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random.c
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random.c
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/*
* This file contains the command processing functions for a number of random
* commands. There is no functional grouping here, for sure.
*/
#include <stdio.h>
#include "estruct.h"
#include "edef.h"
int tabsize; /* Tab size (0: use real tabs) */
/*
* Set fill column to n.
*/
setfillcol(f, n)
{
fillcol = n;
mlwrite("[Fill column is %d]",n);
return(TRUE);
}
/*
* Display the current position of the cursor, in origin 1 X-Y coordinates,
* the character that is under the cursor (in octal), and the fraction of the
* text that is before the cursor. The displayed column is not the current
* column, but the column that would be used on an infinite width display.
* Normally this is bound to "C-X =".
*/
showcpos(f, n)
{
register LINE *clp;
register long nch;
register int cbo;
register long nbc;
register int cac;
register int ratio;
register int col;
clp = lforw(curbp->b_linep); /* Grovel the data. */
cbo = 0;
nch = 0;
for (;;) {
if (clp==curwp->w_dotp && cbo==curwp->w_doto) {
nbc = nch;
if (cbo == llength(clp))
cac = '\n';
else
cac = lgetc(clp, cbo);
}
if (cbo == llength(clp)) {
if (clp == curbp->b_linep)
break;
clp = lforw(clp);
cbo = 0;
} else
++cbo;
++nch;
}
col = getccol(FALSE); /* Get real column. */
ratio = 0; /* Ratio before dot. */
if (nch != 0)
ratio = (100L*nbc) / nch;
mlwrite("X=%d Y=%d CH=0x%x .=%D (%d%% of %D)",
col+1, currow+1, cac, nbc, ratio, nch);
return (TRUE);
}
/*
* Return current column. Stop at first non-blank given TRUE argument.
*/
getccol(bflg)
int bflg;
{
register int c, i, col;
col = 0;
for (i=0; i<curwp->w_doto; ++i) {
c = lgetc(curwp->w_dotp, i);
if (c!=' ' && c!='\t' && bflg)
break;
if (c == '\t')
col |= 0x07;
else if (c<0x20 || c==0x7F)
++col;
++col;
}
return(col);
}
/*
* Twiddle the two characters on either side of dot. If dot is at the end of
* the line twiddle the two characters before it. Return with an error if dot
* is at the beginning of line; it seems to be a bit pointless to make this
* work. This fixes up a very common typo with a single stroke. Normally bound
* to "C-T". This always works within a line, so "WFEDIT" is good enough.
*/
twiddle(f, n)
{
register LINE *dotp;
register int doto;
register int cl;
register int cr;
if (curbp->b_mode&MDVIEW) /* don't allow this command if */
return(rdonly()); /* we are in read only mode */
dotp = curwp->w_dotp;
doto = curwp->w_doto;
if (doto==llength(dotp) && --doto<0)
return (FALSE);
cr = lgetc(dotp, doto);
if (--doto < 0)
return (FALSE);
cl = lgetc(dotp, doto);
lputc(dotp, doto+0, cr);
lputc(dotp, doto+1, cl);
lchange(WFEDIT);
return (TRUE);
}
/*
* Quote the next character, and insert it into the buffer. All the characters
* are taken literally, with the exception of the newline, which always has
* its line splitting meaning. The character is always read, even if it is
* inserted 0 times, for regularity. Bound to "C-Q"
*/
quote(f, n)
{
register int s;
register int c;
if (curbp->b_mode&MDVIEW) /* don't allow this command if */
return(rdonly()); /* we are in read only mode */
c = (*term.t_getchar)();
if (n < 0)
return (FALSE);
if (n == 0)
return (TRUE);
if (c == '\n') {
do {
s = lnewline();
} while (s==TRUE && --n);
return (s);
}
return (linsert(n, c));
}
/*
* Set tab size if given non-default argument (n <> 1). Otherwise, insert a
* tab into file. If given argument, n, of zero, change to true tabs.
