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main.go
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main.go
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package main
import (
"flag"
"fmt"
"log"
"math/rand"
"os"
"path/filepath"
"runtime"
"strconv"
"strings"
"time"
"github.com/fogleman/primitive/primitive"
"github.com/nfnt/resize"
)
var (
Input string
Outputs flagArray
Background string
Configs shapeConfigArray
Alpha int
InputSize int
OutputSize int
Mode int
Workers int
Nth int
Repeat int
V, VV bool
)
type flagArray []string
func (i *flagArray) String() string {
return strings.Join(*i, ", ")
}
func (i *flagArray) Set(value string) error {
*i = append(*i, value)
return nil
}
type shapeConfig struct {
Count int
Mode int
Alpha int
Repeat int
}
type shapeConfigArray []shapeConfig
func (i *shapeConfigArray) String() string {
return ""
}
func (i *shapeConfigArray) Set(value string) error {
n, _ := strconv.ParseInt(value, 0, 0)
*i = append(*i, shapeConfig{int(n), Mode, Alpha, Repeat})
return nil
}
func init() {
flag.StringVar(&Input, "i", "", "input image path")
flag.Var(&Outputs, "o", "output image path")
flag.Var(&Configs, "n", "number of primitives")
flag.StringVar(&Background, "bg", "", "background color (hex)")
flag.IntVar(&Alpha, "a", 128, "alpha value")
flag.IntVar(&InputSize, "r", 256, "resize large input images to this size")
flag.IntVar(&OutputSize, "s", 1024, "output image size")
flag.IntVar(&Mode, "m", 1, "0=combo 1=triangle 2=rect 3=ellipse 4=circle 5=rotatedrect 6=beziers 7=rotatedellipse 8=polygon")
flag.IntVar(&Workers, "j", 0, "number of parallel workers (default uses all cores)")
flag.IntVar(&Nth, "nth", 1, "save every Nth frame (put \"%d\" in path)")
flag.IntVar(&Repeat, "rep", 0, "add N extra shapes per iteration with reduced search")
flag.BoolVar(&V, "v", false, "verbose")
flag.BoolVar(&VV, "vv", false, "very verbose")
}
func errorMessage(message string) bool {
fmt.Fprintln(os.Stderr, message)
return false
}
func check(err error) {
if err != nil {
log.Fatal(err)
}
}
func main() {
// parse and validate arguments
flag.Parse()
ok := true
if Input == "" {
ok = errorMessage("ERROR: input argument required")
}
if len(Outputs) == 0 {
ok = errorMessage("ERROR: output argument required")
}
if len(Configs) == 0 {
ok = errorMessage("ERROR: number argument required")
}
if len(Configs) == 1 {
Configs[0].Mode = Mode
Configs[0].Alpha = Alpha
Configs[0].Repeat = Repeat
}
for _, config := range Configs {
if config.Count < 1 {
ok = errorMessage("ERROR: number argument must be > 0")
}
}
if !ok {
fmt.Println("Usage: primitive [OPTIONS] -i input -o output -n count")
flag.PrintDefaults()
os.Exit(1)
}
// set log level
if V {
primitive.LogLevel = 1
}
if VV {
primitive.LogLevel = 2
}
// seed random number generator
rand.Seed(time.Now().UTC().UnixNano())
// determine worker count
if Workers < 1 {
Workers = runtime.NumCPU()
}
// read input image
primitive.Log(1, "reading %s\n", Input)
input, err := primitive.LoadImage(Input)
check(err)
// scale down input image if needed
size := uint(InputSize)
if size > 0 {
input = resize.Thumbnail(size, size, input, resize.Bilinear)
}
// determine background color
var bg primitive.Color
if Background == "" {
bg = primitive.MakeColor(primitive.AverageImageColor(input))
} else {
bg = primitive.MakeHexColor(Background)
}
// run algorithm
model := primitive.NewModel(input, bg, OutputSize, Workers)
primitive.Log(1, "%d: t=%.3f, score=%.6f\n", 0, 0.0, model.Score)
start := time.Now()
frame := 0
for j, config := range Configs {
primitive.Log(1, "count=%d, mode=%d, alpha=%d, repeat=%d\n",
config.Count, config.Mode, config.Alpha, config.Repeat)
for i := 0; i < config.Count; i++ {
frame++
// find optimal shape and add it to the model
t := time.Now()
n := model.Step(primitive.ShapeType(config.Mode), config.Alpha, config.Repeat)
nps := primitive.NumberString(float64(n) / time.Since(t).Seconds())
elapsed := time.Since(start).Seconds()
primitive.Log(1, "%d: t=%.3f, score=%.6f, n=%d, n/s=%s\n", frame, elapsed, model.Score, n, nps)
// write output image(s)
for _, output := range Outputs {
ext := strings.ToLower(filepath.Ext(output))
if output == "-" {
ext = ".svg"
}
percent := strings.Contains(output, "%")
saveFrames := percent && ext != ".gif"
saveFrames = saveFrames && frame%Nth == 0
last := j == len(Configs)-1 && i == config.Count-1
if saveFrames || last {
path := output
if percent {
path = fmt.Sprintf(output, frame)
}
primitive.Log(1, "writing %s\n", path)
switch ext {
default:
check(fmt.Errorf("unrecognized file extension: %s", ext))
case ".png":
check(primitive.SavePNG(path, model.Context.Image()))
case ".jpg", ".jpeg":
check(primitive.SaveJPG(path, model.Context.Image(), 95))
case ".svg":
check(primitive.SaveFile(path, model.SVG()))
case ".gif":
frames := model.Frames(0.001)
check(primitive.SaveGIFImageMagick(path, frames, 50, 250))
}
}
}
}
}
}