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|
/*
+----------------------------------------------------------------------+
| PHP version 4.0 |
+----------------------------------------------------------------------+
| Copyright (c) 1997-2001 The PHP Group |
+----------------------------------------------------------------------+
| This source file is subject to version 2.02 of the PHP license, |
| that is bundled with this package in the file LICENSE, and is |
| available at through the world-wide-web at |
| http://www.php.net/license/2_02.txt. |
| If you did not receive a copy of the PHP license and are unable to |
| obtain it through the world-wide-web, please send a note to |
| license@php.net so we can mail you a copy immediately. |
+----------------------------------------------------------------------+
| Authors: Jim Winstead (jimw@php.net) |
| Stig Sæther Bakken <ssb@guardian.no> |
| Zeev Suraski <zeev@zend.com> |
| PHP 4.0 patches by Thies C. Arntzen (thies@thieso.net) |
+----------------------------------------------------------------------+
*/
/* $Id$ */
#include "php.h"
#include "php_math.h"
#include <math.h>
#include <float.h>
#ifndef M_PI
#define M_PI 3.14159265358979323846
#endif
char *_php_math_number_format(double, int, char ,char);
/* {{{ proto int abs(int number)
Return the absolute value of the number */
PHP_FUNCTION(abs)
{
zval **value;
if (ZEND_NUM_ARGS()!=1||zend_get_parameters_ex(1,&value)==FAILURE) {
WRONG_PARAM_COUNT;
}
convert_scalar_to_number_ex(value);
if ((*value)->type == IS_DOUBLE) {
RETURN_DOUBLE(fabs((*value)->value.dval));
} else if ((*value)->type == IS_LONG) {
RETURN_LONG((*value)->value.lval < 0 ? -(*value)->value.lval : (*value)->value.lval);
}
RETURN_FALSE;
}
/* }}} */
/* {{{ proto double ceil(double number)
Returns the next highest integer value of the number */
PHP_FUNCTION(ceil)
{
zval **value;
if (ZEND_NUM_ARGS()!=1||zend_get_parameters_ex(1,&value)==FAILURE) {
WRONG_PARAM_COUNT;
}
convert_scalar_to_number_ex(value);
if ((*value)->type == IS_DOUBLE) {
RETURN_DOUBLE(ceil((*value)->value.dval));
} else if ((*value)->type == IS_LONG) {
RETURN_LONG((*value)->value.lval);
}
RETURN_FALSE;
}
/* }}} */
/* {{{ proto double floor(double number)
Returns the next lowest integer value from the number */
PHP_FUNCTION(floor) {
zval **value;
if (ZEND_NUM_ARGS()!=1||zend_get_parameters_ex(1,&value)==FAILURE) {
WRONG_PARAM_COUNT;
}
convert_scalar_to_number_ex(value);
if ((*value)->type == IS_DOUBLE) {
RETURN_DOUBLE(floor((*value)->value.dval));
} else if ((*value)->type == IS_LONG) {
RETURN_LONG((*value)->value.lval);
}
RETURN_FALSE;
}
/* }}} */
/* {{{ proto double round(double number [, int precision])
Returns the number rounded to specified precision. */
PHP_FUNCTION(round)
{
zval **value, **precision;
int places = 0;
double f, return_val;
if (ZEND_NUM_ARGS() < 1 || ZEND_NUM_ARGS() > 2 ||
zend_get_parameters_ex(ZEND_NUM_ARGS(), &value, &precision) == FAILURE) {
WRONG_PARAM_COUNT;
}
if (ZEND_NUM_ARGS() == 2) {
convert_to_long_ex(precision);
places = (int) Z_LVAL_PP(precision);
}
convert_scalar_to_number_ex(value);
switch (Z_TYPE_PP(value)) {
case IS_LONG:
/* Simple case - long that doesn't need to be rounded. */
if (places >= 0) {
RETURN_DOUBLE((double) Z_LVAL_PP(value));
}
/* break omitted intentionally */
case IS_DOUBLE:
return_val = (Z_TYPE_PP(value) == IS_LONG) ?
