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mirror of https://github.com/rfivet/uemacs.git synced 2024-11-19 19:15:55 -05:00
uemacs/eval.c
Linus Torvalds 0a8b429059 Start doing character removal properly
This makes actual basic editing work.  Including things like
justify-paragraph etc, so lines get justified by number of UTF8
characters rather than bytes.

There are probably tons of broken stuff left, but this actually seems to
get the basics working right.

Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
2012-07-11 10:43:16 -07:00

1006 lines
20 KiB
C

/* eval.c
*
* Expression evaluation functions
*
* written 1986 by Daniel Lawrence
* modified by Petri Kutvonen
*/
#include <stdio.h>
#include "estruct.h"
#include "edef.h"
#include "efunc.h"
#include "evar.h"
#include "line.h"
#include "util.h"
#include "version.h"
#define MAXVARS 255
/* User variables */
static struct user_variable uv[MAXVARS + 1];
/* Initialize the user variable list. */
void varinit(void)
{
int i;
for (i = 0; i < MAXVARS; i++)
uv[i].u_name[0] = 0;
}
/*
* Evaluate a function.
*
* @fname: name of function to evaluate.
*/
char *gtfun(char *fname)
{
int fnum; /* index to function to eval */
int status; /* return status */
char *tsp; /* temporary string pointer */
char arg1[NSTRING]; /* value of first argument */
char arg2[NSTRING]; /* value of second argument */
char arg3[NSTRING]; /* value of third argument */
static char result[2 * NSTRING]; /* string result */
/* look the function up in the function table */
fname[3] = 0; /* only first 3 chars significant */
mklower(fname); /* and let it be upper or lower case */
for (fnum = 0; fnum < ARRAY_SIZE(funcs); fnum++)
if (strcmp(fname, funcs[fnum].f_name) == 0)
break;
/* return errorm on a bad reference */
if (fnum == ARRAY_SIZE(funcs))
return errorm;
/* if needed, retrieve the first argument */
if (funcs[fnum].f_type >= MONAMIC) {
if ((status = macarg(arg1)) != TRUE)
return errorm;
/* if needed, retrieve the second argument */
if (funcs[fnum].f_type >= DYNAMIC) {
if ((status = macarg(arg2)) != TRUE)
return errorm;
/* if needed, retrieve the third argument */
if (funcs[fnum].f_type >= TRINAMIC)
if ((status = macarg(arg3)) != TRUE)
return errorm;
}
}
/* and now evaluate it! */
switch (fnum) {
case UFADD:
return itoa(atoi(arg1) + atoi(arg2));
case UFSUB:
return itoa(atoi(arg1) - atoi(arg2));
case UFTIMES:
return itoa(atoi(arg1) * atoi(arg2));
case UFDIV:
return itoa(atoi(arg1) / atoi(arg2));
case UFMOD:
return itoa(atoi(arg1) % atoi(arg2));
case UFNEG:
return itoa(-atoi(arg1));
case UFCAT:
strcpy(result, arg1);
return strcat(result, arg2);
case UFLEFT:
return strncpy(result, arg1, atoi(arg2));
case UFRIGHT:
return (strcpy(result,
&arg1[(strlen(arg1) - atoi(arg2))]));
case UFMID:
return (strncpy(result, &arg1[atoi(arg2) - 1],
atoi(arg3)));
case UFNOT:
return ltos(stol(arg1) == FALSE);
case UFEQUAL:
return ltos(atoi(arg1) == atoi(arg2));
case UFLESS:
return ltos(atoi(arg1) < atoi(arg2));
case UFGREATER:
return ltos(atoi(arg1) > atoi(arg2));
case UFSEQUAL:
return ltos(strcmp(arg1, arg2) == 0);
case UFSLESS:
return ltos(strcmp(arg1, arg2) < 0);
case UFSGREAT:
return ltos(strcmp(arg1, arg2) > 0);
case UFIND:
return strcpy(result, getval(arg1));
