teapot-spreadsheet/func.c

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33 KiB
C
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/* #includes */ /*{{{C}}}*//*{{{*/
#ifndef NO_POSIX_SOURCE
#undef _POSIX_SOURCE
#define _POSIX_SOURCE 1
#undef _POSIX_C_SOURCE
#define _POSIX_C_SOURCE 2
#endif
#define _XOPEN_SOURCE /* glibc2 needs this */
#ifdef DMALLOC
#include "dmalloc.h"
#endif
#include <assert.h>
#include <errno.h>
#include <limits.h>
#include <math.h>
#include <stdlib.h>
extern double strtod(const char *nptr, char **endptr); /* SunOS 4 hack */
#include <stdio.h>
#include <string.h>
#include <time.h>
#include "default.h"
#include "eval.h"
#include "func.h"
#include "main.h"
#include "misc.h"
#include "parser.h"
#include "scanner.h"
#include "sheet.h"
/*}}}*/
/* #defines */ /*{{{*/
/* There is a BSD extensions, but they are possibly more exact. */
#ifdef M_E
#define CONST_E M_E
#else
#define CONST_E ((double)2.7182818284590452354)
#endif
#ifdef M_PI
#define CONST_PI M_PI
#else
#define CONST_PI ((double)3.14159265358979323846)
#endif
/*}}}*/
#ifdef WIN32
// This strptime implementation Copyright 2009 Google Inc.
//
// 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
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// Implement strptime under windows
static const char* kWeekFull[] = {
"Sunday", "Monday", "Tuesday", "Wednesday",
"Thursday", "Friday", "Saturday"
};
static const char* kWeekAbbr[] = {
"Sun", "Mon", "Tue", "Wed",
"Thu", "Fri", "Sat"
};
static const char* kMonthFull[] = {
"January", "February", "March", "April", "May", "June",
"July", "August", "September", "October", "November", "December"
};
static const char* kMonthAbbr[] = {
"Jan", "Feb", "Mar", "Apr", "May", "Jun",
"Jul", "Aug", "Sep", "Oct", "Nov", "Dec"
};
static const char* _parse_num(const char* s, int low, int high, int* value) {
const char* p = s;
for (*value = 0; *p && isdigit(*p); ++p) {
*value = (*value) * 10 + *p - '0';
}
if (p == s || *value < low || *value > high) return NULL;
return p;
}
static char* _strptime(const char *s, const char *format, struct tm *tm) {
int i, len;
while (*format && *s) {
if (*format != '%') {
if (*s != *format) return NULL;
++format;
++s;
continue;
}
++format;
len = 0;
switch (*format) {
// weekday name.
case 'a':
case 'A':
tm->tm_wday = -1;
for (i = 0; i < 7; ++i) {
len = strlen(kWeekAbbr[i]);
if (strnicmp(kWeekAbbr[i], s, len) == 0) {
tm->tm_wday = i;
break;
}
len = strlen(kWeekFull[i]);
if (strnicmp(kWeekFull[i], s, len) == 0) {
tm->tm_wday = i;
break;
}
}
if (tm->tm_wday == -1) return NULL;
s += len;
break;
// month name.
case 'b':
case 'B':
case 'h':
tm->tm_mon = -1;
for (i = 0; i < 12; ++i) {
len = strlen(kMonthAbbr[i]);
if (strnicmp(kMonthAbbr[i], s, len) == 0) {
tm->tm_mon = i;
break;
}
len = strlen(kMonthFull[i]);
if (strnicmp(kMonthFull[i], s, len) == 0) {
tm->tm_mon = i;
break;
}
}
if (tm->tm_mon == -1) return NULL;
s += len;
break;
// month [1, 12].
case 'm':
s = _parse_num(s, 1, 12, &tm->tm_mon);
if (s == NULL) return NULL;
--tm->tm_mon;
break;
// day [1, 31].
case 'd':
case 'e':
s = _parse_num(s, 1, 31, &tm->tm_mday);
if (s == NULL) return NULL;
break;
// hour [0, 23].
case 'H':
s = _parse_num(s, 0, 23, &tm->tm_hour);
if (s == NULL) return NULL;
break;
// minute [0, 59]
case 'M':
s = _parse_num(s, 0, 59, &tm->tm_min);
if (s == NULL) return NULL;
break;
// seconds [0, 60]. 60 is for leap year.
case 'S':
s = _parse_num(s, 0, 60, &tm->tm_sec);
if (s == NULL) return NULL;
break;
// year [1900, 9999].
case 'Y':
s = _parse_num(s, 1900, 9999, &tm->tm_year);
if (s == NULL) return NULL;
tm->tm_year -= 1900;
break;
// year [0, 99].
case 'y':
s = _parse_num(s, 0, 99, &tm->tm_year);
if (s == NULL) return NULL;
if (tm->tm_year <= 68) {
tm->tm_year += 100;
}
break;
// arbitray whitespace.
case 't':
case 'n':
while (isspace(*s)) ++s;
break;
// '%'.