(double)Z_LVAL_PP(value) : Z_DVAL_PP(value);
f = pow(10.0, places);
return_val *= f;
if (return_val >= 0.0)
return_val = floor(return_val + 0.5);
else
return_val = ceil(return_val - 0.5);
return_val /= f;
RETURN_DOUBLE(return_val);
break;
default:
RETURN_FALSE;
break;
}
}
/* }}} */
/* {{{ proto double sin(double number)
Returns the sine of the number in radians */
PHP_FUNCTION(sin)
{
zval **num;
if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &num) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_double_ex(num);
return_value->value.dval = sin((*num)->value.dval);
return_value->type = IS_DOUBLE;
}
/* }}} */
/* {{{ proto double cos(double number)
Returns the cosine of the number in radians */
PHP_FUNCTION(cos)
{
zval **num;
if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &num) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_double_ex(num);
return_value->value.dval = cos((*num)->value.dval);
return_value->type = IS_DOUBLE;
}
/* }}} */
/* {{{ proto double tan(double number)
Returns the tangent of the number in radians */
PHP_FUNCTION(tan)
{
zval **num;
if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &num) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_double_ex(num);
return_value->value.dval = tan((*num)->value.dval);
return_value->type = IS_DOUBLE;
}
/* }}} */
/* {{{ proto double asin(double number)
Returns the arc sine of the number in radians */
PHP_FUNCTION(asin)
{
zval **num;
if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &num) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_double_ex(num);
return_value->value.dval = asin((*num)->value.dval);
return_value->type = IS_DOUBLE;
}
/* }}} */
/* {{{ proto double acos(double number)
Return the arc cosine of the number in radians */
PHP_FUNCTION(acos)
{
zval **num;
if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &num) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_double_ex(num);
return_value->value.dval = acos((*num)->value.dval);
return_value->type = IS_DOUBLE;
}
/* }}} */
/* {{{ proto double atan(double number)
Returns the arc tangent of the number in radians */
PHP_FUNCTION(atan)
{
zval **num;
if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &num) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_double_ex(num);
return_value->value.dval = atan((*num)->value.dval);
return_value->type = IS_DOUBLE;
}
/* }}} */
/* {{{ proto double atan2(double y, double x)
Returns the arc tangent of y/x, with the resulting quadrant determined by the signs of y and x */
PHP_FUNCTION(atan2)
{
zval **num1, **num2;
if (ZEND_NUM_ARGS() != 2 || zend_get_parameters_ex(2, &num1, &num2) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_double_ex(num1);
convert_to_double_ex(num2);
return_value->value.dval = atan2((*num1)->value.dval,(*num2)->value.dval);
return_value->type = IS_DOUBLE;
}
/* }}} */
/* {{{ proto double pi(void)
Returns an approximation of pi */
PHP_FUNCTION(pi)
{
return_value->value.dval = M_PI;
return_value->type = IS_DOUBLE;
}
/* }}} */
/* {{{ proto double pow(double base, double exponent)
Returns base raised to the power of exponent */
PHP_FUNCTION(pow)
{
zval **num1, **num2;
if (ZEND_NUM_ARGS() != 2 || zend_get_parameters_ex(2,&num1,&num2) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_double_ex(num1);
convert_to_double_ex(num2);
RETURN_DOUBLE(pow((*num1)->value.dval, (*num2)->value.dval));
}
/* }}} */
/* {{{ proto double exp(double number)
Returns e raised to the power of the number */
PHP_FUNCTION(exp)
{
zval **num;
if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &num) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_double_ex(num);
return_value->value.dval = exp((*num)->value.dval);
return_value->type = IS_DOUBLE;
}
/* }}} */
/* {{{ proto double log(double number)
Returns the natural logarithm of the number */
PHP_FUNCTION(log)
{
zval **num;
if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &num) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_double_ex(num);
return_value->value.dval = log((*num)->value.dval);
return_value->type = IS_DOUBLE;
}
/* }}} */
/* {{{ proto double log10(double number)
Returns the base-10 logarithm of the number */
PHP_FUNCTION(log10)
{
zval **num;
if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &num) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_double_ex(num);
return_value->value.dval = log10((*num)->value.dval);
return_value->type = IS_DOUBLE;
}
/* }}} */
/* {{{ proto double sqrt(double number)
Returns the square root of the number */
PHP_FUNCTION(sqrt)
{
zval **num;
if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &num) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_double_ex(num);
return_value->value.dval = sqrt((*num)->value.dval);
return_value->type = IS_DOUBLE;
}
/* }}} */
/* {{{ proto double deg2rad(double number)
Converts the number in degrees to the radian equivalent */
PHP_FUNCTION(deg2rad)
{
zval **deg;
if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, °) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_double_ex(deg);
RETVAL_DOUBLE(((*deg)->value.dval / 180.0) * M_PI);
}
/* }}} */
/* {{{ proto double rad2deg(double number)
Converts the radian number to the equivalent number in degrees */
PHP_FUNCTION(rad2deg)
{
zval **rad;
if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &rad) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_double_ex(rad);
RETVAL_DOUBLE(((*rad)->value.dval / M_PI) * 180);
}
/* }}} */
/* {{{ _php_math_basetolong */
/*
* Convert a string representation of a base(2-36) number to a long.