case UFAND:
return ltos(stol(arg1) && stol(arg2));
case UFOR:
return ltos(stol(arg1) || stol(arg2));
case UFLENGTH:
return itoa(strlen(arg1));
case UFUPPER:
return mkupper(arg1);
case UFLOWER:
return mklower(arg1);
case UFTRUTH:
return ltos(atoi(arg1) == 42);
case UFASCII:
return itoa((int) arg1[0]);
case UFCHR:
result[0] = atoi(arg1);
result[1] = 0;
return result;
case UFGTKEY:
result[0] = tgetc();
result[1] = 0;
return result;
case UFRND:
return itoa((ernd() % abs(atoi(arg1))) + 1);
case UFABS:
return itoa(abs(atoi(arg1)));
case UFSINDEX:
return itoa(sindex(arg1, arg2));
case UFENV:
#if ENVFUNC
tsp = getenv(arg1);
return tsp == NULL ? "" : tsp;
#else
return "";
#endif
case UFBIND:
return transbind(arg1);
case UFEXIST:
return ltos(fexist(arg1));
case UFFIND:
tsp = flook(arg1, TRUE);
return tsp == NULL ? "" : tsp;
case UFBAND:
return itoa(atoi(arg1) & atoi(arg2));
case UFBOR:
return itoa(atoi(arg1) | atoi(arg2));
case UFBXOR:
return itoa(atoi(arg1) ^ atoi(arg2));
case UFBNOT:
return itoa(~atoi(arg1));
case UFXLATE:
return xlat(arg1, arg2, arg3);
}
exit(-11); /* never should get here */
}
/*
* look up a user var's value
*
* char *vname; name of user variable to fetch
*/
char *gtusr(char *vname)
{
int vnum; /* ordinal number of user var */
/* scan the list looking for the user var name */
for (vnum = 0; vnum < MAXVARS; vnum++) {
if (uv[vnum].u_name[0] == 0)
return errorm;
if (strcmp(vname, uv[vnum].u_name) == 0)
return uv[vnum].u_value;
}
/* return errorm if we run off the end */
return errorm;
}
extern char *getkill(void);
/*
* gtenv()
*
* char *vname; name of environment variable to retrieve
*/
char *gtenv(char *vname)
{
int vnum; /* ordinal number of var refrenced */
/* scan the list, looking for the referenced name */
for (vnum = 0; vnum < ARRAY_SIZE(envars); vnum++)
if (strcmp(vname, envars[vnum]) == 0)
break;
/* return errorm on a bad reference */
if (vnum == ARRAY_SIZE(envars))
#if ENVFUNC
{
char *ename = getenv(vname);
if (ename != NULL)
return ename;
else
return errorm;
}
#else
return errorm;
#endif
/* otherwise, fetch the appropriate value */
switch (vnum) {
case EVFILLCOL:
return itoa(fillcol);
case EVPAGELEN:
return itoa(term.t_nrow + 1);
case EVCURCOL:
return itoa(getccol(FALSE));
case EVCURLINE:
return itoa(getcline());
case EVRAM:
return itoa((int) (envram / 1024l));
case EVFLICKER:
return ltos(flickcode);
case EVCURWIDTH:
return itoa(term.t_ncol);
case EVCBUFNAME:
return curbp->b_bname;
case EVCFNAME:
return curbp->b_fname;
case EVSRES:
return sres;
case EVDEBUG:
return ltos(macbug);
case EVSTATUS:
return ltos(cmdstatus);
case EVPALETTE:
return palstr;
case EVASAVE:
return itoa(gasave);
case EVACOUNT:
return itoa(gacount);
case EVLASTKEY:
return itoa(lastkey);
case EVCURCHAR:
return (curwp->w_dotp->l_used ==
curwp->w_doto ? itoa('\n') :
itoa(lgetc(curwp->w_dotp, curwp->w_doto)));
case EVDISCMD:
return ltos(discmd);
case EVVERSION:
return VERSION;
case EVPROGNAME:
return PROGRAM_NAME_LONG;
case EVSEED:
return itoa(seed);
case EVDISINP:
return ltos(disinp);
case EVWLINE:
return itoa(curwp->w_ntrows);
case EVCWLINE:
return itoa(getwpos());
case EVTARGET:
saveflag = lastflag;
return itoa(curgoal);
case EVSEARCH:
return pat;
case EVREPLACE:
