Math functions.
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double | ceilDecimal (double x, int decPow) |
| rounds x up to the next decimal power 10 ^ decPow More...
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double | roundDecimal (double x, int decPow) |
| rounds x to the next decimal power 10 ^ decPow More...
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double | intervalTransformation (double x, double left1, double right1, double left2, double right2) |
| transforms point x of interval [left1,right1] into interval [left2,right2] More...
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double | linear2log (double x) |
| Transforms a number from linear to log10 scale. Avoids negative logarithms by adding 1. More...
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double | log2linear (double x) |
| Transforms a number from log10 to to linear scale. Subtracts the 1 added by linear2log(double) More...
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bool | isOdd (UInt x) |
| Returns true if the given integer is odd. More...
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template<typename T > |
T | round (T x) |
| Rounds the value. More...
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bool | approximatelyEqual (double a, double b, double tol) |
| Returns if a is approximately equal b , allowing a tolerance of tol . More...
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template<typename T > |
T | gcd (T a, T b) |
| Returns the greatest common divisor (gcd) of two numbers by applying the Euclidean algorithm. More...
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template<typename T > |
T | gcd (T a, T b, T &u1, T &u2) |
| Returns the greatest common divisor by applying the extended Euclidean algorithm (Knuth TAoCP vol. 2, p342). Calculates u1, u2 and u3 (which is returned) so that a * u1 + b * u2 = u3 = gcd(a, b, u1, u2) More...
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Math functions.
These functions are defined in OpenMS/MATH/MISC/MathFunctions.h .
◆ approximatelyEqual()
bool OpenMS::Math::approximatelyEqual |
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double |
a, |
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double |
b, |
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double |
tol |
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) |
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inline |
Returns if a
is approximately equal b
, allowing a tolerance of tol
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◆ ceilDecimal()
double OpenMS::Math::ceilDecimal |
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double |
x, |
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int |
decPow |
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) |
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inline |
rounds x
up to the next decimal power 10 ^ decPow
e.g.: (123.0 , 1) => 130
(123.0 , 2) => 200
(0.123 ,-2) => 0.13 ( 10^-2 = 0.01 )
◆ gcd() [1/2]
T OpenMS::Math::gcd |
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T |
a, |
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T |
b |
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) |
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◆ gcd() [2/2]
T OpenMS::Math::gcd |
( |
T |
a, |
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T |
b, |
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T & |
u1, |
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T & |
u2 |
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) |
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Returns the greatest common divisor by applying the extended Euclidean algorithm (Knuth TAoCP vol. 2, p342). Calculates u1, u2 and u3 (which is returned) so that a * u1 + b * u2 = u3 = gcd(a, b, u1, u2)
- Parameters
-
a | A number. |
b | A number. |
u1 | A reference to the number to be returned (see the above formula). |
u2 | A reference to the number to be returned (see the above formula). |
- Returns
- The greatest common divisor.
- See also
- gcd(T, T)
◆ intervalTransformation()
double OpenMS::Math::intervalTransformation |
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double |
x, |
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double |
left1, |
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double |
right1, |
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double |
left2, |
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double |
right2 |
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) |
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inline |
transforms point x
of interval [left1,right1] into interval [left2,right2]
◆ isOdd()
bool OpenMS::Math::isOdd |
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UInt |
x | ) |
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inline |
◆ linear2log()
double OpenMS::Math::linear2log |
( |
double |
x | ) |
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inline |
Transforms a number from linear to log10 scale. Avoids negative logarithms by adding 1.
- Parameters
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◆ log2linear()
double OpenMS::Math::log2linear |
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double |
x | ) |
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inline |
Transforms a number from log10 to to linear scale. Subtracts the 1 added by linear2log(double)
- Parameters
-
◆ round()
T OpenMS::Math::round |
( |
T |
x | ) |
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◆ roundDecimal()
double OpenMS::Math::roundDecimal |
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double |
x, |
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int |
decPow |
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) |
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inline |
rounds x
to the next decimal power 10 ^ decPow
e.g.: (123.0 , 1) => 120
(123.0 , 2) => 100