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|
#if !defined(lint) && !defined(DOS)
static char rcsid[] = "$Id: line.c 769 2007-10-24 00:15:40Z hubert@u.washington.edu $";
#endif
/*
* ========================================================================
* Copyright 2006-2007 University of Washington
* Copyright 2013-2016 Eduardo Chappa
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* ========================================================================
*
* Program: Line management routines
*/
/*
* The functions in this file are a general set of line management utilities.
* They are the only routines that touch the text. They also touch the buffer
* and window structures, to make sure that the necessary updating gets done.
* There are routines in this file that handle the kill buffer too. It isn't
* here for any good reason.
*
* Note that this code only updates the dot and mark values in the window list.
* Since all the code acts on the current window, the buffer that we are
* editing must be being displayed, which means that "b_nwnd" is non zero,
* which means that the dot and mark values in the buffer headers are nonsense.
*/
#include "headers.h"
#define NBLOCK 16 /* Line block chunk size */
#define KBLOCK 1024 /* Kill buffer block size */
/*
* Struct to manage the kill and justify buffers
*/
struct pkchunk {
short used; /* # of characters used in this buffer */
UCS bufp[KBLOCK]; /* buffer containing text */
struct pkchunk *next; /* pointer to next chunk */
};
static struct pkbuf {
long total; /* # of UCS characters used in buffer */
struct pkchunk *first; /* first one of these in the chain */
struct pkchunk *last; /* last one of these in the chain */
} *kbufp, *fbufp;
void insspace(int, int);
int ldelnewline(void);
void pkbufdel(struct pkbuf **);
void pkchunkdel(struct pkchunk **);
int pkbufinsert(UCS, struct pkbuf **);
long pkbufremove(int, struct pkbuf *);
/*
* This routine allocates a block of memory large enough to hold a LINE
* containing "used" characters. The block is always rounded up a bit. Return
* a pointer to the new block, or NULL if there isn't any memory left. Print a
* message in the message line if no space.
*/
LINE *
lalloc(int used)
{
register LINE *lp;
register int size;
EML eml;
static int displayed = 0;
if((size = (used+NBLOCK-1) & ~(NBLOCK-1)) > NLINE)
size *= 2;
if (size == 0) /* Assume that an empty */
size = NBLOCK; /* line is for type-in. */
if (displayed == 0 && (lp = (LINE *) malloc(sizeof(LINE)+(size*sizeof(CELL)))) == NULL){
eml.s = comatose(size);
emlwrite("Cannot allocate %s bytes (read file incomplete)", &eml);
displayed++;
return (NULL);
}
lp->l_size = size;
lp->l_used = used;
lp->l_sig = 0; /* assume it is not a signature line */
return (lp);
}
/*
* Delete line "lp". Fix all of the links that might point at it (they are
* moved to offset 0 of the next line. Unlink the line from whatever buffer it
* might be in. Release the memory. The buffers are updated too; the magic
* conditions described in the above comments don't hold here.
*/
void
lfree(LINE *lp)
{
register BUFFER *bp;
register WINDOW *wp;
wp = wheadp;
while (wp != NULL) {
if (wp->w_linep == lp)
wp->w_linep = lp->l_fp;
if (wp->w_dotp == lp) {
wp->w_dotp = lp->l_fp;
wp->w_doto = 0;
}
if (wp->w_markp == lp) {
wp->w_markp = lp->l_fp;
wp->w_marko = 0;
}
if (wp->w_imarkp == lp) {
wp->w_imarkp = lp->l_fp;
wp->w_imarko = 0;
}
wp = wp->w_wndp;
}
bp = bheadp;
while (bp != NULL) {
if (bp->b_nwnd == 0) {
if (bp->b_dotp == lp) {
bp->b_dotp = lp->l_fp;
bp->b_doto = 0;
}
if (bp->b_markp == lp) {
bp->b_markp = lp->l_fp;
bp->b_marko = 0;
}
}
bp = bp->b_bufp;
}
lp->l_bp->l_fp = lp->l_fp;
lp->l_fp->l_bp = lp->l_bp;
free((char *) lp);
}
/*
* This routine gets called when a character is changed in place in the current
* buffer. It updates all of the required flags in the buffer and window
* system. The flag used is passed as an argument; if the buffer is being
* displayed in more than 1 window we change EDIT to HARD. Set MODE if the
* mode line needs to be updated (the "*" has to be set).