return rpat;
case EVMATCH:
return (patmatch == NULL) ? "" : patmatch;
case EVKILL:
return getkill();
case EVCMODE:
return itoa(curbp->b_mode);
case EVGMODE:
return itoa(gmode);
case EVTPAUSE:
return itoa(term.t_pause);
case EVPENDING:
#if TYPEAH
return ltos(typahead());
#else
return falsem;
#endif
case EVLWIDTH:
return itoa(llength(curwp->w_dotp));
case EVLINE:
return getctext();
case EVGFLAGS:
return itoa(gflags);
case EVRVAL:
return itoa(rval);
case EVTAB:
return itoa(tabmask + 1);
case EVOVERLAP:
return itoa(overlap);
case EVSCROLLCOUNT:
return itoa(scrollcount);
#if SCROLLCODE
case EVSCROLL:
return ltos(term.t_scroll != NULL);
#else
case EVSCROLL:
return ltos(0);
#endif
}
exit(-12); /* again, we should never get here */
}
/*
* return some of the contents of the kill buffer
*/
char *getkill(void)
{
int size; /* max number of chars to return */
static char value[NSTRING]; /* temp buffer for value */
if (kbufh == NULL)
/* no kill buffer....just a null string */
value[0] = 0;
else {
/* copy in the contents... */
if (kused < NSTRING)
size = kused;
else
size = NSTRING - 1;
strncpy(value, kbufh->d_chunk, size);
}
/* and return the constructed value */
return value;
}
/*
* set a variable
*
* int f; default flag
* int n; numeric arg (can overide prompted value)
*/
int setvar(int f, int n)
{
int status; /* status return */
#if DEBUGM
char *sp; /* temp string pointer */
char *ep; /* ptr to end of outline */
#endif
struct variable_description vd; /* variable num/type */
char var[NVSIZE + 1]; /* name of variable to fetch */
char value[NSTRING]; /* value to set variable to */
/* first get the variable to set.. */
if (clexec == FALSE) {
status = mlreply("Variable to set: ", &var[0], NVSIZE);
if (status != TRUE)
return status;
} else { /* macro line argument */
/* grab token and skip it */
execstr = token(execstr, var, NVSIZE + 1);
}
/* check the legality and find the var */
findvar(var, &vd, NVSIZE + 1);
/* if its not legal....bitch */
if (vd.v_type == -1) {
mlwrite("%%No such variable as '%s'", var);
return FALSE;
}
/* get the value for that variable */
if (f == TRUE)
strcpy(value, itoa(n));
else {
status = mlreply("Value: ", &value[0], NSTRING);
if (status != TRUE)
return status;
}
/* and set the appropriate value */
status = svar(&vd, value);
#if DEBUGM
/* if $debug == TRUE, every assignment will echo a statment to
that effect here. */
if (macbug) {
strcpy(outline, "(((");
/* assignment status */
strcat(outline, ltos(status));
strcat(outline, ":");
/* variable name */
strcat(outline, var);
strcat(outline, ":");
/* and lastly the value we tried to assign */
strcat(outline, value);
strcat(outline, ")))");
/* expand '%' to "%%" so mlwrite wont bitch */
sp = outline;
while (*sp)
if (*sp++ == '%') {
/* advance to the end */
ep = --sp;
while (*ep++);
/* null terminate the string one out */
*(ep + 1) = 0;
/* copy backwards */
while (ep-- > sp)
*(ep + 1) = *ep;
/* and advance sp past the new % */
sp += 2;
}
/* write out the debug line */
mlforce(outline);
update(TRUE);
/* and get the keystroke to hold the output */
if (get1key() == abortc) {
mlforce("(Macro aborted)");
status = FALSE;
}
}
#endif
/* and return it */
return status;
}
/*
* Find a variables type and name.