case '%':
if (*s != '%') return NULL;
++s;
break;
// All the other format are not supported.
default:
return NULL;
}
++format;
}
if (*format) {
return NULL;
} else {
return (char *)s;
}
}
char* strptime(const char *buf, const char *fmt, struct tm *tm) {
return _strptime(buf, fmt, tm);
}
#endif
/* sci_func -- map a double to a double */ /*{{{*/
static Token sci_func(int argc, const Token argv[], double (*func)(double), const char *func_name)
{
Token result;
if (argc==1 && argv[0].type==FLOAT)
{
result.type=FLOAT;
errno=0;
result.u.flt=(func)(argv[0].u.flt);
if (errno)
{
result.type=EEK;
result.u.err=malloc(strlen(func_name)+2+strlen(strerror(errno))+1);
sprintf(result.u.err,"%s: %s",func_name,strerror(errno));
}
}
else
{
if (argc==1 && argv[0].type==INT)
{
result.type=FLOAT;
errno=0;
result.u.flt=(func)((double)argv[0].u.integer);
if (errno)
{
result.type=EEK;
result.u.err=malloc(strlen(func_name)+2+strlen(strerror(errno))+1);
sprintf(result.u.err,"%s: %s",func_name,strerror(errno));
}
}
else
{
result.type=EEK;
/* This is actually too much, but always enough for %s formats. */
result.u.err=malloc(strlen(_("Usage: %s(float)"))+strlen(func_name)+1);
sprintf(result.u.err,_("Usage: %s(float)"),func_name);
}
}
return result;
}
/*}}}*/
/* arsinh */ /*{{{*/
static double arsinh(double x)
{
return log(x+sqrt(x*x+1.0));
}
/*}}}*/
/* arcosh */ /*{{{*/
static double arcosh(double x)
{
if (x>=1.0) return log(x+sqrt(x*x-1.0));
else { errno=EDOM; return 0.0; }
}
/*}}}*/
/* artanh */ /*{{{*/
static double artanh(double x)
{
if (x>-1.0 && x<1.0) return 0.5*log((1.0+x)/(1.0-x));
else { errno=EDOM; return 0.0; }
}
/*}}}*/
/* rad2deg */ /*{{{*/
static double rad2deg(double x)
{
return (360.0/(2.0*CONST_PI))*x;
}
/*}}}*/
/* deg2rad */ /*{{{*/
static double deg2rad(double x)
{
return (2.0*CONST_PI/360.0)*x;
}
/*}}}*/
/* @ */ /*{{{*/
static Token at_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
/* asserts */ /*{{{*/
assert(argv!=(Token*)0);
/*}}}*/
if (argc==0)
/* return value at current location */ /*{{{*/
return (getvalue(upd_sheet,upd_x,upd_y,upd_z));
/*}}}*/
if (argc==1 && argv[0].type==LOCATION)
/* return value at location pointed to by argument */ /*{{{*/
return (getvalue(upd_sheet,argv[0].u.location[0],argv[0].u.location[1],argv[0].u.location[2]));
/*}}}*/
else if (argc==1 && (argv[0].type==INT || argv[0].type==EMPTY))
/* return value at x on current y,z */ /*{{{*/
return (getvalue(upd_sheet,argv[0].type==INT ? argv[0].u.integer : upd_x,upd_y,upd_z));
/*}}}*/
else if (argc==2 && (argv[0].type==INT || argv[0].type==EMPTY) && (argv[1].type==INT || argv[1].type==EMPTY))
/* return value at x,y on current z */ /*{{{*/
return (getvalue(upd_sheet,argv[0].type==INT ? argv[0].u.integer : upd_x,argv[1].type==INT ? argv[1].u.integer : upd_y,upd_z));
/*}}}*/
else if (argc==3 && (argv[0].type==INT || argv[0].type==EMPTY) && (argv[1].type==INT || argv[1].type==EMPTY) && (argv[2].type==INT || argv[2].type==EMPTY))
/* return value at x,y,z */ /*{{{*/
return (getvalue(upd_sheet,argv[0].type==INT ? argv[0].u.integer : upd_x,argv[1].type==INT ? argv[1].u.integer : upd_y,argv[2].type==INT ? argv[2].u.integer : upd_z));
/*}}}*/
else
/* return error */ /*{{{*/
{
result.type=EEK;
result.u.err=strcpy(malloc(strlen(_("Usage: @([integer x][,[integer y][,[integer z]]]) or @(location)"))+1),_("Usage: @([integer x][,[integer y][,[integer z]]]) or @(location)"));
return result;
}
/*}}}*/
}
/*}}}*/
/* & */ /*{{{*/
static Token adr_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
/* asserts */ /*{{{*/
assert(argv!=(Token*)0);
/*}}}*/
if (argc==3 && (argv[0].type==INT || argv[0].type==EMPTY) && (argv[1].type==INT || argv[1].type==EMPTY) && (argv[2].type==INT || argv[2].type==EMPTY))
/* result is location of the given position */ /*{{{*/