*/
void
lchange(int flag)
{
register WINDOW *wp;
if (curbp->b_nwnd != 1) /* Ensure hard. */
flag = WFHARD;
if ((curbp->b_flag&BFCHG) == 0) { /* First change, so */
if(Pmaster == NULL)
flag |= WFMODE; /* update mode lines. */
curbp->b_flag |= BFCHG;
}
wp = wheadp;
while (wp != NULL) {
if (wp->w_bufp == curbp)
wp->w_flag |= flag;
wp = wp->w_wndp;
}
}
/*
* insert spaces forward into text
* default flag and numeric argument
*/
void
insspace(int f, int n)
{
linsert(n, ' ');
backchar(f, n);
}
/*
* Insert "n" copies of the character "c" at the current location of dot. In
* the easy case all that happens is the text is stored in the line. In the
* hard case, the line has to be reallocated. When the window list is updated,
* take special care; I screwed it up once. You always update dot in the
* current window. You update mark, and a dot in another window, if it is
* greater than the place where you did the insert. Return TRUE if all is
* well, and FALSE on errors.
*/
int
linsert(int n, UCS c)
{
register LINE *dotp;
register int doto;
register WINDOW *wp;
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;
lchange(WFEDIT);
if(!geninsert(&(curwp->w_dotp), &(curwp->w_doto), curbp->b_linep,
c, (curwp->w_markp) ? 1 : 0, n, &curbp->b_linecnt))
return(FALSE);
wp = wheadp; /* Update windows */
while (wp != NULL) {
if (wp->w_linep == dotp)
wp->w_linep = wp->w_dotp;
if (wp->w_imarkp == dotp) { /* added for internal mark */
wp->w_imarkp = wp->w_dotp;
if (wp->w_imarko > doto)
wp->w_imarko += n;
}
if (wp->w_markp == dotp) {
wp->w_markp = dotp;
if (wp->w_marko > doto)
wp->w_marko += n;
}
wp = wp->w_wndp;
}
return (TRUE);
}
/*
* geninsert - do the actual work of inserting a character into
* the list of lines.
*/
int
geninsert(LINE **dotp, int *doto, LINE *linep, UCS c, int attb, int n, long *lines)
{
register LINE *lp1;
register LINE *lp2;
register CELL *cp1;
register CELL *cp2;
CELL ac;
ac.a = attb;
if (*dotp == linep) { /* At the end: special */
if (*doto != 0) {
emlwrite("Programmer botch: geninsert", NULL);
return (FALSE);
}
if ((lp1=lalloc(n)) == NULL) /* Allocate new line */
return (FALSE);
lp2 = (*dotp)->l_bp; /* Previous line */
lp2->l_fp = lp1; /* Link in */
lp1->l_fp = *dotp;
(*dotp)->l_bp = lp1;
lp1->l_bp = lp2;
*doto = n;
*dotp = lp1;
ac.c = (c & CELLMASK);
cp1 = &(*dotp)->l_text[0];
while(n--)
*cp1++ = ac;
if(lines)
(*lines)++;
return (TRUE);
}
if ((*dotp)->l_used+n > (*dotp)->l_size) { /* Hard: reallocate */
if ((lp1=lalloc((*dotp)->l_used+n)) == NULL)
return (FALSE);
cp1 = &(*dotp)->l_text[0];
cp2 = &lp1->l_text[0];
while (cp1 != &(*dotp)->l_text[*doto])
*cp2++ = *cp1++;
cp2 += n;
while (cp1 != &(*dotp)->l_text[(*dotp)->l_used])
*cp2++ = *cp1++;
(*dotp)->l_bp->l_fp = lp1;
lp1->l_fp = (*dotp)->l_fp;
(*dotp)->l_fp->l_bp = lp1;
lp1->l_bp = (*dotp)->l_bp;
/* global may be keeping track of mark/imark */
if(wheadp){
if (wheadp->w_imarkp == *dotp)
wheadp->w_imarkp = lp1;
if (wheadp->w_markp == *dotp)
wheadp->w_markp = lp1;
}
free((char *) (*dotp));
*dotp = lp1;
} else { /* Easy: in place */
(*dotp)->l_used += n;
cp2 = &(*dotp)->l_text[(*dotp)->l_used];
cp1 = cp2-n;
while (cp1 != &(*dotp)->l_text[*doto])
*--cp2 = *--cp1;
}
ac.c = (c & CELLMASK);
while(n--) /* add the chars */
(*dotp)->l_text[(*doto)++] = ac;
return(TRUE);
}
/*
* Insert a newline into the buffer at the current location of dot in the
* current window. The funny ass-backwards way it does things is not a botch;
* it just makes the last line in the file not a special case. Return TRUE if
* everything works out and FALSE on error (memory allocation failure). The
* update of dot and mark is a bit easier than in the above case, because the
* split forces more updating.
