The <QtNumeric> header file provides common numeric functions. 更多...
头: | #include <QtNumeric> |
T | qAbs (const T & t ) |
(since 6.1)
typename std::enable_if_t<std::is_unsigned_v<T> || std::is_signed_v<T>, bool>
|
qAddOverflow (T v1 , T v2 , T * result ) |
quint32 | qFloatDistance (float a , float b ) |
quint64 | qFloatDistance (double a , double b ) |
int | qFpClassify (double val ) |
int | qFpClassify (float val ) |
bool | qFuzzyCompare (double p1 , double p2 ) |
bool | qFuzzyCompare (float p1 , float p2 ) |
bool | qFuzzyIsNull (double d ) |
bool | qFuzzyIsNull (float f ) |
double | qInf () |
bool | qIsFinite (double d ) |
bool | qIsFinite (float f ) |
bool | qIsInf (double d ) |
bool | qIsInf (float f ) |
bool | qIsNaN (double d ) |
bool | qIsNaN (float f ) |
(since 6.1)
typename std::enable_if_t<std::is_unsigned_v<T> || std::is_signed_v<T>, bool>
|
qMulOverflow (T v1 , T v2 , T * result ) |
double | qQNaN () |
qint64 | qRound64 (double d ) |
qint64 | qRound64 (float d ) |
int | qRound (double d ) |
int | qRound (float d ) |
double | qSNaN () |
(since 6.1)
typename std::enable_if_t<std::is_unsigned_v<T> || std::is_signed_v<T>, bool>
|
qSubOverflow (T v1 , T v2 , T * result ) |
The <QtNumeric> header file contains various numeric functions for comparing and adjusting a numeric value.
分类浮点值。
返回值的定义在
<cmath>
: returns one of the following, determined by the floating-point class of
val
:
[constexpr]
template <typename T>
T
qAbs
(const
T
&
t
)
比较 t to the 0 of type T and returns the absolute value. Thus if T is double ,那么 t is compared to (double) 0 .
范例:
int absoluteValue; int myValue = -4; absoluteValue = qAbs(myValue); // absoluteValue == 4
[since 6.1]
template <typename T>
typename
std::enable_if_t
<
std::is_unsigned_v
<
T
> ||
std::is_signed_v
<
T
>,
bool
>
qAddOverflow
(
T
v1
,
T
v2
,
T
*
result
)
Adds two values
v1
and
v2
, of a numeric type
T
and records the value in
result
. If the addition overflows the valid range for type
T
,返回
true
,否则返回
false
.
An implementation is guaranteed to be available for 8-, 16-, and 32-bit integer types, as well as integer types of the size of a pointer. Overflow math for other types, if available, is considered private API.
该函数在 Qt 6.1 引入。
Returns the number of representable floating-point numbers between a and b .
This function provides an alternative way of doing approximated comparisons of floating-point numbers similar to qFuzzyCompare (). However, it returns the distance between two numbers, which gives the caller a possibility to choose the accepted error. Errors are relative, so for instance the distance between 1.0E-5 and 1.00001E-5 will give 110, while the distance between 1.0E36 and 1.00001E36 will give 127.
This function is useful if a floating point comparison requires a certain precision. Therefore, if
a
and
b
are equal it will return 0. The maximum value it will return for 32-bit floating point numbers is 4,278,190,078. This is the distance between
-FLT_MAX
and
+FLT_MAX
.
The function does not give meaningful results if any of the arguments are
Infinite
or
NaN
. You can check for this by calling
qIsFinite
().
The return value can be considered as the "error", so if you for instance want to compare two 32-bit floating point numbers and all you need is an approximated 24-bit precision, you can use this function like this:
if (qFloatDistance(a, b) < (1 << 7)) { // The last 7 bits are not // significant // precise enough }
另请参阅 qFuzzyCompare ().
Returns the number of representable floating-point numbers between a and b .
This function serves the same purpose as
qFloatDistance(float, float)
, but returns the distance between two
double
numbers. Since the range is larger than for two
float
numbers (
[-DBL_MAX,DBL_MAX]
), the return type is quint64.
另请参阅 qFuzzyCompare ().
[constexpr]
bool
qFuzzyCompare
(
double
p1
,
double
p2
)
比较浮点值
p1
and
p2
并返回
true
若它们被认为相等,否则
false
.
Note that comparing values where either p1 or p2 is 0.0 will not work, nor does comparing values where one of the values is NaN or infinity. If one of the values is always 0.0, use qFuzzyIsNull instead. If one of the values is likely to be 0.0, one solution is to add 1.0 to both values.
// Instead of comparing with 0.0 qFuzzyCompare(0.0, 1.0e-200); // This will return false // Compare adding 1 to both values will fix the problem qFuzzyCompare(1 + 0.0, 1 + 1.0e-200); // This will return true
The two numbers are compared in a relative way, where the exactness is stronger the smaller the numbers are.