{
result.type=LOCATION;
result.u.location[0]=(argv[0].type==INT ? argv[0].u.integer : upd_x);
result.u.location[1]=(argv[1].type==INT ? argv[1].u.integer : upd_y);
result.u.location[2]=(argv[2].type==INT ? argv[2].u.integer : upd_z);
}
/*}}}*/
else if (argc==2 && (argv[0].type==INT || argv[0].type==EMPTY) && (argv[1].type==INT || argv[1].type==EMPTY))
/* result is location of the given position in the current z layer */ /*{{{*/
{
result.type=LOCATION;
result.u.location[0]=(argv[0].type==INT ? argv[0].u.integer : upd_x);
result.u.location[1]=(argv[1].type==INT ? argv[1].u.integer : upd_y);
result.u.location[2]=upd_z;
}
/*}}}*/
else if (argc==1 && (argv[0].type==INT || argv[0].type==EMPTY))
/* result is location of the given position in the current y,z layer */ /*{{{*/
{
result.type=LOCATION;
result.u.location[0]=(argv[0].type==INT ? argv[0].u.integer : upd_x);
result.u.location[1]=upd_y;
result.u.location[2]=upd_z;
}
/*}}}*/
else if (argc==0)
/* result is location of the current position */ /*{{{*/
{
result.type=LOCATION;
result.u.location[0]=upd_x;
result.u.location[1]=upd_y;
result.u.location[2]=upd_z;
}
/*}}}*/
else
/* result is type error */ /*{{{*/
{
result.type=EEK;
result.u.err=strcpy(malloc(strlen(_("Usage: &([integer x][,[integer y][,[integer z]]])"))+1),_("Usage: &([integer x][,[integer y][,[integer z]]])"));
}
/*}}}*/
return result;
}
/*}}}*/
/* x */ /*{{{*/
static Token x_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
if (argc==0)
/* result is currently updated x position */ /*{{{*/
{
result.type=INT;
result.u.integer=upd_x;
}
/*}}}*/
else if (argc==1 && argv[0].type==LOCATION)
/* return x component of location */ /*{{{*/
{
result.type=INT;
result.u.integer=argv[0].u.location[0];
}
/*}}}*/
else
/* x type error */ /*{{{*/
{
result.type=EEK;
result.u.err=strcpy(malloc(strlen(_("Usage: x([location])"))+1),_("Usage: x([location])"));
}
/*}}}*/
return result;
}
/*}}}*/
/* y */ /*{{{*/
static Token y_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
if (argc==0)
/* result is currently updated y position */ /*{{{*/
{
result.type=INT;
result.u.integer=upd_y;
}
/*}}}*/
else if (argc==1 && argv[0].type==LOCATION)
/* return y component of location */ /*{{{*/
{
result.type=INT;
result.u.integer=argv[0].u.location[1];
}
/*}}}*/
else
/* y type error */ /*{{{*/
{
result.type=EEK;
result.u.err=strcpy(malloc(strlen(_("Usage: y([location])"))+1),_("Usage: y([location])"));
}
/*}}}*/
return result;
}
/*}}}*/
/* z */ /*{{{*/
static Token z_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
if (argc==0)
/* result is currently updated z position */ /*{{{*/
{
result.type=INT;
result.u.integer=upd_z;
}
/*}}}*/
else if (argc==1 && argv[0].type==LOCATION)
/* return z component of location */ /*{{{*/
{
result.type=INT;
result.u.integer=argv[0].u.location[2];
}
/*}}}*/
else
/* result is z type error */ /*{{{*/
{
result.type=EEK;
result.u.err=mystrmalloc(_("Usage: z([location])"));
}
/*}}}*/
return result;
}
/*}}}*/
/* e */ /*{{{*/
static Token e_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
if (argc==0) /* result is constant e */ /*{{{*/
{
result.type=FLOAT;
result.u.flt=CONST_E;
}
/*}}}*/
else /* result is e type error */ /*{{{*/
{
result.type=EEK;
result.u.err=mystrmalloc(_("Usage: e()"));
}
/*}}}*/
return result;
}
/*}}}*/
/* eval */ /*{{{*/
static Token eval_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
--max_eval;
if (max_eval<0)
/* nesting error */ /*{{{*/
{
result.type=EEK;
result.u.err=mystrmalloc(_("nested eval()"));
}
/*}}}*/
else if (argc==1 && argv[0].type==LOCATION)
/* evaluate expression in cell at given position */ /*{{{*/
{
Token **contents;
contents=getcont(upd_sheet,argv[0].u.location[0],argv[0].u.location[1],argv[0].u.location[2],2);