*/
PHPAPI long
_php_math_basetolong(zval *arg, int base) {
long mult = 1, num = 0, digit;
int i;
char c, *s;
if (arg->type != IS_STRING || base < 2 || base > 36) {
return 0;
}
s = arg->value.str.val;
for (i = arg->value.str.len - 1; i >= 0; i--, mult *= base) {
c = toupper(s[i]);
if (c >= '0' && c <= '9') {
digit = (c - '0');
} else if (c >= 'A' && c <= 'Z') {
digit = (c - 'A' + 10);
} else {
continue;
}
if (digit >= base) {
continue;
}
num += mult * digit;
}
return num;
}
/* }}} */
/* {{{ _php_math_longtobase */
/*
* Convert a long to a string containing a base(2-36) representation of
* the number.
*/
PHPAPI char *
_php_math_longtobase(zval *arg, int base)
{
static char digits[] = "0123456789abcdefghijklmnopqrstuvwxyz";
char *result, *ptr, *ret;
int len, digit;
unsigned long value;
if (arg->type != IS_LONG || base < 2 || base > 36) {
return empty_string;
}
value = arg->value.lval;
/* allocates space for the longest possible result with the lowest base */
len = (sizeof(arg->value.lval) * 8) + 1;
result = emalloc((sizeof(arg->value.lval) * 8) + 1);
ptr = result + len - 1;
*ptr-- = '\0';
do {
digit = value % base;
*ptr = digits[digit];
value /= base;
}
while (ptr-- > result && value);
ptr++;
ret = estrdup(ptr);
efree(result);
return ret;
}
/* }}} */
/* {{{ proto int bindec(string binary_number)
Returns the decimal equivalent of the binary number */
PHP_FUNCTION(bindec)
{
zval **arg;
long ret;
if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &arg) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_string_ex(arg);
ret = _php_math_basetolong(*arg, 2);
RETVAL_LONG(ret);
}
/* }}} */
/* {{{ proto int hexdec(string hexadecimal_number)
Returns the decimal equivalent of the hexadecimal number */
PHP_FUNCTION(hexdec)
{
zval **arg;
long ret;
if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &arg) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_string_ex(arg);
ret = _php_math_basetolong(*arg, 16);
RETVAL_LONG(ret);
}
/* }}} */
/* {{{ proto int octdec(string octal_number)
Returns the decimal equivalent of an octal string */
PHP_FUNCTION(octdec)
{
zval **arg;
long ret;
if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &arg) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_string_ex(arg);
ret = _php_math_basetolong(*arg, 8);
RETVAL_LONG(ret);
}
/* }}} */
/* {{{ proto string decbin(int decimal_number)
Returns a string containing a binary representation of the number */
PHP_FUNCTION(decbin)
{
zval **arg;
char *result;
if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &arg) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_long_ex(arg);
result = _php_math_longtobase(*arg, 2);
return_value->type = IS_STRING;
return_value->value.str.len = strlen(result);
return_value->value.str.val = result;
}
/* }}} */
/* {{{ proto string decoct(int decimal_number)
Returns a string containing an octal representation of the given number */
PHP_FUNCTION(decoct)
{
zval **arg;
char *result;
if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &arg) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_long_ex(arg);
result = _php_math_longtobase(*arg, 8);
return_value->type = IS_STRING;
return_value->value.str.len = strlen(result);
return_value->value.str.val = result;
}
/* }}} */
/* {{{ proto string dechex(int decimal_number)
Returns a string containing a hexadecimal representation of the given number */
PHP_FUNCTION(dechex)
{
zval **arg;
char *result;
if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &arg) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_long_ex(arg);
result = _php_math_longtobase(*arg, 16);
return_value->type = IS_STRING;
return_value->value.str.len = strlen(result);
return_value->value.str.val = result;
}
/* }}} */
/* {{{ proto string base_convert(string number, int frombase, int tobase)
Converts a number in a string from any base <= 36 to any base <= 36.
