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uemacs/search.c

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/* search.c -- implements search.h */
#include "search.h"
/* search.c
*
* The functions in this file implement commands that search in the forward
* and backward directions. There are no special characters in the search
* strings. Probably should have a regular expression search, or something
* like that.
*
* Aug. 1986 John M. Gamble:
* Made forward and reverse search use the same scan routine.
*
* Added a limited number of regular expressions - 'any',
* 'character class', 'closure', 'beginning of line', and
* 'end of line'.
*
* Replacement metacharacters will have to wait for a re-write of
* the replaces function, and a new variation of ldelete().
*
* For those curious as to my references, i made use of
* Kernighan & Plauger's "Software Tools."
* I deliberately did not look at any published grep or editor
* source (aside from this one) for inspiration. I did make use of
* Allen Hollub's bitmap routines as published in Doctor Dobb's Journal,
* June, 1985 and modified them for the limited needs of character class
* matching. Any inefficiences, bugs, stupid coding examples, etc.,
* are therefore my own responsibility.
*
* April 1987: John M. Gamble
* Deleted the "if (n == 0) n = 1;" statements in front of the
* search/hunt routines. Since we now use a do loop, these
* checks are unnecessary. Consolidated common code into the
* function delins(). Renamed global mclen matchlen,
* and added the globals matchline, matchoff, patmatch, and
* mlenold.
* This gave us the ability to unreplace regular expression searches,
* and to put the matched string into an evironment variable.
* SOON TO COME: Meta-replacement characters!
*
* 25-apr-87 DML
* - cleaned up an unneccessary if/else in forwsearch() and
* backsearch()
* - savematch() failed to malloc room for the terminating byte
* of the match string (stomp...stomp...). It does now. Also
* it now returns gracefully if malloc fails
*
* July 1987: John M. Gamble
* Set the variables matchlen and matchoff in the 'unreplace'
* section of replaces(). The function savematch() would
* get confused if you replaced, unreplaced, then replaced
* again (serves you right for being so wishy-washy...)
*
* August 1987: John M. Gamble
* Put in new function rmcstr() to create the replacement
* meta-character array. Modified delins() so that it knows
* whether or not to make use of the array. And, put in the
* appropriate new structures and variables.
*
* Modified by Petri Kutvonen
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
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#include "basic.h"
#include "buffer.h"
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#include "display.h"
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#include "estruct.h"
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#include "input.h"
#include "line.h"
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#include "log.h"
#include "terminal.h"
#include "window.h"
/* The variable matchlen holds the length of the matched
* string - used by the replace functions.
* The variable patmatch holds the string that satisfies
* the search command.
* The variables matchline and matchoff hold the line and
* offset position of the *start* of match.
*/
unsigned int matchlen = 0 ;
static unsigned int mlenold = 0 ;
char *patmatch = NULL ;
static struct line *matchline = NULL;
static int matchoff = 0;
spat_t pat ; /* Search pattern */
spat_t tap ; /* Reversed pattern array. */
spat_t rpat ; /* replacement pattern */
#if defined(MAGIC)
/*
* Defines for the metacharacters in the regular expression
* search routines.
*/
#define MCNIL 0 /* Like the '\0' for strings. */
#define LITCHAR 1 /* Literal character, or string. */
#define ANY 2
#define CCL 3
#define NCCL 4
#define BOL 5
#define EOL 6
#define DITTO 7
#define CLOSURE 256 /* An or-able value. */
#define MASKCL (CLOSURE - 1)
#define MC_ANY '.' /* 'Any' character (except newline). */
#define MC_CCL '[' /* Character class. */
#define MC_NCCL '^' /* Negate character class. */
#define MC_RCCL '-' /* Range in character class. */
#define MC_ECCL ']' /* End of character class. */
#define MC_BOL '^' /* Beginning of line. */
#define MC_EOL '$' /* End of line. */
#define MC_CLOSURE '*' /* Closure - does not extend past newline. */
#define MC_DITTO '&' /* Use matched string in replacement. */
#define MC_ESC '\\' /* Escape - suppress meta-meaning. */
#define BIT(n) (1 << (n)) /* An integer with one bit set. */
#define CHCASE(c) ((c) ^ DIFCASE) /* Toggle the case of a letter. */
/* HICHAR - 1 is the largest character we will deal with.
* HIBYTE represents the number of bytes in the bitmap.
*/
#define HICHAR 256
#define HIBYTE HICHAR >> 3
/* Typedefs that define the meta-character structure for MAGIC mode searching
* (struct magic), and the meta-character structure for MAGIC mode replacement
* (struct magic_replacement).
*/
struct magic {
short int mc_type;
union {
int lchar;
char *cclmap;
} u;
};
struct magic_replacement {
short int mc_type;
char *rstr;
};
/*
* The variables magical and rmagical determine if there
* were actual metacharacters in the search and replace strings -
* if not, then we don't have to use the slower MAGIC mode
* search functions.