if (contents==(Token**)0) result.type=EMPTY;
else result=eval(contents);
}
/*}}}*/
else
/* eval type error */ /*{{{*/
{
result.type=EEK;
result.u.err=strcpy(malloc(strlen(_("Usage: eval(location)"))+1),_("Usage: eval(location)"));
}
/*}}}*/
++max_eval;
return result;
}
/*}}}*/
/* error */ /*{{{*/
static Token error_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
/* asserts */ /*{{{*/
assert(argv!=(Token*)0);
/*}}}*/
result.type=EEK;
if (argc!=1 || argv[0].type!=STRING)
/* result is type error */ /*{{{*/
result.u.err=strcpy(malloc(strlen(_("Usage: error(string message)"))+1),_("Usage: error(string message)"));
/*}}}*/
else
/* result is user defined error */ /*{{{*/
result.u.err=strcpy(malloc(strlen(argv[0].u.string)+1),argv[0].u.string);
/*}}}*/
return result;
}
/*}}}*/
/* string */ /*{{{*/
static Token string_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
char *buf;
size_t size;
/*}}}*/
if (argc==1 && argv[0].type==LOCATION) /* cell to string */ /*{{{*/
{
buf=(char*)0;
size=0;
do
{
if (buf!=(char*)0) free(buf);
size+=16;
buf=malloc(size);
printvalue(buf,size,0,0,getscientific(upd_sheet,argv[0].u.location[0],argv[0].u.location[1],argv[0].u.location[2]),getprecision(upd_sheet,argv[0].u.location[0],argv[0].u.location[1],argv[0].u.location[2]),upd_sheet,argv[0].u.location[0],argv[0].u.location[1],argv[0].u.location[2]);
} while (strlen(buf)==size-1);
result.type=STRING;
result.u.string=buf;
}
/*}}}*/
else if (argc==1 && argv[0].type==FLOAT) /* float to string */ /*{{{*/
{
result.u.string=malloc(def_precision+10);
sprintf(result.u.string,DEF_SCIENTIFIC ? "%.*e" : "%.*f", def_precision,argv[0].u.flt);
result.type=STRING;
}
/*}}}*/
else if (argc==1 && argv[0].type==INT) /* int to string */ /*{{{*/
{
int length=2;
int n=argv[0].u.integer;
while (n!=0) n/=10;
result.u.string=malloc(length);
sprintf(result.u.string,"%ld",argv[0].u.integer);
result.type=STRING;
}
/*}}}*/
else if (argc==2 && argv[0].type==FLOAT && argv[1].type==INT) /* float to string */ /*{{{*/
{
result.u.string=malloc(argv[1].u.integer==-1 ? def_precision+10 : argv[1].u.integer+10);
sprintf(result.u.string,DEF_SCIENTIFIC ? "%.*e" : "%.*f",argv[1].u.integer==-1 ? def_precision : (int)(argv[1].u.integer), argv[0].u.flt);
result.type=STRING;
}
/*}}}*/
else if (argc==3 && argv[0].type==FLOAT && (argv[1].type==INT || argv[1].type==EMPTY) && argv[2].type==INT) /* float to string */ /*{{{*/
{
result.u.string=malloc((argv[1].type==INT ? argv[1].u.integer : def_precision)+10);
sprintf(result.u.string,argv[2].u.integer ? "%.*e" : "%.*f",argv[1].type==INT && argv[1].u.integer>=0 ? (int)argv[1].u.integer : def_precision, argv[0].u.flt);
result.type=STRING;
}
/*}}}*/
else /* return string type error */ /*{{{*/
{
result.type=EEK;
result.u.err=strcpy(malloc(strlen(_("Usage: string(location) or string(float[,[integer][,integer]])"))+1),_("Usage: string(location) or string(float[,[integer][,integer]])"));
return result;
}
/*}}}*/
return result;
}
/*}}}*/
/* sum */ /*{{{*/
static Token sum_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
if (argc==2 && argv[0].type==LOCATION && argv[1].type==LOCATION) /* result is sum */ /*{{{*/
{
/* variables */ /*{{{*/
int x,y,z;
int x1,y1,z1;
int x2,y2,z2;
Token tmp;
/*}}}*/
x1=argv[0].u.location[0]; x2=argv[1].u.location[0]; posorder(&x1,&x2);
y1=argv[0].u.location[1]; y2=argv[1].u.location[1]; posorder(&y1,&y2);
z1=argv[0].u.location[2]; z2=argv[1].u.location[2]; posorder(&z1,&z2);
result.type=EMPTY;
for (x=x1; x<=x2; ++x)
for (y=y1; y<=y2; ++y)
for (z=z1; z<=z2; ++z)
{
Token t;
tmp=tadd(result,t=getvalue(upd_sheet,x,y,z));
tfree(&t);
tfree(&result);
result=tmp;
if (result.type==EEK) return result;
}
}
/*}}}*/
else /* result is sum type error */ /*{{{*/
{
result.type=EEK;
