windows-nt/Source/XPSP1/NT/sdktools/vi/ops.c
2020-09-26 16:20:57 +08:00

830 lines
22 KiB
C

/* $Header: /nw/tony/src/stevie/src/RCS/ops.c,v 1.5 89/08/06 09:50:42 tony Exp $
*
* Contains routines that implement the operators in vi. Everything in this
* file is called only from code in normal.c
*/
#include "stevie.h"
#include <io.h>
#include "ops.h"
char *lastcmd = NULL;/* the last thing we did */
static void inslines();
static void tabinout();
/*
* doshift - handle a shift operation
*/
void
doshift(op, c1, c2, num)
int op;
char c1, c2;
int num;
{
LNPTR top, bot;
int nlines;
char opchar;
top = startop;
bot = *Curschar;
if (lt(&bot, &top))
pswap(&top, &bot);
u_save(top.linep->prev, bot.linep->next);
nlines = cntllines(&top, &bot);
*Curschar = top;
tabinout((op == LSHIFT), nlines);
/* construct Redo buff */
opchar = (char)((op == LSHIFT) ? '<' : '>');
if (num != 0)
sprintf(Redobuff, "%c%d%c%c", opchar, num, c1, c2);
else
sprintf(Redobuff, "%c%c%c", opchar, c1, c2);
/*
* The cursor position afterward is the prior of the two positions.
*/
*Curschar = top;
/*
* If we were on the last char of a line that got shifted left,
* then move left one so we aren't beyond the end of the line
*/
if (gchar(Curschar) == NUL && Curschar->index > 0)
Curschar->index--;
updatescreen();
if (nlines > P(P_RP))
smsg("%d lines %ced", nlines, opchar);
}
/*
* dodelete - handle a delete operation
*/
void
dodelete(c1, c2, num)
char c1, c2;
int num;
{
LNPTR top, bot;
int nlines;
register int n;
/*
* Do a yank of whatever we're about to delete. If there's too much
* stuff to fit in the yank buffer, then get a confirmation before
* doing the delete. This is crude, but simple. And it avoids doing
* a delete of something we can't put back if we want.
*/
if (!doyank()) {
msg("yank buffer exceeded: press <y> to confirm");
if (vgetc() != 'y') {
msg("delete aborted");
*Curschar = startop;
return;
}
}
top = startop;
bot = *Curschar;
if (lt(&bot, &top))
pswap(&top, &bot);
u_save(top.linep->prev, bot.linep->next);
nlines = cntllines(&top, &bot);
*Curschar = top;
cursupdate();
if (mtype == MLINE) {
delline(nlines, TRUE);
} else {
if (!mincl && bot.index != 0)
dec(&bot);
if (top.linep == bot.linep) { /* del. within line */
n = bot.index - top.index + 1;
while (n--)
if (!delchar(TRUE))
break;
} else { /* del. between lines */
n = Curschar->index;
while (Curschar->index >= n)
if (!delchar(TRUE))
break;
top = *Curschar;
*Curschar = *nextline(Curschar);
delline(nlines-2, TRUE);
Curschar->index = 0;
n = bot.index + 1;
while (n--)
if (!delchar(TRUE))
break;
*Curschar = top;
(void) dojoin(FALSE);
oneright(); /* we got bumped left up above */
}
}
/* construct Redo buff */
if (num != 0)
sprintf(Redobuff, "d%d%c%c", num, c1, c2);
else
sprintf(Redobuff, "d%c%c", c1, c2);
if (mtype == MCHAR && nlines == 1)
updateline();
else
updatescreen();
if (nlines > P(P_RP))
smsg("%d fewer lines", nlines);
}
/*
* dofilter - handle a filter operation
*/
#define ITMP "viXXXXXX"
#define OTMP "voXXXXXX"
static char itmp[32];
static char otmp[32];
/*
* dofilter - filter lines through a command given by the user
*
* We use temp files and the system() routine here. This would normally
* be done using pipes on a UNIX machine, but this is more portable to
* the machines we usually run on. The system() routine needs to be able
* to deal with redirection somehow, and should handle things like looking
* at the PATH env. variable, and adding reasonable extensions to the
* command name given by the user. All reasonable versions of system()
* do this.
