给定一个double,我希望将它四舍五入到小数点后的给定精度点数,类似于PHP的round()函数。
我能在Dart文档中找到的最接近的东西是double.toStringAsPrecision(),但这不是我所需要的,因为它包括了精度总分中小数点前的数字。
例如,使用toStringAsPrecision(3):
0.123456789 rounds to 0.123
9.123456789 rounds to 9.12
98.123456789 rounds to 98.1
987.123456789 rounds to 987
9876.123456789 rounds to 9.88e+3
随着数字大小的增加,小数点后的精度也相应降低。
当前回答
上述解决方案没有适当地四舍五入数字。我使用:
double dp(double val, int places){
num mod = pow(10.0, places);
return ((val * mod).round().toDouble() / mod);
}
其他回答
我使用toStringAsFixed()方法将一个数字四舍五入到小数点后的特定数字 例:
double num = 22.48132906
当我四舍五入到像这样的两个数字时:
print(num.toStringAsFixed(2)) ;
结果是22.48
当我四舍五入到一个数字时,它显示出22.5
把这个扩展写在double上
extension Round on double {
double roundToPrecision(int n) {
int fac = pow(10, n).toInt();
return (this * fac).round() / fac;
}
}
从来没有想过这在Dart是如此复杂,但这是我的解决方案:
double truncateDouble(double val, int decimals) {
String valString = val.toString();
int dotIndex = valString.indexOf('.');
// not enough decimals
int totalDecimals = valString.length - dotIndex - 1;
if (totalDecimals < decimals) {
decimals = totalDecimals;
}
valString = valString.substring(0, dotIndex + decimals + 1);
return double.parse(valString);
}
var val = truncateDouble(44.999, 2);
我在double上做了这个扩展
import 'dart:math';
extension DoubleExtension on double {
/// rounds the double to a specific decimal place
double roundedPrecision(int places) {
double mod = pow(10.0, places) as double;
return ((this * mod).round().toDouble() / mod);
}
/// good for string output because it can remove trailing zeros
/// and sometimes periods. Or optionally display the exact number of trailing
/// zeros
String roundedPrecisionToString(
int places, {
bool trailingZeros = false,
}) {
double mod = pow(10.0, places) as double;
double round = ((this * mod).round().toDouble() / mod);
String doubleToString =
trailingZeros ? round.toStringAsFixed(places) : round.toString();
if (!trailingZeros) {
RegExp trailingZeros = RegExp(r'^[0-9]+.0+$');
if (trailingZeros.hasMatch(doubleToString)) {
doubleToString = doubleToString.split('.')[0];
}
}
return doubleToString;
}
String toStringNoTrailingZeros() {
String doubleToString = toString();
RegExp trailingZeros = RegExp(r'^[0-9]+.0+$');
if (trailingZeros.hasMatch(doubleToString)) {
doubleToString = doubleToString.split('.')[0];
}
return doubleToString;
}
}
这是通过的测试。
import 'package:flutter_test/flutter_test.dart';
import 'package:project_name/utils/double_extension.dart';
void main() {
group("rounded precision", () {
test("rounding to 0 place results in an int", () {
double num = 5.1234;
double num2 = 5.8234;
expect(num.roundedPrecision(0), 5);
expect(num2.roundedPrecision(0), 6);
});
test("rounding to 1 place rounds correctly to 1 place", () {
double num = 5.12;
double num2 = 5.15;
expect(num.roundedPrecision(1), 5.1);
expect(num2.roundedPrecision(1), 5.2);
});
test(
"rounding a number to a precision that is more accurate than the origional",
() {
double num = 5;
expect(num.roundedPrecision(5), 5);
});
});
group("rounded precision returns the correct string", () {
test("rounding to 0 place results in an int", () {
double num = 5.1234;
double num2 = 5.8234;
expect(num.roundedPrecisionToString(0), "5");
expect(num2.roundedPrecisionToString(0), "6");
});
test("rounding to 1 place rounds correct", () {
double num = 5.12;
double num2 = 5.15;
expect(num.roundedPrecisionToString(1), "5.1");
expect(num2.roundedPrecisionToString(1), "5.2");
});
test("rounding to 2 places rounds correct", () {
double num = 5.123;
double num2 = 5.156;
expect(num.roundedPrecisionToString(2), "5.12");
expect(num2.roundedPrecisionToString(2), "5.16");
});
test("cut off all trailing zeros (and periods)", () {
