0)
KillTimer(hConsoleWnd, FLASH_TIMER_ID); /* (re)schedule lamp update */
hFlashTimer = SetTimer(hConsoleWnd, FLASH_TIMER_ID, LAMPTIME, NULL);
}
void gui_run (int running)
{
if (running && hUpdateTimer == 0 && hConsoleWnd != NULL) {
hUpdateTimer = SetTimer(hConsoleWnd, UPDATE_TIMER_ID, 1000/UPDATE_INTERVAL, NULL);
}
else if (hUpdateTimer != 0 && ! running) {
KillTimer(hConsoleWnd, UPDATE_TIMER_ID);
hUpdateTimer = 0;
}
flash_run(); /* keep run lamp active for a while after we stop running */
}
void HandleCommand (HWND hWnd, WORD wNotify, WORD idCtl, HWND hwCtl)
{
int i;
switch (idCtl) {
case IDC_POWER: /* toggle system power */
power = ! power;
if (running && ! power) { /* turning off */
reason = STOP_POWER_OFF;
/* wait for execution thread to exit */
/* this prevents message pump from running, which unfortunately locks up
* the emulator thread when it calls gui_run(FALSE) which calls EnableWindow on the Run lamp
* while (running)
* Sleep(10);
*/
}
stuff_and_wait("reset", 0, 500);
btn[IDC_POWER_ON].state = power;
EnableWindow(btn[IDC_POWER_ON].hBtn, power);
for (i = 0; i < NBUTTONS; i++) /* repaint all of the lamps */
if (! btn[i].pushable)
InvalidateRect(btn[i].hBtn, NULL, TRUE);
if ((cr_unit.flags & UNIT_ATT) &&
(btn[IDC_1442].state!=STATE_1442_FULL)) {
stuff_and_wait("detach cr", 0, 500);
update_gui(TRUE);
}
program_is_loaded = FALSE;
break;
case IDC_PROGRAM_START: /* begin execution */
if (! running) {
switch (RUNMODE) {
case MODE_INT_RUN:
case MODE_RUN:
case MODE_SI:
stuff_cmd("cont");
break;
case MODE_DISP: /* display core and advance IAR */
ReadW(IAR);
IAR = IAR+1;
flash_run(); /* illuminate run lamp for .5 sec */
break;
case MODE_LOAD: /* store to core and advance IAR */
WriteW(IAR, CES);
IAR = IAR+1;
flash_run();
break;
}
}
break;
case IDC_PROGRAM_STOP:
if (running) { /* potential race condition here */
GUI_BEGIN_CRITICAL_SECTION
SETBIT(con_dsw, CPU_DSW_PROGRAM_STOP);
SETBIT(ILSW[5], ILSW_5_INT_RUN_PROGRAM_STOP);
int_req |= INT_REQ_5; /* note: calc_ints() is not needed in this case */
int_lamps |= INT_REQ_5;
GUI_END_CRITICAL_SECTION
}
break;
case IDC_LOAD_IAR:
if (! running) {
IAR = CES & mem_mask; /* set IAR from console entry switches */
}
break;
case IDC_KEYBOARD: /* toggle between console/keyboard mode */
break;
case IDC_IMM_STOP:
if (running) {
reason = STOP_IMMEDIATE; /* terminate execution without setting wait_mode */
/* wait for execution thread to exit */
/* this prevents message pump from running, which unfortunately locks up
* the emulator thread when it calls gui_run(FALSE) which calls EnableWindow on the Run lamp
* while (running)
* Sleep(10);
*/
}
break;
case IDC_RESET:
if (! running) { /* check-reset is disabled while running */
stuff_and_wait("reset", 0, 500);
forms_check(0); /* clear forms-check status */
print_check(0);
}
if ((cr_unit.flags & UNIT_ATT) &&
(btn[IDC_1442].state!=STATE_1442_FULL)) {