result.u.err=strcpy(malloc(strlen(_("Usage: sum(location,location)"))+1),_("Usage: sum(location,location)"));
}
/*}}}*/
return result;
}
/*}}}*/
/* n */ /*{{{*/
static Token n_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
if (argc==2 && argv[0].type==LOCATION && argv[1].type==LOCATION)
/* result is number of elements */ /*{{{*/
{
/* variables */ /*{{{*/
int x,y,z;
int x1,y1,z1;
int x2,y2,z2;
Token tmp;
int n;
/*}}}*/
x1=argv[0].u.location[0]; x2=argv[1].u.location[0]; posorder(&x1,&x2);
y1=argv[0].u.location[1]; y2=argv[1].u.location[1]; posorder(&y1,&y2);
z1=argv[0].u.location[2]; z2=argv[1].u.location[2]; posorder(&z1,&z2);
n=0;
for (x=x1; x<=x2; ++x)
for (y=y1; y<=y2; ++y)
for (z=z1; z<=z2; ++z)
{
tmp=getvalue(upd_sheet,x,y,z);
if (tmp.type!=EMPTY) ++n;
tfree(&tmp);
}
result.type=INT;
result.u.integer=n;
}
/*}}}*/
else
/* result is n type error */ /*{{{*/
{
result.type=EEK;
result.u.err=strcpy(malloc(strlen(_("Usage: n(location,location)"))+1),_("Usage: n(location,location)"));
}
/*}}}*/
return result;
}
/*}}}*/
/* int */ /*{{{*/
static Token int_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
if (argc==1 && argv[0].type==FLOAT)
/* result is integer with cutoff fractional part */ /*{{{*/
{
result.type=INT;
result.u.integer=(long)(argv[0].u.flt);
}
/*}}}*/
else if (argc==3 && argv[0].type==FLOAT && argv[1].type==INT && argv[2].type==INT)
/* result is integer with given conversion */ /*{{{*/
{
result.type=INT;
if (argv[0].u.flt<0)
{
if (argv[1].u.integer<-1) result.u.integer=(long)floor(argv[0].u.flt);
else if (argv[1].u.integer==-1) result.u.integer=(long)(argv[0].u.flt-0.5);
else if (argv[1].u.integer==0) result.u.integer=(long)(argv[0].u.flt);
else if (argv[1].u.integer==1) result.u.integer=(long)(argv[0].u.flt+0.5);
else result.u.integer=(long)ceil(argv[0].u.flt);
}
else
{
if (argv[2].u.integer<-1) result.u.integer=(long)floor(argv[0].u.flt);
else if (argv[2].u.integer==-1) result.u.integer=(long)(argv[0].u.flt-0.5);
else if (argv[2].u.integer==0) result.u.integer=(long)(argv[0].u.flt);
else if (argv[2].u.integer==1) result.u.integer=(long)(argv[0].u.flt+0.5);
else result.u.integer=(long)ceil(argv[0].u.flt);
}
}
/*}}}*/
else if (argc==1 && argv[0].type==STRING)
/* result is integer */ /*{{{*/
{
char *s;
errno=0;
result.u.integer=strtol(argv[0].u.string,&s,10);
if (s==(char*)0 || *s)
{
result.type=EEK;
result.u.err=mystrmalloc(_("int(string): invalid string"));
}
else if (errno==ERANGE && (result.u.integer==LONG_MAX || result.u.integer==LONG_MIN))
{
result.type=EEK;
result.u.err=mystrmalloc(_("int(string): domain error"));
}
else result.type=INT;
}
/*}}}*/
else
/* result is int type error */ /*{{{*/
{
result.type=EEK;
result.u.err=strcpy(malloc(strlen(_("Usage: int(float[,integer,integer])"))+1),_("Usage: int(float[,integer,integer])"));
}
/*}}}*/
return result;
}
/*}}}*/
/* frac */ /*{{{*/
static Token frac_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
double foo;
/*}}}*/
if (argc==1 && argv[0].type==FLOAT)
/* result is fractional part */ /*{{{*/
{
result.type=FLOAT;
result.u.flt=modf(argv[0].u.flt,&foo);
}
/*}}}*/
else
/* result is frac type error */ /*{{{*/
{
result.type=EEK;
result.u.err=strcpy(malloc(strlen(_("Usage: frac(float)"))+1),_("Usage: frac(float)"));
}
/*}}}*/
return result;
}
/*}}}*/
/* len */ /*{{{*/
static Token len_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
if (argc==1 && argv[0].type==STRING)
/* result is length */ /*{{{*/
{
result.type=INT;
result.u.integer=strlen(argv[0].u.string);
}
/*}}}*/
else
/* result is frac type error */ /*{{{*/
{
result.type=EEK;
result.u.err=mystrmalloc(_("Usage: len(string)"));
}
/*}}}*/
return result;
}
/*}}}*/
/* log */ /*{{{*/
static Token log_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
double x=-1.0,y=-1.0;
Token result;
