Fix tab color flicker problem on Leopard
[MacVim.git] / src / os_msdos.c
blob9fadba9262816456ce9d388970d3805602a6c196
1 /* vi:set ts=8 sts=4 sw=4:
3 * VIM - Vi IMproved by Bram Moolenaar
5 * Do ":help uganda" in Vim to read copying and usage conditions.
6 * Do ":help credits" in Vim to see a list of people who contributed.
7 * See README.txt for an overview of the Vim source code.
8 */
11 * os_msdos.c
13 * MSDOS system-dependent routines.
14 * A cheap plastic imitation of the amiga dependent code.
15 * A lot in this file was made by Juergen Weigert (jw).
17 * DJGPP changes by Gert van Antwerpen
18 * Faster text screens by John Lange (jlange@zilker.net)
19 * Windows clipboard functionality added by David Kotchan (dk)
21 * Some functions are also used for Win16 (MS-Windows 3.1).
24 #include "vimio.h"
25 #include "vim.h"
27 #include <conio.h>
28 #ifdef HAVE_FCNTL_H
29 # include <fcntl.h>
30 #endif
33 * MS-DOS only code, not used for Win16.
35 #ifndef WIN16
38 #include <bios.h>
39 #ifdef DJGPP
40 # include <dpmi.h>
41 # include <signal.h>
42 # include <sys/movedata.h>
43 # include <crt0.h>
44 # ifdef FEAT_CLIPBOARD
45 # include <sys/segments.h>
46 # endif
47 #else
48 # include <alloc.h>
49 #endif
51 #if defined(DJGPP) || defined(PROTO)
52 # define _cdecl /* DJGPP doesn't have this */
53 #endif
55 static int cbrk_pressed = FALSE; /* set by ctrl-break interrupt */
56 static int ctrlc_pressed = FALSE; /* set when ctrl-C or ctrl-break detected */
57 static int delayed_redraw = FALSE; /* set when ctrl-C detected */
59 static int bioskey_read = _NKEYBRD_READ; /* bioskey() argument: read key */
60 static int bioskey_ready = _NKEYBRD_READY; /* bioskey() argument: key ready? */
62 #ifdef FEAT_MOUSE
63 static int mouse_avail = FALSE; /* mouse present */
64 static int mouse_active; /* mouse enabled */
65 static int mouse_hidden; /* mouse not shown */
66 static int mouse_click = -1; /* mouse status */
67 static int mouse_last_click = -1; /* previous status at click */
68 static int mouse_x = -1; /* mouse x coordinate */
69 static int mouse_y = -1; /* mouse y coordinate */
70 static long mouse_click_time = 0; /* biostime() of last click */
71 static int mouse_click_count = 0; /* count for multi-clicks */
72 static int mouse_click_x = 0; /* x of previous mouse click */
73 static int mouse_click_y = 0; /* y of previous mouse click */
74 static linenr_T mouse_topline = 0; /* w_topline at previous mouse click */
75 #ifdef FEAT_DIFF
76 static int mouse_topfill = 0; /* w_topfill at previous mouse click */
77 #endif
78 static int mouse_x_div = 8; /* column = x coord / mouse_x_div */
79 static int mouse_y_div = 8; /* line = y coord / mouse_y_div */
80 #endif
82 #define BIOSTICK 55 /* biostime() increases one tick about
83 every 55 msec */
85 static int orig_attr = 0x0700; /* video attributes when starting */
87 static int S_iLeft = 0; /* Scroll window; these are 1 offset */
88 static int S_iTop = 0;
89 static int S_iRight = 0;
90 static int S_iBottom = 0;
93 * Need to remember the values, because we set horizontal and vertical
94 * edges separately.
96 static void
97 mywindow(int iLeft, int iTop, int iRight, int iBottom)
99 S_iLeft = iLeft;
100 S_iTop = iTop;
101 S_iRight = iRight;
102 S_iBottom = iBottom;
103 window(iLeft, iTop, iRight, iBottom);
106 #ifdef DJGPP
108 * For DJGPP, use our own functions for fast text screens. JML 1/18/98
111 unsigned long S_ulScreenBase = 0xb8000;
112 unsigned short S_uiAttribute = 0;
113 int S_iCurrentRow = 0; /* These are 0 offset */
114 int S_iCurrentColumn = 0;
115 short S_selVideo; /* Selector for DJGPP direct video transfers */
118 * Use burst writes to improve mch_write speed - VJN 01/10/99
120 unsigned short S_linebuffer[8000]; /* <VN> enough for 160x50 */
121 unsigned short S_blankbuffer[256]; /* <VN> max length of console line */
122 unsigned short *S_linebufferpos = S_linebuffer;
123 int S_iBufferRow;
124 int S_iBufferColumn;
126 static void
127 myflush(void)
129 if (S_linebufferpos != S_linebuffer)
131 _dosmemputw(S_linebuffer, (S_linebufferpos - S_linebuffer),
132 S_ulScreenBase
133 + S_iBufferRow * (Columns << 1) + (S_iBufferColumn << 1));
134 S_linebufferpos = S_linebuffer;
138 static void
139 mygotoxy(int x, int y)
141 S_iCurrentRow = y - 1;
142 S_iCurrentColumn = x - 1;
146 * Set the system cursor to our cursor position.
148 static void
149 set_sys_cursor(void)
151 if (term_console && full_screen)
153 myflush();
154 gotoxy(S_iCurrentColumn + 1, S_iCurrentRow + 1);
158 static void
159 setblankbuffer(unsigned short uiValue)
161 int i;
162 static unsigned short olduiValue = 0;
164 if (olduiValue != uiValue)
166 /* Load blank line buffer with spaces */
167 for (i = 0; i < Columns; ++i)
168 S_blankbuffer[i] = uiValue;
169 olduiValue = uiValue;
173 static void
174 myclreol(void)
176 /* Clear to end of line */
177 setblankbuffer(S_uiAttribute | ' ');
178 _dosmemputw(S_blankbuffer, S_iRight - S_iCurrentColumn, S_ulScreenBase
179 + (S_iCurrentRow) * (Columns << 1)
180 + (S_iCurrentColumn << 1));
183 static void
184 myclrscr(void)
186 /* Clear whole screen */
187 short iColumn;
188 int endpoint = (Rows * Columns) << 1;
190 setblankbuffer(S_uiAttribute | ' ');
192 for (iColumn = 0; iColumn < endpoint; iColumn += (Columns << 1))
193 _dosmemputw(S_blankbuffer, Columns, S_ulScreenBase + iColumn);
196 static void
197 mydelline(void)
199 short iRow, iColumn;
201 iColumn = (S_iLeft - 1) << 1;
203 /* Copy the lines underneath */
204 for (iRow = S_iCurrentRow; iRow < S_iBottom - 1; iRow++)
205 movedata(S_selVideo, (((iRow + 1) * Columns) << 1) + iColumn,
206 S_selVideo, ((iRow * Columns) << 1) + iColumn,
207 (S_iRight - S_iLeft + 1) << 1);
209 /* Clear the new row */
210 setblankbuffer(S_uiAttribute | ' ');
212 _dosmemputw(S_blankbuffer, (S_iRight - S_iLeft) + 1, S_ulScreenBase
213 + (S_iBottom - 1) * (Columns << 1) + iColumn);
216 static void
217 myinsline(void)
219 short iRow, iColumn;
221 iColumn = (S_iLeft - 1) << 1;
223 /* Copy the lines underneath */
224 for (iRow = S_iBottom - 1; iRow >= S_iTop; iRow--)
225 movedata(S_selVideo, (((iRow - 1) * Columns) << 1) + iColumn,
226 S_selVideo, ((iRow * Columns) << 1) + iColumn,
227 (S_iRight - S_iLeft + 1) << 1);
229 /* Clear the new row */
230 setblankbuffer(S_uiAttribute | ' ');
232 _dosmemputw(S_blankbuffer, (S_iRight - S_iLeft) + 1, S_ulScreenBase
233 + (S_iTop - 1) * (Columns << 1) + iColumn);
237 * Scroll the screen one line up, clear the last line.
239 static void
240 myscroll(void)
242 short iRow, iColumn;
244 iColumn = (S_iLeft - 1) << 1;
246 /* Copy the screen */
247 for (iRow = S_iTop; iRow < S_iBottom; iRow++)
248 movedata(S_selVideo, ((iRow * Columns) << 1) + iColumn,
249 S_selVideo, (((iRow - 1) * Columns) << 1) + iColumn,
250 (S_iRight - S_iLeft + 1) << 1);
252 /* Clear the bottom row */
253 setblankbuffer(S_uiAttribute | ' ');
255 _dosmemputw(S_blankbuffer, (S_iRight - S_iLeft) + 1, S_ulScreenBase
256 + (S_iBottom - 1) * (Columns << 1) + iColumn);
259 static int
260 myputch(int iChar)
262 unsigned short uiValue;
264 if (iChar == '\n')
266 myflush();
267 if (S_iCurrentRow >= S_iBottom - S_iTop)
268 myscroll();
269 else
271 S_iCurrentColumn = S_iLeft - 1;
272 S_iCurrentRow++;
275 else if (iChar == '\r')
277 myflush();
278 S_iCurrentColumn = S_iLeft - 1;
280 else if (iChar == '\b')
282 myflush();
283 if (S_iCurrentColumn >= S_iLeft)
284 S_iCurrentColumn--;
286 else if (iChar == 7)
288 sound(440); /* short beep */
289 delay(200);
290 nosound();
292 else
294 uiValue = S_uiAttribute | (unsigned char)iChar;
297 * Normal char - are we starting to buffer?
299 if (S_linebufferpos == S_linebuffer)
301 S_iBufferColumn = S_iCurrentColumn;
302 S_iBufferRow = S_iCurrentRow;
305 *S_linebufferpos++ = uiValue;
307 S_iCurrentColumn++;
308 if (S_iCurrentColumn >= S_iRight && S_iCurrentRow >= S_iBottom - S_iTop)
310 myflush();
311 myscroll();
312 S_iCurrentColumn = S_iLeft - 1;
313 S_iCurrentRow++;
317 return 0;
320 static void
321 mytextinit(struct text_info *pTextinfo)
323 S_selVideo = __dpmi_segment_to_descriptor(S_ulScreenBase >> 4);
324 S_uiAttribute = pTextinfo->normattr << 8;
327 static void
328 get_screenbase(void)
330 static union REGS regs;
332 /* old Hercules grafic card has different base address (Macewicz) */
333 regs.h.ah = 0x0f;
334 (void)int86(0x10, &regs, &regs); /* int 10 0f */
335 if (regs.h.al == 0x07) /* video mode 7 -- hercules mono */
336 S_ulScreenBase = 0xb0000;
337 else
338 S_ulScreenBase = 0xb8000;
341 static void
342 mytextattr(int iAttribute)
344 S_uiAttribute = (unsigned short)iAttribute << 8;
347 static void
348 mynormvideo(void)
350 mytextattr(orig_attr);
353 static void
354 mytextcolor(int iTextColor)
356 S_uiAttribute = (unsigned short)((S_uiAttribute & 0xf000)
357 | (unsigned short)iTextColor << 8);
360 static void
361 mytextbackground(int iBkgColor)
363 S_uiAttribute = (unsigned short)((S_uiAttribute & 0x0f00)
364 | (unsigned short)(iBkgColor << 12));
367 * Getdigits: Get a number from a string and skip over it.
368 * Note: the argument is a pointer to a char_u pointer!