double num = 5;
double num2 = 5.03000;
expect(num.roundedPrecisionToString(5), "5");
expect(num2.roundedPrecisionToString(5), "5.03");
});
});
}
如果你想要使用特殊的舍入。您可以尝试这个函数(舍入)。
void main(List<String> arguments) {
list.map((e) {
log('list1');
rounding(e, 0.05);
rounding(e, 0.1);
rounding(e, 0.2);
rounding(e, 0.25);
rounding(e, 0.5);
rounding(e, 1);
rounding(e, 10);
}).toList();
list2.map((e) {
log('list2');
rounding(e, 0.05);
rounding(e, 0.1);
rounding(e, 0.2);
rounding(e, 0.25);
rounding(e, 0.5);
rounding(e, 1);
rounding(e, 10);
}).toList();
}
const list = [1.11, 1.22, 1.33, 1.44, 1.55, 1.66, 1.77, 1.88, 1.99];
const list2 = [2.19, 3.28, 4.37, 5.46, 6.55, 7.64, 8.73, 9.82, 10.91];
void rounding(double price, double count) {
log('-----------------------');
log('price: $price, count: $count');
double _priceRemainder = price % count;
double _someDiff = count / _priceRemainder;
log('_price: ${_priceRemainder.toStringAsFixed(2)}');
log('_pricePlus: ${_someDiff.toStringAsFixed(2)}');
if (_someDiff.toStringAsFixed(2) == '1.00') {
log('_someDiff = 1');
} else if (_someDiff > 1 && _someDiff <= 2 ||
_someDiff.toStringAsFixed(2) == '2.00') {
log('_someDiff > 1 && _someDiff <= 2 || _someDiff.toStringAsFixed(2) == 2.00');
log('ceilToDouble: $price: ${(price + (count - _priceRemainder)).toStringAsFixed(2)}');
log('floorToDouble: $price: ${(price - _priceRemainder).toStringAsFixed(2)}');
log('roundToDouble: $price: ${(price + (count - _priceRemainder)).toStringAsFixed(2)}');
} else if (_someDiff > 2) {
log('_someDiff > 2');
log('ceilToDouble: $price: ${(price + (count - _priceRemainder)).toStringAsFixed(2)}');
log('floorToDouble: $price: ${(price - _priceRemainder).toStringAsFixed(2)}');
log('roundToDouble: $price: ${(price - _priceRemainder).toStringAsFixed(2)}');
}
log('-----------------------');
}
调试控制台:
[log] price: 10.91, count: 0.05
[log] _price: 0.01
[log] _pricePlus: 5.00
[log] _someDiff > 2
[log] ceilToDouble: 10.91: 10.95
[log] floorToDouble: 10.91: 10.90
[log] roundToDouble: 10.91: 10.90
2
[log] -----------------------
[log] price: 10.91, count: 0.1
[log] _price: 0.01
[log] _pricePlus: 10.00
[log] _someDiff > 2
[log] ceilToDouble: 10.91: 11.00
[log] floorToDouble: 10.91: 10.90
[log] roundToDouble: 10.91: 10.90
2
[log] -----------------------
[log] price: 10.91, count: 0.2
[log] _price: 0.11
[log] _pricePlus: 1.82
[log] _someDiff > 1 && _someDiff <= 2 || _someDiff.toStringAsFixed(2) == 2.00
[log] ceilToDouble: 10.91: 11.00
[log] floorToDouble: 10.91: 10.80
[log] roundToDouble: 10.91: 11.00
2
[log] -----------------------
[log] price: 10.91, count: 0.25
[log] _price: 0.16
[log] _pricePlus: 1.56
[log] _someDiff > 1 && _someDiff <= 2 || _someDiff.toStringAsFixed(2) == 2.00
[log] ceilToDouble: 10.91: 11.00
[log] floorToDouble: 10.91: 10.75
[log] roundToDouble: 10.91: 11.00
2
[log] -----------------------
[log] price: 10.91, count: 0.5
[log] _price: 0.41
[log] _pricePlus: 1.22
[log] _someDiff > 1 && _someDiff <= 2 || _someDiff.toStringAsFixed(2) == 2.00
[log] ceilToDouble: 10.91: 11.00
[log] floorToDouble: 10.91: 10.50
[log] roundToDouble: 10.91: 11.00
2
[log] -----------------------
[log] price: 10.91, count: 1.0
[log] _price: 0.91
[log] _pricePlus: 1.10
[log] _someDiff > 1 && _someDiff <= 2 || _someDiff.toStringAsFixed(2) == 2.00
[log] ceilToDouble: 10.91: 11.00
[log] floorToDouble: 10.91: 10.00
[log] roundToDouble: 10.91: 11.00
2
[log] -----------------------
[log] price: 10.91, count: 10.0
[log] _price: 0.91
[log] _pricePlus: 10.99
[log] _someDiff > 2
[log] ceilToDouble: 10.91: 20.00
[log] floorToDouble: 10.91: 10.00
[log] roundToDouble: 10.91: 10.00