/*}}}*/
/* set x and y to first two arguments */ /*{{{*/
if (argc>=1)
{
if (argv[0].type==FLOAT) x=argv[0].u.flt;
else if (argv[0].type==INT) x=(double)argv[0].u.integer;
}
if (argc==2)
{
if (argv[1].type==FLOAT) y=argv[1].u.flt;
else if (argv[1].type==INT) y=(double)argv[1].u.integer;
}
/*}}}*/
if (argc==1 && (argv[0].type==FLOAT || argv[0].type==INT)) /* result is ln(x) */ /*{{{*/
{
result.type=FLOAT;
result.u.flt=log(x);
}
/*}}}*/
else if (argc==2 && (argv[0].type==FLOAT || argv[0].type==INT) && (argv[1].type==FLOAT || argv[1].type==INT)) /* result is ln(x)/ln(y) */ /*{{{*/
{
result.type=FLOAT;
if (y==CONST_E) result.u.flt=log(x);
else if (y==10.0) result.u.flt=log10(x);
else result.u.flt=log(x)/log(y);
}
/*}}}*/
else /* result is log type error */ /*{{{*/
{
result.type=EEK;
result.u.err=mystrmalloc(_("Usage: log(float[,float])"));
}
/*}}}*/
return result;
}
/*}}}*/
/* minmax */ /*{{{*/
static Token minmax_func(int argc, const Token argv[], int min)
{
/* variables */ /*{{{*/
Token result;
int resultx,resulty,resultz;
/*}}}*/
if (argc==2 && argv[0].type==LOCATION && argv[1].type==LOCATION)
/* result is min/max */ /*{{{*/
{
/* variables */ /*{{{*/
int x,y,z;
int x1,y1,z1;
int x2,y2,z2;
Token tmp;
/*}}}*/
x1=argv[0].u.location[0]; x2=argv[1].u.location[0]; posorder(&x1,&x2);
y1=argv[0].u.location[1]; y2=argv[1].u.location[1]; posorder(&y1,&y2);
z1=argv[0].u.location[2]; z2=argv[1].u.location[2]; posorder(&z1,&z2);
result=getvalue(upd_sheet,x1,y1,z1);
resultx=x1;
resulty=y1;
resultz=z1;
for (x=x1; x<=x2; ++x)
for (y=y1; y<=y2; ++y)
for (z=z1; z<=z2; ++z)
{
Token t;
tmp=(min ? tle(result,t=getvalue(upd_sheet,x,y,z)) : tge(result,t=getvalue(upd_sheet,x,y,z)));
if (tmp.type==INT)
/* successful comparison */ /*{{{*/
{
tfree(&tmp);
if (tmp.u.integer==0)
{
tfree(&result);
result=t;
resultx=x;
resulty=y;
resultz=z;
}
else tfree(&t);
}
/*}}}*/
else
/* successless comparison, return with error */ /*{{{*/
{
tfree(&result);
tfree(&t);
return tmp;
}
/*}}}*/
}
tfree(&result);
result.type=LOCATION;
result.u.location[0]=resultx;
result.u.location[1]=resulty;
result.u.location[2]=resultz;
return result;
}
/*}}}*/
else
/* result is min/max type error */ /*{{{*/
{
result.type=EEK;
result.u.err=mystrmalloc(min ? _("Usage: min(location,location)") : _("Usage: max(location,location)"));
return result;
}
/*}}}*/
}
/*}}}*/
/* min */ /*{{{*/
static Token min_func(int argc, const Token argv[])
{
return minmax_func(argc,argv,1);
}
/*}}}*/
/* max */ /*{{{*/
static Token max_func(int argc, const Token argv[])
{
return minmax_func(argc,argv,0);
}
/*}}}*/
/* abs */ /*{{{*/
static Token abs_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
if (argc==1 && argv[0].type==FLOAT)
/* result is absolute floating point number */ /*{{{*/
{
result.type=FLOAT;
result.u.flt=fabs(argv[0].u.flt);
}
/*}}}*/
else if (argc==1 && argv[0].type==INT)
/* result is absolute integer number */ /*{{{*/
{
result.type=INT;
result.u.integer=(argv[0].u.integer<0 ? -argv[0].u.integer : argv[0].u.integer);
}
/*}}}*/
else
/* result is abs type error */ /*{{{*/
{
result.type=EEK;
result.u.err=mystrmalloc(_("Usage: abs(float|integer)"));
}
/*}}}*/
return result;
}
/*}}}*/
/* $ */ /*{{{*/
static Token env_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
if (argc==1 && argv[0].type==STRING)
{
const char *e;
if ((e=getenv(argv[0].u.string))==(char*)0) e="";
result.type=STRING;
result.u.string=mystrmalloc(e);
}
else
{
result.type=EEK;
result.u.err=mystrmalloc(_("Usage: $(string)"));
}
return result;
}
/*}}}*/
/* float */ /*{{{*/
static Token float_func(int argc, const Token argv[])
{
Token result;
if (argc==1 && argv[0].type==STRING)
/* convert string to float */ /*{{{*/
{
char *p;
result.u.flt=strtod(argv[0].u.string,&p);