*/
PHP_FUNCTION(base_convert)
{
zval **number, **frombase, **tobase, temp;
char *result;
if (ZEND_NUM_ARGS() != 3 || zend_get_parameters_ex(3, &number, &frombase, &tobase) == FAILURE) {
WRONG_PARAM_COUNT;
}
convert_to_string_ex(number);
convert_to_long_ex(frombase);
convert_to_long_ex(tobase);
if ((*frombase)->value.lval < 2 || (*frombase)->value.lval > 36) {
php_error(E_WARNING, "base_convert: invalid `from base' (%d)",(*frombase)->value.lval);
RETURN_FALSE;
}
if ((*tobase)->value.lval < 2 || (*tobase)->value.lval > 36) {
php_error(E_WARNING, "base_convert: invalid `to base' (%d)",(*tobase)->value.lval);
RETURN_FALSE;
}
temp.type = IS_LONG;
temp.value.lval = _php_math_basetolong(*number, (*frombase)->value.lval);
result = _php_math_longtobase(&temp, (*tobase)->value.lval);
RETVAL_STRING(result, 0);
}
/* }}} */
/* {{{ _php_math_number_format */
char *_php_math_number_format(double d,int dec,char dec_point,char thousand_sep)
{
char *tmpbuf,*resbuf;
char *s,*t; /* source, target */
int tmplen,reslen=0;
int count=0;
int is_negative=0;
if (d<0) {
is_negative=1;
d = -d;
}
dec = MAX(0,dec);
tmpbuf = (char *) emalloc(1+DBL_MAX_10_EXP+1+dec+1);
tmplen=sprintf(tmpbuf,"%.*f",dec,d);
if (!isdigit((int)tmpbuf[0])) {
return tmpbuf;
}
if (dec) {
reslen = dec+1 + (tmplen-dec-1) + ((thousand_sep) ? (tmplen-1-dec-1)/3 : 0);
} else {
reslen = tmplen+((thousand_sep) ? (tmplen-1)/3 : 0);
}
if (is_negative) {
reslen++;
}
resbuf = (char *) emalloc(reslen+1);
s = tmpbuf+tmplen-1;
t = resbuf+reslen;
*t-- = 0;
if (dec) {
while (isdigit((int)*s)) {
*t-- = *s--;
}
*t-- = dec_point; /* copy that dot */
s--;
}
while(s>=tmpbuf) {
*t-- = *s--;
if (thousand_sep && (++count%3)==0 && s>=tmpbuf) {
*t-- = thousand_sep;
}
}
if (is_negative) {
*t-- = '-';
}
efree(tmpbuf);
return resbuf;
}
/* }}} */
/* {{{ proto string number_format(double number [, int num_decimal_places [, string dec_seperator, string thousands_seperator]])
Formats a number with grouped thousands */
PHP_FUNCTION(number_format)
{
zval **num,**dec,**t_s,**d_p;
char thousand_sep=',', dec_point='.';
switch(ZEND_NUM_ARGS()) {
case 1:
if (zend_get_parameters_ex(1, &num)==FAILURE) {
RETURN_FALSE;
}
convert_to_double_ex(num);
RETURN_STRING(_php_math_number_format((*num)->value.dval,0,dec_point,thousand_sep),0);
break;
case 2:
if (zend_get_parameters_ex(2, &num, &dec)==FAILURE) {
RETURN_FALSE;
}
convert_to_double_ex(num);
convert_to_long_ex(dec);
RETURN_STRING(_php_math_number_format((*num)->value.dval,(*dec)->value.lval,dec_point,thousand_sep),0);
break;
case 4:
if (zend_get_parameters_ex(4, &num, &dec, &d_p, &t_s)==FAILURE) {
RETURN_FALSE;
}
convert_to_double_ex(num);
convert_to_long_ex(dec);
convert_to_string_ex(d_p);
convert_to_string_ex(t_s);
if ((*d_p)->value.str.len==1) {
dec_point=(*d_p)->value.str.val[0];
}
if ((*t_s)->value.str.len==1) {
thousand_sep=(*t_s)->value.str.val[0];
} else if((*t_s)->value.str.len==0) {
thousand_sep=0;
}
RETURN_STRING(_php_math_number_format((*num)->value.dval,(*dec)->value.lval,dec_point,thousand_sep),0);
break;
default:
WRONG_PARAM_COUNT;
break;
}
}
/* }}} */
/*
* Local variables:
* tab-width: 4
* c-basic-offset: 4
* End:
*/
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