stuff_and_wait("detach cr", 0, 500);
update_gui(TRUE);
}
program_is_loaded = FALSE;
break;
case IDC_PROGRAM_LOAD:
if (! running) { /* if card reader is attached to a file, do cold start read of one card */
IAR = 0; /* reset IAR */
#ifdef PROGRAM_LOAD_STARTS_CPU
if (cr_unit.flags & UNIT_ATT)
stuff_cmd("boot cr");
else {
if (((CES & 7) <= 4) &&
(dsk_unit[(CES & 7)].flags&UNIT_ATT))
boot_drive = CES & 7;
else
boot_drive = -1;
if (boot_drive >= 0) {
char cmd[50];
sprintf(cmd, "boot dsk%d", boot_drive);
stuff_cmd(cmd);
}
}
#else
if (cr_boot(0, NULL) != SCPE_OK) /* load boot card */
remark_cmd("IPL failed");
#endif
}
break;
case IDC_TEAR: /* "tear off printer output" */
case IDC_1132: /* do same if they click on the printer icon */
if (btn[IDC_1132].state && (wNotify == STN_CLICKED || wNotify == STN_DBLCLK))
tear_printer();
break;
case IDC_1442:
if (btn[IDC_1442].state == STATE_1442_FULL || wNotify == STN_DBLCLK) {
if (running)
MessageBeep(0);
else
stuff_cmd("detach cr");
} else if (btn[IDC_1442].state != STATE_1442_EMPTY && wNotify == STN_CLICKED) {
cr_rewind();
update_gui(TRUE);
}
break;
}
SetForegroundWindow(hConsoleWindow);
update_gui(FALSE);
}
/* ------------------------------------------------------------------------
* ConsoleWndProc - window process for the console display
* ------------------------------------------------------------------------ */
LRESULT CALLBACK ConsoleWndProc (HWND hWnd, UINT uMsg, WPARAM wParam, LPARAM lParam)
{
HDC hDC;
PAINTSTRUCT ps;
POINT p;
RECT clip, xsect, rbmp;
int i;
switch (uMsg) {
case WM_CLOSE:
DestroyWindow(hWnd);
break;
case WM_DESTROY:
gui_run(FALSE);
hConsoleWnd = NULL;
break;
case WM_ERASEBKGND:
hDC = (HDC) wParam;
GetClipBox(hDC, &clip);
SetRect(&rbmp, 0, 0, bmwid, bmht);
if (IntersectRect(&xsect, &clip, &rbmp))
BitBlt(hDC, xsect.left, xsect.top, xsect.right-xsect.left+1, xsect.bottom-xsect.top+1, hCDC, xsect.left, xsect.top, SRCCOPY);
return TRUE; /* let Paint do this so we know what the update region is (ps.rcPaint) */
case WM_PAINT:
hDC = BeginPaint(hWnd, &ps);
DrawConsole(hDC, &ps);
EndPaint(hWnd, &ps);
break;
case WM_COMMAND: /* button click */
HandleCommand(hWnd, HIWORD(wParam), LOWORD(wParam), (HWND) lParam);
break;
case WM_CTLCOLOREDIT: /* text color for edit controls */
SetBkColor((HDC) wParam, RGB(0,0,0));
SetTextColor((HDC) wParam, RGB(255,255,255));
break;
case WM_DRAWITEM:
PaintButton((LPDRAWITEMSTRUCT) lParam);
break;
case WM_SETCURSOR:
GetCursorPos(&p);
ScreenToClient(hWnd, &p);
SetCursor(HandleClick(hWnd, p.x, p.y, FALSE, FALSE) ? hcHand : hcArrow);
return TRUE;
case WM_LBUTTONDOWN:
HandleClick(hWnd, LOWORD(lParam), HIWORD(lParam), TRUE, FALSE);
break;
case WM_RBUTTONDOWN:
HandleClick(hWnd, LOWORD(lParam), HIWORD(lParam), TRUE, TRUE);
break;
case WM_CTLCOLORBTN:
i = GetWindowLongPtr((HWND) lParam, GWLP_ID);
if (BETWEEN(i, 0, NBUTTONS-1))