if (p!=argv[0].u.string && *p=='\0' && dblfinite(result.u.flt)==(const char*)0)
{
result.type=FLOAT;
}
else
{
result.type=EEK;
result.u.err=mystrmalloc(_("Not a (finite) floating point number"));
}
}
/*}}}*/
else
/* float type error */ /*{{{*/
{
result.type=EEK;
result.u.err=mystrmalloc(_("Usage: float(string)"));
}
/*}}}*/
return result;
}
/*}}}*/
/* strftime */ /*{{{*/
static Token strftime_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
if (argc==1 && argv[0].type==STRING) /* format and return string */ /*{{{*/
{
time_t t;
struct tm *tm;
char s[1024];
t=time((time_t*)0);
tm=localtime(&t);
strftime(s,sizeof(s),argv[0].u.string,tm);
s[sizeof(s)-1]='\0';
result.u.string=mystrmalloc(s);
result.type=STRING;
}
/*}}}*/
else if (argc==2 && argv[0].type==STRING && argv[1].type==INT) /* format and return string */ /*{{{*/
{
time_t t;
struct tm *tm;
char s[1024];
t=argv[1].u.integer;
tm=localtime(&t);
strftime(s,sizeof(s),argv[0].u.string,tm);
s[sizeof(s)-1]='\0';
result.u.string=mystrmalloc(s);
result.type=STRING;
}
/*}}}*/
else /* strftime type error */ /*{{{*/
{
result.type=EEK;
result.u.err=mystrmalloc(_("Usage: strftime(string[,integer])"));
}
/*}}}*/
return result;
}
/*}}}*/
/* clock */ /*{{{*/
static Token clock_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
if (argc==2 && argv[0].type==INT && argv[1].type==LOCATION) /* clock(condition,location) */ /*{{{*/
{
if (argv[0].u.integer) clk(upd_sheet,argv[1].u.location[0],argv[1].u.location[1],argv[1].u.location[2]);
result.type=EMPTY;
}
/*}}}*/
else if (argc==3 && argv[0].type==INT && argv[1].type==LOCATION && argv[2].type==LOCATION) /* clock(condition,location,location) */ /*{{{*/
{
if (argv[0].u.integer)
{
/* variables */ /*{{{*/
int x,y,z;
int x1,y1,z1;
int x2,y2,z2;
/*}}}*/
x1=argv[1].u.location[0]; x2=argv[2].u.location[0]; posorder(&x1,&x2);
y1=argv[1].u.location[1]; y2=argv[2].u.location[1]; posorder(&y1,&y2);
z1=argv[1].u.location[2]; z2=argv[2].u.location[2]; posorder(&z1,&z2);
for (x=x1; x<=x2; ++x)
for (y=y1; y<=y2; ++y)
for (z=z1; z<=z2; ++z) clk(upd_sheet,x,y,z);
}
result.type=EMPTY;
}
/*}}}*/
else /* wrong usage */ /*{{{*/
{
result.type=EEK;
result.u.err=mystrmalloc(_("Usage: clock(condition,location[,location])"));
}
/*}}}*/
return result;
}
/*}}}*/
/* poly */ /*{{{*/
static Token poly_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
int i;
/*}}}*/
for (i=0; i<argc; ++i) if (argc<2 || (argv[i].type!=INT && argv[i].type!=FLOAT)) /* type error */ /*{{{*/
{
result.type=EEK;
result.u.err=strcpy(malloc(strlen(_("Usage: poly(float|integer,float|integer,...)"))+1),_("Usage: poly(float|integer,float|integer,...)"));
}
/*}}}*/
else
{
Token tmp;
result=tcopy(argv[1]);
for (i=2; i<argc; ++i)
{
tmp=tmul(result,argv[0]);
tfree(&result);
result=tmp;
tmp=tadd(result,argv[i]);
tfree(&result);
result=tmp;
if (result.type==EEK) return result;
}
}
return result;
}
/*}}}*/
/* sin */ /*{{{*/
static Token sin_func(int argc, const Token argv[])
{
return sci_func(argc,argv,sin,"sin");
}
/*}}}*/
/* cos */ /*{{{*/
static Token cos_func(int argc, const Token argv[])
{
return sci_func(argc,argv,cos,"cos");
}
/*}}}*/
/* tan */ /*{{{*/
static Token tan_func(int argc, const Token argv[])
{
return sci_func(argc,argv,tan,"tan");
}
/*}}}*/
/* sinh */ /*{{{*/
static Token sinh_func(int argc, const Token argv[])
{
return sci_func(argc,argv,sinh,"sinh");
}
/*}}}*/
/* cosh */ /*{{{*/
static Token cosh_func(int argc, const Token argv[])
{
return sci_func(argc,argv,cosh,"cosh");
}
/*}}}*/
/* tanh */ /*{{{*/
static Token tanh_func(int argc, const Token argv[])
{
return sci_func(argc,argv,tanh,"tanh");
}
/*}}}*/
/* asin */ /*{{{*/
static Token asin_func(int argc, const Token argv[])
{
return sci_func(argc,argv,asin,"asin");
}
/*}}}*/
/* acos */ /*{{{*/