*/
static short int magical;
static short int rmagical;
static struct magic mcpat[NPAT]; /* The magic pattern. */
static struct magic tapcm[NPAT]; /* The reversed magic patterni. */
static struct magic_replacement rmcpat[NPAT]; /* The replacement magic array. */
static int mcscanner( struct magic *mcpatrn, int direct, int beg_or_end) ;
#endif
static int amatch(struct magic *mcptr, int direct, struct line **pcwline, int *pcwoff);
static int readpattern(char *prompt, char *apat, int srch);
static int replaces(int kind, int f, int n);
static int nextch(struct line **pcurline, int *pcuroff, int dir);
static int mcstr(void);
static int rmcstr(void);
static int mceq(int bc, struct magic *mt);
static int cclmake(char **ppatptr, struct magic *mcptr);
static int biteq(int bc, char *cclmap);
static char *clearbits(void);
static void setbit(int bc, char *cclmap);
/*
* forwsearch -- Search forward. Get a search string from the user, and
* search for the string. If found, reset the "." to be just after
* the match string, and (perhaps) repaint the display.
*
* int f, n; default flag / numeric argument
*/
int forwsearch(int f, int n)
{
int status = TRUE;
/* If n is negative, search backwards.
* Otherwise proceed by asking for the search string.
*/
if (n < 0)
return backsearch(f, -n);
/* Ask the user for the text of a pattern. If the
* response is TRUE (responses other than FALSE are
* possible), search for the pattern for as long as
* n is positive (n == 0 will go through once, which
* is just fine).
*/
if ((status = readpattern("Search", &pat[0], TRUE)) == TRUE) {
do {
#if MAGIC
if ((magical
&& curwp->w_bufp->b_mode & MDMAGIC) != 0)
status =
mcscanner(&mcpat[0], FORWARD, PTEND);
else
#endif
status = scanner(&pat[0], FORWARD, PTEND);
} while ((--n > 0) && status);
/* Save away the match, or complain
* if not there.
*/
if (status == TRUE)
savematch();
else
mlwrite("Not found");
}
return status;
}
/*
* forwhunt -- Search forward for a previously acquired search string.
* If found, reset the "." to be just after the match string,
* and (perhaps) repaint the display.
*
* int f, n; default flag / numeric argument
*/
int forwhunt(int f, int n)
{
int status = TRUE;
if (n < 0) /* search backwards */
return backhunt(f, -n);
/* Make sure a pattern exists, or that we didn't switch
* into MAGIC mode until after we entered the pattern.
*/
if (pat[0] == '\0') {
mlwrite("No pattern set");
return FALSE;
}
#if MAGIC
if ((curwp->w_bufp->b_mode & MDMAGIC) != 0 &&
mcpat[0].mc_type == MCNIL) {
if (!mcstr())
return FALSE;
}
#endif
/* Search for the pattern for as long as
* n is positive (n == 0 will go through once, which
* is just fine).
*/
do {
#if MAGIC
if ((magical && curwp->w_bufp->b_mode & MDMAGIC) != 0)
status = mcscanner(&mcpat[0], FORWARD, PTEND);
else
#endif
status = scanner(&pat[0], FORWARD, PTEND);
} while ((--n > 0) && status);
/* Save away the match, or complain
* if not there.
*/
if (status == TRUE)
savematch();
else
mlwrite("Not found");
return status;
}
/*
* backsearch -- Reverse search. Get a search string from the user, and
* search, starting at "." and proceeding toward the front of the buffer.
* If found "." is left pointing at the first character of the pattern
* (the last character that was matched).
*
* int f, n; default flag / numeric argument
*/
int backsearch(int f, int n)
{
int status = TRUE;
/* If n is negative, search forwards.
* Otherwise proceed by asking for the search string.
*/
if (n < 0)
return forwsearch(f, -n);
/* Ask the user for the text of a pattern. If the
* response is TRUE (responses other than FALSE are
* possible), search for the pattern for as long as
* n is positive (n == 0 will go through once, which
* is just fine).
*/
if ((status =
readpattern("Reverse search", &pat[0], TRUE)) == TRUE) {
do {
#if MAGIC
if ((magical
&& curwp->w_bufp->b_mode & MDMAGIC) != 0)
status =
mcscanner(&tapcm[0], REVERSE, PTBEG);
else
#endif
status = scanner(&tap[0], REVERSE, PTBEG);
} while ((--n > 0) && status);
/* Save away the match, or complain
* if not there.
*/
if (status == TRUE)
savematch();
else
mlwrite("Not found");
}
return status;
}
/*
* backhunt -- Reverse search for a previously acquired search string,
* starting at "." and proceeding toward the front of the buffer.
* If found "." is left pointing at the first character of the pattern
* (the last character that was matched).
*
* int f, n; default flag / numeric argument
*/
int backhunt(int f, int n)
{
int status = TRUE;
if (n < 0)
return forwhunt(f, -n);
/* Make sure a pattern exists, or that we didn't switch
* into MAGIC mode until after we entered the pattern.
*/
if (tap[0] == '\0') {
mlwrite("No pattern set");
return FALSE;
}
#if MAGIC
if ((curwp->w_bufp->b_mode & MDMAGIC) != 0 &&
tapcm[0].mc_type == MCNIL) {
if (!mcstr())
return FALSE;
}
#endif
/* Go search for it for as long as
* n is positive (n == 0 will go through once, which
* is just fine).