* If n > 1, simulate tab stop every n-characters using spaces. This has to be
* done in this slightly funny way because the tab (in ASCII) has been turned
* into "C-I" (in 10 bit code) already. Bound to "C-I".
*/
tab(f, n)
{
if (n < 0)
return (FALSE);
if (n == 0 || n > 1) {
tabsize = n;
return(TRUE);
}
if (! tabsize)
return(linsert(1, '\t'));
return(linsert(tabsize - (getccol(FALSE) % tabsize), ' '));
}
/*
* Open up some blank space. The basic plan is to insert a bunch of newlines,
* and then back up over them. Everything is done by the subcommand
* procerssors. They even handle the looping. Normally this is bound to "C-O".
*/
openline(f, n)
{
register int i;
register int s;
if (curbp->b_mode&MDVIEW) /* don't allow this command if */
return(rdonly()); /* we are in read only mode */
if (n < 0)
return (FALSE);
if (n == 0)
return (TRUE);
i = n; /* Insert newlines. */
do {
s = lnewline();
} while (s==TRUE && --i);
if (s == TRUE) /* Then back up overtop */
s = backchar(f, n); /* of them all. */
return (s);
}
/*
* Insert a newline. Bound to "C-M". If we are in CMODE, do automatic
* indentation as specified.
*/
newline(f, n)
{
register int s;
if (curbp->b_mode&MDVIEW) /* don't allow this command if */
return(rdonly()); /* we are in read only mode */
if (n < 0)
return (FALSE);
/* if we are in C mode and this is a default <NL> */
if (n == 1 && (curbp->b_mode & MDCMOD) &&
curwp->w_dotp != curbp->b_linep)
return(cinsert());
/* insert some lines */
while (n--) {
if ((s=lnewline()) != TRUE)
return (s);
}
return (TRUE);
}
cinsert() /* insert a newline and indentation for C */
{
register char *cptr; /* string pointer into text to copy */
register int tptr; /* index to scan into line */
register int bracef; /* was there a brace at the end of line? */
register int i;
char ichar[NSTRING]; /* buffer to hold indent of last line */
/* grab a pointer to text to copy indentation from */
cptr = &curwp->w_dotp->l_text[0];
/* check for a brace */
tptr = curwp->w_doto - 1;
bracef = (cptr[tptr] == '{');
/* save the indent of the previous line */
i = 0;
while ((i < tptr) && (cptr[i] == ' ' || cptr[i] == '\t')
&& (i < NSTRING - 1)) {
ichar[i] = cptr[i];
++i;
}
ichar[i] = 0; /* terminate it */
/* put in the newline */
if (lnewline() == FALSE)
return(FALSE);
/* and the saved indentation */
i = 0;
while (ichar[i])
linsert(1, ichar[i++]);
/* and one more tab for a brace */
if (bracef)
tab(FALSE, 1);
return(TRUE);
}
insbrace(n, c) /* insert a brace into the text here...we are in CMODE */
int n; /* repeat count */
int c; /* brace to insert (always { for now) */
{
register int ch; /* last character before input */
register int i;
register int target; /* column brace should go after */
/* if we are at the begining of the line, no go */
if (curwp->w_doto == 0)
return(linsert(n,c));
/* scan to see if all space before this is white space */
for (i = curwp->w_doto - 1; i >= 0; --i) {
ch = lgetc(curwp->w_dotp, i);
if (ch != ' ' && ch != '\t')
return(linsert(n, c));
}
/* delete back first */
target = getccol(FALSE); /* calc where we will delete to */
target -= 1;
target -= target % (tabsize == 0 ? 8 : tabsize);
while (getccol(FALSE) > target)
backdel(FALSE, 1);
/* and insert the required brace(s) */
return(linsert(n, c));
}
inspound() /* insert a # into the text here...we are in CMODE */
{
register int ch; /* last character before input */
register int i;
/* if we are at the begining of the line, no go */
if (curwp->w_doto == 0)
return(linsert(1,'#'));
/* scan to see if all space before this is white space */
for (i = curwp->w_doto - 1; i >= 0; --i) {
ch = lgetc(curwp->w_dotp, i);
if (ch != ' ' && ch != '\t')
return(linsert(1, '#'));
}
/* delete back first */
while (getccol(FALSE) > 1)
backdel(FALSE, 1);
/* and insert the required pound */
return(linsert(1, '#'));
}
/*
* Delete blank lines around dot. What this command does depends if dot is
* sitting on a blank line. If dot is sitting on a blank line, this command
* deletes all the blank lines above and below the current line. If it is
* sitting on a non blank line then it deletes all of the blank lines after
* the line. Normally this command is bound to "C-X C-O". Any argument is
* ignored.