371 static long
372 mygetdigits(pp)
373 char_u **pp;
375 char_u *p;
376 long retval = 0;
378 p = *pp;
379 if (*p == '-') /* skip negative sign */
380 ++p;
381 while (VIM_ISDIGIT(*p))
383 retval = (retval * 10) + (*p - '0');
384 ++p;
386 if (**pp == '-') /* process negative sign */
387 retval = -retval;
389 *pp = p;
390 return retval;
392 #else
393 # define mygotoxy gotoxy
394 # define myputch putch
395 # define myscroll scroll
396 # define mynormvideo normvideo
397 # define mytextattr textattr
398 # define mytextcolor textcolor
399 # define mytextbackground textbackground
400 # define mygetdigits getdigits
401 # define myclreol clreol
402 # define myclrscr clrscr
403 # define myinsline insline
404 # define mydelline delline
405 #endif
407 static const struct
409 char_u scancode;
410 char_u metakey;
411 } altkey_table[] =
413 {0x1e, 0xe1}, /* a */
414 {0x30, 0xe2}, /* b */
415 {0x2e, 0xe3}, /* c */
416 {0x20, 0xe4}, /* d */
417 {0x12, 0xe5}, /* e */
418 {0x21, 0xe6}, /* f */
419 {0x22, 0xe7}, /* g */
420 {0x23, 0xe8}, /* h */
421 {0x17, 0xe9}, /* i */
422 {0x24, 0xea}, /* j */
423 {0x25, 0xeb}, /* k */
424 {0x26, 0xec}, /* l */
425 {0x32, 0xed}, /* m */
426 {0x31, 0xee}, /* n */
427 {0x18, 0xef}, /* o */
428 {0x19, 0xf0}, /* p */
429 {0x10, 0xf1}, /* q */
430 {0x13, 0xf2}, /* r */
431 {0x1f, 0xf3}, /* s */
432 {0x14, 0xf4}, /* t */
433 {0x16, 0xf5}, /* u */
434 {0x2f, 0xf6}, /* v */
435 {0x11, 0xf7}, /* w */
436 {0x2d, 0xf8}, /* x */
437 {0x15, 0xf9}, /* y */
438 {0x2c, 0xfa}, /* z */
439 {0x78, 0xb1}, /* 1 */
440 {0x79, 0xb2}, /* 2 */
441 {0x7a, 0xb3}, /* 3 */
442 {0x7b, 0xb4}, /* 4 */
443 {0x7c, 0xb5}, /* 5 */
444 {0x7d, 0xb6}, /* 6 */
445 {0x7e, 0xb7}, /* 7 */
446 {0x7f, 0xb8}, /* 8 */
447 {0x80, 0xb9}, /* 9 */
448 {0x81, 0xb0}, /* 0 */
452 * Translate extended keycodes into meta-chars where applicable
454 static int
455 translate_altkeys(int rawkey)
457 int i, c;
459 if ((rawkey & 0xff) == 0)
461 c = (rawkey >> 8);
462 for (i = sizeof(altkey_table) / sizeof(altkey_table[0]); --i >= 0; )
464 if (c == altkey_table[i].scancode)
465 return (int)altkey_table[i].metakey;
468 return rawkey;
472 * Set normal fg/bg color, based on T_ME. Called when t_me has been set.
474 void
475 mch_set_normal_colors()
477 char_u *p;
478 int n;
480 cterm_normal_fg_color = (orig_attr & 0xf) + 1;
481 cterm_normal_bg_color = ((orig_attr >> 4) & 0xf) + 1;
482 if (T_ME[0] == ESC && T_ME[1] == '|')
484 p = T_ME + 2;
485 n = getdigits(&p);
486 if (*p == 'm' && n > 0)
488 cterm_normal_fg_color = (n & 0xf) + 1;
489 cterm_normal_bg_color = ((n >> 4) & 0xf) + 1;
494 #if defined(MCH_CURSOR_SHAPE) || defined(PROTO)
496 * Save/restore the shape of the cursor.
497 * call with FALSE to save, TRUE to restore
499 static void
500 mch_restore_cursor_shape(int restore)
502 static union REGS regs;
503 static int saved = FALSE;
505 if (restore)
507 if (saved)
508 regs.h.ah = 0x01; /* Set Cursor */
509 else
510 return;
512 else
514 regs.h.ah = 0x03; /* Get Cursor */
515 regs.h.bh = 0x00; /* Page */
516 saved = TRUE;
519 (void)int86(0x10, &regs, &regs);
523 * Set the shape of the cursor.
524 * 'thickness' can be from 0 (thin) to 7 (block)
526 static void
527 mch_set_cursor_shape(int thickness)
529 union REGS regs;
531 regs.h.ch = 7 - thickness; /* Starting Line */
532 regs.h.cl = 7; /* Ending Line */
533 regs.h.ah = 0x01; /* Set Cursor */
534 (void)int86(0x10, &regs, &regs);
537 void
538 mch_update_cursor(void)
540 int idx;
541 int thickness;
544 * How the cursor is drawn depends on the current mode.
546 idx = get_shape_idx(FALSE);
548 if (shape_table[idx].shape == SHAPE_BLOCK)
549 thickness = 7;
550 else
551 thickness = (7 * shape_table[idx].percentage + 90) / 100;
552 mch_set_cursor_shape(thickness);
554 #endif
557 * Return amount of memory currently available.
559 long_u
560 mch_avail_mem(int special)
562 #ifdef DJGPP
563 return _go32_dpmi_remaining_virtual_memory();
564 #else
565 return coreleft();
566 #endif
569 #ifdef FEAT_MOUSE
572 * Set area where mouse can be moved to: The whole screen.
573 * Rows and Columns must be valid when calling!
575 static void
576 mouse_area(void)
578 union REGS regs;
580 if (mouse_avail)
582 regs.x.cx = 0; /* mouse visible between cx and dx */
583 regs.x.dx = Columns * mouse_x_div - 1;
584 regs.x.ax = 7;
585 (void)int86(0x33, &regs, &regs);
587 regs.x.cx = 0; /* mouse visible between cx and dx */
588 regs.x.dx = Rows * mouse_y_div - 1;
589 regs.x.ax = 8;
590 (void)int86(0x33, &regs, &regs);
594 static void
595 show_mouse(int on)
597 static int was_on = FALSE;
598 union REGS regs;
600 if (mouse_avail)
602 if (!mouse_active || mouse_hidden)
603 on = FALSE;
605 * Careful: Each switch on must be compensated by exactly one switch
606 * off
608 if ((on && !was_on) || (!on && was_on))
610 was_on = on;
611 regs.x.ax = on ? 1 : 2;
612 int86(0x33, &regs, &regs); /* show mouse */
613 if (on)
614 mouse_area();
619 #endif
622 * Version of kbhit() and getch() that use direct console I/O.
623 * This avoids trouble with CTRL-P and the like, and should work over a telnet
624 * connection (it works for Xvi).
627 static int cons_key = -1;
630 * Try to get one character directly from the console.
631 * If there is a key, it is stored in cons_key.
632 * Only call when cons_key is -1!
634 static void
635 cons_getkey(void)
637 union REGS regs;
639 /* call DOS function 6: Direct console I/O */
640 regs.h.ah = 0x06;
641 regs.h.dl = 0xff;
642 (void)intdos(&regs, &regs);
643 if ((regs.x.flags & 0x40) == 0) /* zero flag not set? */
644 cons_key = (regs.h.al & 0xff);
648 * Return TRUE if a character is available.
650 static int
651 cons_kbhit(void)
653 if (cons_key < 0)
654 cons_getkey();
655 return (cons_key >= 0);
659 * Return a character from the console.
660 * Should only be called when vim_kbhit() returns TRUE.
662 static int
663 cons_getch(void)
665 int c = -1;
667 if (cons_key < 0)
668 cons_getkey();
669 c = cons_key;
670 cons_key = -1;
671 return c;
675 #ifdef DJGPP
677 * DJGPP provides a kbhit() function that goes to the BIOS instead of DOS.
678 * This doesn't work for terminals connected to a serial port.
679 * Redefine kbhit() here to make it work.
681 static int
682 vim_kbhit(void)
684 union REGS regs;
686 regs.h.ah = 0x0b;
687 (void)intdos(&regs, &regs);
688 return regs.h.al;
691 #ifdef kbhit
692 # undef kbhit /* might have been defined in conio.h */
693 #endif
694 #define kbhit() vim_kbhit()
696 #endif
699 * Simulate WaitForChar() by slowly polling with bioskey(1) or kbhit().
701 * If Vim should work over the serial line after a 'ctty com1' we must use
702 * kbhit() and getch(). (jw)
703 * Usually kbhit() is not used, because then CTRL-C and CTRL-P
704 * will be catched by DOS (mool).
706 * return TRUE if a character is available, FALSE otherwise
709 #define FOREVER 1999999999L
711 static int
712 WaitForChar(long msec)
714 long starttime = 0;
716 if (msec != 0)
717 starttime = biostime(0, 0L);
719 for (;;)
721 #ifdef FEAT_MOUSE
722 long clicktime;
723 static int old_status = 0;
724 union REGS regs;
725 int x, y;
727 if (mouse_avail && mouse_active && mouse_click < 0)
729 regs.x.ax = 3;
730 int86(0x33, &regs, &regs); /* check mouse status */
731 /* only recognize button-down and button-up event */
732 x = regs.x.cx / mouse_x_div;
733 y = regs.x.dx / mouse_y_div;
734 if ((old_status == 0) != (regs.x.bx == 0))
736 if (old_status) /* button up */
737 mouse_click = MOUSE_RELEASE;
738 else /* button down */
741 * Translate MSDOS mouse events to Vim mouse events.
742 * TODO: should handle middle mouse button, by pressing
743 * left and right at the same time.
745 if (regs.x.bx & MSDOS_MOUSE_LEFT)
746 mouse_click = MOUSE_LEFT;
747 else if (regs.x.bx & MSDOS_MOUSE_RIGHT)
748 mouse_click = MOUSE_RIGHT;
749 else if (regs.x.bx & MSDOS_MOUSE_MIDDLE)
750 mouse_click = MOUSE_MIDDLE;
753 * Find out if this is a multi-click
755 clicktime = biostime(0, 0L);
756 if (mouse_click_x == x && mouse_click_y == y
757 && mouse_topline == curwin->w_topline
758 #ifdef FEAT_DIFF
759 && mouse_topfill == curwin->w_topfill
760 #endif
761 && mouse_click_count != 4
762 && mouse_click == mouse_last_click
763 && clicktime < mouse_click_time
764 + p_mouset / BIOSTICK)
765 ++mouse_click_count;
766 else
767 mouse_click_count = 1;
768 mouse_click_time = clicktime;
769 mouse_last_click = mouse_click;
770 mouse_click_x = x;
771 mouse_click_y = y;
772 mouse_topline = curwin->w_topline;
773 #ifdef FEAT_DIFF
774 mouse_topfill = curwin->w_topfill;
775 #endif
776 SET_NUM_MOUSE_CLICKS(mouse_click, mouse_click_count);
779 else if (old_status && (x != mouse_x || y != mouse_y))
780 mouse_click = MOUSE_DRAG;
781 old_status = regs.x.bx;
782 if (mouse_hidden && mouse_x >= 0 && (mouse_x != x || mouse_y != y))
784 mouse_hidden = FALSE;
785 show_mouse(TRUE);
787 mouse_x = x;
788 mouse_y = y;
790 #endif
792 if ((p_consk ? cons_kbhit()
793 : p_biosk ? bioskey(bioskey_ready) : kbhit())
794 || cbrk_pressed
795 #ifdef FEAT_MOUSE
796 || mouse_click >= 0
797 #endif
799 return TRUE;
801 * Use biostime() to wait until our time is done.
802 * We busy-wait here. Unfortunately, delay() and usleep() have been
803 * reported to give problems with the original Windows 95. This is
804 * fixed in service pack 1, but not everybody installed that.
805 * The DJGPP implementation of usleep() uses a busy-wait loop too.