*/
do {
#if MAGIC
if ((magical && curwp->w_bufp->b_mode & MDMAGIC) != 0)
status = mcscanner(&tapcm[0], REVERSE, PTBEG);
else
#endif
status = scanner(&tap[0], REVERSE, PTBEG);
} while ((--n > 0) && status);
/* Save away the match, or complain
* if not there.
*/
if (status == TRUE)
savematch();
else
mlwrite("Not found");
return status;
}
#if MAGIC
/*
* mcscanner -- Search for a meta-pattern in either direction. If found,
* reset the "." to be at the start or just after the match string,
* and (perhaps) repaint the display.
*
* struct magic *mcpatrn; pointer into pattern
* int direct; which way to go.
* int beg_or_end; put point at beginning or end of pattern.
*/
static int mcscanner(struct magic *mcpatrn, int direct, int beg_or_end)
{
struct line *curline; /* current line during scan */
int curoff; /* position within current line */
/* If we are going in reverse, then the 'end' is actually
* the beginning of the pattern. Toggle it.
*/
beg_or_end ^= direct;
/*
* Save the old matchlen length, in case it is
* very different (closure) from the old length.
* This is important for query-replace undo
* command.
*/
mlenold = matchlen;
/* Setup local scan pointers to global ".".
*/
curline = curwp->w_dotp;
curoff = curwp->w_doto;
/* Scan each character until we hit the head link record.
*/
while (!boundry(curline, curoff, direct)) {
/* Save the current position in case we need to
* restore it on a match, and initialize matchlen to
* zero in case we are doing a search for replacement.
*/
matchline = curline;
matchoff = curoff;
matchlen = 0;
if (amatch(mcpatrn, direct, &curline, &curoff)) {
/* A SUCCESSFULL MATCH!!!
* reset the global "." pointers.
*/
if (beg_or_end == PTEND) { /* at end of string */
curwp->w_dotp = curline;
curwp->w_doto = curoff;
} else { /* at beginning of string */
curwp->w_dotp = matchline;
curwp->w_doto = matchoff;
}
curwp->w_flag |= WFMOVE; /* flag that we have moved */
return TRUE;
}
/* Advance the cursor.
*/
nextch(&curline, &curoff, direct);
}
return FALSE; /* We could not find a match. */
}
/*
* amatch -- Search for a meta-pattern in either direction. Based on the
* recursive routine amatch() (for "anchored match") in
* Kernighan & Plauger's "Software Tools".
*
* struct magic *mcptr; string to scan for
* int direct; which way to go.
* struct line **pcwline; current line during scan
* int *pcwoff; position within current line
*/
static int amatch(struct magic *mcptr, int direct, struct line **pcwline, int *pcwoff)
{
int c; /* character at current position */
struct line *curline; /* current line during scan */
int curoff; /* position within current line */
int nchars;
/* Set up local scan pointers to ".", and get
* the current character. Then loop around
* the pattern pointer until success or failure.
*/
curline = *pcwline;
curoff = *pcwoff;
/* The beginning-of-line and end-of-line metacharacters
* do not compare against characters, they compare
* against positions.
* BOL is guaranteed to be at the start of the pattern
* for forward searches, and at the end of the pattern
* for reverse searches. The reverse is true for EOL.
* So, for a start, we check for them on entry.
*/
if (mcptr->mc_type == BOL) {
if (curoff != 0)
return FALSE;
mcptr++;
}
if (mcptr->mc_type == EOL) {
if (curoff != llength(curline))
return FALSE;
mcptr++;
}
while (mcptr->mc_type != MCNIL) {
c = nextch(&curline, &curoff, direct);
if (mcptr->mc_type & CLOSURE) {
/* Try to match as many characters as possible
* against the current meta-character. A
* newline never matches a closure.
*/
nchars = 0;
while (c != '\n' && mceq(c, mcptr)) {
c = nextch(&curline, &curoff, direct);
nchars++;
}
/* We are now at the character that made us
* fail. Try to match the rest of the pattern.
* Shrink the closure by one for each failure.
* Since closure matches *zero* or more occurences
* of a pattern, a match may start even if the
* previous loop matched no characters.
*/
mcptr++;
for (;;) {
c = nextch(&curline, &curoff,
direct ^ REVERSE);
if (amatch
(mcptr, direct, &curline, &curoff)) {
matchlen += nchars;
goto success;
}
if (nchars-- == 0)
return FALSE;
}
} else { /* Not closure. */
/* The only way we'd get a BOL metacharacter
* at this point is at the end of the reversed pattern.
* The only way we'd get an EOL metacharacter
* here is at the end of a regular pattern.
* So if we match one or the other, and are at
* the appropriate position, we are guaranteed success
* (since the next pattern character has to be MCNIL).
* Before we report success, however, we back up by
* one character, so as to leave the cursor in the
* correct position. For example, a search for ")$"
* will leave the cursor at the end of the line, while
* a search for ")<NL>" will leave the cursor at the
* beginning of the next line. This follows the
* notion that the meta-character '$' (and likewise
* '^') match positions, not characters.