*
* @var: name of variable to get.
* @vd: structure to hold type and pointer.
* @size: size of variable array.
*/
void findvar(char *var, struct variable_description *vd, int size)
{
int vnum; /* subscript in variable arrays */
int vtype; /* type to return */
vnum = -1;
fvar:
vtype = -1;
switch (var[0]) {
case '$': /* check for legal enviromnent var */
for (vnum = 0; vnum < ARRAY_SIZE(envars); vnum++)
if (strcmp(&var[1], envars[vnum]) == 0) {
vtype = TKENV;
break;
}
break;
case '%': /* check for existing legal user variable */
for (vnum = 0; vnum < MAXVARS; vnum++)
if (strcmp(&var[1], uv[vnum].u_name) == 0) {
vtype = TKVAR;
break;
}
if (vnum < MAXVARS)
break;
/* create a new one??? */
for (vnum = 0; vnum < MAXVARS; vnum++)
if (uv[vnum].u_name[0] == 0) {
vtype = TKVAR;
strcpy(uv[vnum].u_name, &var[1]);
break;
}
break;
case '&': /* indirect operator? */
var[4] = 0;
if (strcmp(&var[1], "ind") == 0) {
/* grab token, and eval it */
execstr = token(execstr, var, size);
strcpy(var, getval(var));
goto fvar;
}
}
/* return the results */
vd->v_num = vnum;
vd->v_type = vtype;
return;
}
/*
* Set a variable.
*
* @var: variable to set.
* @value: value to set to.
*/
int svar(struct variable_description *var, char *value)
{
int vnum; /* ordinal number of var refrenced */
int vtype; /* type of variable to set */
int status; /* status return */
int c; /* translated character */
char *sp; /* scratch string pointer */
/* simplify the vd structure (we are gonna look at it a lot) */
vnum = var->v_num;
vtype = var->v_type;
/* and set the appropriate value */
status = TRUE;
switch (vtype) {
case TKVAR: /* set a user variable */
if (uv[vnum].u_value != NULL)
free(uv[vnum].u_value);
sp = malloc(strlen(value) + 1);
if (sp == NULL)
return FALSE;
strcpy(sp, value);
uv[vnum].u_value = sp;
break;
case TKENV: /* set an environment variable */
status = TRUE; /* by default */
switch (vnum) {
case EVFILLCOL:
fillcol = atoi(value);
break;
case EVPAGELEN:
status = newsize(TRUE, atoi(value));
break;
case EVCURCOL:
status = setccol(atoi(value));
break;
case EVCURLINE:
status = gotoline(TRUE, atoi(value));
break;
case EVRAM:
break;
case EVFLICKER:
flickcode = stol(value);
break;
case EVCURWIDTH:
status = newwidth(TRUE, atoi(value));
break;
case EVCBUFNAME:
strcpy(curbp->b_bname, value);
curwp->w_flag |= WFMODE;
break;
case EVCFNAME:
strcpy(curbp->b_fname, value);
curwp->w_flag |= WFMODE;
break;
case EVSRES:
status = TTrez(value);
break;
case EVDEBUG:
macbug = stol(value);
break;
case EVSTATUS:
cmdstatus = stol(value);
break;
case EVASAVE:
gasave = atoi(value);
break;
case EVACOUNT:
gacount = atoi(value);
break;
case EVLASTKEY:
lastkey = atoi(value);
break;
case EVCURCHAR:
ldelchar(1, FALSE); /* delete 1 char */
c = atoi(value);
if (c == '\n')
lnewline();
else
linsert(1, c);
backchar(FALSE, 1);
break;
case EVDISCMD:
discmd = stol(value);
break;
case EVVERSION:
break;
case EVPROGNAME:
break;
case EVSEED:
seed = atoi(value);
break;
case EVDISINP:
disinp = stol(value);
break;
case EVWLINE:
status = resize(TRUE, atoi(value));
break;
case EVCWLINE:
status = forwline(TRUE, atoi(value) - getwpos());