return (LRESULT) (power && IsWindowEnabled((HWND) lParam) ? btn[i].hbrLit : btn[i].hbrDark);
case WM_TIMER:
if (wParam == FLASH_TIMER_ID && hFlashTimer != 0) {
KillTimer(hWnd, FLASH_TIMER_ID);
hFlashTimer = 0;
}
update_gui(FALSE);
break;
case WM_DROPFILES:
accept_dropped_file((HANDLE) wParam); /* console window - dragged file is a script or card deck */
break;
default:
return DefWindowProc(hWnd, uMsg, wParam, lParam);
}
return 0;
}
enum {PRINTER_OK = 0, FORMS_CHECK = 1, PRINT_CHECK = 2, BOTH_CHECK = 3} printerstatus = PRINTER_OK;
void forms_check (int set)
{
COLORREF oldcolor = btn[IDC_FORMS_CHECK].clr;
if (set)
SETBIT(printerstatus, FORMS_CHECK);
else
CLRBIT(printerstatus, FORMS_CHECK);
btn[IDC_FORMS_CHECK].clr = (printerstatus & PRINT_CHECK) ? RGB(255,0,0) : RGB(255,255,0);
btn[IDC_FORMS_CHECK].state = printerstatus;
if (btn[IDC_FORMS_CHECK].hBtn != NULL) {
EnableWindow(btn[IDC_FORMS_CHECK].hBtn, printerstatus);
if (btn[IDC_FORMS_CHECK].clr != oldcolor)
InvalidateRect(btn[IDC_FORMS_CHECK].hBtn, NULL, TRUE); /* change color in any case */
}
}
void print_check (int set)
{
COLORREF oldcolor = btn[IDC_FORMS_CHECK].clr;
if (set)
SETBIT(printerstatus, PRINT_CHECK);
else
CLRBIT(printerstatus, PRINT_CHECK);
btn[IDC_FORMS_CHECK].clr = (printerstatus & PRINT_CHECK) ? RGB(255,0,0) : RGB(255,255,0);
btn[IDC_FORMS_CHECK].state = printerstatus;
if (btn[IDC_FORMS_CHECK].hBtn != NULL) {
EnableWindow(btn[IDC_FORMS_CHECK].hBtn, printerstatus);
if (btn[IDC_FORMS_CHECK].clr != oldcolor)
InvalidateRect(btn[IDC_FORMS_CHECK].hBtn, NULL, TRUE); /* change color in any case */
}
}
void keyboard_selected (int select)
{
extern TMLN sim_con_ldsc;
extern TMXR sim_con_tmxr;
btn[IDC_KEYBOARD_SELECT].state = select;
if (select && /* selected */
(sim_con_tmxr.master != 0) && /* not Telnet? */
(sim_con_ldsc.serport != 0)) /* and not serial? */
SetForegroundWindow(hConsoleWindow);
if (btn[IDC_KEYBOARD_SELECT].hBtn != NULL)
EnableWindow(btn[IDC_KEYBOARD_SELECT].hBtn, select);
}
void disk_ready (int ready)
{
btn[IDC_FILE_READY].state = ready;
if (btn[IDC_FILE_READY].hBtn != NULL)
EnableWindow(btn[IDC_FILE_READY].hBtn, ready);
}
void disk_unlocked (int unlocked)
{
btn[IDC_DISK_UNLOCK].state = unlocked;
if (btn[IDC_DISK_UNLOCK].hBtn != NULL)
EnableWindow(btn[IDC_DISK_UNLOCK].hBtn, unlocked);
}
static BOOL is_scp_file(const char *filename)
{
char cbuf[4*CBUFSIZE], gbuf[CBUFSIZE];
char *argv[1] = {NULL};
FILE *f = fopen(filename, "r");
int lines = 0, comment_lines = 0;
BOOL result = TRUE;
size_t i;
if (!f)
return FALSE;
while (result) {
CONST char *cptr;
cptr = fgets(cbuf, sizeof(cbuf), f);
if (cptr == NULL)
break;
if (strlen(cptr) == sizeof(cbuf)-1) /* VERY long lines are not SCP commands */
result = FALSE;
if (!strchr(cptr, '\n')) /* lines without newlines are not SCP commands */
result = FALSE;
if (!memcmp(cptr,"!// ", 4)) /* indirect deck file literals are not SCP commands */
result = FALSE;
