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dense_example_test.go
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dense_example_test.go
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// Copyright ©2017 The Gonum Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package mat32_test
import (
"fmt"
mat "github.com/arjunsk/mat32"
)
func ExampleDense_Add() {
// Initialize two matrices, a and b.
a := mat.NewDense(2, 2, []float32{
1, 0,
1, 0,
})
b := mat.NewDense(2, 2, []float32{
0, 1,
0, 1,
})
// Add a and b, placing the result into c.
// Notice that the size is automatically adjusted
// when the receiver has zero size.
var c mat.Dense
c.Add(a, b)
// Print the result using the formatter.
fc := mat.Formatted(&c, mat.Prefix(" "), mat.Squeeze())
fmt.Printf("c = %v", fc)
// Output:
//
// c = ⎡1 1⎤
// ⎣1 1⎦
}
func ExampleDense_Sub() {
// Initialize two matrices, a and b.
a := mat.NewDense(2, 2, []float32{
1, 1,
1, 1,
})
b := mat.NewDense(2, 2, []float32{
1, 0,
0, 1,
})
// Subtract b from a, placing the result into a.
a.Sub(a, b)
// Print the result using the formatter.
fa := mat.Formatted(a, mat.Prefix(" "), mat.Squeeze())
fmt.Printf("a = %v", fa)
// Output:
//
// a = ⎡0 1⎤
// ⎣1 0⎦
}
func ExampleDense_MulElem() {
// Initialize two matrices, a and b.
a := mat.NewDense(2, 2, []float32{
1, 2,
3, 4,
})
b := mat.NewDense(2, 2, []float32{
1, 2,
3, 4,
})
// Multiply the elements of a and b, placing the result into a.
a.MulElem(a, b)
// Print the result using the formatter.
fa := mat.Formatted(a, mat.Prefix(" "), mat.Squeeze())
fmt.Printf("a = %v", fa)
// Output:
//
// a = ⎡1 4⎤
// ⎣9 16⎦
}
func ExampleDense_DivElem() {
// Initialize two matrices, a and b.
a := mat.NewDense(2, 2, []float32{
5, 10,
15, 20,
})
b := mat.NewDense(2, 2, []float32{
5, 5,
5, 5,
})
// Divide the elements of a by b, placing the result into a.
a.DivElem(a, b)
// Print the result using the formatter.
fa := mat.Formatted(a, mat.Prefix(" "), mat.Squeeze())
fmt.Printf("a = %v", fa)
// Output:
//
// a = ⎡1 2⎤
// ⎣3 4⎦
}
func ExampleDense_Mul() {
// Initialize two matrices, a and b.
a := mat.NewDense(2, 2, []float32{
4, 0,
0, 4,
})
b := mat.NewDense(2, 3, []float32{
4, 0, 0,
0, 0, 4,
})
// Take the matrix product of a and b and place the result in c.
var c mat.Dense
c.Mul(a, b)
// Print the result using the formatter.
fc := mat.Formatted(&c, mat.Prefix(" "), mat.Squeeze())
fmt.Printf("c = %v", fc)
// Output:
//
// c = ⎡16 0 0⎤
// ⎣ 0 0 16⎦
}
func ExampleDense_Pow() {
// Initialize a matrix with some data.
a := mat.NewDense(2, 2, []float32{
4, 4,
4, 4,
})
// Take the second power of matrix a and place the result in m.
var m mat.Dense
m.Pow(a, 2)
// Print the result using the formatter.
fm := mat.Formatted(&m, mat.Prefix(" "), mat.Squeeze())
fmt.Printf("m = %v\n\n", fm)
// Take the zeroth power of matrix a and place the result in n.
// We expect an identity matrix of the same size as matrix a.
var n mat.Dense
n.Pow(a, 0)
// Print the result using the formatter.
fn := mat.Formatted(&n, mat.Prefix(" "), mat.Squeeze())
fmt.Printf("n = %v", fn)
// Output:
//
// m = ⎡32 32⎤
// ⎣32 32⎦
//
// n = ⎡1 0⎤
// ⎣0 1⎦
}
func ExampleDense_Scale() {
// Initialize a matrix with some data.
a := mat.NewDense(2, 2, []float32{
4, 4,
4, 4,
})
// Scale the matrix by a factor of 0.25 and place the result in m.
var m mat.Dense
m.Scale(0.25, a)
// Print the result using the formatter.
fm := mat.Formatted(&m, mat.Prefix(" "), mat.Squeeze())
fmt.Printf("m = %4.3f", fm)
// Output:
//
// m = ⎡1.000 1.000⎤
// ⎣1.000 1.000⎦
}