*/
int
lnewline(void)
{
register CELL *cp1;
register CELL *cp2;
register LINE *lp1;
register LINE *lp2;
register int doto;
register WINDOW *wp;
if (curbp->b_mode&MDVIEW) /* don't allow this command if */
return(rdonly()); /* we are in read only mode */
lchange(WFHARD);
lp1 = curwp->w_dotp; /* Get the address and */
doto = curwp->w_doto; /* offset of "." */
if ((lp2=lalloc(doto)) == NULL) /* New first half line */
return (FALSE);
cp1 = &lp1->l_text[0]; /* Shuffle text around */
cp2 = &lp2->l_text[0];
while (cp1 != &lp1->l_text[doto])
*cp2++ = *cp1++;
cp2 = &lp1->l_text[0];
while (cp1 != &lp1->l_text[lp1->l_used])
*cp2++ = *cp1++;
lp1->l_used -= doto;
lp2->l_bp = lp1->l_bp;
lp1->l_bp = lp2;
lp2->l_bp->l_fp = lp2;
lp2->l_fp = lp1;
wp = wheadp; /* Windows */
while (wp != NULL) {
if (wp->w_linep == lp1)
wp->w_linep = lp2;
if (wp->w_dotp == lp1) {
if (wp->w_doto < doto)
wp->w_dotp = lp2;
else
wp->w_doto -= doto;
}
if (wp->w_imarkp == lp1) { /* ADDED for internal mark */
if (wp->w_imarko < doto)
wp->w_imarkp = lp2;
else
wp->w_imarko -= doto;
}
if (wp->w_markp == lp1) {
if (wp->w_marko < doto)
wp->w_markp = lp2;
else
wp->w_marko -= doto;
}
wp = wp->w_wndp;
}
/*
* Keep track of the number of lines in the buffer.
*/
++curbp->b_linecnt;
return (TRUE);
}
/*
* This function deletes "n" characters, starting at dot. It understands how do deal
* with end of lines, etc. It returns TRUE if all of the characters were
* deleted, and FALSE if they were not (because dot ran into the end of the
* buffer. The "preserve" function is used to save what was deleted.