*/
if (mcptr->mc_type == BOL) {
if (curoff == llength(curline)) {
c = nextch(&curline, &curoff,
direct ^ REVERSE);
goto success;
} else
return FALSE;
}
if (mcptr->mc_type == EOL) {
if (curoff == 0) {
c = nextch(&curline, &curoff,
direct ^ REVERSE);
goto success;
} else
return FALSE;
}
/* Neither BOL nor EOL, so go through
* the meta-character equal function.
*/
if (!mceq(c, mcptr))
return FALSE;
}
/* Increment the length counter and
* advance the pattern pointer.
*/
matchlen++;
mcptr++;
} /* End of mcptr loop. */
/* A SUCCESSFULL MATCH!!!
* Reset the "." pointers.
*/
success:
*pcwline = curline;
*pcwoff = curoff;
return TRUE;
}
#endif
/*
* scanner -- Search for a pattern in either direction. If found,
* reset the "." to be at the start or just after the match string,
* and (perhaps) repaint the display.
*
* unsigned char *patrn; string to scan for
* int direct; which way to go.
* int beg_or_end; put point at beginning or end of pattern.
*/
int scanner(const char *patrn, int direct, int beg_or_end)
{
int c; /* character at current position */
const char *patptr; /* pointer into pattern */
struct line *curline; /* current line during scan */
int curoff; /* position within current line */
struct line *scanline; /* current line during scanning */
int scanoff; /* position in scanned line */
/* If we are going in reverse, then the 'end' is actually
* the beginning of the pattern. Toggle it.
*/
beg_or_end ^= direct;
/* Set up local pointers to global ".".
*/
curline = curwp->w_dotp;
curoff = curwp->w_doto;
/* Scan each character until we hit the head link record.
*/
while (!boundry(curline, curoff, direct)) {
/* Save the current position in case we match
* the search string at this point.
*/
matchline = curline;
matchoff = curoff;
/* Get the character resolving newlines, and
* test it against first char in pattern.
*/
c = nextch(&curline, &curoff, direct);
if (eq(c, patrn[0])) { /* if we find it.. */
/* Setup scanning pointers.
*/
scanline = curline;
scanoff = curoff;
patptr = &patrn[0];
/* Scan through the pattern for a match.
*/
while (*++patptr != '\0') {
c = nextch(&scanline, &scanoff, direct);
if (!eq(c, *patptr))
goto fail;
}
/* A SUCCESSFULL MATCH!!!
* reset the global "." pointers
*/
if (beg_or_end == PTEND) { /* at end of string */
curwp->w_dotp = scanline;
curwp->w_doto = scanoff;
} else { /* at beginning of string */
curwp->w_dotp = matchline;
curwp->w_doto = matchoff;
}
curwp->w_flag |= WFMOVE; /* Flag that we have moved. */
return TRUE;
}
fail:; /* continue to search */
}
return FALSE; /* We could not find a match */
}
/*
* eq -- Compare two characters. The "bc" comes from the buffer, "pc"
* from the pattern. If we are not in EXACT mode, fold out the case.
*/
int eq(unsigned char bc, unsigned char pc)
{
if ((curwp->w_bufp->b_mode & MDEXACT) == 0) {
if (islower(bc))
bc ^= DIFCASE;
if (islower(pc))
pc ^= DIFCASE;
}
return bc == pc;
}
/*
* readpattern -- Read a pattern. Stash it in apat. If it is the
* search string, create the reverse pattern and the magic
* pattern, assuming we are in MAGIC mode (and defined that way).
* Apat is not updated if the user types in an empty line. If
* the user typed an empty line, and there is no old pattern, it is
* an error. Display the old pattern, in the style of Jeff Lomicka.
* There is some do-it-yourself control expansion. Change to using
* <META> to delimit the end-of-pattern to allow <NL>s in the search
* string.
*/
static int readpattern(char *prompt, char *apat, int srch)
{
int status;
char tpat[NPAT + 20];
strcpy(tpat, prompt); /* copy prompt to output string */
strcat(tpat, " ("); /* build new prompt string */
expandp(&apat[0], &tpat[strlen(tpat)], NPAT / 2); /* add old pattern */
strcat(tpat, ")<Meta>: ");
/* Read a pattern. Either we get one,
* or we just get the META charater, and use the previous pattern.
* Then, if it's the search string, make a reversed pattern.
* *Then*, make the meta-pattern, if we are defined that way.
*/
if ((status = mlreplyt(tpat, tpat, NPAT, metac)) == TRUE) {
strcpy(apat, tpat);
if (srch) { /* If we are doing the search string. */
/* Reverse string copy, and remember
* the length for substitution purposes.
*/
rvstrcpy(tap, apat);
mlenold = matchlen = strlen(apat);
}
#if MAGIC
/* Only make the meta-pattern if in magic mode,
* since the pattern in question might have an
* invalid meta combination.
*/
if ((curwp->w_bufp->b_mode & MDMAGIC) == 0) {
mcclear();
rmcclear();
} else
status = srch ? mcstr() : rmcstr();
#endif
} else if (status == FALSE && apat[0] != 0) /* Old one */
status = TRUE;
return status;
}
/*
* savematch -- We found the pattern? Let's save it away.
