/
EvolutionServer.go
222 lines (183 loc) · 5.48 KB
/
EvolutionServer.go
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package main
import (
"encoding/json"
"fmt"
b "github.com/martinre2/Evolution/Board"
s "github.com/martinre2/Evolution/Stage"
"log"
"net/http"
"strconv"
)
type Points struct {
X float32 `json:"x"`
Y float32 `json:"y"`
Z float32 `json:"z"`
}
type ExportConf struct {
Fitness int `json:"fitness"`
Radiogiro float64 `json:"radiogiro"`
Dmax float64 `json:"dmax"`
Proteins []*Points `json:"proteins"`
}
type Charts struct {
Sum []int `json:"sum"`
Average []float32 `json:"average"`
Best []int `json:"best"`
Worts []int `json:"worts"`
Gene []int `json:"gene"`
RadioGiroP []float64 `json:"radioGiroP"`
DmaxP []float64 `json:"dMaxP"`
Conformation []int `json:"conformation"`
Fitness []int `json:"fitness"`
}
type ExportResponse struct {
ConfPlot []*ExportConf `json:"confplot"`
Generations []b.Generation `json:"generations"`
Chart Charts `json:"charts"`
}
func main() {
http.HandleFunc("/", func(w http.ResponseWriter, r *http.Request) {
w.Header().Set("Access-Control-Allow-Origin", "*")
r.ParseForm()
fmt.Println(r.Form)
fmt.Println(r.FormValue("hpseq"))
l, _ := strconv.Atoi(r.FormValue("lattice"))
c, _ := strconv.Atoi(r.FormValue("numberconf"))
run, _ := strconv.Atoi(r.FormValue("run"))
pcx, _ := strconv.ParseFloat(r.FormValue("crossprob"), 32)
experiments, _ := strconv.Atoi(r.FormValue("manyexp"))
crossop, _ := strconv.Atoi(r.FormValue("crossover"))
fmt.Println("Params", l, c, run)
var bestBoard *b.BlackBoard
var board *b.BlackBoard
//var ex_randomStage s.RandomGenerationStage
//var ex_simpleStage s.SimpleGenerationStage
params := b.BlackBoardParameters{
LatticeType: l,
NumConformations: c,
NumGenerations: run,
NumExperiments: 1,
OtherTechs: []int{1, 0, 0},
CrossOverProb: float32(pcx),
CrossOverOp: crossop,
MutationOp: 1,
}
bestBoard = b.NewBoard(params)
for i := 0; i < experiments; i++ {
board := b.NewBoard(params)
board.Hplevel.HpString = r.FormValue("hpseq")
ex_randomStage := new(s.RandomGenerationStage).Execute(board)
ex_simpleStage := new(s.SimpleGenerationStage).Execute(board)
_ = ex_randomStage
_ = ex_simpleStage
var bestFit int = 0
for _, c := range board.Generations[len(board.Generations)-1].Conformations {
if c.Fitness < bestFit {
bestFit = c.Fitness
}
}
board.BestFitness = bestFit
if board.BestFitness < bestBoard.BestFitness {
bestBoard = board
}
}
for i := 0; i < experiments; i++ {
fmt.Println(">>>i", i)
}
_ = bestBoard
_ = board
fmt.Println("<End Simulation")
var export []*ExportConf
var rs ExportResponse
for _, c := range bestBoard.Generations[len(bestBoard.Generations)-1].Conformations {
//for _, c := range board.Generations[0].Conformations {
e := new(ExportConf)
e.Fitness = c.Fitness
e.Radiogiro = c.RadioGiroRCDM
e.Dmax = c.Dmax
for _, p := range c.Conformations {
iP := new(Points)
iP.X = p.XValue
iP.Y = p.YValue
iP.Z = p.ZValue
e.Proteins = append(e.Proteins, iP)
}
export = append(export, e)
}
//Stuff for charts
var ch Charts
//Fitness Chart
//Build Series
sum := make([]int, len(bestBoard.Generations))
average := make([]float32, len(bestBoard.Generations))
best := make([]int, len(bestBoard.Generations))
worts := make([]int, len(bestBoard.Generations))
gene := make([]int, len(bestBoard.Generations))
//Best
for i, g := range bestBoard.Generations {
gene[i] = i
totalFit, totalBestFit, totalWortsFit := 0, 0, -100
for _, c := range g.Conformations {
totalFit += c.Fitness
//totalBestFit = (totalBestFit > c.Fitness) ? (c.Fitness) : (totalBestFit)
if totalBestFit > c.Fitness {
totalBestFit = c.Fitness
} else {
totalBestFit = totalBestFit
}
//totalWortsFit = (totalWortsFit < c.Fitness) ? (c.Fitness) : (totalWortsFit)
if totalWortsFit < c.Fitness {
totalWortsFit = c.Fitness
} else {
totalWortsFit = totalWortsFit
}
}
sum[i] = totalFit
average[i] = float32(totalFit) / float32(len(g.Conformations))
best[i] = totalBestFit
worts[i] = totalWortsFit
}
//Radio Chart
//Build Series
radgiroP := make([]float64, len(bestBoard.Generations))
dmaxP := make([]float64, len(bestBoard.Generations))
for i, g := range bestBoard.Generations {
radgiroP[i] = g.RadioGiroP
dmaxP[i] = g.DmaxP
}
//end radio chart
//Conformation Fitness
//Build Serie
conf := make([]int, len(bestBoard.Generations[len(bestBoard.Generations)-1].Conformations))
fitness := make([]int, len(bestBoard.Generations[len(bestBoard.Generations)-1].Conformations))
for i, c := range bestBoard.Generations[len(bestBoard.Generations)-1].Conformations {
conf[i] = i + 1
fitness[i] = c.Fitness
}
//end chart
ch.Sum = sum
ch.Average = average
ch.Best = best
ch.Worts = worts
ch.Gene = gene
ch.RadioGiroP = radgiroP
ch.DmaxP = dmaxP
ch.Fitness = fitness
ch.Conformation = conf
fmt.Println(export)
rs.ConfPlot = export
//rs.Generations = bestBoard.Generations
rs.Chart = ch
//js, err := json.Marshal(export)
js, err := json.Marshal(rs)
if err != nil {
http.Error(w, err.Error(), http.StatusInternalServerError)
return
}
w.Header().Set("Content-Type", "application/json")
w.Write(js)
//fmt.Fprintf(w, "Hello, %q", html.EscapeString(r.URL.Path))
//fmt.Println("___>Peticion")
})
log.Fatal(http.ListenAndServe(":4005", nil))
}