/* +----------------------------------------------------------------------+ | PHP Version 4 | +----------------------------------------------------------------------+ | Copyright (c) 1997-2002 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 | | Stig Sæther Bakken | | Zeev Suraski | | PHP 4.0 patches by Thies C. Arntzen | +----------------------------------------------------------------------+ */ /* $Id$ */ #include "php.h" #include "php_math.h" #include #include #ifndef M_PI #define M_PI 3.14159265358979323846 #endif /* {{{ 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 (Z_TYPE_PP(value) == IS_DOUBLE) { RETURN_DOUBLE(fabs(Z_DVAL_PP(value))); } else if (Z_TYPE_PP(value) == IS_LONG) { if (Z_LVAL_PP(value) == LONG_MIN) { RETURN_DOUBLE(-(double)LONG_MIN); } else { RETURN_LONG(Z_LVAL_PP(value) < 0 ? -Z_LVAL_PP(value) : Z_LVAL_PP(value)); } } RETURN_FALSE; } /* }}} */ /* {{{ proto float ceil(float 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 (Z_TYPE_PP(value) == IS_DOUBLE) { RETURN_DOUBLE(ceil(Z_DVAL_PP(value))); } else if (Z_TYPE_PP(value) == IS_LONG) { convert_to_double_ex(value); RETURN_DOUBLE(Z_DVAL_PP(value)); } RETURN_FALSE; } /* }}} */ /* {{{ proto float floor(float 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 (Z_TYPE_PP(value) == IS_DOUBLE) { RETURN_DOUBLE(floor(Z_DVAL_PP(value))); } else if (Z_TYPE_PP(value) == IS_LONG) { convert_to_double_ex(value); RETURN_DOUBLE(Z_DVAL_PP(value)); } RETURN_FALSE; } /* }}} */ /* {{{ proto float round(float 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, (double) 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 float sin(float 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); Z_DVAL_P(return_value) = sin(Z_DVAL_PP(num)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ /* {{{ proto float cos(float 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); Z_DVAL_P(return_value) = cos(Z_DVAL_PP(num)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ /* {{{ proto float tan(float 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); Z_DVAL_P(return_value) = tan(Z_DVAL_PP(num)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ /* {{{ proto float asin(float 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); Z_DVAL_P(return_value) = asin(Z_DVAL_PP(num)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ /* {{{ proto float acos(float 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); Z_DVAL_P(return_value) = acos(Z_DVAL_PP(num)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ /* {{{ proto float atan(float 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); Z_DVAL_P(return_value) = atan(Z_DVAL_PP(num)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ /* {{{ proto float atan2(float y, float 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); Z_DVAL_P(return_value) = atan2(Z_DVAL_PP(num1), Z_DVAL_PP(num2)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ /* {{{ proto float sinh(float number) Returns the hyperbolic sine of the number, defined as (exp(number) - exp(-number))/2 */ PHP_FUNCTION(sinh) { zval **num; if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &num) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_double_ex(num); Z_DVAL_P(return_value) = sinh(Z_DVAL_PP(num)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ /* {{{ proto float cosh(float number) Returns the hyperbolic cosine of the number, defined as (exp(number) + exp(-number))/2 */ PHP_FUNCTION(cosh) { zval **num; if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &num) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_double_ex(num); Z_DVAL_P(return_value) = cosh(Z_DVAL_PP(num)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ /* {{{ proto float tanh(float number) Returns the hyperbolic tangent of the number, defined as sinh(number)/cosh(number) */ PHP_FUNCTION(tanh) { zval **num; if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &num) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_double_ex(num); Z_DVAL_P(return_value) = tanh(Z_DVAL_PP(num)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ #ifndef PHP_WIN32 /* {{{ proto float asinh(float number) Returns the inverse hyperbolic sine of the number, i.e. the value whose hyperbolic sine is number */ PHP_FUNCTION(asinh) { zval **num; if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &num) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_double_ex(num); Z_DVAL_P(return_value) = asinh(Z_DVAL_PP(num)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ /* {{{ proto float acosh(float number) Returns the inverse hyperbolic cosine of the number, i.e. the value whose hyperbolic cosine is number */ PHP_FUNCTION(acosh) { zval **num; if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &num) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_double_ex(num); Z_DVAL_P(return_value) = acosh(Z_DVAL_PP(num)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ /* {{{ proto float atanh(float number) Returns the inverse hyperbolic tangent of the number, i.e. the value whose hyperbolic tangent is number */ PHP_FUNCTION(atanh) { zval **num; if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &num) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_double_ex(num); Z_DVAL_P(return_value) = atanh(Z_DVAL_PP(num)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ #endif /* {{{ proto float pi(void) Returns an approximation of pi */ PHP_FUNCTION(pi) { Z_DVAL_P(return_value) = M_PI; Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ /* {{{ proto bool is_finite(float val) Returns whether argument is finite */ PHP_FUNCTION(is_finite) { double dval; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "d", &dval) == FAILURE) { return; } RETURN_BOOL(zend_finite(dval)); } /* }}} */ /* {{{ proto bool is_infinite(float val) Returns whether argument is infinite */ PHP_FUNCTION(is_infinite) { double dval; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "d", &dval) == FAILURE) { return; } RETURN_BOOL(zend_isinf(dval)); } /* }}} */ /* {{{ proto bool is_nan(float val) Returns whether argument is not a number */ PHP_FUNCTION(is_nan) { double dval; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "d", &dval) == FAILURE) { return; } RETURN_BOOL(zend_isnan(dval)); } /* }}} */ /* {{{ proto number pow(number base, number exponent) Returns base raised to the power of exponent. Returns integer result when possible */ PHP_FUNCTION(pow) { zval *zbase, *zexp; double dval; zend_bool wantlong; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "z/z/", &zbase, &zexp) == FAILURE) { return; } /* make sure we're dealing with numbers */ convert_scalar_to_number(zbase TSRMLS_CC); convert_scalar_to_number(zexp TSRMLS_CC); /* if both base and exponent were longs, we'll try to get a long out */ wantlong = Z_TYPE_P(zbase) == IS_LONG && Z_TYPE_P(zexp ) == IS_LONG && Z_LVAL_P(zexp) >= 0; convert_to_double(zbase); convert_to_double(zexp); /* go ahead and calculate things. */ dval = pow(Z_DVAL_P(zbase),Z_DVAL_P(zexp)); /* if we wanted a long, and dval < LONG_MAX, it must be a long. */ if (wantlong && zend_finite(dval) && dval <= (double)LONG_MAX) { RETURN_LONG((long)dval); } /* otherwise just return the double. */ RETURN_DOUBLE(dval); } /* }}} */ /* {{{ proto float exp(float 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); Z_DVAL_P(return_value) = exp(Z_DVAL_PP(num)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ #ifndef PHP_WIN32 /* {{{ proto float expm1(float number) Returns exp(number) - 1, computed in a way that accurate even when the value of number is close to zero */ /* WARNING: this function is expermental: it could change its name or disappear in the next version of PHP! */ PHP_FUNCTION(expm1) { zval **num; if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &num) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_double_ex(num); Z_DVAL_P(return_value) = expm1(Z_DVAL_PP(num)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ /* {{{ proto float log1p(float number) Returns log(1 + number), computed in a way that accurate even when the value of number is close to zero */ /* WARNING: this function is expermental: it could change its name or disappear in the next version of PHP! */ PHP_FUNCTION(log1p) { zval **num; if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &num) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_double_ex(num); Z_DVAL_P(return_value) = log1p(Z_DVAL_PP(num)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ #endif /* {{{ proto float log(float 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); Z_DVAL_P(return_value) = log(Z_DVAL_PP(num)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ /* {{{ proto float log10(float 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); Z_DVAL_P(return_value) = log10(Z_DVAL_PP(num)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ /* {{{ proto float sqrt(float 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); Z_DVAL_P(return_value) = sqrt(Z_DVAL_PP(num)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ /* {{{ proto float hypot(float num1, float num2) Returns sqrt(num1*num1 + num2*num2) */ /* WARNING: this function is expermental: it could change its name or disappear in the next version of PHP! */ PHP_FUNCTION(hypot) { 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); Z_DVAL_P(return_value) = hypot(Z_DVAL_PP(num1), Z_DVAL_PP(num2)); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ /* {{{ proto float deg2rad(float 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((Z_DVAL_PP(deg) / 180.0) * M_PI); } /* }}} */ /* {{{ proto float rad2deg(float 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((Z_DVAL_PP(rad) / 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 num = 0, digit, onum; int i; char c, *s; if (Z_TYPE_P(arg) != IS_STRING || base < 2 || base > 36) { return 0; } s = Z_STRVAL_P(arg); for (i = Z_STRLEN_P(arg); i > 0; i--) { c = *s++; digit = (c >= '0' && c <= '9') ? c - '0' : (c >= 'A' && c <= 'Z') ? c - 'A' + 10 : (c >= 'a' && c <= 'z') ? c - 'a' + 10 : base; if (digit >= base) { continue; } onum = num; num = num * base + digit; if (num > onum) continue; php_error(E_WARNING, "base_to_long: number '%s' is too big to fit in long", s); return LONG_MAX; } return num; } /* }}} */ /* {{{ _php_math_longtobase */ /* {{{ _php_math_basetozval */ /* * Convert a string representation of a base(2-36) number to a zval. */ PHPAPI int _php_math_basetozval(zval *arg, int base, zval *ret) { long num = 0, digit, onum; double fnum; int i; int mode = 0; char c, *s; if (Z_TYPE_P(arg) != IS_STRING || base < 2 || base > 36) { return FAILURE; } s = Z_STRVAL_P(arg); for (i = Z_STRLEN_P(arg); i > 0; i--) { c = *s++; digit = (c >= '0' && c <= '9') ? c - '0' : (c >= 'A' && c <= 'Z') ? c - 'A' + 10 : (c >= 'a' && c <= 'z') ? c - 'a' + 10 : base; if (digit >= base) continue; switch (mode) { case 0: /* Integer */ onum = num; num = num * base + digit; if (num > onum) break; /* No overflow, continue */ fnum = onum; mode = 1; /* fall-through */ case 1: /* Float */ fnum = fnum * base + digit; } } if (mode == 1) { ZVAL_DOUBLE(ret, fnum); } else { ZVAL_LONG(ret, num); } return SUCCESS; } /* }}} */ /* {{{ _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 buf[(sizeof(unsigned long) << 3) + 1]; char *ptr, *end; unsigned long value; if (Z_TYPE_P(arg) != IS_LONG || base < 2 || base > 36) { return empty_string; } value = Z_LVAL_P(arg); end = ptr = buf + sizeof(buf) - 1; *ptr = '\0'; do { *--ptr = digits[value % base]; value /= base; } while (ptr > buf && value); return estrndup(ptr, end - ptr); } /* }}} */ /* {{{ _php_math_zvaltobase */ /* * Convert a zval to a string containing a base(2-36) representation of * the number. */ PHPAPI char * _php_math_zvaltobase(zval *arg, int base) { static char digits[] = "0123456789abcdefghijklmnopqrstuvwxyz"; if ((Z_TYPE_P(arg) != IS_LONG && Z_TYPE_P(arg) != IS_DOUBLE) || base < 2 || base > 36) { return empty_string; } if (Z_TYPE_P(arg) == IS_DOUBLE) { double fvalue = floor(Z_DVAL_P(arg)); /* floor it just in case */ char *ptr, *end; char buf[(sizeof(double) << 3) + 1]; /* Don't try to convert +/- infinity */ if (fvalue == HUGE_VAL || fvalue == -HUGE_VAL) { php_error(E_WARNING, "Number too large in %s() call", get_active_function_name(TSRMLS_C)); return empty_string; } end = ptr = buf + sizeof(buf) - 1; *ptr = '\0'; do { *--ptr = digits[(int) fmod(fvalue, base)]; fvalue /= base; } while (ptr > buf && fabs(fvalue) >= 1); return estrndup(ptr, end - ptr); } return _php_math_longtobase(arg, base); } /* }}} */ /* {{{ proto int bindec(string binary_number) Returns the decimal equivalent of the binary number */ PHP_FUNCTION(bindec) { zval **arg; if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &arg) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_string_ex(arg); if(_php_math_basetozval(*arg, 2, return_value) != SUCCESS) { RETURN_FALSE; } } /* }}} */ /* {{{ proto int hexdec(string hexadecimal_number) Returns the decimal equivalent of the hexadecimal number */ PHP_FUNCTION(hexdec) { zval **arg; if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &arg) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_string_ex(arg); if(_php_math_basetozval(*arg, 16, return_value) != SUCCESS) { RETURN_FALSE; } } /* }}} */ /* {{{ proto int octdec(string octal_number) Returns the decimal equivalent of an octal string */ PHP_FUNCTION(octdec) { zval **arg; if (ZEND_NUM_ARGS() != 1 || zend_get_parameters_ex(1, &arg) == FAILURE) { WRONG_PARAM_COUNT; } convert_to_string_ex(arg); if(_php_math_basetozval(*arg, 8, return_value) != SUCCESS) { RETURN_FALSE; } } /* }}} */ /* {{{ 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); Z_TYPE_P(return_value) = IS_STRING; Z_STRLEN_P(return_value) = strlen(result); Z_STRVAL_P(return_value) = 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); Z_TYPE_P(return_value) = IS_STRING; Z_STRLEN_P(return_value) = strlen(result); Z_STRVAL_P(return_value) = 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); Z_TYPE_P(return_value) = IS_STRING; Z_STRLEN_P(return_value) = strlen(result); Z_STRVAL_P(return_value) = 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 (Z_LVAL_PP(frombase) < 2 || Z_LVAL_PP(frombase) > 36) { php_error(E_WARNING, "base_convert: invalid `from base' (%d)", Z_LVAL_PP(frombase)); RETURN_FALSE; } if (Z_LVAL_PP(tobase) < 2 || Z_LVAL_PP(tobase) > 36) { php_error(E_WARNING, "base_convert: invalid `to base' (%d)", Z_LVAL_PP(tobase)); RETURN_FALSE; } if(_php_math_basetozval(*number, Z_LVAL_PP(frombase), &temp) != SUCCESS) { RETURN_FALSE; } result = _php_math_zvaltobase(&temp, Z_LVAL_PP(tobase)); RETVAL_STRING(result, 0); } /* }}} */ /* {{{ _php_math_number_format */ PHPAPI 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(float 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(Z_DVAL_PP(num), 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(Z_DVAL_PP(num), Z_LVAL_PP(dec), 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 (Z_STRLEN_PP(d_p)==1) { dec_point=Z_STRVAL_PP(d_p)[0]; } if (Z_STRLEN_PP(t_s)==1) { thousand_sep=Z_STRVAL_PP(t_s)[0]; } else if(Z_STRLEN_PP(t_s)==0) { thousand_sep=0; } RETURN_STRING(_php_math_number_format(Z_DVAL_PP(num), Z_LVAL_PP(dec), dec_point, thousand_sep), 0); break; default: WRONG_PARAM_COUNT; break; } } /* }}} */ /* {{{ proto float fmod(float x, float y) Returns the remainder of dividing x by y as a float */ PHP_FUNCTION(fmod) { double num1, num2; if (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, "dd", &num1, &num2) == FAILURE) { return; } Z_DVAL_P(return_value) = fmod(num1, num2); Z_TYPE_P(return_value) = IS_DOUBLE; } /* }}} */ /* * Local variables: * tab-width: 4 * c-basic-offset: 4 * End: * vim600: sw=4 ts=4 fdm=marker * vim<600: sw=4 ts=4 */