注意: 此函数是 thread-safe .
[constexpr]
bool
qFuzzyCompare
(
float
p1
,
float
p2
)
比较浮点值
p1
and
p2
并返回
true
若它们被认为相等,否则
false
.
The two numbers are compared in a relative way, where the exactness is stronger the smaller the numbers are.
注意: 此函数是 thread-safe .
[constexpr]
bool
qFuzzyIsNull
(
double
d
)
Returns true if the absolute value of d is within 0.000000000001 of 0.0.
注意: 此函数是 thread-safe .
[constexpr]
bool
qFuzzyIsNull
(
float
f
)
Returns true if the absolute value of f is within 0.00001f of 0.0.
注意: 此函数是 thread-safe .
Returns the bit pattern for an infinite number as a double.
另请参阅 qIsInf ().
返回
true
if the double
d
是有限数。
返回
true
if the float
f
是有限数。
返回
true
if the double
d
相当于无穷大。
另请参阅 qInf ().
返回
true
if the float
f
相当于无穷大。
另请参阅 qInf ().
返回
true
if the double
d
是 NaN (非数字)。
返回
true
if the float
f
是 NaN (非数字)。
[since 6.1]
template <typename T>
typename
std::enable_if_t
<
std::is_unsigned_v
<
T
> ||
std::is_signed_v
<
T
>,
bool
>
qMulOverflow
(
T
v1
,
T
v2
,
T
*
result
)
Multiplies
v1
and
v2
, and records the resulting value in
result
. If the multiplication overflows the valid range for type
T
,返回
true
,否则返回
false
.
An implementation is guaranteed to be available for 8-, 16-, and 32-bit integer types, as well as integer types of the size of a pointer. Overflow math for other types, if available, is considered private API.
该函数在 Qt 6.1 引入。
Returns the bit pattern of a quiet NaN as a double.
另请参阅 qIsNaN ().
[constexpr]
qint64
qRound64
(
double
d
)
圆整 d 到最近 64 位整数。
Rounds half away from zero (e.g. 0.5 -> 1, -0.5 -> -1).
注意: This function does not guarantee correctness for high precisions.
范例:
double valueA = 42949672960.3; double valueB = 42949672960.7; qint64 roundedValueA = qRound64(valueA); // roundedValueA = 42949672960 qint64 roundedValueB = qRound64(valueB); // roundedValueB = 42949672961
注意:
If the value
d
is outside the range of
qint64
, the behavior is undefined.
[constexpr]
qint64
qRound64
(
float
d
)
圆整 d 到最近 64 位整数。
Rounds half away from zero (e.g. 0.5f -> 1, -0.5f -> -1).
注意: This function does not guarantee correctness for high precisions.
范例:
float valueA = 42949672960.3; float valueB = 42949672960.7; qint64 roundedValueA = qRound64(valueA); // roundedValueA = 42949672960 qint64 roundedValueB = qRound64(valueB); // roundedValueB = 42949672961
注意:
If the value
d
is outside the range of
qint64
, the behavior is undefined.
[constexpr]
int
qRound
(
double
d
)
圆整 d 到最近整数。
Rounds half away from zero (e.g. 0.5 -> 1, -0.5 -> -1).
注意: This function does not guarantee correctness for high precisions.
范例:
double valueA = 2.3; double valueB = 2.7; int roundedValueA = qRound(valueA); // roundedValueA = 2 int roundedValueB = qRound(valueB); // roundedValueB = 3
注意:
If the value
d
is outside the range of
int
, the behavior is undefined.
[constexpr]
int
qRound
(
float
d
)
圆整 d 到最近整数。
Rounds half away from zero (e.g. 0.5f -> 1, -0.5f -> -1).
注意: This function does not guarantee correctness for high precisions.
范例:
float valueA = 2.3; float valueB = 2.7; int roundedValueA = qRound(valueA); // roundedValueA = 2 int roundedValueB = qRound(valueB); // roundedValueB = 3
注意:
If the value
d
is outside the range of
int
, the behavior is undefined.
Returns the bit pattern of a signalling NaN as a double.
[since 6.1]
template <typename T>
typename
std::enable_if_t
<
std::is_unsigned_v
<
T
> ||
std::is_signed_v
<
T
>,
bool
>
qSubOverflow
(
T
v1
,
T
v2
,
T
*
result
)
减去
v2
from
v1
and records the resulting value in
result
. If the subtraction overflows the valid range for type
T
,返回
true
,否则返回
false
.
An implementation is guaranteed to be available for 8-, 16-, and 32-bit integer types, as well as integer types of the size of a pointer. Overflow math for other types, if available, is considered private API.
该函数在 Qt 6.1 引入。