*/
deblank(f, n)
{
register LINE *lp1;
register LINE *lp2;
register int nld;
if (curbp->b_mode&MDVIEW) /* don't allow this command if */
return(rdonly()); /* we are in read only mode */
lp1 = curwp->w_dotp;
while (llength(lp1)==0 && (lp2=lback(lp1))!=curbp->b_linep)
lp1 = lp2;
lp2 = lp1;
nld = 0;
while ((lp2=lforw(lp2))!=curbp->b_linep && llength(lp2)==0)
++nld;
if (nld == 0)
return (TRUE);
curwp->w_dotp = lforw(lp1);
curwp->w_doto = 0;
return (ldelete(nld));
}
/*
* Insert a newline, then enough tabs and spaces to duplicate the indentation
* of the previous line. Assumes tabs are every eight characters. Quite simple.
* Figure out the indentation of the current line. Insert a newline by calling
* the standard routine. Insert the indentation by inserting the right number
* of tabs and spaces. Return TRUE if all ok. Return FALSE if one of the
* subcomands failed. Normally bound to "C-J".
*/
indent(f, n)
{
register int nicol;
register int c;
register int i;
if (curbp->b_mode&MDVIEW) /* don't allow this command if */
return(rdonly()); /* we are in read only mode */
if (n < 0)
return (FALSE);
while (n--) {
nicol = 0;
for (i=0; i<llength(curwp->w_dotp); ++i) {
c = lgetc(curwp->w_dotp, i);
if (c!=' ' && c!='\t')
break;
if (c == '\t')
nicol |= 0x07;
++nicol;
}
if (lnewline() == FALSE
|| ((i=nicol/8)!=0 && linsert(i, '\t')==FALSE)
|| ((i=nicol%8)!=0 && linsert(i, ' ')==FALSE))
return (FALSE);
}
return (TRUE);
}
/*
* Delete forward. This is real easy, because the basic delete routine does
* all of the work. Watches for negative arguments, and does the right thing.
* If any argument is present, it kills rather than deletes, to prevent loss
* of text if typed with a big argument. Normally bound to "C-D".
*/
forwdel(f, n)
{
if (curbp->b_mode&MDVIEW) /* don't allow this command if */
return(rdonly()); /* we are in read only mode */
if (n < 0)
return (backdel(f, -n));
if (f != FALSE) { /* Really a kill. */
if ((lastflag&CFKILL) == 0)
kdelete();
thisflag |= CFKILL;
}
return (ldelete(n, f));
}
/*
* Delete backwards. This is quite easy too, because it's all done with other
* functions. Just move the cursor back, and delete forwards. Like delete
* forward, this actually does a kill if presented with an argument. Bound to
* both "RUBOUT" and "C-H".
*/
backdel(f, n)
{
register int s;
if (curbp->b_mode&MDVIEW) /* don't allow this command if */
return(rdonly()); /* we are in read only mode */
if (n < 0)
return (forwdel(f, -n));
if (f != FALSE) { /* Really a kill. */
if ((lastflag&CFKILL) == 0)
kdelete();
thisflag |= CFKILL;
}
if ((s=backchar(f, n)) == TRUE)
s = ldelete(n, f);
return (s);
}
/*
* Kill text. If called without an argument, it kills from dot to the end of
* the line, unless it is at the end of the line, when it kills the newline.