807 if (msec == 0 || (msec != FOREVER
808 && biostime(0, 0L) > starttime + msec / BIOSTICK))
809 break;
811 #ifdef DJGPP
812 /* Yield the CPU to the next process. */
813 __dpmi_yield();
814 #endif
816 return FALSE;
820 * don't do anything for about "msec" msec
822 void
823 mch_delay(
824 long msec,
825 int ignoreinput)
827 long starttime;
829 if (ignoreinput)
832 * We busy-wait here. Unfortunately, delay() and usleep() have been
833 * reported to give problems with the original Windows 95. This is
834 * fixed in service pack 1, but not everybody installed that.
836 starttime = biostime(0, 0L);
837 while (biostime(0, 0L) < starttime + msec / BIOSTICK)
840 else
841 WaitForChar(msec);
845 * mch_write(): write the output buffer to the screen
847 void
848 mch_write(
849 char_u *s,
850 int len)
852 char_u *p;
853 int row, col;
855 if (term_console && full_screen)
856 while (len--)
858 /* translate ESC | sequences into bios calls */
859 if (p_wd) /* testing: wait a bit for each char */
860 WaitForChar(p_wd);
862 if (s[0] == '\n')
863 #ifdef DJGPP
865 myflush();
866 S_iCurrentColumn = S_iLeft - 1;
868 #else
869 myputch('\r');
870 #endif
871 else if (s[0] == ESC && len > 1 && s[1] == '|')
873 switch (s[2])
875 #ifdef DJGPP
876 case 'B': ScreenVisualBell();
877 goto got3;
878 #endif
879 case 'J':
880 #ifdef DJGPP
881 myflush();
882 #endif
883 myclrscr();
884 goto got3;
886 case 'K':
887 #ifdef DJGPP
888 myflush();
889 #endif
890 myclreol();
891 goto got3;
893 case 'L':
894 #ifdef DJGPP
895 myflush();
896 #endif
897 myinsline();
898 goto got3;
900 case 'M':
901 #ifdef DJGPP
902 myflush();
903 #endif
904 mydelline();
905 got3: s += 3;
906 len -= 2;
907 continue;
909 case '0':
910 case '1':
911 case '2':
912 case '3':
913 case '4':
914 case '5':
915 case '6':
916 case '7':
917 case '8':
918 case '9': p = s + 2;
919 row = mygetdigits(&p); /* no check for length! */
920 if (p > s + len)
921 break;
922 if (*p == ';')
924 ++p;
925 col = mygetdigits(&p); /* no check for length! */
926 if (p > s + len)
927 break;
928 if (*p == 'H' || *p == 'r' || *p == 'V')
930 #ifdef DJGPP
931 myflush();
932 #endif
933 if (*p == 'H') /* set cursor position */
934 mygotoxy(col, row);
935 else if (*p == 'V')
936 mywindow(row, S_iTop, col, S_iBottom);
937 else /* set scroll region */
938 mywindow(S_iLeft, row, S_iRight, col);
939 len -= p - s;
940 s = p + 1;
941 continue;
944 else if (*p == 'm' || *p == 'f' || *p == 'b')
946 if (*p == 'm') /* set color */
948 if (row == 0)
949 mynormvideo();/* reset color */
950 else
951 mytextattr(row);
953 else if (*p == 'f') /* set foreground color */
954 mytextcolor(row);
955 else /* set background color */
956 mytextbackground(row);
958 len -= p - s;
959 s = p + 1;
960 continue;
964 myputch(*s++);
966 else
968 write(1, s, (unsigned)len);
973 * mch_inchar(): low level input funcion.
974 * Get a characters from the keyboard.
975 * If time == 0 do not wait for characters.
976 * If time == n wait a short time for characters.
977 * If time == -1 wait forever for characters.
979 * return the number of characters obtained
982 mch_inchar(
983 char_u *buf,
984 int maxlen,
985 long time,
986 int tb_change_cnt)
988 int len = 0;
989 int c;
990 int tmp_c;
991 static int nextchar = 0; /* may keep character when maxlen == 1 */
994 * if we got a ctrl-C when we were busy, there will be a "^C" somewhere
995 * on the sceen, so we need to redisplay it.
997 if (delayed_redraw)
999 delayed_redraw = FALSE;
1000 update_screen(CLEAR);
1001 setcursor();
1002 out_flush();
1005 /* return remaining character from last call */
1006 if (nextchar)
1008 *buf = nextchar;
1009 nextchar = 0;
1010 return 1;
1013 #ifdef FEAT_MOUSE
1014 if (time != 0)
1015 show_mouse(TRUE);
1016 #endif
1017 #ifdef DJGPP
1018 set_sys_cursor();
1019 #endif
1020 if (time >= 0)
1022 if (WaitForChar(time) == 0) /* no character available */
1024 #ifdef FEAT_MOUSE
1025 show_mouse(FALSE);
1026 #endif
1027 return 0;
1030 else /* time == -1 */
1033 * If there is no character available within 2 seconds (default)
1034 * write the autoscript file to disk. Or cause the CursorHold event
1035 * to be triggered.
1037 if (WaitForChar(p_ut) == 0)
1039 #ifdef FEAT_AUTOCMD
1040 if (trigger_cursorhold() && maxlen >= 3)
1042 buf[0] = K_SPECIAL;
1043 buf[1] = KS_EXTRA;
1044 buf[2] = (int)KE_CURSORHOLD;
1045 return 3;
1047 #endif
1048 before_blocking();
1051 WaitForChar(FOREVER); /* wait for key or mouse click */
1054 * Try to read as many characters as there are, until the buffer is full.
1057 * we will get at least one key. Get more if they are available
1058 * After a ctrl-break we have to read a 0 (!) from the buffer.
1059 * bioskey(1) will return 0 if no key is available and when a
1060 * ctrl-break was typed. When ctrl-break is hit, this does not always
1061 * implies a key hit.
1063 cbrk_pressed = FALSE;
1064 #ifdef FEAT_MOUSE
1065 if (mouse_click >= 0 && maxlen >= 5)
1067 len = 5;
1068 *buf++ = ESC + 128;
1069 *buf++ = 'M';
1070 *buf++ = mouse_click;
1071 *buf++ = mouse_x + '!';
1072 *buf++ = mouse_y + '!';
1073 mouse_click = -1;
1075 else
1076 #endif
1078 #ifdef FEAT_MOUSE
1079 mouse_hidden = TRUE;
1080 #endif
1081 if (p_biosk && !p_consk)
1083 while ((len == 0 || bioskey(bioskey_ready)) && len < maxlen)
1085 c = translate_altkeys(bioskey(bioskey_read)); /* get the key */
1087 * translate a few things for inchar():
1088 * 0x0000 == CTRL-break -> 3 (CTRL-C)
1089 * 0x0300 == CTRL-@ -> NUL
1090 * 0xnn00 == extended key code -> K_NUL, nn
1091 * 0xnne0 == enhanced keyboard -> K_NUL, nn
1092 * K_NUL -> K_NUL, 3
1094 if (c == 0)
1095 c = 3;
1096 else if (c == 0x0300)
1097 c = NUL;
1098 else if ((c & 0xff) == 0
1099 || c == K_NUL
1100 || c == 0x4e2b
1101 || c == 0x4a2d
1102 || c == 0x372a
1103 || ((c & 0xff) == 0xe0 && c != 0xe0))
1105 if (c == K_NUL)
1106 c = 3;
1107 else
1108 c >>= 8;
1109 *buf++ = K_NUL;
1110 ++len;
1113 if (len < maxlen)
1115 *buf++ = c;
1116 len++;
1117 #ifdef FEAT_MBYTE
1118 /* Convert from 'termencoding' to 'encoding'. Only
1119 * translate normal characters, not key codes. */
1120 if (input_conv.vc_type != CONV_NONE
1121 && (len == 1 || buf[-2] != K_NUL))
1122 len += convert_input(buf - 1, 1, maxlen - len + 1) - 1;
1123 #endif
1125 else
1126 nextchar = c;
1129 else
1131 while ((len == 0 || (p_consk ? cons_kbhit() : kbhit()))
1132 && len < maxlen)
1134 switch (c = (p_consk ? cons_getch() : getch()))
1136 case 0:
1137 /* NUL means that there is another character.
1138 * Get it immediately, because kbhit() doesn't always
1139 * return TRUE for the second character.
1141 if (p_consk)
1142 c = cons_getch();
1143 else
1144 c = getch();
1145 tmp_c = translate_altkeys(c << 8);
1146 if (tmp_c == (c << 8))
1148 *buf++ = K_NUL;
1149 ++len;
1151 else
1152 c = tmp_c;
1153 break;
1154 case K_NUL:
1155 *buf++ = K_NUL;
1156 ++len;
1157 c = 3;
1158 break;
1159 case 3:
1160 cbrk_pressed = TRUE;
1161 /*FALLTHROUGH*/
1162 default:
1163 break;
1165 if (len < maxlen)
1167 *buf++ = c;
1168 ++len;
1170 else
1171 nextchar = c;
1175 #ifdef FEAT_MOUSE
1176 show_mouse(FALSE);
1177 #endif
1179 beep_count = 0; /* may beep again now that we got some chars */
1180 return len;
1184 * return non-zero if a character is available
1187 mch_char_avail(void)
1189 return WaitForChar(0L);
1192 #ifdef DJGPP
1193 # define INT_ARG int
1194 #else
1195 # define INT_ARG
1196 #endif
1199 * function for ctrl-break interrupt
1201 static void interrupt
1202 #ifdef DJGPP
1203 catch_cbrk(int a)
1204 #else
1205 catch_cbrk(void)
1206 #endif
1208 cbrk_pressed = TRUE;
1209 ctrlc_pressed = TRUE;
1212 #ifndef DJGPP
1214 * ctrl-break handler for DOS. Never called when a ctrl-break is typed, because
1215 * we catch interrupt 1b. If you type ctrl-C while Vim is waiting for a
1216 * character this function is not called. When a ctrl-C is typed while Vim is
1217 * busy this function may be called. By that time a ^C has been displayed on
1218 * the screen, so we have to redisplay the screen. We can't do that here,
1219 * because we may be called by DOS. The redraw is in mch_inchar().
1221 static int _cdecl
1222 cbrk_handler(void)
1224 delayed_redraw = TRUE;
1225 return 1; /* resume operation after ctrl-break */
1229 * function for critical error interrupt
1230 * For DOS 1 and 2 return 0 (Ignore).
1231 * For DOS 3 and later return 3 (Fail)
1233 static void interrupt
1234 catch_cint(bp, di, si, ds, es, dx, cx, bx, ax)
1235 unsigned bp, di, si, ds, es, dx, cx, bx, ax;
1237 ax = (ax & 0xff00); /* set AL to 0 */
1238 if (_osmajor >= 3)
1239 ax |= 3; /* set AL to 3 */
1241 #endif
1244 * Set the interrupt vectors for use with Vim on or off.
1245 * on == TRUE means as used within Vim
1247 static void
1248 set_interrupts(int on)
1250 static int saved_cbrk;
1251 #ifndef DJGPP
1252 static void interrupt (*old_cint)();
1253 #endif
1254 static void interrupt (*old_cbrk)(INT_ARG);
1256 if (on)
1258 saved_cbrk = getcbrk(); /* save old ctrl-break setting */
1259 setcbrk(0); /* do not check for ctrl-break */
1260 #ifdef DJGPP
1261 old_cbrk = signal(SIGINT, catch_cbrk); /* critical error interrupt */
1262 #else
1263 old_cint = getvect(0x24); /* save old critical error interrupt */
1264 setvect(0x24, catch_cint); /* install our critical error interrupt */
1265 old_cbrk = getvect(0x1B); /* save old ctrl-break interrupt */
1266 setvect(0x1B, catch_cbrk); /* install our ctrl-break interrupt */
1267 ctrlbrk(cbrk_handler); /* vim's ctrl-break handler */
1268 #endif
1269 if (term_console)
1270 out_str(T_ME); /* set colors */
1272 else
1274 setcbrk(saved_cbrk); /* restore ctrl-break setting */
1275 #ifdef DJGPP
1276 signal(SIGINT,old_cbrk); /* critical error interrupt */
1277 #else
1278 setvect(0x24, old_cint); /* restore critical error interrupt */
1279 setvect(0x1B, old_cbrk); /* restore ctrl-break interrupt */
1280 #endif
1281 /* restore ctrl-break handler, how ??? */
1282 if (term_console)
1283 mynormvideo(); /* restore screen colors */
1288 * We have no job control, fake it by starting a new shell.