*/
int
ldelete(long n, int (*preserve)(UCS))
{
register CELL *cp1;
register CELL *cp2;
register LINE *dotp;
register int doto;
register int chunk;
register WINDOW *wp;
if (curbp->b_mode&MDVIEW) /* don't allow this command if */
return(rdonly()); /* we are in read only mode */
while (n != 0) {
dotp = curwp->w_dotp;
doto = curwp->w_doto;
if (dotp == curbp->b_linep) /* Hit end of buffer. */
return (FALSE);
chunk = dotp->l_used-doto; /* Size of chunk. */
if (chunk > n)
chunk = n;
if (chunk == 0) { /* End of line, merge. */
lchange(WFHARD);
if (ldelnewline() == FALSE
|| (preserve ? (*preserve)('\n') == FALSE : 0))
return (FALSE);
--n;
continue;
}
lchange(WFEDIT);
cp1 = &dotp->l_text[doto]; /* Scrunch text. */
cp2 = cp1 + chunk;
if (preserve) { /* Kill? */
while (cp1 != cp2) {
if ((*preserve)(cp1->c) == FALSE)
return (FALSE);
++cp1;
}
cp1 = &dotp->l_text[doto];
}
while (cp2 != &dotp->l_text[dotp->l_used])
*cp1++ = *cp2++;
dotp->l_used -= chunk;
wp = wheadp; /* Fix windows */
while (wp != NULL) {
if (wp->w_dotp==dotp && wp->w_doto>=doto) {
wp->w_doto -= chunk;
if (wp->w_doto < doto)
wp->w_doto = doto;
}
if (wp->w_markp==dotp && wp->w_marko>=doto) {
wp->w_marko -= chunk;
if (wp->w_marko < doto)
wp->w_marko = doto;
}
if (wp->w_imarkp==dotp && wp->w_imarko>=doto) {
wp->w_imarko -= chunk;
if (wp->w_imarko < doto)
wp->w_imarko = doto;
}
wp = wp->w_wndp;
}
n -= chunk;
}
#ifdef _WINDOWS
if (preserve == kinsert && ksize() > 0)
mswin_killbuftoclip (kremove);
#endif
return (TRUE);
}
/*
* Delete a newline. Join the current line with the next line. If the next line
* is the magic header line always return TRUE; merging the last line with the
* header line can be thought of as always being a successful operation, even
* if nothing is done, and this makes the kill buffer work "right". Easy cases
* can be done by shuffling data around. Hard cases require that lines be moved
* about in memory. Return FALSE on error and TRUE if all looks ok. Called by
* "ldelete" only.
*/
int
ldelnewline(void)
{
register CELL *cp1;
register CELL *cp2;
register LINE *lp1;
register LINE *lp2;
register LINE *lp3;
register WINDOW *wp;
if (curbp->b_mode&MDVIEW) /* don't allow this command if */
return(rdonly()); /* we are in read only mode */
lp1 = curwp->w_dotp;
lp2 = lp1->l_fp;
if (lp2 == curbp->b_linep) { /* At the buffer end. */
if (lp1->l_used == 0) { /* Blank line. */
lfree(lp1);
--curbp->b_linecnt;
}
return (TRUE);
}
if (lp2->l_used <= lp1->l_size-lp1->l_used) {
cp1 = &lp1->l_text[lp1->l_used];
cp2 = &lp2->l_text[0];
while (cp2 != &lp2->l_text[lp2->l_used])
*cp1++ = *cp2++;
wp = wheadp;
while (wp != NULL) {
if (wp->w_linep == lp2)
wp->w_linep = lp1;
if (wp->w_dotp == lp2) {
wp->w_dotp = lp1;
wp->w_doto += lp1->l_used;
}
if (wp->w_markp == lp2) {
wp->w_markp = lp1;
wp->w_marko += lp1->l_used;
}
if (wp->w_imarkp == lp2) {
wp->w_imarkp = lp1;
wp->w_imarko += lp1->l_used;
}
wp = wp->w_wndp;
}
lp1->l_used += lp2->l_used;
lp1->l_fp = lp2->l_fp;
lp2->l_fp->l_bp = lp1;
free((char *) lp2);
--curbp->b_linecnt;
return (TRUE);
}
if ((lp3=lalloc(lp1->l_used+lp2->l_used)) == NULL)
return (FALSE);
cp1 = &lp1->l_text[0];
cp2 = &lp3->l_text[0];
while (cp1 != &lp1->l_text[lp1->l_used])
*cp2++ = *cp1++;
cp1 = &lp2->l_text[0];
while (cp1 != &lp2->l_text[lp2->l_used])
*cp2++ = *cp1++;
lp1->l_bp->l_fp = lp3;
lp3->l_fp = lp2->l_fp;
lp2->l_fp->l_bp = lp3;
lp3->l_bp = lp1->l_bp;
wp = wheadp;
while (wp != NULL) {
if (wp->w_linep==lp1 || wp->w_linep==lp2)
wp->w_linep = lp3;
if (wp->w_dotp == lp1)
wp->w_dotp = lp3;
else if (wp->w_dotp == lp2) {
wp->w_dotp = lp3;
wp->w_doto += lp1->l_used;
}
if (wp->w_markp == lp1)
wp->w_markp = lp3;
else if (wp->w_markp == lp2) {
wp->w_markp = lp3;
wp->w_marko += lp1->l_used;
}
if (wp->w_imarkp == lp1)
wp->w_imarkp = lp3;
else if (wp->w_imarkp == lp2) {
wp->w_imarkp = lp3;
wp->w_imarko += lp1->l_used;
}
wp = wp->w_wndp;
}
free((char *) lp1);
free((char *) lp2);
--curbp->b_linecnt;
return (TRUE);
}
/*
* Tell the caller if the given line is blank or not.