break;
case EVTARGET:
curgoal = atoi(value);
thisflag = saveflag;
break;
case EVSEARCH:
strcpy(pat, value);
rvstrcpy(tap, pat);
#if MAGIC
mcclear();
#endif
break;
case EVREPLACE:
strcpy(rpat, value);
break;
case EVMATCH:
break;
case EVKILL:
break;
case EVCMODE:
curbp->b_mode = atoi(value);
curwp->w_flag |= WFMODE;
break;
case EVGMODE:
gmode = atoi(value);
break;
case EVTPAUSE:
term.t_pause = atoi(value);
break;
case EVPENDING:
break;
case EVLWIDTH:
break;
case EVLINE:
putctext(value);
case EVGFLAGS:
gflags = atoi(value);
break;
case EVRVAL:
break;
case EVTAB:
tabmask = atoi(value) - 1;
if (tabmask != 0x07 && tabmask != 0x03)
tabmask = 0x07;
curwp->w_flag |= WFHARD;
break;
case EVOVERLAP:
overlap = atoi(value);
break;
case EVSCROLLCOUNT:
scrollcount = atoi(value);
break;
case EVSCROLL:
#if SCROLLCODE
if (!stol(value))
term.t_scroll = NULL;
#endif
break;
}
break;
}
return status;
}
/*
* itoa:
* integer to ascii string.......... This is too
* inconsistant to use the system's
*
* int i; integer to translate to a string
*/
char *itoa(int i)
{
int digit; /* current digit being used */
char *sp; /* pointer into result */
int sign; /* sign of resulting number */
static char result[INTWIDTH + 1]; /* resulting string */
/* record the sign... */
sign = 1;
if (i < 0) {
sign = -1;
i = -i;
}
/* and build the string (backwards!) */
sp = result + INTWIDTH;
*sp = 0;
do {
digit = i % 10;
*(--sp) = '0' + digit; /* and install the new digit */
i = i / 10;
} while (i);
/* and fix the sign */
if (sign == -1) {
*(--sp) = '-'; /* and install the minus sign */
}
return sp;
}
/*
* find the type of a passed token
*
* char *token; token to analyze
*/
int gettyp(char *token)
{
char c; /* first char in token */
/* grab the first char (this is all we need) */
c = *token;
/* no blanks!!! */
if (c == 0)
return TKNUL;
/* a numeric literal? */
if (c >= '0' && c <= '9')
return TKLIT;
switch (c) {
case '"':
return TKSTR;
case '!':
return TKDIR;
case '@':
return TKARG;
case '#':
return TKBUF;
case '$':
return TKENV;
case '%':
return TKVAR;
case '&':
return TKFUN;
case '*':
return TKLBL;
default:
return TKCMD;
}
}
/*
* find the value of a token
*
* char *token; token to evaluate
*/
char *getval(char *token)
{
int status; /* error return */
struct buffer *bp; /* temp buffer pointer */
int blen; /* length of buffer argument */
int distmp; /* temporary discmd flag */
static char buf[NSTRING]; /* string buffer for some returns */
switch (gettyp(token)) {
case TKNUL:
return "";
case TKARG: /* interactive argument */
strcpy(token, getval(&token[1]));
distmp = discmd; /* echo it always! */
discmd = TRUE;
status = getstring(token, buf, NSTRING, ctoec('\n'));
discmd = distmp;
if (status == ABORT)
return errorm;
return buf;
case TKBUF: /* buffer contents fetch */
/* grab the right buffer */
strcpy(token, getval(&token[1]));
bp = bfind(token, FALSE, 0);
if (bp == NULL)
return errorm;
/* if the buffer is displayed, get the window
vars instead of the buffer vars */
if (bp->b_nwnd > 0) {
curbp->b_dotp = curwp->w_dotp;
curbp->b_doto = curwp->w_doto;
}
/* make sure we are not at the end */
