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genome_test.go
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genome_test.go
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package neat
import (
"fmt"
"log"
"math/rand"
"testing"
)
func GenomeUnitTest() {
fmt.Println("===== Genome Unit Test =====")
fmt.Println("\x1b[32m=Testing creating a new genome...\x1b[0m")
g0 := NewGenome(0, 3, 5, 0.0)
fmt.Println(g0.String())
fmt.Println("\x1b[32m=Testing mutation...\x1b[0m")
g0.MutatePerturb(1.0)
g0.MutateAddNode(1.0, ActivationSet["sigmoid"])
g0.MutateAddConn(1.0)
fmt.Println(g0.String())
fmt.Println("\x1b[32m=Testing crossover...\x1b[0m")
g1 := NewGenome(1, 3, 1, 0.0)
g1.MutatePerturb(1.0)
g1.MutateAddNode(1.0, ActivationSet["sigmoid"])
g1.MutateAddConn(1.0)
g1.MutatePerturb(1.0)
g1.MutateAddNode(1.0, ActivationSet["sigmoid"])
g1.MutateAddConn(1.0)
fmt.Println("Parent 1:")
fmt.Println(g1.String())
g2 := NewGenome(2, 3, 1, 0.0)
g2.MutatePerturb(1.0)
g2.MutateAddNode(1.0, ActivationSet["sigmoid"])
g2.MutateAddConn(1.0)
g2.MutatePerturb(1.0)
g2.MutateAddNode(1.0, ActivationSet["sigmoid"])
g2.MutateAddConn(1.0)
fmt.Println("Parent 2:")
fmt.Println(g2.String())
g3 := Crossover(3, g1, g2, 0.0)
fmt.Println("Child:")
fmt.Println(g3.String())
fmt.Println("\x1b[32m=Testing compatibility distance...\x1b[0m")
g4 := NewGenome(4, 3, 1, 0.0)
g5 := NewGenome(5, 3, 1, 0.0)
// before mutation (they should be fairly compatible)
fmt.Println(g4.String())
fmt.Println(g5.String())
fmt.Printf("Compatibility distance: %f\n", Compatibility(g4, g5, 1.0, 1.0))
// after 1 mutation (should be less compatible)
g4.MutatePerturb(1.0)
g4.MutateAddNode(1.0, ActivationSet["sigmoid"])
g4.MutateAddConn(1.0)
g4.MutatePerturb(1.0)
g4.MutateAddNode(1.0, ActivationSet["sigmoid"])
g4.MutateAddConn(1.0)
g5.MutatePerturb(1.0)
g5.MutateAddNode(1.0, ActivationSet["sigmoid"])
g5.MutateAddConn(1.0)
g5.MutatePerturb(1.0)
g5.MutateAddNode(1.0, ActivationSet["sigmoid"])
g5.MutateAddConn(1.0)
fmt.Println(g4.String())
fmt.Println(g5.String())
fmt.Printf("Compatibility distance: %f\n", Compatibility(g4, g5, 1.0, 1.0))
// after 2 mutation (should be less compatible)
g4.MutatePerturb(1.0)
g4.MutateAddNode(1.0, ActivationSet["sigmoid"])
g4.MutateAddConn(1.0)
g4.MutatePerturb(1.0)
g4.MutateAddNode(1.0, ActivationSet["sigmoid"])
g4.MutateAddConn(1.0)
g5.MutatePerturb(1.0)
g5.MutateAddNode(1.0, ActivationSet["sigmoid"])
g5.MutateAddConn(1.0)
g5.MutatePerturb(1.0)
g5.MutateAddNode(1.0, ActivationSet["sigmoid"])
g5.MutateAddConn(1.0)
fmt.Println(g4.String())
fmt.Println(g5.String())
fmt.Printf("Compatibility distance: %f\n", Compatibility(g4, g5, 1.0, 1.0))
// after 3 mutation (should be less compatible)
g4.MutatePerturb(1.0)
g4.MutateAddNode(1.0, ActivationSet["sigmoid"])
g4.MutateAddConn(1.0)
g4.MutatePerturb(1.0)
g4.MutateAddNode(1.0, ActivationSet["sigmoid"])
g4.MutateAddConn(1.0)
g5.MutatePerturb(1.0)
g5.MutateAddNode(1.0, ActivationSet["sigmoid"])
g5.MutateAddConn(1.0)
g5.MutatePerturb(1.0)
g5.MutateAddNode(1.0, ActivationSet["sigmoid"])
g5.MutateAddConn(1.0)
fmt.Println(g4.String())
fmt.Println(g5.String())
fmt.Printf("Compatibility distance: %f\n", Compatibility(g4, g5, 1.0, 1.0))
fmt.Println("\x1b[32m=Testing JSON export...\x1b[0m")
if err := g1.ExportJSON(true); err != nil {
log.Fatal(err)
}
}
func TestGenome(t *testing.T) {
rand.Seed(0)
GenomeUnitTest()
}