1290 void
1291 mch_suspend(void)
1293 suspend_shell();
1296 extern int _fmode;
1299 * Prepare window for use by Vim.
1301 void
1302 mch_init(void)
1304 union REGS regs;
1306 #if defined(DJGPP) && defined(FEAT_CLIPBOARD)
1307 __dpmi_regs dpmi_regs;
1308 #endif
1311 * Get the video attributes at the cursor. These will be used as the
1312 * default attributes.
1314 regs.h.ah = 0x08;
1315 regs.h.bh = 0x00; /* video page 0 */
1316 int86(0x10, &regs, &regs);
1317 orig_attr = regs.h.ah;
1318 mynormvideo();
1319 if (cterm_normal_fg_color == 0)
1320 cterm_normal_fg_color = (orig_attr & 0xf) + 1;
1321 if (cterm_normal_bg_color == 0)
1322 cterm_normal_bg_color = ((orig_attr >> 4) & 0xf) + 1;
1324 term_console = TRUE; /* assume using the console for the things here */
1325 _fmode = O_BINARY; /* we do our own CR-LF translation */
1326 out_flush();
1327 set_interrupts(TRUE); /* catch interrupts */
1329 #ifdef DJGPP
1331 * Use Long File Names by default, if $LFN not set.
1333 if (getenv("LFN") == NULL)
1334 putenv("LFN=y");
1336 get_screenbase();
1337 #endif
1339 #ifdef FEAT_MOUSE
1340 /* find out if a MS compatible mouse is available */
1341 regs.x.ax = 0;
1342 (void)int86(0x33, &regs, &regs);
1343 mouse_avail = regs.x.ax;
1344 /* best guess for mouse coordinate computations */
1345 mch_get_shellsize();
1346 if (Columns <= 40)
1347 mouse_x_div = 16;
1348 if (Rows == 30)
1349 mouse_y_div = 16;
1350 #endif
1353 * Try switching to 16 colors for background, instead of 8 colors and
1354 * blinking. Does this always work? Can the old value be restored?
1356 regs.x.ax = 0x1003;
1357 regs.h.bl = 0x00;
1358 regs.h.bh = 0x00;
1359 int86(0x10, &regs, &regs);
1362 * Test if we have an enhanced AT keyboard. Write 0xFFFF to the keyboard
1363 * buffer and try to read it back. If we can't in 16 tries, it's an old
1364 * type XT keyboard.
1366 regs.h.ah = 0x05;
1367 regs.x.cx = 0xffff;
1368 int86(0x16, &regs, &regs);
1369 if (regs.h.al != 1) /* skip this when keyboard buffer is full */
1371 int i;
1373 for (i = 0; i < 16; ++i)
1375 regs.h.ah = 0x10;
1376 int86(0x16, &regs, &regs);
1377 if (regs.x.ax == 0xffff)
1378 break;
1380 if (i == 16) /* 0xffff not read, must be old keyboard */
1382 bioskey_read = 0;
1383 bioskey_ready = 1;
1387 #ifdef MCH_CURSOR_SHAPE
1388 /* Save the old cursor shape */
1389 mch_restore_cursor_shape(FALSE);
1390 /* Initialise the cursor shape */
1391 mch_update_cursor();
1392 #endif
1394 #if defined(DJGPP) && defined(FEAT_CLIPBOARD)
1396 * Check to see if the Windows clipboard is available, ie. are we
1397 * running from a DOS session within Windows. Obviously, the Windows
1398 * clipboard will not be available if we're running under pure DOS.
1400 * int 0x2f, AX = 0x1700 identifies the Windows version we're running
1401 * under. Upon return from the interrupt, if AX is unchanged, we're
1402 * running under pure DOS and no Windows clipboard is available.
1404 * Remark: could use int86() here but __dpmi_int() is recommended in
1405 * the DJGPP docs, since int86() doesn't cover all available interrupts.
1407 dpmi_regs.x.ax = 0x1700;
1408 if (__dpmi_int(0x2f, &dpmi_regs) == -1)
1409 /* real-mode interrupt failed? */
1410 dpmi_regs.x.ax = 0x1700; /* force failure */
1412 if (dpmi_regs.x.ax == 0x1700) /* no change in AX? */
1413 clip_init(FALSE); /* no clipboard available, too bad */
1414 else /* else, running under Windows, OK */
1415 clip_init(TRUE); /* clipboard is available */
1416 #endif
1420 mch_check_win(
1421 int argc,
1422 char **argv)
1424 /* store argv[0], may be used for $VIM */
1425 if (*argv[0] != NUL)
1426 exe_name = FullName_save((char_u *)argv[0], FALSE);
1429 * Try the DOS search path. The executable may in
1430 * fact be called differently, so try this last.
1432 if (exe_name == NULL || *exe_name == NUL)
1433 exe_name = searchpath("vim.exe");
1435 if (isatty(1))
1436 return OK;
1437 return FAIL;
1441 * Return TRUE if the input comes from a terminal, FALSE otherwise.
1444 mch_input_isatty(void)
1446 if (isatty(read_cmd_fd))
1447 return TRUE;
1448 return FALSE;
1451 #if defined(USE_FNAME_CASE) || defined(PROTO)
1453 * fname_case(): Set the case of the file name, if it already exists.
1454 * TODO: should expand short to long file names. Need to use DOS interrupts,
1455 * see DJGPP sources libc/dos/dir/findfirs.c.
1457 void
1458 fname_case(char_u *name, int len)
1460 char_u *tail;
1461 struct ffblk fb;
1463 slash_adjust(name);
1464 if (findfirst(name, &fb, 0) == 0)
1466 tail = gettail(name);
1467 if (len == 0 ? STRLEN(tail) == STRLEN(fb.ff_name)
1468 : (tail - name) + STRLEN(fb.ff_name) < len)
1469 STRCPY(tail, fb.ff_name);
1472 #endif
1475 * return process ID
1477 long
1478 mch_get_pid(void)
1480 return (long)0;
1484 * Change default drive (just like _chdrive of Borland C 3.1)
1486 static int
1487 change_drive(int drive)
1489 union REGS regs;
1491 regs.h.ah = 0x0e;
1492 regs.h.dl = drive - 1;
1493 intdos(&regs, &regs); /* set default drive */
1494 regs.h.ah = 0x19;
1495 intdos(&regs, &regs); /* get default drive */
1496 if (regs.h.al == drive - 1)
1497 return 0;
1498 return -1;
1502 * Get absolute file name into buffer 'buf' of length 'len' bytes.
1503 * All slashes are replaced with backslashes, to avoid trouble when comparing
1504 * file names. When 'shellslash' set do it the other way around.
1506 * return FAIL for failure, OK otherwise
1509 mch_FullName(
1510 char_u *fname,
1511 char_u *buf,
1512 int len,
1513 int force)
1515 if (!force && mch_isFullName(fname)) /* already expanded */
1517 vim_strncpy(buf, fname, len - 1);
1518 slash_adjust(buf);
1519 return OK;
1522 #ifdef __BORLANDC__ /* Only Borland C++ has this */
1523 if (_fullpath((char *)buf, (char *)fname, len - 1) == NULL)
1524 return FAIL;
1525 return OK;
1526 #else /* almost the same as mch_FullName() in os_unix.c */
1528 # if 1
1529 char_u fullpath[MAXPATHL];
1531 if (!_truename(fname, fullpath))
1532 return FAIL;
1533 slash_adjust(fullpath); /* Only needed when 'shellslash' set */
1534 vim_strncpy(buf, fullpath, len - 1);
1535 return OK;
1537 # else /* Old code, to be deleted... */
1538 int l;
1539 char_u olddir[MAXPATHL];
1540 char_u *p, *q;
1541 int c;
1542 int retval = OK;
1544 *buf = 0;
1546 * change to the directory for a moment,
1547 * and then do the getwd() (and get back to where we were).
1548 * This will get the correct path name with "../" things.
1550 p = vim_strrchr(fname, '/');
1551 q = vim_strrchr(fname, '\\');
1552 if (q != NULL && (p == NULL || q > p))
1553 p = q;
1554 q = vim_strrchr(fname, ':');
1555 if (q != NULL && (p == NULL || q > p))
1556 p = q;
1557 if (p != NULL)
1559 if (getcwd(olddir, MAXPATHL) == NULL)
1561 p = NULL; /* can't get current dir: don't chdir */
1562 retval = FAIL;
1564 else
1566 if (p == fname) /* /fname */
1567 q = p + 1; /* -> / */
1568 else if (q + 1 == p) /* ... c:\foo */
1569 q = p + 1; /* -> c:\ */
1570 else /* but c:\foo\bar */
1571 q = p; /* -> c:\foo */
1573 c = *q; /* truncate at start of fname */
1574 *q = NUL;
1575 # ifdef DJGPP
1576 STRCPY(buf, fname);
1577 slash_adjust(buf); /* needed when fname starts with \ */
1578 if (mch_chdir(buf)) /* change to the directory */
1579 # else
1580 if (mch_chdir(fname)) /* change to the directory */
1581 # endif
1582 retval = FAIL;
1583 else
1585 fname = q;
1586 if (c == psepc) /* if we cut the name at a */
1587 fname++; /* '\', don't add it again */
1589 *q = c;
1592 if (getcwd(buf, len) == NULL)
1594 retval = FAIL;
1595 *buf = NUL;
1597 # ifdef USE_FNAME_CASE
1598 else
1600 char_u *head;
1601 char_u *tail;
1602 struct ffblk fb;
1603 int c;
1604 int added;
1606 /* Apparently "longna~1" isn't expanded by getcwd(), at least not
1607 * for DJGPP. Expand it here. Have to do each dirname
1608 * separately. */
1609 slash_adjust(buf);
1610 head = buf;
1611 if (isalpha(*head) && head[1] == ':')
1612 head += 2; /* skip "c:" */
1613 while (*head != NUL)
1615 /* Advance "head" to the start of a dirname and "tail" to just
1616 * after it. */
1617 while (*head == '/' || *head == '\\')
1618 ++head;
1619 for (tail = head; *tail != NUL; ++tail)
1620 if (*tail == '/' || *tail == '\\')
1621 break;
1622 c = *tail;
1623 *tail = NUL;
1625 if (findfirst(buf, &fb, FA_DIREC) == 0)
1627 added = STRLEN(fb.ff_name);
1628 if ((head - buf) + added + STRLEN(tail + 1) + 2 < len)
1630 added -= (tail - head);
1631 if (added != 0)
1632 mch_memmove(tail + 1 + added, tail + 1,
1633 STRLEN(tail + 1) + 1);
1634 STRCPY(head, fb.ff_name);
1635 tail += added;
1638 *tail = c;
1639 head = tail;
1642 # endif
1643 if (p != NULL)
1644 mch_chdir(olddir);
1646 * Concatenate the file name to the path.
1648 if (*fname != NUL)
1650 l = STRLEN(buf);
1651 if (l > 0 && buf[l - 1] != '/' && buf[l - 1] != '\\')
1652 strcat(buf, pseps);
1653 strcat(buf, fname);
1655 return retval;
1656 # endif
1658 #endif
1662 * Replace all slashes by backslashes.