cptr = sim_trim_endspc(cbuf);
while (sim_isspace (*cptr)) /* trim leading space */
cptr++;
++lines;
for (i = 0; i < strlen(cptr); i++)
if ((cptr[i] & 0x80) ||
((!isprint(cptr[i])) && (!isspace(cptr[i]))))
result = FALSE; /* SCP files only have printable ASCII */
if ((*cptr == ';') || (*cptr == '#')) { /* ignore comments */
++comment_lines;
continue;
}
if (*cptr == 0) /* ignore blank */
continue;
sim_sub_args (cbuf, sizeof(cbuf), argv);
cptr = get_glyph_cmd (cptr, gbuf); /* get command glyph */
if (!find_cmd (gbuf)) { /* lookup command */
result = FALSE;
break;
}
}
fclose(f);
if (lines == 0) /* Empty file isn't SCP */
result = FALSE;
return result;
}
static void accept_dropped_file (HANDLE hDrop)
{
int nfiles;
char fname[MAX_PATH], cmd[MAX_PATH+50], *deckfile;
BOOL cardreader;
BOOL scp_file;
POINT pt;
HWND hWndDrop;
char msg[512];
msg[sizeof(msg)-1] = '\0';
nfiles = DragQueryFile(hDrop, 0xFFFFFFFF, NULL, 0); /* get file count, */
DragQueryFile(hDrop, 0, fname, sizeof(fname)); /* get first filename */
DragQueryPoint(hDrop, &pt); /* get location of drop */
DragFinish(hDrop);
if (nfiles <= 0) /* hmm, this seems unlikely to occur, but better check */
return;
if (running) { /* can only accept a drop while processor is stopped */
MessageBeep(0);
return;
}
if ((hWndDrop = ChildWindowFromPoint(hConsoleWnd, pt)) == btn[IDC_1442].hBtn)
cardreader = TRUE; /* file was dropped onto 1442 card reader */
else if (hWndDrop == NULL || hWndDrop == hConsoleWnd)
cardreader = FALSE; /* file was dropped onto console window, not a button */
else {
MessageBeep(0); /* file was dropped onto another button */
return;
}
if (nfiles > 1) { /* oops, we wouldn't know what order to read them in */
MessageBox(hConsoleWnd, "You may only drop one file at a time", "", MB_OK);
return;
}
scp_file = is_scp_file(fname);
if (cardreader) {
if (scp_file) {
snprintf(msg, sizeof(msg)-1, "\"%s\"\r\n\r\nContains SCP commands (not card reader input).\r\n\r\nProcess as SCP commands?", fname);
if (IDYES != MessageBox(hConsoleWnd, msg, "", MB_YESNO))
return;
cardreader = FALSE; /* Process as SCP commands */
}
} else {
if (!scp_file) {
snprintf(msg, sizeof(msg)-1, "Invalid SCP command file:\r\n\r\n\"%s\"\r\n\r\nProcess as Card Reader Input?", fname);
if (IDYES != MessageBox(hConsoleWnd, msg, "", MB_YESNO))
return;
cardreader = TRUE; /* Process as Card Input */
}
}
/* if shift key is down, prepend @ to name (make it a deck file) */
deckfile = ((GetKeyState(VK_SHIFT) & 0x8000) && cardreader) ? "@" : "";
sprintf(cmd, "%s \"%s%s\"", cardreader ? "attach cr" : "do", deckfile, fname);
stuff_cmd(cmd);
}
static void tear_printer (void)
{
char cmd[MAX_PATH+100], filename[MAX_PATH];
if ((prt_unit.flags & UNIT_ATT) == 0)
return;
if (running) { /* can only accept a drop while processor is stopped */
MessageBeep(0);
return;
}
strcpy(filename, prt_unit.filename); /* save current attached filename */