*/
void
dofilter(c1, c2, num)
char c1, c2;
int num;
{
char *buff; /* cmd buffer from getcmdln() */
char cmdln[200]; /* filtering command line */
LNPTR top, bot;
int nlines;
top = startop;
bot = *Curschar;
buff = getcmdln('!');
if (buff == NULL) /* user backed out of the command prompt */
return;
if (*buff == '!') { /* use the 'last' command */
if (lastcmd == NULL) {
emsg("No previous command");
return;
}
buff = lastcmd;
}
/*
* Remember the current command
*/
if (lastcmd != NULL)
free(lastcmd);
lastcmd = strsave(buff);
if (lt(&bot, &top))
pswap(&top, &bot);
u_save(top.linep->prev, bot.linep->next);
nlines = cntllines(&top, &bot);
*Curschar = top;
cursupdate();
/*
* 1. Form temp file names
* 2. Write the lines to a temp file
* 3. Run the filter command on the temp file
* 4. Read the output of the command into the buffer
* 5. Delete the original lines to be filtered
* 6. Remove the temp files
*/
#ifdef TMPDIR
strcpy(itmp, TMPDIR);
strcpy(otmp, TMPDIR);
#else
itmp[0] = otmp[0] = NUL;
#endif
strcat(itmp, ITMP);
strcat(otmp, OTMP);
if (_mktemp(itmp) == NULL || _mktemp(otmp) == NULL) {
emsg("Can't get temp file names");
return;
}
if (!writeit(itmp, &top, &bot)) {
emsg("Can't create input temp file");
return;
}
sprintf(cmdln, "%s <%s >%s", buff, itmp, otmp);
if (system(cmdln) != 0) {
emsg("Filter command failed");
remove(ITMP);
return;
}
if (readfile(otmp, &bot, TRUE)) {
emsg("Can't read filter output");
return;
}
delline(nlines, TRUE);
remove(itmp);
remove(otmp);
/* construct Redo buff */
if (num != 0)
sprintf(Redobuff, "d%d%c%c", num, c1, c2);
else
sprintf(Redobuff, "d%c%c", c1, c2);
updatescreen();
if (nlines > P(P_RP))
smsg("%d lines filtered", nlines);
}
#ifdef TILDEOP
void
dotilde(c1, c2, num)
char c1, c2;
int num;
{
LNPTR top, bot;
register char c;
/* construct Redo buff */
if (num != 0)
sprintf(Redobuff, "~%d%c%c", num, c1, c2);
else
sprintf(Redobuff, "~%c%c", c1, c2);
top = startop;
bot = *Curschar;
if (lt(&bot, &top))
pswap(&top, &bot);
u_save(top.linep->prev, bot.linep->next);
if (mtype == MLINE) {
top.index = 0;
bot.index = strlen(bot.linep->s);
} else {
if (!mincl) {
if (bot.index)
bot.index--;
}
}
for (; ltoreq(&top, &bot) ;inc(&top)) {
/*
* Swap case through the range
*/
c = (char)gchar(&top);
if (isalpha(c)) {
if (islower(c))
c = (char)toupper(c);
else
c = (char)tolower(c);
pchar(&top, c); /* Change current character. */
CHANGED;
}
}
*Curschar = startop;
updatescreen();
}
#endif
/*
* dochange - handle a change operation
*/
void
dochange(c1, c2, num)
char c1, c2;
int num;
{
char sbuf[16];
bool_t doappend; /* true if we should do append, not insert */
bool_t at_eof; /* changing through the end of file */
LNPTR top, bot;
top = startop;
bot = *Curschar;
if (lt(&bot, &top))
pswap(&top, &bot);
doappend = endofline(&bot);
at_eof = (bot.linep->next == Fileend->linep);
dodelete(c1, c2, num);
if (mtype == MLINE) {
/*
* If we made a change through the last line of the file,
* then the cursor got backed up, and we need to open a
* new line forward, otherwise we go backward.
