c ++ long double 精确打印所有数字
c++ long double printing all digits with precision
关于我的问题,我在这里看到了 post 但不明白,因为我是 C++ 的新手。我写了一个小脚本,它从用户那里获取一个数字,脚本打印出输入数字的阶乘。
一旦我输入了更大的数字,比如 30,脚本就不会打印出所有的 digits.Output 就像 2.652528598 E+32 但是我想要的是确切的数字 265252859812191058636308480000000。有人能解释一下如何获得长 double.Thanks 中的所有数字吗提前
您可以将输出流的精度设置为任何您想要的精度,以获得您想要的结果。
http://www.cplusplus.com/reference/ios/ios_base/precision/
这是该页面的摘录以及代码示例。
Get/Set floating-point decimal precision
The floating-point precision determines the maximum number of digits to be written on insertion operations to express floating-point values. How this is interpreted depends on whether the floatfield format flag is set to a specific notation (either fixed or scientific) or it is unset (using the default notation, which is not necessarily equivalent to either fixed nor scientific).
Using the default floating-point notation, the precision field specifies the maximum number of meaningful digits to display in total counting both those before and those after the decimal point. Notice that it is not a minimum, and therefore it does not pad the displayed number with trailing zeros if the number can be displayed with less digits than the precision.
In both the fixed and scientific notations, the precision field specifies exactly how many digits to display after the decimal point, even if this includes trailing decimal zeros. The digits before the decimal point are not relevant for the precision in this case.
This decimal precision can also be modified using the parameterized manipulator setprecision.
// modify precision
#include <iostream> // std::cout, std::ios
int main () {
double f = 3.14159;
std::cout.unsetf ( std::ios::floatfield ); // floatfield not set
std::cout.precision(5);
std::cout << f << '\n';
std::cout.precision(10);
std::cout << f << '\n';
std::cout.setf( std::ios::fixed, std:: ios::floatfield ); // floatfield set to fixed
std::cout << f << '\n';
return 0;
}
可能的输出:
3.1416
3.14159
3.1415900000
Notice how the first number written is just 5 digits long, while the second is 6, but not more, even though the stream's precision is now 10. That is because precision with the default floatfield only specifies the maximum number of digits to be displayed, but not the minimum.
The third number printed displays 10 digits after the decimal point because the floatfield format flag is in this case set to fixed.
关于我的问题,我在这里看到了 post 但不明白,因为我是 C++ 的新手。我写了一个小脚本,它从用户那里获取一个数字,脚本打印出输入数字的阶乘。 一旦我输入了更大的数字,比如 30,脚本就不会打印出所有的 digits.Output 就像 2.652528598 E+32 但是我想要的是确切的数字 265252859812191058636308480000000。有人能解释一下如何获得长 double.Thanks 中的所有数字吗提前
您可以将输出流的精度设置为任何您想要的精度,以获得您想要的结果。
http://www.cplusplus.com/reference/ios/ios_base/precision/
这是该页面的摘录以及代码示例。
Get/Set floating-point decimal precision The floating-point precision determines the maximum number of digits to be written on insertion operations to express floating-point values. How this is interpreted depends on whether the
floatfieldformat flag is set to a specific notation (eitherfixedorscientific) or it is unset (using thedefaultnotation, which is not necessarily equivalent to eitherfixednorscientific).Using the default floating-point notation, the precision field specifies the maximum number of meaningful digits to display in total counting both those before and those after the decimal point. Notice that it is not a minimum, and therefore it does not pad the displayed number with trailing zeros if the number can be displayed with less digits than the precision. In both the fixed and scientific notations, the precision field specifies exactly how many digits to display after the decimal point, even if this includes trailing decimal zeros. The digits before the decimal point are not relevant for the precision in this case.
This decimal precision can also be modified using the parameterized manipulator
setprecision.
// modify precision
#include <iostream> // std::cout, std::ios
int main () {
double f = 3.14159;
std::cout.unsetf ( std::ios::floatfield ); // floatfield not set
std::cout.precision(5);
std::cout << f << '\n';
std::cout.precision(10);
std::cout << f << '\n';
std::cout.setf( std::ios::fixed, std:: ios::floatfield ); // floatfield set to fixed
std::cout << f << '\n';
return 0;
}
可能的输出:
3.1416
3.14159
3.1415900000
Notice how the first number written is just 5 digits long, while the second is 6, but not more, even though the stream's precision is now 10. That is because precision with the default
floatfieldonly specifies the maximum number of digits to be displayed, but not the minimum. The third number printed displays 10 digits after the decimal point because thefloatfieldformat flag is in this case set to fixed.