1663 * This used to be the other way around, but MS-DOS sometimes has problems
1664 * with slashes (e.g. in a command name). We can't have mixed slashes and
1665 * backslashes, because comparing file names will not work correctly. The
1666 * commands that use a file name should try to avoid the need to type a
1667 * backslash twice.
1668 * When 'shellslash' set do it the other way around.
1670 void
1671 slash_adjust(char_u *p)
1673 #ifdef OLD_DJGPP /* this seems to have been fixed in DJGPP 2.01 */
1674 /* DJGPP can't handle a file name that starts with a backslash, and when it
1675 * starts with a slash there should be no backslashes */
1676 if (*p == '\\' || *p == '/')
1677 while (*p)
1679 if (*p == '\\')
1680 *p = '/';
1681 mb_ptr_adv(p);
1683 else
1684 #endif
1685 while (*p)
1687 if (*p == psepcN)
1688 *p = psepc;
1689 mb_ptr_adv(p);
1694 * Return TRUE if "fname" does not depend on the current directory.
1697 mch_isFullName(char_u *fname)
1699 /* A name like "d:/foo" and "//server/share" is absolute */
1700 return (fname[0] != NUL && fname[1] == ':'
1701 && (fname[2] == '/' || fname[2] == '\\'))
1702 || (fname[0] == fname[1] && (fname[0] == '/' || fname[0] == '\\'));
1706 void
1707 mch_early_init(void)
1712 * Careful: mch_exit() may be called before mch_init()!
1714 void
1715 mch_exit(int r)
1717 settmode(TMODE_COOK);
1718 stoptermcap();
1719 set_interrupts(FALSE); /* restore interrupts */
1720 #ifdef DJGPP
1721 set_sys_cursor();
1722 #endif
1723 /* Somehow outputting CR-NL causes the original colors to be restored */
1724 out_char('\r');
1725 out_char('\n');
1726 out_flush();
1727 ml_close_all(TRUE); /* remove all memfiles */
1728 #ifdef MCH_CURSOR_SHAPE
1729 mch_restore_cursor_shape(TRUE);
1730 #endif
1731 exit(r);
1735 * set the tty in (raw) ? "raw" : "cooked" mode
1736 * Does not change the tty, as bioskey() and kbhit() work raw all the time.
1738 void
1739 mch_settmode(int tmode)
1743 #ifdef FEAT_MOUSE
1744 void
1745 mch_setmouse(int on)
1747 mouse_active = on;
1748 mouse_hidden = TRUE; /* dont show it until moved */
1750 #endif
1753 * set screen mode
1754 * return FAIL for failure, OK otherwise
1757 mch_screenmode(char_u *arg)
1759 int mode;
1760 int i;
1761 static char *(names[]) = {"BW40", "C40", "BW80", "C80", "MONO", "C4350"};
1762 static int modes[] = { BW40, C40, BW80, C80, MONO, C4350};
1764 mode = -1;
1765 if (VIM_ISDIGIT(*arg)) /* mode number given */
1766 mode = atoi((char *)arg);
1767 else
1769 for (i = 0; i < sizeof(names) / sizeof(char_u *); ++i)
1770 if (stricmp(names[i], (char *)arg) == 0)
1772 mode = modes[i];
1773 break;
1776 if (mode == -1)
1778 EMSG("E362: Unsupported screen mode");
1779 return FAIL;
1781 textmode(mode); /* use Borland function */
1782 #ifdef DJGPP
1783 /* base address may have changed */
1784 get_screenbase();
1785 #endif
1787 /* Screen colors may have changed. */
1788 out_str(T_ME);
1790 #ifdef FEAT_MOUSE
1791 if (mode <= 1 || mode == 4 || mode == 5 || mode == 13 || mode == 0x13)
1792 mouse_x_div = 16;
1793 else
1794 mouse_x_div = 8;
1795 if (mode == 0x11 || mode == 0x12)
1796 mouse_y_div = 16;
1797 else if (mode == 0x10)
1798 mouse_y_div = 14;
1799 else
1800 mouse_y_div = 8;
1801 shell_resized();
1802 #endif
1803 return OK;
1807 * Structure used by Turbo-C/Borland-C to store video parameters.
1809 #ifndef DJGPP
1810 extern struct text_info _video;
1811 #endif
1814 * try to get the real window size
1815 * return FAIL for failure, OK otherwise
1818 mch_get_shellsize(void)
1820 struct text_info textinfo;
1823 * The screenwidth is returned by the BIOS OK.
1824 * The screenheight is in a location in the bios RAM, if the display is
1825 * EGA or VGA.
1827 if (!term_console)
1828 return FAIL;
1829 gettextinfo(&textinfo);
1830 Columns = textinfo.screenwidth;
1831 Rows = textinfo.screenheight;
1832 #ifndef DJGPP
1833 if (textinfo.currmode > 10)
1834 Rows = *(char far *)MK_FP(0x40, 0x84) + 1;
1835 #endif
1837 if (Columns < MIN_COLUMNS || Rows < MIN_LINES)
1839 /* these values are overwritten by termcap size or default */
1840 Columns = 80;
1841 Rows = 25;
1842 return FAIL;
1844 #ifdef DJGPP
1845 mytextinit(&textinfo); /* Added by JML, 1/15/98 */
1846 #endif
1848 return OK;
1852 * Set the active window for delline/insline.
1854 static void
1855 set_window(void)
1857 if (term_console)
1859 #ifndef DJGPP
1860 _video.screenheight = Rows;
1861 #endif
1862 mywindow(1, 1, Columns, Rows);
1864 screen_start();
1867 void
1868 mch_set_shellsize(void)
1870 /* Should try to set the window size to Rows and Columns.
1871 * May involve switching display mode....
1872 * We assume the user knows the size and just use it. */
1876 * Rows and/or Columns has changed.
1878 void
1879 mch_new_shellsize()
1881 #ifdef FEAT_MOUSE
1882 /* best guess for mouse coordinate computations */
1883 if (Columns <= 40)
1884 mouse_x_div = 16;
1885 if (Rows == 30)
1886 mouse_y_div = 16;
1887 #endif
1888 set_window();
1889 #ifdef FEAT_MOUSE
1890 mouse_area(); /* set area where mouse can go */
1891 #endif
1894 #if defined(DJGPP) || defined(PROTO)
1896 * Check the number of Columns with a BIOS call. This avoids a crash of the
1897 * DOS console when 'columns' is set to a too large value.
1899 void
1900 mch_check_columns()
1902 static union REGS regs;
1904 regs.h.ah = 0x0f;
1905 (void)int86(0x10, &regs, &regs);
1906 if ((unsigned)Columns > (unsigned)regs.h.ah)
1907 Columns = (unsigned)regs.h.ah;
1909 #endif
1912 * call shell, return FAIL for failure, OK otherwise
1913 * options: SHELL_*, see vim.h.
1916 mch_call_shell(
1917 char_u *cmd,
1918 int options)
1920 int x;
1921 int tmode = cur_tmode;
1922 #ifndef DJGPP
1923 char_u *newcmd;
1924 #endif
1926 out_flush();
1927 #ifdef DJGPP
1928 set_sys_cursor();
1929 #endif
1931 if (options & SHELL_COOKED)
1932 settmode(TMODE_COOK); /* set to normal mode */
1933 set_interrupts(FALSE); /* restore interrupts */
1935 #ifdef DJGPP
1936 /* ignore signals while external command is running */
1937 signal(SIGINT, SIG_IGN);
1938 signal(SIGHUP, SIG_IGN);
1939 signal(SIGQUIT, SIG_IGN);
1940 signal(SIGTERM, SIG_IGN);
1941 #endif
1942 if (cmd == NULL)
1943 x = system((char *)p_sh);
1944 else
1946 #ifdef DJGPP
1948 * Use 'shell' for system().
1950 setenv("SHELL", (char *)p_sh, 1);
1951 x = system(cmd);
1952 #else
1953 /* we use "command" to start the shell, slow but easy */
1954 newcmd = alloc(STRLEN(p_sh) + STRLEN(p_shcf) + STRLEN(cmd) + 3);
1955 if (newcmd == NULL)
1956 x = -1;
1957 else
1959 sprintf((char *)newcmd, "%s %s %s", p_sh, p_shcf, cmd);
1960 x = system((char *)newcmd);
1961 vim_free(newcmd);
1963 #endif
1965 #ifdef DJGPP
1966 signal(SIGINT, SIG_DFL);
1967 signal(SIGHUP, SIG_DFL);
1968 signal(SIGQUIT, SIG_DFL);
1969 signal(SIGTERM, SIG_DFL);
1970 #endif
1971 if (tmode == TMODE_RAW)
1972 settmode(TMODE_RAW); /* set to raw mode */
1973 set_interrupts(TRUE); /* catch interrupts */
1975 if (x && !(options & SHELL_SILENT) && !emsg_silent)
1977 MSG_PUTS("\nshell returned ");
1978 msg_outnum((long)x);
1979 msg_putchar('\n');
1982 return x;
1986 * check for an "interrupt signal": CTRL-break or CTRL-C
1988 void
1989 mch_breakcheck(void)
1991 if (ctrlc_pressed)
1993 ctrlc_pressed = FALSE;
1994 got_int = TRUE;
1999 * Return TRUE if "p" contain a wildcard that can be expanded by
2000 * dos_expandpath().
2003 mch_has_exp_wildcard(char_u *p)
2005 for ( ; *p; mb_ptr_adv(p))
2007 if (vim_strchr((char_u *)"?*[", *p) != NULL
2008 || (*p == '~' && p[1] != NUL))
2009 return TRUE;
2011 return FALSE;
2015 * Return TRUE if "p" contain a wildcard or a "~1" kind of thing (could be a
2016 * shortened file name).
2019 mch_has_wildcard(char_u *p)
2021 for ( ; *p; mb_ptr_adv(p))
2023 if (vim_strchr((char_u *)
2024 # ifdef VIM_BACKTICK
2025 "?*$[`"
2026 # else
2027 "?*$["
2028 # endif
2029 , *p) != NULL
2030 || (*p == '~' && p[1] != NUL))
2031 return TRUE;
2033 return FALSE;
2037 * Change directory to "path".
2038 * The normal chdir() does not change the default drive. This one does.
2039 * Return 0 for success, -1 for failure.
2042 mch_chdir(char *path)
2044 if (path[0] == NUL) /* just checking... */
2045 return 0;
2046 if (path[1] == ':') /* has a drive name */
2048 if (change_drive(TOLOWER_ASC(path[0]) - 'a' + 1))
2049 return -1; /* invalid drive name */
2050 path += 2;
2052 if (*path == NUL) /* drive name only */
2053 return 0;
2054 return chdir(path); /* let the normal chdir() do the rest */
2057 #ifdef DJGPP
2059 * mch_rename() works around a bug in rename (aka MoveFile) in
2060 * Windows 95: rename("foo.bar", "foo.bar~") will generate a
2061 * file whose short file name is "FOO.BAR" (its long file name will
2062 * be correct: "foo.bar~"). Because a file can be accessed by
2063 * either its SFN or its LFN, "foo.bar" has effectively been
2064 * renamed to "foo.bar", which is not at all what was wanted. This
2065 * seems to happen only when renaming files with three-character
2066 * extensions by appending a suffix that does not include ".".
2067 * Windows NT gets it right, however, with an SFN of "FOO~1.BAR".
2068 * This works like mch_rename in os_win32.c, but is a bit simpler.
2070 * Like rename(), returns 0 upon success, non-zero upon failure.
2071 * Should probably set errno appropriately when errors occur.