if (! stuff_and_wait("detach prt", 1000, 0)) /* detach it */
return;
sprintf(cmd, "view \"%s\"", filename); /* spawn notepad to view it */
if (! stuff_and_wait(cmd, 3000, 2000))
return;
remove(filename); /* delete the file */
sprintf(cmd, "attach prt %s", filename); /* reattach */
stuff_cmd(cmd);
}
#ifdef XXX
if ((hBtn = CreateWindow("BUTTON", btn[i].txt, WS_CHILD|WS_VISIBLE|BS_CENTER|BS_MULTILINE|BS_OWNERDRAW,
x, y, BUTTON_WIDTH, BUTTON_HEIGHT, hwParent, (HMENU) i, hInstance, NULL)) == NULL)
return NULL;
#endif
CRITICAL_SECTION critsect;
void begin_critical_section (void)
{
static BOOL mustinit = TRUE;
if (mustinit) {
InitializeCriticalSection(&critsect);
mustinit = FALSE;
}
EnterCriticalSection(&critsect);
}
void end_critical_section (void)
{
LeaveCriticalSection(&critsect);
}
#ifndef MIN
# define MIN(a,b) (((a) <= (b)) ? (a) : (b))
#endif
/* win32 - use a separate thread to read command lines so the GUI
* can insert commands as well */
static HANDLE hCmdThread = NULL;
static DWORD iCmdThreadID = 0;
static HANDLE hCmdReadEvent = NULL;
static HANDLE hCmdReadyEvent = NULL;
static BOOL scp_reading = FALSE;
static long scp_command = 0;
static char cmdbuffer[256];
static BOOL read_exiting = FALSE;
#define SCP_COMMAND InterlockedExchangeAdd(&scp_command, 0L)
#define NEXT_SCP_COMMAND InterlockedIncrement(&scp_command)
/* CmdThread - separate thread to read commands from stdin upon request */
static DWORD WINAPI CmdThread (LPVOID arg)
{
HANDLE hStdIn = GetStdHandle(STD_INPUT_HANDLE);
DWORD dwBytesRead;
for (;;) {
if (WAIT_TIMEOUT == WaitForSingleObject(hCmdReadEvent, 2000)) /* wait for request */
continue; /* put breakpoint here to debug */
if (read_exiting)
break;
scp_reading = FALSE;
if (ReadFile(hStdIn, cmdbuffer, sizeof(cmdbuffer)-1, &dwBytesRead, NULL)) {
cmdbuffer[dwBytesRead] = '\0';
scp_reading = FALSE;
NEXT_SCP_COMMAND;
SetEvent(hCmdReadyEvent); /* notify main thread a line is ready */
} else {
DWORD dwError = GetLastError();
scp_reading = FALSE;
NEXT_SCP_COMMAND;
}
}
return 0;
}
static void read_atexit (void)
{
typedef BOOL (WINAPI *_func)(HANDLE, LPOVERLAPPED);
_func pCancelIoEx;
read_exiting = TRUE;
pCancelIoEx = (_func)GetProcAddress(GetModuleHandleA("kernel32.dll"), "CancelIoEx");
if (pCancelIoEx) {
pCancelIoEx(GetStdHandle(STD_INPUT_HANDLE), NULL);
SetEvent(hCmdReadEvent); /* wake read thread */
WaitForSingleObject(hCmdThread, INFINITE);
}
CloseHandle(hCmdReadyEvent);
hCmdReadyEvent = NULL;
CloseHandle(hCmdReadEvent);
hCmdReadEvent = NULL;
CloseHandle(hCmdThread);
hCmdThread = NULL;
}
char *read_cmdline (char *ptr, int size, FILE *stream)
{
char *cptr;
if (hCmdThread == NULL) { /* set up command-reading thread */
if ((hCmdReadEvent = CreateEvent(NULL, FALSE, FALSE, NULL)) == NULL)
scp_panic("Can't create command line read event");
if ((hCmdReadyEvent = CreateEvent(NULL, FALSE, FALSE, NULL)) == NULL)