*/
int
lisblank(LINE *line)
{
int n = 0;
UCS qstr[NLINE];
n = (glo_quote_str
&& quote_match(glo_quote_str, line, qstr, NLINE))
? ucs4_strlen(qstr) : 0;
for(; n < llength(line); n++)
if(!ucs4_isspace(lgetc(line, n).c)
|| lgetc(line, n).c >= 0xff
|| (unsigned char) lgetc(line,n).c != NBSPC)
return(FALSE);
return(TRUE);
}
/*
* Delete all of the text saved in the kill buffer. Called by commands when a
* new kill context is being created. The kill buffer array is released, just
* in case the buffer has grown to immense size. No errors.
*/
void
kdelete(void)
{
pkbufdel(&kbufp);
}
void
fdelete(void)
{
pkbufdel(&fbufp);
}
void
pkbufdel(struct pkbuf **buf)
{
if (*buf) {
pkchunkdel(&(*buf)->first);
free((char *) *buf);
*buf = NULL;
}
}
void
pkchunkdel(struct pkchunk **chunk)
{
if(chunk){
if((*chunk)->next)
pkchunkdel(&(*chunk)->next);
free((char *) *chunk);
*chunk = NULL;
}
}
/*
* Insert a character to the kill buffer, enlarging the buffer if there isn't
* any room. Always grow the buffer in chunks, on the assumption that if you
* put something in the kill buffer you are going to put more stuff there too
* later. Return TRUE if all is well, and FALSE on errors.
*/
int
kinsert(UCS c)
{
return(pkbufinsert(c, &kbufp));
}
int
finsert(UCS c)
{
return(pkbufinsert(c, &fbufp));
}
int
pkbufinsert(UCS c, struct pkbuf **buf)
{
if(!*buf){
if((*buf = (struct pkbuf *) malloc(sizeof(struct pkbuf))) != NULL)
memset(*buf, 0, sizeof(struct pkbuf));
else
return(FALSE);
}
if((*buf)->total % KBLOCK == 0){
struct pkchunk *p = (*buf)->last;
if(((*buf)->last = (struct pkchunk *) malloc(sizeof(struct pkchunk))) != NULL){
memset((*buf)->last, 0, sizeof(struct pkchunk));
if(p)
p->next = (*buf)->last;
else
(*buf)->first = (*buf)->last;
}
else
return(FALSE);
}
(*buf)->last->bufp[(*buf)->last->used++] = c;
(*buf)->total++;
return (TRUE);
}
/*
* These functions get characters from the requested buffer. If the
* character index "n" is off the end, it returns "-1". This lets the
* caller just scan along until it gets a "-1" back.
*/
long
kremove(int n)
{
return(pkbufremove(n, kbufp));
}
long
fremove(int n)
{
return(pkbufremove(n, fbufp));
}
/*
* This would be type UCS except that it needs to return -1.
*/
long
pkbufremove(int n, struct pkbuf *buf)
{
if(n >= 0 && buf && n < buf->total){
register struct pkchunk *p = buf->first;
int block = n / KBLOCK;
while(block--)
if(!(p = p->next))
return(-1);
return(p->bufp[n % KBLOCK]);
}
else
return(-1);
}
/*
* This function just returns the current size of the kill buffer
*/
int
ksize(void)
{
return(kbufp ? (int) kbufp->total : 0);
}
static REGION last_region_added;
void
set_last_region_added(REGION *region)
{
if(region)
last_region_added = (*region);
else
memset(&last_region_added, 0, sizeof(last_region_added));
}
REGION *
get_last_region_added(void)
{
return(&last_region_added);
}
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