if (bp->b_linep == bp->b_dotp)
return errorm;
/* grab the line as an argument */
blen = bp->b_dotp->l_used - bp->b_doto;
if (blen > NSTRING)
blen = NSTRING;
strncpy(buf, bp->b_dotp->l_text + bp->b_doto, blen);
buf[blen] = 0;
/* and step the buffer's line ptr ahead a line */
bp->b_dotp = bp->b_dotp->l_fp;
bp->b_doto = 0;
/* if displayed buffer, reset window ptr vars */
if (bp->b_nwnd > 0) {
curwp->w_dotp = curbp->b_dotp;
curwp->w_doto = 0;
curwp->w_flag |= WFMOVE;
}
/* and return the spoils */
return buf;
case TKVAR:
return gtusr(token + 1);
case TKENV:
return gtenv(token + 1);
case TKFUN:
return gtfun(token + 1);
case TKDIR:
return errorm;
case TKLBL:
return errorm;
case TKLIT:
return token;
case TKSTR:
return token + 1;
case TKCMD:
return token;
}
return errorm;
}
/*
* convert a string to a numeric logical
*
* char *val; value to check for stol
*/
int stol(char *val)
{
/* check for logical values */
if (val[0] == 'F')
return FALSE;
if (val[0] == 'T')
return TRUE;
/* check for numeric truth (!= 0) */
return (atoi(val) != 0);
}
/*
* numeric logical to string logical
*
* int val; value to translate
*/
char *ltos(int val)
{
if (val)
return truem;
else
return falsem;
}
/*
* make a string upper case
*
* char *str; string to upper case
*/
char *mkupper(char *str)
{
char *sp;
sp = str;
while (*sp) {
if ('a' <= *sp && *sp <= 'z')
*sp += 'A' - 'a';
++sp;
}
return str;
}
/*
* make a string lower case
*
* char *str; string to lower case
*/
char *mklower(char *str)
{
char *sp;
sp = str;
while (*sp) {
if ('A' <= *sp && *sp <= 'Z')
*sp += 'a' - 'A';
++sp;
}
return str;
}
/*
* take the absolute value of an integer
*/
int abs(int x)
{
return x < 0 ? -x : x;
}
/*
* returns a random integer
*/
int ernd(void)
{
seed = abs(seed * 1721 + 10007);
return seed;
}
/*
* find pattern within source
*
* char *source; source string to search
* char *pattern; string to look for
*/
int sindex(char *source, char *pattern)
{
char *sp; /* ptr to current position to scan */
char *csp; /* ptr to source string during comparison */
char *cp; /* ptr to place to check for equality */
/* scanning through the source string */
sp = source;
while (*sp) {
/* scan through the pattern */
cp = pattern;
csp = sp;
while (*cp) {
if (!eq(*cp, *csp))
break;
++cp;
++csp;
}
/* was it a match? */
if (*cp == 0)
return (int) (sp - source) + 1;
++sp;
}
/* no match at all.. */
return 0;
}
/*
* Filter a string through a translation table
*
* char *source; string to filter
* char *lookup; characters to translate
* char *trans; resulting translated characters
*/
char *xlat(char *source, char *lookup, char *trans)
{
char *sp; /* pointer into source table */
char *lp; /* pointer into lookup table */
char *rp; /* pointer into result */
static char result[NSTRING]; /* temporary result */
/* scan source string */
sp = source;
rp = result;
while (*sp) {
/* scan lookup table for a match */
lp = lookup;
while (*lp) {
if (*sp == *lp) {
*rp++ = trans[lp - lookup];
goto xnext;
}
++lp;
}
/* no match, copy in the source char untranslated */
*rp++ = *sp;
xnext:++sp;
}
/* terminate and return the result */
*rp = 0;
return result;
}