*/
void savematch(void)
{
char *ptr; /* pointer to last match string */
int j;
struct line *curline; /* line of last match */
int curoff; /* offset " " */
/* Free any existing match string, then
* attempt to allocate a new one.
*/
if (patmatch != NULL)
free(patmatch);
ptr = patmatch = malloc(matchlen + 1);
if (ptr != NULL) {
curoff = matchoff;
curline = matchline;
for (j = 0; j < matchlen; j++)
*ptr++ = nextch(&curline, &curoff, FORWARD);
*ptr = '\0';
}
}
/*
* rvstrcpy -- Reverse string copy.
*/
void rvstrcpy(char *rvstr, char *str)
{
int i;
str += (i = strlen(str));
while (i-- > 0)
*rvstr++ = *--str;
*rvstr = '\0';
}
/*
* sreplace -- Search and replace.
*
* int f; default flag
* int n; # of repetitions wanted
*/
int sreplace(int f, int n)
{
return replaces(FALSE, f, n);
}
/*
* qreplace -- search and replace with query.
*
* int f; default flag
* int n; # of repetitions wanted
*/
int qreplace(int f, int n)
{
return replaces(TRUE, f, n);
}
/*
* replaces -- Search for a string and replace it with another
* string. Query might be enabled (according to kind).
*
* int kind; Query enabled flag
* int f; default flag
* int n; # of repetitions wanted
*/
static int replaces(int kind, int f, int n)
{
int status; /* success flag on pattern inputs */
int rlength; /* length of replacement string */
int numsub; /* number of substitutions */
int nummatch; /* number of found matches */
int nlflag; /* last char of search string a <NL>? */
int nlrepl; /* was a replace done on the last line? */
char c; /* input char for query */
spat_t tpat ; /* temporary to hold search pattern */
struct line *origline; /* original "." position */
int origoff; /* and offset (for . query option) */
struct line *lastline; /* position of last replace and */
int lastoff; /* offset (for 'u' query option) */
2013-04-30 22:06:08 -04:00
/* rfi */
lastline = NULL ;
lastoff = 0 ;
if (curbp->b_mode & MDVIEW) /* don't allow this command if */
return rdonly(); /* we are in read only mode */
/* Check for negative repetitions.
*/
if (f && n < 0)
return FALSE;
/* Ask the user for the text of a pattern.
*/
if ((status = readpattern((kind ==
FALSE ? "Replace" : "Query replace"),
&pat[0], TRUE))
!= TRUE)
return status;
/* Ask for the replacement string.
*/
if ((status = readpattern("with", &rpat[0], FALSE)) == ABORT)
return status;
/* Find the length of the replacement string.
*/
rlength = strlen(&rpat[0]);
/* Set up flags so we can make sure not to do a recursive
* replace on the last line.
*/
nlflag = (pat[matchlen - 1] == '\n');
nlrepl = FALSE;
if (kind) {
/* Build query replace question string.
*/
strcpy(tpat, "Replace '");
expandp(&pat[0], &tpat[strlen(tpat)], NPAT / 3);
strcat(tpat, "' with '");
expandp(&rpat[0], &tpat[strlen(tpat)], NPAT / 3);
strcat(tpat, "'? ");
/* Initialize last replaced pointers.
*/
lastline = NULL;
lastoff = 0;
}
/* Save original . position, init the number of matches and
* substitutions, and scan through the file.
*/
origline = curwp->w_dotp;
origoff = curwp->w_doto;
numsub = 0;
nummatch = 0;
while ((f == FALSE || n > nummatch) &&
(nlflag == FALSE || nlrepl == FALSE)) {
/* Search for the pattern.
* If we search with a regular expression,
* matchlen is reset to the true length of
* the matched string.
*/
#if MAGIC
if ((magical && curwp->w_bufp->b_mode & MDMAGIC) != 0) {
if (!mcscanner(&mcpat[0], FORWARD, PTBEG))
break;
} else
#endif
if (!scanner(&pat[0], FORWARD, PTBEG))
break; /* all done */
++nummatch; /* Increment # of matches */
/* Check if we are on the last line.
*/
nlrepl = (lforw(curwp->w_dotp) == curwp->w_bufp->b_linep);
/* Check for query.
*/
if (kind) {
/* Get the query.
*/
pprompt:mlwrite(&tpat[0], &pat[0],
&rpat[0]);
qprompt:
update(TRUE); /* show the proposed place to change */
c = tgetc(); /* and input */
mlwrite(""); /* and clear it */
/* And respond appropriately.
*/
switch (c) {
#if PKCODE
case 'Y':
#endif
case 'y': /* yes, substitute */
case ' ':
savematch();
break;
#if PKCODE
case 'N':
#endif
case 'n': /* no, onword */
forwchar(FALSE, 1);
continue;
case '!': /* yes/stop asking */
kind = FALSE;
break;
#if PKCODE
case 'U':
#endif
case 'u': /* undo last and re-prompt */
/* Restore old position.
*/
if (lastline == NULL) {
/* There is nothing to undo.