* If called with an argument of 0, it kills from the start of the line to dot.
* If called with a positive argument, it kills from dot forward over that
* number of newlines. If called with a negative argument it kills backwards
* that number of newlines. Normally bound to "C-K".
*/
killtext(f, n)
{
register int chunk;
register LINE *nextp;
if (curbp->b_mode&MDVIEW) /* don't allow this command if */
return(rdonly()); /* we are in read only mode */
if ((lastflag&CFKILL) == 0) /* Clear kill buffer if */
kdelete(); /* last wasn't a kill. */
thisflag |= CFKILL;
if (f == FALSE) {
chunk = llength(curwp->w_dotp)-curwp->w_doto;
if (chunk == 0)
chunk = 1;
} else if (n == 0) {
chunk = curwp->w_doto;
curwp->w_doto = 0;
} else if (n > 0) {
chunk = llength(curwp->w_dotp)-curwp->w_doto+1;
nextp = lforw(curwp->w_dotp);
while (--n) {
if (nextp == curbp->b_linep)
return (FALSE);
chunk += llength(nextp)+1;
nextp = lforw(nextp);
}
} else {
mlwrite("neg kill");
return (FALSE);
}
return (ldelete(chunk, TRUE));
}
/*
* Yank text back from the kill buffer. This is really easy. All of the work
* ms done by the standard insert routines. All you do is run the loop, and
* check for errors. Bound to "C-Y".
*/
yank(f, n)
{
register int c;
register int i;
extern int kused;
if (curbp->b_mode&MDVIEW) /* don't allow this command if */
return(rdonly()); /* we are in read only mode */
if (n < 0)
return (FALSE);
while (n--) {
i = 0;
while ((c=kremove(i)) >= 0) {
if (c == '\n') {
if (lnewline(FALSE, 1) == FALSE)
return (FALSE);
} else {
if (linsert(1, c) == FALSE)
return (FALSE);
}
++i;
}
}
return (TRUE);
}
setmode(f, n) /* prompt and set an editor mode */
int f, n; /* default and argument */
{
adjustmode(TRUE, FALSE);
}
delmode(f, n) /* prompt and delete an editor mode */
int f, n; /* default and argument */
{
adjustmode(FALSE, FALSE);
}
setgmode(f, n) /* prompt and set a global editor mode */
int f, n; /* default and argument */
{
adjustmode(TRUE, TRUE);
}
delgmode(f, n) /* prompt and delete a global editor mode */
int f, n; /* default and argument */
{
adjustmode(FALSE, TRUE);
}
adjustmode(kind, global) /* change the editor mode status */
int kind; /* true = set, false = delete */
int global; /* true = global flag, false = current buffer flag */
{
char prompt[50]; /* string to prompt user with */
char *scan; /* scanning pointer to convert prompt */
int i; /* loop index */
char cbuf[NPAT]; /* buffer to recieve mode name into */
/* build the proper prompt string */
if (global)
strcpy(prompt,"Global mode to ");
else
strcpy(prompt,"Mode to ");
if (kind == TRUE)
strcat(prompt, "add: ");
else
strcat(prompt, "delete: ");
/* prompt the user and get an answer */
mlreply(prompt, cbuf, NPAT - 1);
/* make it uppercase */
scan = cbuf;
while (*scan != 0) {
if (*scan >= 'a' && *scan <= 'z')
*scan = *scan - 32;
scan++;
}
/* test it against the modes we know */
for (i=0; i < NUMMODES; i++) {
if (strcmp(cbuf, modename[i]) == 0) {
/* finding a match, we process it */
if (kind == TRUE)
if (global)
gmode |= (1 << i);
else
curwp->w_bufp->b_mode |= (1 << i);
else
if (global)
gmode &= ~(1 << i);
else
curwp->w_bufp->b_mode &= ~(1 << i);
/* display new mode line */
if (global == 0)
upmode();
mlerase(); /* erase the junk */
return(TRUE);
}
}
mlwrite("No such mode!");
return(FALSE);
}