*/
if (at_eof)
opencmd(FORWARD, FALSE);
else
opencmd(BACKWARD, FALSE);
} else {
if (doappend && !lineempty())
inc(Curschar);
}
if (num)
sprintf(sbuf, "c%d%c%c", num, c1, c2);
else
sprintf(sbuf, "c%c%c", c1, c2);
startinsert(sbuf, mtype == MLINE);
}
/*
* docasechange - handle a case change operation
*/
void
docasechange(char c1, char c2, int num, bool_t fToUpper)
{
LNPTR top, bot;
register char c;
/* construct Redo buff */
if (num != 0)
sprintf(Redobuff, "%c%d%c%c", fToUpper ? 'V' : 'v',num, c1, c2);
else
sprintf(Redobuff, "%c%c%c", fToUpper ? 'V' : 'v',c1, c2);
top = startop;
bot = *Curschar;
if (lt(&bot, &top))
pswap(&top, &bot);
u_save(top.linep->prev, bot.linep->next);
if (mtype == MLINE) {
top.index = 0;
bot.index = strlen(bot.linep->s);
} else {
if (!mincl) {
if (bot.index)
bot.index--;
}
}
for (; ltoreq(&top, &bot) ;inc(&top)) {
/*
* change case through the range
*/
c = (char)gchar(&top);
if (isalpha(c)) {
c = fToUpper ? (char)toupper(c) : (char)tolower(c);
pchar(&top, c); /* Change current character. */
CHANGED;
}
}
*Curschar = startop;
updatescreen();
}
#define YBSLOP 2048 // yank buffer initial and incr size
char *YankBuffers[27];
int CurrentYBSize[27];
int ybtype[27];
void
inityank()
{
int i;
for(i=0; i<27; i++) {
ybtype[i] = MBAD;
if((YankBuffers[i] = malloc(CurrentYBSize[i] = YBSLOP)) == NULL) {
fprintf(stderr,"Cannot allocate initial yank buffers\n");
windexit(1);
}
YankBuffers[i][0] = '\0';
}
}
void GetBufferIndex(int *index,bool_t *append)
{
int i;
bool_t a = FALSE;
if(namedbuff == -1) {
i = 26;
} else if(islower(namedbuff)) {
i = namedbuff - (int)'a';
} else {
i = namedbuff - (int)'A';
a = TRUE;
}
*index = i;
*append = a;
return;
}
bool_t
doyank()
{
LNPTR top, bot;
char *ybuf;
char *ybstart;
char *ybend;
char *yptr;
int nlines;
int buffindex;
bool_t buffappend;
GetBufferIndex(&buffindex,&buffappend);
namedbuff = -1;
if(!buffappend) {
// the given buffer may have grown huge. Shrink it here. The
// realloc should never fail because the buffer is either being
// shrunk or is staying the same size.
YankBuffers[buffindex] = ralloc(YankBuffers[buffindex],YBSLOP);
CurrentYBSize[buffindex] = YBSLOP;
}
ybuf = YankBuffers[buffindex];
ybstart = ybuf;
yptr = ybstart;
if(buffappend) {
yptr += strlen(ybstart);
}
ybend = &ybuf[CurrentYBSize[buffindex]-1];
top = startop;
bot = *Curschar;
if (lt(&bot, &top))
pswap(&top, &bot);
nlines = cntllines(&top, &bot);
ybtype[buffindex] = mtype; /* set the yank buffer type */
if (mtype == MLINE) {
top.index = 0;
bot.index = strlen(bot.linep->s);
/*
* The following statement checks for the special case of
* yanking a blank line at the beginning of the file. If
* not handled right, we yank an extra char (a newline).
*/
if (dec(&bot) == -1) {
*yptr = NUL;
if (operator == YANK)
*Curschar = startop;
return TRUE;
}
} else {
if (!mincl) {
if (bot.index)
bot.index--;
}
}
for (; ltoreq(&top, &bot) ;inc(&top)) {
// See if we've filled the buffer as currently
// allocated. If so, reallocate the buffer and
// update pointers accordingly before we store the
// current character. This is necessary because we will
// always be storing at least one more char (the NUL)
// and probably more.
if(yptr == ybend) {
ybstart = ralloc(ybuf,CurrentYBSize[buffindex] + YBSLOP);
if(ybstart == NULL) {
ybtype[buffindex] = MBAD;
return(FALSE);
}
CurrentYBSize[buffindex] += YBSLOP;
yptr += ybstart - ybuf;
ybend = &ybstart[CurrentYBSize[buffindex] - 1];
ybuf = ybstart;
YankBuffers[buffindex] = ybuf;
}
*yptr++ = (char)((gchar(&top) != NUL) ? gchar(&top) : NL);
}
*yptr = NUL;
if (operator == YANK) { /* restore Curschar if really doing yank */
*Curschar = startop;
if (nlines > P(P_RP))
smsg("%d lines yanked", nlines);
}
return TRUE;
}
/*
* doput(dir)
*
* Put the yank buffer at the current location, using the direction given
* by 'dir'.
*/
void
doput(dir)
int dir;
{
int buffindex;
bool_t buffappend;
char *ybuf;
int nb = namedbuff;
GetBufferIndex(&buffindex,&buffappend);
namedbuff = -1;
ybuf = YankBuffers[buffindex];
if (ybtype[buffindex] == MBAD) {
char msgbuff[30];
sprintf(msgbuff,"Nothing in register %c",nb);
emsg(msgbuff);
return;
}
u_saveline();
if (ybtype[buffindex] == MLINE)
inslines(Curschar->linep, dir, ybuf);
else {
/*
* If we did a character-oriented yank, and the buffer
* contains multiple lines, the situation is more complex.
* For the moment, we punt, and pretend the user did a
* line-oriented yank. This doesn't actually happen that
* often.
