Beware that negative zero does not compare equal to positive zero.
(PHP 4, PHP 5, PHP 7)
bccomp — Porównuje dwie liczby o dużej precyzji
$lewy_operand
, string $prawy_operand
[, int $precyzja
= 0
] ) : int
Porównuje lewy_operand
do wartości podanej
jako prawy_operand
i zwraca wynik jako
liczbę.
lewy_operand
Lewy operand, jako łańcuch znaków.
prawy_operand
Prawy operand, jako łańcuch znaków.
precyzja
Opcjonalny argument precyzja
, używany do ustalenia
liczby cyfr po miejscu dziesiętny, które będą użyte w porównaniu.
Zwraca 0 jeśli oba operandy są równe, 1 jeśli
lewy_operand
jest większy
prawy_operand
, -1 w przeciwnym wypadku.
Przykład #1 Przykład użycia bccomp()
<?php
echo bccomp('1', '2') . "\n"; // -1
echo bccomp('1.00001', '1', 3); // 0
echo bccomp('1.00001', '1', 5); // 1
?>
BEWARE! left and right operand is string!! so number in E-notation like 9.012E-6 need to be converted with sprintf('%F') to string
Improvement of functions bcmax() and bcmin() originaly written by frank at booksku dot com
<?php
function bcmax() {
$args = func_get_args();
if (count($args)==0) return false;
$max = $args[0];
foreach($args as $value) {
if (bccomp($value, $max)==1) {
$max = $value;
}
}
return $max;
}
function bcmin() {
$args = func_get_args();
if (count($args)==0) return false;
$min = $args[0];
foreach($args as $value) {
if (bccomp($min, $value)==1) {
$min = $value;
}
}
return $min;
}
?>
Note that the above function defeats the purpose of BCMath functions, for it uses the 'conventional' < operator.
Instead, it should be:
<?php
function my_bccomp_zero($amount, $scale)
{
if (@$amount{0}=="-")
{
return bccomp($amount, '-0.0', $scale);
}
else
{
return bccomp($amount, '0.0', $scale);
}
}
?>
I made this to compare an unlimited size of numbers..
This could be useful for those without the BCMath extension.
It allows decimals, and option $Scale parameter. If $Scale isn't specified, then it'll automatically adjust to the correct number of decimals to compare.
<?php
function Comp($Num1,$Num2,$Scale=null) {
// check if they're valid positive numbers, extract the whole numbers and decimals
if(!preg_match("/^\+?(\d+)(\.\d+)?$/",$Num1,$Tmp1)||
!preg_match("/^\+?(\d+)(\.\d+)?$/",$Num2,$Tmp2)) return('0');
// remove leading zeroes from whole numbers
$Num1=ltrim($Tmp1[1],'0');
$Num2=ltrim($Tmp2[1],'0');
// first, we can just check the lengths of the numbers, this can help save processing time
// if $Num1 is longer than $Num2, return 1.. vice versa with the next step.
if(strlen($Num1)>strlen($Num2)) return(1);
else {
if(strlen($Num1)<strlen($Num2)) return(-1);
// if the two numbers are of equal length, we check digit-by-digit
else {
// remove ending zeroes from decimals and remove point
$Dec1=isset($Tmp1[2])?rtrim(substr($Tmp1[2],1),'0'):'';
$Dec2=isset($Tmp2[2])?rtrim(substr($Tmp2[2],1),'0'):'';
// if the user defined $Scale, then make sure we use that only
if($Scale!=null) {
$Dec1=substr($Dec1,0,$Scale);
$Dec2=substr($Dec2,0,$Scale);
}
// calculate the longest length of decimals
$DLen=max(strlen($Dec1),strlen($Dec2));
// append the padded decimals onto the end of the whole numbers
$Num1.=str_pad($Dec1,$DLen,'0');
$Num2.=str_pad($Dec2,$DLen,'0');
// check digit-by-digit, if they have a difference, return 1 or -1 (greater/lower than)
for($i=0;$i<strlen($Num1);$i++) {
if((int)$Num1{$i}>(int)$Num2{$i}) return(1);
else
if((int)$Num1{$i}<(int)$Num2{$i}) return(-1);
}
// if the two numbers have no difference (they're the same).. return 0
return(0);
}
}
}
$A="10.50002";
$B="10.50001";
printf(" Comp(%s,%s); // %s\r\n",$A,$B, Comp($A,$B));
printf("BCComp(%s,%s); // %s\r\n",$A,$B,BCComp($A,$B));
/*
Comp(10.50002,10.50001); // 1
BCComp(10.50002,10.50001); // 0 (BCComp has a default decimal scale of 0, unless specified)
*/
?>
I tried to make this behave like BCComp..
The only difference being mine will compare the decimals by default.. BCComp won't..
.. unless, of course, you specify the amount of decimals to include in the process.
Enjoy,
Nitrogen.
You can wrap this function with version_compare() to have support for operators and friendlier (boolean) return values.
<?php
function _bccomp($a, $b, $operator = '=')
{
return version_compare(bccomp($a, $b), 0, $operator);
}
var_dump(_bccomp(5, 3, '>=')); // true
?>
Still works with arbitrary length numbers.
I slapped together min() and max() functions using bccomp(). While min() and max() only take an arbitrary number of args (i.e. max(1, 5, 1235, 12934, 66)) bccomp only takes 2.
Note that this doesn't take into account $scale.
<?php
function bcmax() {
$max = null;
foreach(func_get_args() as $value) {
if ($max == null) {
$max = $value;
} else if (bccomp($max, $value) < 0) {
$max = $value;
}
}
return $max;
}
function bcmin() {
$min = null;
foreach(func_get_args() as $value) {
if ($min == null) {
$min = $value;
} else if (bccomp($min, $value) > 0) {
$min = $value;
}
}
return $min;
}
?>
bccomp - doesn't compare by default more then 16 characters
$number = '-4.444444444444444444444444444444444444444444445';
$precision = 16;
var_dump(bccomp(bcadd($number, '0', $precision), bcadd($number, '0', $precision+1)));
//outputs 0 on PHP 5.3
use strcomp