2075 mch_rename(const char *OldFile, const char *NewFile)
2077 char_u *TempFile;
2078 int retval;
2079 int fd;
2081 /* rename() works correctly without long file names, so use that */
2082 if (!_USE_LFN)
2083 return rename(OldFile, NewFile);
2085 if ((TempFile = alloc((unsigned)(STRLEN(OldFile) + 13))) == NULL)
2086 return -1;
2088 STRCPY(TempFile, OldFile);
2089 STRCPY(gettail(TempFile), "axlqwqhy.ba~");
2090 if (rename(OldFile, TempFile))
2091 retval = -1;
2092 else
2094 /* now create an empty file called OldFile; this prevents
2095 * the operating system using OldFile as an alias (SFN)
2096 * if we're renaming within the same directory. For example,
2097 * we're editing a file called filename.asc.txt by its SFN,
2098 * filena~1.txt. If we rename filena~1.txt to filena~1.txt~
2099 * (i.e., we're making a backup while writing it), the SFN
2100 * for filena~1.txt~ will be filena~1.txt, by default, which
2101 * will cause all sorts of problems later in buf_write(). So, we
2102 * create an empty file called filena~1.txt and the system will have
2103 * to find some other SFN for filena~1.txt~, such as filena~2.txt
2105 if ((fd = open(OldFile, O_RDWR|O_CREAT|O_EXCL, 0444)) < 0)
2106 return -1;
2107 retval = rename(TempFile, NewFile);
2108 close(fd);
2109 mch_remove((char_u *)OldFile);
2111 /* If renaming to NewFile failed, rename TempFile back to OldFile, so
2112 * that it looks like nothing happened. */
2113 if (retval)
2114 rename(TempFile, OldFile);
2116 vim_free(TempFile);
2118 return retval; /* success */
2120 #endif
2122 #if defined(DJGPP) || defined(PROTO)
2124 * setlocale() for DJGPP with MS-DOS codepage support
2125 * Author: Cyril Slobin <slobin@fe.msk.ru>
2127 * Scaled down a lot for use by Vim: Only support setlocale(LC_ALL, "").
2130 #undef setlocale
2132 #include <go32.h>
2133 #include <inlines/ctype.ha>
2134 #include <locale.h>
2136 #define UPCASE (__dj_ISALNUM | __dj_ISALPHA | __dj_ISGRAPH | __dj_ISPRINT | __dj_ISUPPER)
2137 #define LOCASE (__dj_ISALNUM | __dj_ISALPHA | __dj_ISGRAPH | __dj_ISPRINT | __dj_ISLOWER)
2139 char *
2140 djgpp_setlocale(void)
2142 __dpmi_regs regs;
2143 struct { char id; unsigned short off, seg; } __attribute__ ((packed)) info;
2144 unsigned char buffer[0x82], lower, upper;
2145 int i;
2147 regs.x.ax = 0x6502;
2148 regs.x.bx = 0xffff;
2149 regs.x.dx = 0xffff;
2150 regs.x.cx = 5;
2151 regs.x.es = __tb >> 4;
2152 regs.x.di = __tb & 0xf;
2154 __dpmi_int(0x21, &regs);
2156 if (regs.x.flags & 1)
2157 return NULL;
2159 dosmemget(__tb, 5, &info);
2160 dosmemget((info.seg << 4) + info.off, 0x82, buffer);
2162 if (*(short *)buffer != 0x80)
2163 return NULL;
2165 /* Fix problem of underscores being replaced with y-umlaut. (Levin) */
2166 if (buffer[26] == 0x5f)
2167 buffer[26] = 0x98;
2169 for (i = 0; i < 0x80; i++)
2171 lower = i + 0x80;
2172 upper = (buffer+2)[i];
2173 if (lower != upper)
2175 __dj_ctype_flags[lower+1] = LOCASE;
2176 __dj_ctype_toupper[lower+1] = upper;
2177 if (__dj_ctype_flags[upper+1] == 0)
2178 __dj_ctype_flags[upper+1] = UPCASE;
2179 if (__dj_ctype_tolower[upper+1] == upper)
2180 __dj_ctype_tolower[upper+1] = lower;
2184 return "C";
2187 #if defined(FEAT_CLIPBOARD) || defined(PROTO)
2190 * Clipboard stuff, for cutting and pasting text to other windows.
2192 * Implementation of DOS/Windows clipboard data transfer
2193 * by David Kotchan (dkotchan@sympatico.ca)
2196 #define CF_TEXT 0x01 /* Windows clipboard format: Windows (ANSI) text */
2197 #define CF_OEMTEXT 0x07 /* Windows clipboard format: OEM (DOS) text */
2198 #define CF_VIMCLIP 0x04 /* trick: SYLK clipboard format for VimClipboard */
2200 static int Win16OpenClipboard(void);
2201 static int Win16CloseClipboard(void);
2202 static int Win16EmptyClipboard(void);
2203 static char_u *Win16GetClipboardData(int clip_data_format);
2204 static int Win16SetClipboardData(int clip_data_format, char_u *clip_data, int clip_data_size, int clip_data_type);
2207 * Make vim the owner of the current selection. Return OK upon success.
2210 clip_mch_own_selection(VimClipboard *cbd)
2213 * Never actually own the clipboard. If another application sets the
2214 * clipboard, we don't want to think that we still own it.
2216 return FAIL;
2220 * Make vim NOT the owner of the current selection.
2222 void
2223 clip_mch_lose_selection(VimClipboard *cbd)
2225 /* Nothing needs to be done here */
2229 * Read the Windows clipboard text and put it in Vim's clipboard register.
2231 void
2232 clip_mch_request_selection(VimClipboard *cbd)
2234 int type = MCHAR;
2235 char_u *pAllocated = NULL;
2236 char_u *pClipText = NULL;
2237 int clip_data_format = 0;
2239 if (Win16OpenClipboard())
2241 /* Check for Vim's own clipboard format first. The CF_VIMCLIP format
2242 * is just ordinary text (like CF_TEXT) except prepended by the
2243 * selection type (as a single character). Note that under DOS we
2244 * actually cannot define a custom CF_VIMCLIP clipboard format; we
2245 * use instead one of the existing Windows-defined formats, usually
2246 * "DIF" or "SYLK". See Win16GetClipboardData() for details.
2248 * Note that Win16GetClipboardData() returns the address of the memory
2249 * block it allocated. This is not necessary the start of the
2250 * clipboard text data: there may be other bytes ahead of the
2251 * text (particularly for CF_VIMCLIP) which are used for data
2252 * management. So pClipText is not necessarily == pAllocated.
2255 if ((pAllocated = Win16GetClipboardData(CF_VIMCLIP)) != NULL)
2257 clip_data_format = CF_VIMCLIP;
2258 pClipText = pAllocated;
2260 switch (*pClipText++) /* after ++, pClipText points to text */
2262 default:
2263 case 'L': type = MLINE; break;
2264 case 'C': type = MCHAR; break;
2265 #ifdef FEAT_VISUAL
2266 case 'B': type = MBLOCK; break;
2267 #endif
2271 /* Otherwise, check for the normal Windows text formats. There are
2272 * two of these: CF_TEXT (common) and CF_OEMTEXT (used for DOS
2273 * compatibility). Experiments show that, under the DOS/Windows
2274 * clipboard interface, writing CF_TEXT data to the clipboard
2275 * automatically creates a CF_OEMTEXT format as well.
2278 else if ((pAllocated = Win16GetClipboardData(CF_TEXT)) != NULL)
2280 clip_data_format = CF_TEXT;
2281 pClipText = pAllocated;
2282 type = (vim_strchr((char*)pClipText, '\r') != NULL) ? MLINE : MCHAR;
2285 else if ((pAllocated = Win16GetClipboardData(CF_OEMTEXT)) != NULL)
2287 clip_data_format = CF_OEMTEXT;
2288 pClipText = pAllocated;
2289 type = (vim_strchr((char*)pClipText, '\r') != NULL) ? MLINE : MCHAR;
2292 /* Did we get anything? */
2294 if (pClipText != NULL)
2296 char_u *pDest;
2297 char_u *pStart;
2298 char_u *pEnd;
2300 long_u clip_data_size = 0;
2302 /* The Windows clipboard normally stores its text lines terminated
2303 * by <CR><NL>. But Vim uses only <NL>, so translate the <CR><NL>
2304 * into <NL>. Also, watch for possible null bytes at the end of
2305 * pClipText. These are padding added by "get_clipboard_data"
2306 * (int 0x2f, AX= 0x1705) in order to round the data size up to the
2307 * next multiple of 32 bytes. See Win16GetClipboardData() for
2308 * details.
2311 pDest = strstr( pClipText, "\r\n" ); /* find first <CR><NL> */
2313 if (pDest != NULL) /* found one? */
2315 pStart = pDest + 1; /* points to <NL> after <CR> */
2316 pEnd = strstr( pStart, "\r\n" );/* find next <CR><NL> */
2318 while (pEnd != NULL) /* found one? */
2320 memmove(pDest, pStart, (long)(pEnd - pStart));
2321 /* exclude <CR> */
2322 pDest += (long)(pEnd - pStart); /* new destination */
2323 pStart = pEnd + 1; /* new starting point */
2324 pEnd = strstr(pStart, "\r\n"); /* find next <CR><NL> */
2327 /* Fell out of while() loop: no more <CR><NL> pairs. Just copy
2328 * the rest of the data, up to the first null byte. */
2329 pEnd = strchr(pStart, '\0'); /* find first null */
2331 memmove(pDest, pStart, (long)(pEnd - pStart)); /* exclude nul */
2332 pDest += (long)(pEnd - pStart);
2333 *pDest = '\0'; /* terminate */
2335 /* Now that all <CR><NL> pairs have been "compressed" into just
2336 * <NL>'s, determine the true text length. */
2337 clip_data_size = (long_u)(pDest - pClipText);
2339 else
2341 /* no <CR><NL> pairs at all */
2342 /* Since the data may have been padded with trailing nulls,
2343 * determine the true string length. */
2344 clip_data_size = STRLEN(pClipText); /* true data length */
2347 /* Copy the cleaned-up data over to Vim's clipboard "*" register. */
2348 clip_yank_selection(type, pClipText, clip_data_size, cbd);
2350 /* Free the memory that Win16GetClipboardData() allocated. */
2351 vim_free(pAllocated);
2354 Win16CloseClipboard();
2356 } // end if (Win16OpenClipboard())
2360 * Send the currently selected Vim text to the Windows clipboard.
2362 void
2363 clip_mch_set_selection( VimClipboard *cbd )
2365 char_u *pClipData = NULL;
2366 long_u clip_data_size;
2367 int clip_data_type;
2369 /* If the '*' register isn't already filled in, fill it in now. */
2370 cbd->owned = TRUE;
2371 clip_get_selection(cbd);
2372 cbd->owned = FALSE;
2375 * clip_convert_selection() returns a pointer to a buffer containing
2376 * the text to send to the Windows clipboard, together with a count
2377 * of the number of characters (bytes) in the buffer. The function's
2378 * return value is the 'type' of selection: MLINE, MCHAR, or MBLOCK;
2379 * or -1 for failure.
2381 clip_data_type = clip_convert_selection(&pClipData, &clip_data_size, cbd);
2383 if (clip_data_type < 0) /* could not convert? */
2384 return; /* early exit */
2386 if (Win16OpenClipboard())
2388 if (Win16EmptyClipboard())
2390 int sentOK;
2392 sentOK = Win16SetClipboardData(CF_TEXT, pClipData,
2393 clip_data_size, clip_data_type);
2394 sentOK = Win16SetClipboardData(CF_VIMCLIP,
2395 pClipData, clip_data_size, clip_data_type) && sentOK;
2397 if (!sentOK)
2399 /* one or both of Win16SetClipboardData() failed. */
2400 /* Technically we don't know why Win16SetClipboardData()
2401 * failed, but almost always it will be because there wasn't
2402 * enough DOS memory to buffer the data, so report that as the
2403 * problem.