*/
TTbeep();
goto pprompt;
}
curwp->w_dotp = lastline;
curwp->w_doto = lastoff;
lastline = NULL;
lastoff = 0;
/* Delete the new string.
*/
backchar(FALSE, rlength);
#if PKCODE
matchline = curwp->w_dotp;
matchoff = curwp->w_doto;
#endif
status = delins(rlength, patmatch, FALSE);
if (status != TRUE)
return status;
/* Record one less substitution,
* backup, save our place, and
* reprompt.
*/
--numsub;
backchar(FALSE, mlenold);
matchline = curwp->w_dotp;
matchoff = curwp->w_doto;
goto pprompt;
case '.': /* abort! and return */
/* restore old position */
curwp->w_dotp = origline;
curwp->w_doto = origoff;
curwp->w_flag |= WFMOVE;
case BELL: /* abort! and stay */
mlwrite("Aborted!");
return FALSE;
default: /* bitch and beep */
TTbeep();
case '?': /* help me */
mlwrite
("(Y)es, (N)o, (!)Do rest, (U)ndo last, (^G)Abort, (.)Abort back, (?)Help: ");
goto qprompt;
} /* end of switch */
}
/* end of "if kind" */
/*
* Delete the sucker, and insert its
* replacement.
*/
status = delins(matchlen, &rpat[0], TRUE);
if (status != TRUE)
return status;
/* Save our position, since we may
* undo this.
*/
if (kind) {
lastline = curwp->w_dotp;
lastoff = curwp->w_doto;
}
numsub++; /* increment # of substitutions */
}
/* And report the results.
*/
mlwrite("%d substitutions", numsub);
return TRUE;
}
/*
* delins -- Delete a specified length from the current point
* then either insert the string directly, or make use of
* replacement meta-array.
*/
int delins(int dlength, char *instr, int use_meta)
{
int status;
#if MAGIC
struct magic_replacement *rmcptr;
#endif
/* Zap what we gotta,
* and insert its replacement.
*/
if ((status = ldelete((long) dlength, FALSE)) != TRUE)
mlwrite("%%ERROR while deleting");
else
#if MAGIC
if ((rmagical && use_meta) &&
(curwp->w_bufp->b_mode & MDMAGIC) != 0) {
rmcptr = &rmcpat[0];
while (rmcptr->mc_type != MCNIL && status == TRUE) {
if (rmcptr->mc_type == LITCHAR)
status = linstr(rmcptr->rstr);
else
status = linstr(patmatch);
rmcptr++;
}
} else
#endif
status = linstr(instr);
return status;
}
/*
* expandp -- Expand control key sequences for output.
*
* char *srcstr; string to expand
* char *deststr; destination of expanded string
* int maxlength; maximum chars in destination
*/
int expandp(char *srcstr, char *deststr, int maxlength)
{
unsigned char c; /* current char to translate */
/* Scan through the string.
*/
while ((c = *srcstr++) != 0) {
if (c == '\n') { /* it's a newline */
*deststr++ = '<';
*deststr++ = 'N';
*deststr++ = 'L';
*deststr++ = '>';
maxlength -= 4;
}
#if PKCODE
else if ((c > 0 && c < 0x20) || c == 0x7f) /* control character */
#else
else if (c < 0x20 || c == 0x7f) /* control character */
#endif
{
*deststr++ = '^';
*deststr++ = c ^ 0x40;
maxlength -= 2;
} else if (c == '%') {
*deststr++ = '%';
*deststr++ = '%';
maxlength -= 2;
} else { /* any other character */
*deststr++ = c;
maxlength--;
}
/* check for maxlength */
if (maxlength < 4) {
*deststr++ = '$';
*deststr = '\0';
return FALSE;
}
}
*deststr = '\0';
return TRUE;
}
/*
* boundry -- Return information depending on whether we may search no
* further. Beginning of file and end of file are the obvious
* cases, but we may want to add further optional boundry restrictions
* in future, a' la VMS EDT. At the moment, just return TRUE or
* FALSE depending on if a boundry is hit (ouch).
*/
int boundry(struct line *curline, int curoff, int dir)
{
int border;
if (dir == FORWARD) {
border = (curoff == llength(curline)) &&
(lforw(curline) == curbp->b_linep);
} else {
border = (curoff == 0) &&
(lback(curline) == curbp->b_linep);
}
return border;
}
/*
* nextch -- retrieve the next/previous character in the buffer,
* and advance/retreat the point.
* The order in which this is done is significant, and depends
* upon the direction of the search. Forward searches look at
* the current character and move, reverse searches move and
* look at the character.
*/
static int nextch(struct line **pcurline, int *pcuroff, int dir)
{
struct line *curline;
int curoff;
int c;
curline = *pcurline;
curoff = *pcuroff;
if (dir == FORWARD) {
if (curoff == llength(curline)) { /* if at EOL */
curline = lforw(curline); /* skip to next line */
curoff = 0;
c = '\n'; /* and return a <NL> */
} else
c = lgetc(curline, curoff++); /* get the char */
} else { /* Reverse. */
if (curoff == 0) {
curline = lback(curline);
curoff = llength(curline);
c = '\n';
} else
c = lgetc(curline, --curoff);
}
*pcurline = curline;
*pcuroff = curoff;
return c;
}
#if MAGIC
/*
* mcstr -- Set up the 'magic' array. The closure symbol is taken as
* a literal character when (1) it is the first character in the
* pattern, and (2) when preceded by a symbol that does not allow
* closure, such as a newline, beginning of line symbol, or another
* closure symbol.
