The complex number type in the Go language is complex128, which can represent numbers with real and imaginary parts and is declared through complex (real part, imaginary part); complex numbers support addition, subtraction, multiplication and division operations, implemented through overloaded operators; the complex package Provides real, imag, abs, conj and other functions to handle complex numbers; practical case: use complex numbers to verify Euler's formula, calculate e^(ix) and compare it with cos(x) i * sin(x).
Complex number types in Go language
Complex number types represent numbers with real and imaginary parts. In Go, it is represented as a complex128
type, which is stored as a 128-bit floating point number underneath.
Declaring a Complex Number
To declare a complex number, simply place the real and imaginary parts within a pair of complex brackets, using
or -
numbers connect them. For example:
var c complex128 = 3 + 4i
Complex number operations
Complex numbers support all standard arithmetic operations, including addition, subtraction, multiplication and division. These operations are accomplished through overloaded operators.
// 加法 c1 += c2 // 减法 c1 -= c2 // 乘法 c1 *= c2 // 除法 c1 /= c2
Complex number functions
complex
The package also provides a large number of functions for processing complex numbers, including:
real(c)
: Returns the real part of the complex number c
imag(c)
: Returns the real part of the complex number c
Imaginary part abs(c)
: Returns the absolute value of the complex number c
conj(c)
: Returns the complex number# The conjugate complex number of ##c
Practical case
Calculate Euler’s formula
Euler The formula states that for any real numberx,
e^(ix) = cos(x) i * sin(x). We can verify this formula using the complex types in Go.
import "math" func main() { var x float64 = math.Pi / 2 // 计算 e^(ix) c := complex(math.Cos(x), math.Sin(x)) // 比较 e^(ix) 和 cos(x) + i * sin(x) if real(math.Exp(1i*x)) == real(c) && imag(math.Exp(1i*x)) == imag(c) { fmt.Println("欧拉公式验证成功") } else { fmt.Println("欧拉公式验证失败") } }
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