static Token acos_func(int argc, const Token argv[])
{
return sci_func(argc,argv,acos,"acos");
}
/*}}}*/
/* atan */ /*{{{*/
static Token atan_func(int argc, const Token argv[])
{
return sci_func(argc,argv,atan,"atan");
}
/*}}}*/
/* arsinh */ /*{{{*/
static Token arsinh_func(int argc, const Token argv[])
{
return sci_func(argc,argv,arsinh,"arsinh");
}
/*}}}*/
/* arcosh */ /*{{{*/
static Token arcosh_func(int argc, const Token argv[])
{
return sci_func(argc,argv,arcosh,"arcosh");
}
/*}}}*/
/* artanh */ /*{{{*/
static Token artanh_func(int argc, const Token argv[])
{
return sci_func(argc,argv,artanh,"artanh");
}
/*}}}*/
/* rad2deg */ /*{{{*/
static Token rad2deg_func(int argc, const Token argv[])
{
return sci_func(argc,argv,rad2deg,"rad2deg");
}
/*}}}*/
/* deg2rad */ /*{{{*/
static Token deg2rad_func(int argc, const Token argv[])
{
return sci_func(argc,argv,deg2rad,"deg2rad");
}
/*}}}*/
/* rnd */ /*{{{*/
static Token rnd_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
if (argc==0)
{
result.type=FLOAT;
result.u.flt=rand()/((double)RAND_MAX);
}
else
{
result.type=EEK;
result.u.err=mystrmalloc(_("Usage: rnd()"));
}
return result;
}
/*}}}*/
/* substr */ /*{{{*/
static Token substr_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
if (argc==3 && argv[0].type==STRING && argv[1].type==INT && argv[2].type==INT)
{
char ss[1024];
int n, l, b, e;
b = argv[1].u.integer;
e = argv[2].u.integer;
l = strlen(argv[0].u.string);
if( b < 0 ) b = 0;
if( b > l ) b = l;
if( e > l ) e = l;
n = e - b + 1;
if( n >= 1024 ) n = 1024 - 1;
if(n > 0) {
ss[n] = '\0';
strncpy(ss, argv[0].u.string + b, n);
result.type=STRING;
result.u.string=mystrmalloc(ss);
}
else {
result.type=EMPTY;
}
}
else
{
result.type=EEK;
result.u.err=mystrmalloc(_("Usage: substr(string,integer,integer)"));
}
return result;
}
/*}}}*/
/* strptime */ /*{{{*/
static Token strptime_func(int argc, const Token argv[])
{
/* variables */ /*{{{*/
Token result;
/*}}}*/
if (argc==2 && argv[0].type==STRING && argv[1].type==STRING) /* format and return string */ /*{{{*/
{
time_t t;
struct tm tm;
t=time((time_t*)0);
tm=*localtime(&t);
strptime(argv[1].u.string,argv[0].u.string,&tm);
result.u.integer=mktime(&tm);
result.type=INT;
}
/*}}}*/
else /* strftime type error */ /*{{{*/
{
result.type=EEK;
result.u.err=mystrmalloc(_("Usage: strptime(string,string)"));
}
/*}}}*/
return result;
}
/*}}}*/
/* time */ /*{{{*/
static Token time_func(int argc, const Token argv[])
{
Token result;
if (argc==0)
{
result.type=INT;
result.u.integer=time((time_t*)0);
}
else
{
result.type=EEK;
result.u.err=mystrmalloc(_("Usage: time()"));
}
return result;
}
/*}}}*/
/* table of functions */ /*{{{*/
/* The order of these entries has no influence on performance, but to stay
compatible, new entries should be appended. */
Tfunc tfunc[]=
{
{ "@", at_func },
{ "&", adr_func },
{ "x", x_func },
{ "y", y_func },
{ "z", z_func },
{ "eval", eval_func },
{ "error", error_func },
{ "string", string_func },
{ "sum", sum_func },
{ "n", n_func },
{ "int", int_func },
{ "frac", frac_func },
{ "len", len_func },
{ "min", min_func },
{ "max", max_func },
{ "abs", abs_func },
{ "$", env_func },
{ "float", float_func },
{ "strftime", strftime_func },
{ "clock", clock_func },
{ "poly", poly_func },
{ "e", e_func },
{ "log", log_func },
{ "sin", sin_func },
{ "cos", cos_func },
{ "tan", tan_func },
{ "sinh", sinh_func },
{ "cosh", cosh_func },
{ "tanh", tanh_func },
{ "asin", asin_func },
{ "acos", acos_func },
{ "atan", atan_func },
{ "arsinh", arsinh_func },
{ "arcosh", arcosh_func },
{ "artanh", artanh_func },
{ "deg2rad", deg2rad_func },
{ "rad2deg", rad2deg_func },
{ "rnd", rnd_func },
{ "substr", substr_func },
{ "strptime", strptime_func },
{ "time", time_func },
{ "", (Token (*)(int, const Token[]))0 }
};
/*}}}*/