*
* Coding comment (jmg): yes, i know i have gotos that are, strictly
* speaking, unnecessary. But right now we are so cramped for
* code space that i will grab what i can in order to remain
* within the 64K limit. C compilers actually do very little
* in the way of optimizing - they expect you to do that.
*/
static int mcstr(void)
{
struct magic *mcptr, *rtpcm;
char *patptr;
int mj;
int pchr;
int status = TRUE;
int does_closure = FALSE;
/* If we had metacharacters in the struct magic array previously,
* free up any bitmaps that may have been allocated.
*/
if (magical)
mcclear();
magical = FALSE;
mj = 0;
mcptr = &mcpat[0];
patptr = &pat[0];
while ((pchr = *patptr) && status) {
switch (pchr) {
case MC_CCL:
status = cclmake(&patptr, mcptr);
magical = TRUE;
does_closure = TRUE;
break;
case MC_BOL:
if (mj != 0)
goto litcase;
mcptr->mc_type = BOL;
magical = TRUE;
does_closure = FALSE;
break;
case MC_EOL:
if (*(patptr + 1) != '\0')
goto litcase;
mcptr->mc_type = EOL;
magical = TRUE;
does_closure = FALSE;
break;
case MC_ANY:
mcptr->mc_type = ANY;
magical = TRUE;
does_closure = TRUE;
break;
case MC_CLOSURE:
/* Does the closure symbol mean closure here?
* If so, back up to the previous element
* and indicate it is enclosed.
*/
if (!does_closure)
goto litcase;
mj--;
mcptr--;
mcptr->mc_type |= CLOSURE;
magical = TRUE;
does_closure = FALSE;
break;
/* Note: no break between MC_ESC case and the default.
*/
case MC_ESC:
if (*(patptr + 1) != '\0') {
pchr = *++patptr;
magical = TRUE;
}
default:
litcase:mcptr->mc_type =
LITCHAR;
mcptr->u.lchar = pchr;
does_closure = (pchr != '\n');
break;
} /* End of switch. */
mcptr++;
patptr++;
mj++;
} /* End of while. */
/* Close off the meta-string.
*/
mcptr->mc_type = MCNIL;
/* Set up the reverse array, if the status is good. Please note the
* structure assignment - your compiler may not like that.
* If the status is not good, nil out the meta-pattern.
* The only way the status would be bad is from the cclmake()
* routine, and the bitmap for that member is guarenteed to be
* freed. So we stomp a MCNIL value there, and call mcclear()
* to free any other bitmaps.
*/
if (status) {
rtpcm = &tapcm[0];
while (--mj >= 0) {
#if MSC | TURBO | VMS | USG | BSD | V7
*rtpcm++ = *--mcptr;
#endif
}
rtpcm->mc_type = MCNIL;
} else {
(--mcptr)->mc_type = MCNIL;
mcclear();
}
return status;
}
/*
* rmcstr -- Set up the replacement 'magic' array. Note that if there
* are no meta-characters encountered in the replacement string,
* the array is never actually created - we will just use the
* character array rpat[] as the replacement string.
*/
static int rmcstr(void)
{
struct magic_replacement *rmcptr;
char *patptr;
int status = TRUE;
int mj;
patptr = &rpat[0];
rmcptr = &rmcpat[0];
mj = 0;
rmagical = FALSE;
while (*patptr && status == TRUE) {
switch (*patptr) {
case MC_DITTO:
/* If there were non-magical characters
* in the string before reaching this
* character, plunk it in the replacement
* array before processing the current
* meta-character.
*/
if (mj != 0) {
rmcptr->mc_type = LITCHAR;
if ((rmcptr->rstr =
malloc(mj + 1)) == NULL) {
mlwrite("%%Out of memory");
status = FALSE;
break;
}
strncpy(rmcptr->rstr, patptr - mj, mj);
rmcptr++;
mj = 0;
}
rmcptr->mc_type = DITTO;
rmcptr++;
rmagical = TRUE;
break;
case MC_ESC:
rmcptr->mc_type = LITCHAR;
/* We malloc mj plus two here, instead
* of one, because we have to count the
* current character.
*/
if ((rmcptr->rstr = malloc(mj + 2)) == NULL) {
mlwrite("%%Out of memory");
status = FALSE;
break;
}
strncpy(rmcptr->rstr, patptr - mj, mj + 1);
/* If MC_ESC is not the last character
* in the string, find out what it is
* escaping, and overwrite the last
* character with it.