scp_panic("Can't create command line ready event");
/* start up the command thread */
if ((hCmdThread = CreateThread(NULL, 0, CmdThread, NULL, 0, &iCmdThreadID)) == NULL)
scp_panic("Unable to create command line reading thread");
atexit(read_atexit);
Sleep(500); /* Let GUI threads startup and start to process messages */
}
update_gui(TRUE);
SetEvent(hCmdReadEvent); /* let read thread get one line */
WaitForSingleObject(hCmdReadyEvent, INFINITE); /* wait for read thread or GUI to respond */
strncpy(ptr, cmdbuffer, MIN(size, sizeof(cmdbuffer))); /* copy line to caller's buffer */
for (cptr = ptr; isspace(*cptr); cptr++) /* absorb spaces */
;
return cptr;
}
/* stuff_cmd - force a command into the read_cmdline output buffer. Called asynchronously by GUI */
long stuff_cmd (char *cmd)
{
INPUT_RECORD *ip;
size_t i, j, cmdsize = strlen(cmd);
DWORD dwEventsWritten;
long scp_cmd = SCP_COMMAND;
ip = (INPUT_RECORD *)calloc(2+2*cmdsize, sizeof(*ip));
for (i=j=0; i<cmdsize; i++, j++) {
ip[j].EventType = KEY_EVENT;
ip[j].Event.KeyEvent.bKeyDown = TRUE;
ip[j].Event.KeyEvent.wRepeatCount = 1;
ip[j].Event.KeyEvent.uChar.AsciiChar = cmd[i];
j++;
ip[j] = ip[j-1];
ip[j].Event.KeyEvent.bKeyDown = FALSE;
}
ip[j].EventType = KEY_EVENT;
ip[j].Event.KeyEvent.bKeyDown = TRUE;
ip[j].Event.KeyEvent.wRepeatCount = 1;
ip[j].Event.KeyEvent.uChar.AsciiChar = '\r';
j++;
ip[j] = ip[j-1];
ip[j].Event.KeyEvent.bKeyDown = FALSE;
WriteConsoleInput(GetStdHandle(STD_INPUT_HANDLE), ip, 2+j, &dwEventsWritten);
free(ip);
return scp_cmd;
}
/* my_yield - process GUI messages. It's not apparent why stuff_and_wait would block,
* since it sleeps in the GUI thread while scp runs in the main thread. However,
* at the end of every command scp calls update_gui, which can result in messages
* being sent to the GUI thread. So, the GUI thread has to process messages while
* stuff_and_wait is waiting.
*/
static void my_yield (void)
{
MSG msg;
/* multitask */
while (PeekMessage(&msg, NULL, 0, 0, PM_REMOVE)) {
TranslateMessage(&msg);
DispatchMessage(&msg);
}
}
/* stuff_and_wait -- stuff a command and wait for the emulator to process the command
* and come back to prompt for another
*/
t_bool stuff_and_wait (char *cmd, int timeout, int delay)
{
long scp_cmd = stuff_cmd(cmd);
while (scp_cmd == SCP_COMMAND) {
if (timeout < 0)
return FALSE;
my_yield();
if (scp_cmd != SCP_COMMAND)
break;
Sleep(50);
if (timeout)
if ((timeout -= 50) <= 0)
timeout = -1;
my_yield();
}
if (delay)
Sleep(delay);
return TRUE;
}
/* remark_cmd - print a remark from inside a command processor. This routine takes
* into account the possiblity that the command might have been stuffed, in which
* case the sim> prompt needs to be reprinted.
*/
void remark_cmd (char *remark)
{
if (scp_reading)
sim_printf("\n");
sim_printf("%s\n", remark);
if (scp_reading)
sim_printf("%s", sim_prompt);
}
#endif /* _WIN32 defined */
#endif /* GUI_SUPPORT defined */