2405 * We report the error here (instead of in
2406 * Win16SetClipboardData()) because we don't want the error
2407 * reported twice.
2409 EMSG("E450: Selection too large, cannot allocate DOS buffer");
2413 Win16CloseClipboard();
2416 /* release memory allocated by clip_convert_selection() */
2417 vim_free(pClipData);
2419 return;
2423 * Win16OpenClipboard: open the Windows clipboard. The clipboard must be open
2424 * before it can be communicated with at all. Return TRUE on success,
2425 * FALSE on failure.
2427 static int
2428 Win16OpenClipboard(void)
2430 __dpmi_regs dpmi_regs;
2432 long start_time;
2433 int tick_count;
2435 /* int 02xf, AX = 0x1701 attempts to open the Windows clipboard. Upon
2436 * return from the interrupt, if AX is non-zero, the clipboard was
2437 * successfully opened. If AX is zero, the clipboard could not be opened
2438 * because it is currently in use by another process.
2440 * Remark: other DOS programs I (dk) have written that use the Windows
2441 * clipboard sometimes encounter the problem that the clipboard cannot
2442 * be opened even though it is demonstrably not in use by any other
2443 * process. In all cases, repeated attempts to open the clipboard
2444 * eventually succeed, but the initial attempt occasionally fails.
2446 * The problem is intermittent and appears to be related to DOS being
2447 * "busy" at certain unpredictable times. DOS maintains two internal
2448 * flags that indicate whether it's busy: InDOS and CritErr. The
2449 * location of InDOS can be found by calling int 0x21, AH = 0x34. The
2450 * location of CritErr can be found by calling int 0x21, AX = 0x5d06.
2451 * If either of these flags is set, DOS is "busy" and cannot be
2452 * interrupted. See "Undocumented DOS" by Schulman et al for details.
2454 * However here I take the easier approach that if the first call to open
2455 * the clipboard does not succeed, just try again. In fact, try once per
2456 * biostime() clock tick, up to 18 times (about one second).
2459 tick_count = 0;
2461 dpmi_regs.x.ax = 0x1701; /* open Windows clipboard */
2462 if (__dpmi_int(0x2f, &dpmi_regs) == -1)
2464 /* real-mode interrupt failed? */
2465 return FALSE; /* FALSE --> clipboard not open */
2468 /* wait up to one second */
2469 while (dpmi_regs.x.ax == 0 && tick_count++ < 18)
2471 /* Wait one clock tick (18.2 ticks/sec = 55 msec per tick).
2473 * We busy-wait here. Unfortunately, delay() and usleep() have been
2474 * reported to give problems with the original Windows 95. This is
2475 * fixed in service pack 1, but not everybody installed that.
2477 start_time = biostime(0, 0L);
2478 while (biostime(0, 0L) == start_time)
2481 dpmi_regs.x.ax = 0x1701; /* open Windows clipboard */
2482 if (__dpmi_int(0x2f, &dpmi_regs) == -1)
2484 /* real-mode interrupt failed? */
2485 return FALSE; /* FALSE --> clipboard not open */
2489 /* Couldn't open the clipboard, even after 18 attempts? */
2491 if (tick_count >= 18 && dpmi_regs.x.ax == 0)
2492 return FALSE; /* FALSE --> clipboard not open */
2494 return TRUE; /* TRUE --> clipboard opened successfully, OK */
2498 * Win16CloseClipboard: close the Windows clipboard. Return TRUE on
2499 * success, FALSE on failure. This function can always be called,
2500 * whether the clipboard is open or not.
2502 static int
2503 Win16CloseClipboard(void)
2505 __dpmi_regs dpmi_regs;
2507 /* Close the clipboard. This interrupt can always be called, even
2508 * if the clipboard is already closed.
2511 dpmi_regs.x.ax = 0x1708; /* close the clipboard */
2512 if (__dpmi_int(0x2f, &dpmi_regs) == -1)
2514 /* real-mode interrupt failed? */
2515 return FALSE; /* FALSE --> clipboard could not be closed */
2518 return TRUE; /* TRUE --> clipboard closed successfully, OK */
2522 * Win16EmptyClipboard: empty the (previously opened) Windows clipboard.
2523 * Return TRUE on success, FALSE on failure.
2525 static int
2526 Win16EmptyClipboard(void)
2528 __dpmi_regs dpmi_regs;
2530 /* int 02xf, AX = 0x1702 attempts to empty the Windows clipboard. Upon
2531 * return from the interrupt, if AX == 0, the clipboard could not be
2532 * emptied (for some reason).
2534 dpmi_regs.x.ax = 0x1702; /* empty the Windows clipboard */
2535 if (__dpmi_int(0x2f, &dpmi_regs) == -1)
2537 /* real-mode interrupt failed? */
2538 return FALSE; /* FALSE --> clipboard could not be emptied */
2541 /* Did we succeed in clearing the clipboard? */
2542 if (dpmi_regs.x.ax == 0)
2543 return FALSE; /* FALSE --> clipboard could not be emptied */
2545 return TRUE; /* TRUE --> clipboard was emptied, OK */
2549 * FreeDOSMemory: a helper function to free memory previously
2550 * allocated by a call to __dpmi_allocate_dos_memory().
2552 static void
2553 FreeDOSMemory(int protected_mode_selector)
2555 /* Free the DOS buffer and release the DPMI prot-mode selector.
2557 * It's important that DOS memory be properly released because
2558 * there's only a limited amount of it. Therefore, if the call
2559 * to __dpmi_free_dos_memory() fails, emit an error message
2560 * unconditionally.
2562 if (__dpmi_free_dos_memory(protected_mode_selector) == -1)
2563 EMSG("E451: could not free DOS memory buffer (DJGPP)");
2567 * Win16GetClipboardData: query the Windows clipboard as to whether data
2568 * is available in a particular clipboard format. If data is
2569 * available, allocate a buffer for it and read the data from the
2570 * clipboard into the buffer. Return a pointer to the buffer. If
2571 * no data is available in the requested format, return NULL.
2573 * This routine allocates memory to hold the retrieved clipboard
2574 * data. It's the caller's responsibility to free this memory
2575 * once it's finished using it. The memory should be freed by
2576 * calling vim_free().
2578 static char_u *
2579 Win16GetClipboardData(int clip_data_format)
2581 __dpmi_regs dpmi_regs;
2583 int real_mode_segment_address;
2584 int protected_mode_selector;
2586 char_u *clip_data_buffer;
2587 long_u clip_data_size;
2589 /* We only handle clipboard formats we recognize, others are ignored.
2591 * It's not possible to create a custom clipboard format for VimClipboard
2592 * data under DOS, so one of the predefined Windows formats had to be
2593 * used for CF_VIMCLIP. Two obscure formats, popular when Windows 3.0
2594 * came out but no longer in much use today, are the DIF and SYLK formats.
2595 * DIF is the Data Interchange Format, SYLK is the Symbolic Link format.
2596 * They are both text formats and either one can be hijacked for use as
2597 * "the VimClipboard format". Of course, this conflicts with anyone who
2598 * still *is* using DIF or SYLK data formats, but that will be very few
2599 * people.
2601 * I (dk) chose SYLK as the more obscure format because it was used
2602 * mostly for Microsoft Multiplan (the pre-cursor to Excel) and it's not
2603 * likely Multiplan is used anywhere much anymore. Mind you, Excel can
2604 * still export to both DIF and SYLK formats.
2607 switch (clip_data_format)
2609 case CF_VIMCLIP: /* Vim's own special clipboard format */
2610 case CF_TEXT: /* Windows text */
2611 case CF_OEMTEXT: /* DOS (OEM) text */
2613 /* int 02xf, AX = 0x1704 returns the number of bytes of data currently
2614 * on the Windows clipboard, for the specified format. Upon return
2615 * from the interrupt, DX:AX = the number of bytes, rounded up to the
2616 * nearest multiple of 32.
2619 dpmi_regs.x.ax = 0x1704; /* get size of clipbd data */
2620 dpmi_regs.x.dx = clip_data_format;
2621 if (__dpmi_int(0x2f, &dpmi_regs) == -1)
2623 /* real-mode interrupt failed? */
2624 return NULL; /* early exit */
2627 /* Did we get anything? If not, this is not an error. */
2628 if (dpmi_regs.x.dx == 0 && dpmi_regs.x.ax == 0)
2630 /* no CF_VIMCLIP data? */
2631 return NULL; /* early exit */
2634 /* There is data available in the requested clipboard format.
2636 * Calculate data size. Remember this is rounded up to the nearest
2637 * multiple of 32, so clip_data_size is actually an upper limit.
2638 * The extra bytes, if any, are set to null (0x00) when the data is
2639 * read from the clipboard. (Later:) actually I'm no longer sure
2640 * this is strictly true: the end-of-data is marked by a null, but
2641 * the extra bytes appear to sometimes be null, sometimes not.
2642 * They may just be garbage.
2644 clip_data_size = dpmi_regs.x.ax + (dpmi_regs.x.dx << 16);
2646 /* Allocate memory to retrieve the data. The buffer has to lie in the
2647 * DOS memory region (in the first 1 MByte of address space) because
2648 * the Windows clipboard interface expects a 16-bit segment:offset
2649 * pointer to a buffer address within the DOS region. Must therefore
2650 * use __dpmi_allocate_dos_memory() instead of lalloc() or alloc().
2652 real_mode_segment_address = __dpmi_allocate_dos_memory(
2653 (clip_data_size + 15) >> 4, /* buffer size, in 16-byte paragraphs */
2654 &protected_mode_selector); /* prot-mode selector for the address */
2656 if (real_mode_segment_address == -1)
2658 /* memory allocation failed. */
2660 /* Technically we don't know why the allocation failed, but
2661 * almost always it will be because there wasn't enough DOS
2662 * memory to satisfy the request, so report that as the problem.
2663 * On my system, DJGPP is able to satisfy a DOS allocation request
2664 * up to about 600K in size. This depends on your HIMEM.SYS and
2665 * EMM386.EXE settings however.
2667 EMSG("E452: Clipboard data too large, cannot allocate DOS buffer");
2668 return NULL; /* early exit */
2671 /* Copy data from the clipboard into the buffer. Experiments show that
2672 * the Windows clipboard is smart enough to handle data transfers
2673 * larger than 64K properly, even though the buffer address is a 16-bit
2674 * segment:offset (which would normally limit the block size to 64K
2675 * unless ES gets incremented).
2677 dpmi_regs.x.ax = 0x1705; /* get clipboard data */
2678 dpmi_regs.x.dx = clip_data_format; /* CF_VIMCLIP */
2679 dpmi_regs.x.es = real_mode_segment_address; /* buffer ad: segment */
2680 dpmi_regs.x.bx = 0; /* buffer ad: offset */
2681 if (__dpmi_int( 0x2f, &dpmi_regs) == -1)
2683 /* real-mode interrupt failed? */
2684 EMSG("E453: could not copy clipboard data to DOS buffer");
2685 FreeDOSMemory(protected_mode_selector); /* clean up DOS mem */
2686 return NULL; /* early exit */
2689 /* Clipboard data is now in DOS memory in the buffer pointed to by
2690 * ES:BX. Copy this into ordinary memory that Vim can access (ie.
2691 * prot-mode memory). Allocate one extra byte to ensure the text
2692 * is terminated properly (in case it was somehow corrupted).