*/
if (strchr(ybuf, NL) != NULL)
inslines(Curschar->linep, dir, ybuf);
else {
char *s;
int len;
len = strlen(Curschar->linep->s) + strlen(ybuf) + 1;
s = alloc((unsigned) len);
strcpy(s, Curschar->linep->s);
if (dir == FORWARD)
Curschar->index++;
strcpy(s + Curschar->index, ybuf);
strcat(s, &Curschar->linep->s[Curschar->index]);
free(Curschar->linep->s);
Curschar->linep->s = s;
Curschar->linep->size = len;
updateline();
}
}
CHANGED;
}
bool_t
dojoin(join_cmd)
bool_t join_cmd; /* handling a real "join" command? */
{
int scol; /* save cursor column */
int size; /* size of the joined line */
if (nextline(Curschar) == NULL) /* on last line */
return FALSE;
if (!canincrease(size = strlen(Curschar->linep->next->s)))
return FALSE;
while (oneright()) /* to end of line */
;
strcat(Curschar->linep->s, Curschar->linep->next->s);
/*
* Delete the following line. To do this we move the cursor
* there briefly, and then move it back. Don't back up if the
* delete made us the last line.
*/
Curschar->linep = Curschar->linep->next;
scol = Curschar->index;
if (nextline(Curschar) != NULL) {
delline(1, TRUE);
Curschar->linep = Curschar->linep->prev;
} else
delline(1, TRUE);
Curschar->index = scol;
if (join_cmd)
oneright(); /* go to first char. of joined line */
if (join_cmd && size != 0) {
/*
* Delete leading white space on the joined line
* and insert a single space.
*/
while (gchar(Curschar) == ' ' || gchar(Curschar) == TAB)
delchar(TRUE);
inschar(' ');
}
return TRUE;
}
void
startinsert(initstr, startln)
char *initstr;
int startln; /* if set, insert point really at start of line */
{
register char *p, c;
*Insstart = *Curschar;
if (startln)
Insstart->index = 0;
Ninsert = 0;
Insptr = Insbuff;
for (p=initstr; (c=(*p++))!='\0'; ) {
*Insptr++ = c;
Ninsert++;
}
if (*initstr == 'R')
State = REPLACE;
else
State = INSERT;
if (P(P_MO))
msg((State == INSERT) ? "Insert Mode" : "Replace Mode");
}
/*
* tabinout(inout,num)
*
* If inout==0, add a tab to the begining of the next num lines.
* If inout==1, delete a tab from the beginning of the next num lines.
*/
static void
tabinout(inout, num)
int inout;
int num;
{
int ntodo = num;
int c;
int col;
LNPTR *p;
while (ntodo-- > 0) {
beginline(FALSE);
/*
* eat leading space, calc the column of first non-white
*/
col = 0;
while ((c = gchar(Curschar)) == ' ' || c == TAB) {
if (c == ' ') {
++col;
} else {
col += P(P_TS);
col -= (col % P(P_TS));
}
delchar(TRUE);
}
/*
* add or subtract shiftwidth spaces
*/
if (inout == 0) {
col += P(P_SW);
} else {
col -= P(P_SW);
}
if (col < 0) {
col = 0;
}
/*
* insert space, using TABS if hardtabs is set
*/
while (col % P(P_TS)) {
inschar(' ');
col--;
}
if (P(P_HT)) {
while (col) {
inschar(TAB);
col -= P(P_TS);
}
} else {
while (col--) {
inschar(' ');
}
}
/*
* next line
*/
if ( ntodo > 0 ) {
if ((p = nextline(Curschar)) != NULL) {
*Curschar = *p;
}
}
}
}
/*
* inslines(lp, dir, buf)
*
* Inserts lines in the file from the given buffer. Lines are inserted
* before or after "lp" according to the given direction flag. Newlines
* in the buffer result in multiple lines being inserted. The cursor
* is left on the first of the inserted lines.
*/
static void
inslines(lp, dir, buf)
LINE *lp;
int dir;
char *buf;
{
register char *cp = buf;
register size_t len;
char *ep;
LINE *l, *nc = NULL;
if (dir == BACKWARD)
lp = lp->prev;
do {
if ((ep = strchr(cp, NL)) == NULL)
len = strlen(cp);
else
len = (size_t)(ep - cp);
l = newline(len);
if (len != 0)
strncpy(l->s, cp, len);
l->s[len] = NUL;
l->next = lp->next;
l->prev = lp;
lp->next->prev = l;
lp->next = l;
if (nc == NULL)
nc = l;
lp = lp->next;
cp = ep + 1;
} while (ep != NULL);
if (dir == BACKWARD) /* fix the top line in case we were there */
Filemem->linep = Filetop->linep->next;
renum();
updatescreen();
Curschar->linep = nc;
Curschar->index = 0;
}