*/
if (*(patptr + 1) != '\0')
*((rmcptr->rstr) + mj) = *++patptr;
rmcptr++;
mj = 0;
rmagical = TRUE;
break;
default:
mj++;
}
patptr++;
}
if (rmagical && mj > 0) {
rmcptr->mc_type = LITCHAR;
if ((rmcptr->rstr = malloc(mj + 1)) == NULL) {
mlwrite("%%Out of memory.");
status = FALSE;
}
strncpy(rmcptr->rstr, patptr - mj, mj);
rmcptr++;
}
rmcptr->mc_type = MCNIL;
return status;
}
/*
* mcclear -- Free up any CCL bitmaps, and MCNIL the struct magic search arrays.
*/
void mcclear(void)
{
struct magic *mcptr;
mcptr = &mcpat[0];
while (mcptr->mc_type != MCNIL) {
if ((mcptr->mc_type & MASKCL) == CCL ||
(mcptr->mc_type & MASKCL) == NCCL)
free(mcptr->u.cclmap);
mcptr++;
}
mcpat[0].mc_type = tapcm[0].mc_type = MCNIL;
}
/*
* rmcclear -- Free up any strings, and MCNIL the struct magic_replacement array.
*/
void rmcclear(void)
{
struct magic_replacement *rmcptr;
rmcptr = &rmcpat[0];
while (rmcptr->mc_type != MCNIL) {
if (rmcptr->mc_type == LITCHAR)
free(rmcptr->rstr);
rmcptr++;
}
rmcpat[0].mc_type = MCNIL;
}
/*
* mceq -- meta-character equality with a character. In Kernighan & Plauger's
* Software Tools, this is the function omatch(), but i felt there
* were too many functions with the 'match' name already.
*/
static int mceq(int bc, struct magic *mt)
{
int result;
#if PKCODE
bc = bc & 0xFF;
#endif
switch (mt->mc_type & MASKCL) {
case LITCHAR:
result = eq(bc, mt->u.lchar);
break;
case ANY:
result = (bc != '\n');
break;
case CCL:
if (!(result = biteq(bc, mt->u.cclmap))) {
if ((curwp->w_bufp->b_mode & MDEXACT) == 0 &&
(isletter(bc))) {
result = biteq(CHCASE(bc), mt->u.cclmap);
}
}
break;
case NCCL:
result = !biteq(bc, mt->u.cclmap);
if ((curwp->w_bufp->b_mode & MDEXACT) == 0 &&
(isletter(bc))) {
result &= !biteq(CHCASE(bc), mt->u.cclmap);
}
break;
default:
mlwrite("mceq: what is %d?", mt->mc_type);
result = FALSE;
break;
} /* End of switch. */
return result;
}
/*
* cclmake -- create the bitmap for the character class.
* ppatptr is left pointing to the end-of-character-class character,
* so that a loop may automatically increment with safety.
*/
static int cclmake(char **ppatptr, struct magic *mcptr)
{
char *bmap;
char *patptr;
int pchr, ochr;
if ((bmap = clearbits()) == NULL) {
mlwrite("%%Out of memory");
return FALSE;
}
mcptr->u.cclmap = bmap;
patptr = *ppatptr;
/*
* Test the initial character(s) in ccl for
* special cases - negate ccl, or an end ccl
* character as a first character. Anything
* else gets set in the bitmap.
*/
if (*++patptr == MC_NCCL) {
patptr++;
mcptr->mc_type = NCCL;
} else
mcptr->mc_type = CCL;
if ((ochr = *patptr) == MC_ECCL) {
mlwrite("%%No characters in character class");
return FALSE;
} else {
if (ochr == MC_ESC)
ochr = *++patptr;
setbit(ochr, bmap);
patptr++;
}
while (ochr != '\0' && (pchr = *patptr) != MC_ECCL) {
switch (pchr) {
/* Range character loses its meaning
* if it is the last character in
* the class.
*/
case MC_RCCL:
if (*(patptr + 1) == MC_ECCL)
setbit(pchr, bmap);
else {
pchr = *++patptr;
while (++ochr <= pchr)
setbit(ochr, bmap);
}
break;
/* Note: no break between case MC_ESC and the default.
*/
case MC_ESC:
pchr = *++patptr;
default:
setbit(pchr, bmap);
break;
}
patptr++;
ochr = pchr;
}
*ppatptr = patptr;
if (ochr == '\0') {
mlwrite("%%Character class not ended");
free(bmap);
return FALSE;
}
return TRUE;
}
/*
* biteq -- is the character in the bitmap?
*/
static int biteq(int bc, char *cclmap)
{
#if PKCODE
bc = bc & 0xFF;
#endif
if (bc >= HICHAR)
return FALSE;
return (*(cclmap + (bc >> 3)) & BIT(bc & 7)) ? TRUE : FALSE;
}
/*
* clearbits -- Allocate and zero out a CCL bitmap.
*/
static char *clearbits(void)
{
char *cclstart;
char *cclmap;
int i;
if ((cclmap = cclstart = (char *)malloc(HIBYTE)) != NULL) {
for (i = 0; i < HIBYTE; i++)
*cclmap++ = 0;
}
return cclstart;
}
/*
* setbit -- Set a bit (ON only) in the bitmap.
*/
static void setbit(int bc, char *cclmap)
{
#if PKCODE
bc = bc & 0xFF;
#endif
if (bc < HICHAR)
*(cclmap + (bc >> 3)) |= BIT(bc & 7);
}
#endif