2694 clip_data_buffer = (char_u *)lalloc(clip_data_size + 1, TRUE);
2696 if (clip_data_buffer == NULL)
2698 /* allocation failed? */
2699 EMSG("E454: could not allocate clipboard memory buffer");
2700 FreeDOSMemory(protected_mode_selector); /* clean up DOS mem */
2701 return NULL; /* early exit */
2704 *(clip_data_buffer + clip_data_size) = '\0'; /* ensure terminated */
2706 /* Copy the data from DOS memory to Vim-accessible memory. */
2707 movedata( /* DJGPP version of memcpy() */
2708 protected_mode_selector, 0, /* source: DOS ad (via selector) */
2709 _my_ds(), (unsigned)clip_data_buffer,
2710 /* target: normal mem address */
2711 clip_data_size); /* how many bytes */
2713 /* Free the DOS buffer and release the DPMI prot-mode selector. */
2714 FreeDOSMemory(protected_mode_selector); /* clean up DOS memory */
2716 return clip_data_buffer; /* return pointer to allocated buffer */
2718 default: /* unknown clipboard format */
2719 return NULL;
2724 * Win16SetClipboardData: send 'clip_data_size' bytes of data from the buffer
2725 * pointed to by 'clip_data', to the Windows clipboard. The data is
2726 * registered with the clipboard as being in the 'clip_data_format'
2727 * format.
2729 static int
2730 Win16SetClipboardData(
2731 int clip_data_format,
2732 char_u *clip_data,
2733 int clip_data_size,
2734 int clip_data_type)
2736 __dpmi_regs dpmi_regs;
2738 int real_mode_segment_address;
2739 int protected_mode_selector;
2740 long_u protected_mode_offset = 0L;
2741 int total_size = clip_data_size;
2743 char_u *clip_sel_type;
2745 /* If we're using the CF_VIMCLIP custom format, allocate an extra
2746 * byte for clip_sel_type, which is a character indicating the type
2747 * of text selection: MLINE, MCHAR, or MBLOCK.
2749 if (clip_data_format == CF_VIMCLIP)
2750 total_size++; /* extra byte for marker */
2752 /* Data cannot be sent directly from a Vim string (pClipData) to
2753 * the Windows clipboard, because the Windows clipboard interface
2754 * expects a 16-bit (DOS) segment:offset address for the source
2755 * buffer. Therefore we must create a "transfer buffer" in the DOS
2756 * memory region (in the first 1 MByte of address space) and copy
2757 * the Vim string into that. From there, the data can then be sent
2758 * to the Windows clipboard.
2760 * To allocate DOS memory, we must use __dpmi_allocate_dos_memory()
2761 * instead of lalloc() or alloc(). If the allocation fails, it will
2762 * almost invariably be because there is not enough DOS memory
2763 * available to accommodate the size of clip_data. There is nothing
2764 * we can do about this, we simply have to fail.
2766 real_mode_segment_address = __dpmi_allocate_dos_memory(
2767 (total_size + 15) >> 4, /* buffer size, in 16-byte paragraphs */
2768 &protected_mode_selector); /* prot-mode selector for the address */
2770 if (real_mode_segment_address == -1)
2772 /* memory allocation failed. */
2773 /* Technically we don't know why the allocation failed, but
2774 * almost always it will be because there wasn't enough DOS
2775 * memory to satisfy the request. On my system, DJGPP is able
2776 * to satisfy a DOS allocation request up to about 600K in size.
2777 * This depends however on HIMEM.SYS and EMM386.EXE settings.
2779 return FALSE; /* early exit */
2782 /* Copy data from Vim's buffer (clip_data) into the DOS transfer buffer.
2783 * This can be larger than 64K; movedata() takes care of crossing any
2784 * 16-bit segment boundaries.
2786 * If we're using Vim's custom clipboard format, we must copy one extra
2787 * byte to indicate the type of selection: line, character, or block.
2789 if (clip_data_format == CF_VIMCLIP)
2791 switch (clip_data_type)
2793 default:
2794 case MLINE: clip_sel_type = "L"; break;
2795 case MCHAR: clip_sel_type = "C"; break;
2796 #ifdef FEAT_VISUAL
2797 case MBLOCK: clip_sel_type = "B"; break;
2798 #endif
2801 movedata(
2802 _my_ds(), (unsigned)clip_sel_type,
2803 /* source: normal memory address */
2804 protected_mode_selector, 0, /* target: DOS ad (via selector) */
2805 1); /* how many bytes to copy */
2807 protected_mode_offset += STRLEN(clip_sel_type); /* allow for marker */
2810 movedata(
2811 _my_ds(), (unsigned)clip_data, /* source: normal memory address */
2812 protected_mode_selector, /* target: DOS address (via selector) */
2813 protected_mode_offset, /* non-zero, if using clip_sel_type */
2814 clip_data_size); /* how many bytes to copy */
2816 /* Send data from the DOS transfer buffer to the Windows clipboard.
2817 * int 02xf, AX = 0x1703 sends SI:CX bytes of data from the buffer
2818 * at ES:BX, to the clipboard.
2820 dpmi_regs.x.ax = 0x1703; /* send clipboard data */
2821 dpmi_regs.x.dx = clip_data_format; /* flag: format of the data */
2822 dpmi_regs.x.si = ((total_size >> 16)
2823 & 0x0000ffffL); /* hi word of data size */
2824 dpmi_regs.x.cx = (total_size & 0x0000ffffL);
2825 /* lo word of data size */
2826 dpmi_regs.x.es = real_mode_segment_address; /* buffer address: segment */
2827 dpmi_regs.x.bx = 0; /* buffer address: offset */
2828 if (__dpmi_int(0x2f, &dpmi_regs) == -1)
2830 /* real-mode interrupt failed. */
2831 FreeDOSMemory(protected_mode_selector); /* clean up DOS memory */
2832 return FALSE; /* early exit */
2835 /* Free the DOS buffer and release the DPMI prot-mode selector. */
2836 FreeDOSMemory(protected_mode_selector); /* clean up DOS memory */
2838 return TRUE; /* TRUE --> data successfully sent to clipboard */
2841 #endif /* FEAT_CLIPBOARD */
2842 #endif /* DJGPP */
2845 * End of MS-DOS only code
2847 #endif /* WIN16 */
2849 /* common MS-DOS and Win16 code follows */
2851 static int
2852 vim_chmod(char_u *name)
2854 char_u *p;
2855 int f;
2856 int c = 0;
2858 /* chmod() can't handle a file name with a trailing slash, remove it.
2859 * But don't remove it for "/" or "c:/". */
2860 p = name + STRLEN(name);
2861 if (p > name)
2862 --p;
2863 if (p > name && (*p == '\\' || *p == '/') && p[-1] != ':')
2865 c = *p; /* remove trailing (back)slash */
2866 *p = NUL;
2868 else
2869 p = NULL;
2870 #if defined(__BORLANDC__) && (__BORLANDC__ > 0x410)
2871 /* this also sets the archive bit, supported by Borland C 4.0 and later,
2872 * where __BORLANDC__ is 0x450 (3.1 is 0x410) */
2873 f = _rtl_chmod((char *)name, 0, 0);
2874 #else
2875 f = _chmod((char *)name, 0, 0);
2876 #endif
2877 if (p != NULL)
2878 *p = c; /* put back (back)slash */
2879 return f;
2883 * get file permissions for 'name'
2884 * Returns -1 for error.
2885 * Returns FA_attributes defined in dos.h
2887 long
2888 mch_getperm(char_u *name)
2890 return (long)vim_chmod(name); /* get file mode */
2894 * set file permission for 'name' to 'perm'
2896 * return FAIL for failure, OK otherwise
2899 mch_setperm(
2900 char_u *name,
2901 long perm)
2903 perm |= FA_ARCH; /* file has changed, set archive bit */
2904 #if defined(__BORLANDC__) && (__BORLANDC__ > 0x410)
2905 return (_rtl_chmod((char *)name, 1, (int)perm) == -1 ? FAIL : OK);
2906 #else
2907 return (_chmod((char *)name, 1, (int)perm) == -1 ? FAIL : OK);
2908 #endif
2912 * Set hidden flag for "name".
2914 void
2915 mch_hide(char_u *name)
2917 /* DOS 6.2 share.exe causes "seek error on file write" errors when making
2918 * the swap file hidden. Thus don't do it. */
2922 * return TRUE if "name" is a directory
2923 * return FALSE if "name" is not a directory
2924 * return FALSE for error
2926 * beware of a trailing (back)slash
2929 mch_isdir(char_u *name)
2931 int f;
2933 f = vim_chmod(name);
2934 if (f == -1)
2935 return FALSE; /* file does not exist at all */
2936 if ((f & FA_DIREC) == 0)
2937 return FALSE; /* not a directory */
2938 return TRUE;
2942 * Return 1 if "name" can be executed, 0 if not.
2943 * Return -1 if unknown.
2946 mch_can_exe(name)
2947 char_u *name;
2949 char *p;
2951 p = searchpath(name);
2952 if (p == NULL || mch_isdir(p))
2953 return FALSE;
2954 return TRUE;
2958 * Check what "name" is:
2959 * NODE_NORMAL: file or directory (or doesn't exist)
2960 * NODE_WRITABLE: writable device, socket, fifo, etc.
2961 * NODE_OTHER: non-writable things
2964 mch_nodetype(char_u *name)
2966 if (STRICMP(name, "AUX") == 0
2967 || STRICMP(name, "CON") == 0
2968 || STRICMP(name, "CLOCK$") == 0
2969 || STRICMP(name, "NUL") == 0
2970 || STRICMP(name, "PRN") == 0
2971 || ((STRNICMP(name, "COM", 3) == 0
2972 || STRNICMP(name, "LPT", 3) == 0)
2973 && VIM_ISDIGIT(name[3])
2974 && name[4] == NUL))
2975 return NODE_WRITABLE;
2976 /* TODO: NODE_OTHER? */
2977 return NODE_NORMAL;
2981 * Get name of current directory into buffer 'buf' of length 'len' bytes.
2982 * Return OK for success, FAIL for failure.
2985 mch_dirname(
2986 char_u *buf,
2987 int len)
2989 #ifdef DJGPP
2990 if (getcwd((char *)buf, len) == NULL)
2991 return FAIL;
2992 /* turn the '/'s returned by DJGPP into '\'s */
2993 slash_adjust(buf);
2994 return OK;
2995 #else
2996 return (getcwd((char *)buf, len) != NULL ? OK : FAIL);
2997 #endif
3001 * this version of remove is not scared by a readonly (backup) file
3003 * returns -1 on error, 0 otherwise (just like remove())
3006 mch_remove(char_u *name)
3008 (void)mch_setperm(name, 0); /* default permissions */
3009 return unlink((char *)name);
3013 * Special version of getenv(): Use uppercase name.
3015 char_u *
3016 mch_getenv(char_u *name)
3018 int i;
3019 #define MAXENVLEN 50
3020 char_u var_copy[MAXENVLEN + 1];
3021 char_u *p;
3022 char_u *res;
3025 * Take a copy of the argument, and force it to upper case before passing
3026 * to getenv(). On DOS systems, getenv() doesn't like lower-case argument
3027 * (unlike Win32 et al.) If the name is too long to fit in var_copy[]
3028 * allocate memory.
3030 if ((i = STRLEN(name)) > MAXENVLEN)
3031 p = alloc(i + 1);
3032 else
3033 p = var_copy;
3034 if (p == NULL)
3035 p = name; /* out of memory, fall back to unmodified name */
3036 else
3038 for (i = 0; name[i] != NUL; ++i)
3039 p[i] = toupper(name[i]);
3040 p[i] = NUL;
3043 res = (char_u *)getenv((char *)p);
3045 if (p != var_copy && p != name)
3046 vim_free(p);
3048 return res;
3052 * Insert user name in s[len].
3055 mch_get_user_name(
3056 char_u *s,
3057 int len)
3059 *s = NUL;
3060 return FAIL;
3064 * Insert host name is s[len].
3066 void
3067 mch_get_host_name(
3068 char_u *s,
3069 int len)
3071 #ifdef DJGPP
3072 vim_strncpy(s, "PC (32 bits Vim)", len - 1);
3073 #else
3074 vim_strncpy(s, "PC (16 bits Vim)", len - 1);
3075 #endif