func renderer(
width, height int,
renderedImages chan *hdrimage.Image,
scene *scene.Scene,
seed int64,
totalSamples int,
threads int,
quiet bool,
) {
randomGen := random.New(seed)
sampleCounter := rpc.NewSampleCounter(totalSamples)
var bar *progress.ProgressBar
if !quiet {
bar = progress.StartProgressBar(totalSamples, "rendering samples")
}
wg := sync.WaitGroup{}
wg.Add(threads)
defer func() {
wg.Wait()
if !quiet {
bar.Done()
}
}()
for i := 0; i < threads; i++ {
go func(seed int64) {
defer wg.Done()
raytracer := raytracer.Raytracer{
Scene: scene,
Random: random.New(seed),
}
image := hdrimage.New(width, height)
image.Divisor = 0
for {
if sampleCounter.Dec(1) == 0 {
renderedImages <- image
return
}
raytracer.Sample(image)
if !quiet {
bar.Add(1)
}
}
}(randomGen.NewSeed())
}
}
// RenderLoop renders samples of an image until the sample counter reaches
// 0, and then returns the combined result. If synchronous is set, images
// will be transferred from the worker after every sample. Otherwise,
// the image is transferred at the end.
func RenderLoop(
sampleCounter *rpc.SampleCounter,
client *rpc.RemoteRaytracerCaller,
renderedImages chan<- *hdrimage.Image,
globalSettings *rpc.SampleSettings,
synchronous bool,
bar *progress.ProgressBar,
) {
settings := *globalSettings
for {
settings.SamplesAtOnce = sampleCounter.Dec(globalSettings.SamplesAtOnce)
if settings.SamplesAtOnce == 0 {
return
}
var err error
var image *hdrimage.Image
if synchronous {
image, err = client.Sample(&settings)
} else {
err = client.StoreSample(&settings)
}
//both samples log the error, but only synchronous sample pushes
//image into the channel
if err == nil {
if synchronous {
renderedImages <- image
}
if bar != nil {
bar.Add(1)
}
} else {
log.Printf("No sample :( %s\n", err)
}
}
}
func runClient(c *cli.Context) error {
scene, image := getArguments(c)
workerAdresses := c.StringSlice("worker")
if len(workerAdresses) == 0 {
showError(c, "can't render on zero workers :(")
}
synchronous := c.Bool("synchronous")
quiet := c.GlobalBool("quiet")
if !quiet {
fmt.Printf(
"will render %s to %s of size %dx%d on those workers: %s, synchronous %v\n",
scene, image,
c.Int("width"), c.Int("height"),
strings.Join(workerAdresses, ", "),
synchronous,
)
}
width, height := c.Int("width"), c.Int("height")
totalSamples := c.Int("total-samples")
sampleCounter := rpc.NewSampleCounter(totalSamples)
renderedImages := make(chan *hdrimage.Image, len(workerAdresses))
workers := make([]*rpc.RemoteRaytracerCaller, len(workerAdresses))
finishWorker := &sync.WaitGroup{}
data, err := ioutil.ReadFile(scene)
var bar *progress.ProgressBar
if !quiet {
bar = progress.StartProgressBar(totalSamples, "rendering samples ")
}
if err != nil {
return fmt.Errorf("Error when loading scene: %s", err)
}
for i := range workerAdresses {
workers[i] = rpc.NewRemoteRaytracerCaller(workerAdresses[i], 10*time.Minute)
finishWorker.Add(1)
requests, err := workers[i].MaxRequestsAtOnce()
if err != nil || requests < 1 {
return fmt.Errorf("Can't get worker's allowed requests: %s", err)
}
samples, err := workers[i].MaxSamplesAtOnce()
if err != nil || samples < 1 {
return fmt.Errorf("Can't get worker's allowed samples: %s", err)
}
settings := &rpc.SampleSettings{
Width: width,
Height: height,
SamplesAtOnce: samples,
}
err = workers[i].LoadScene(data)
if err != nil {
return fmt.Errorf("Can't load scene: %s", err)
}
go func(i int) {
finishRender := &sync.WaitGroup{}
finishRender.Add(requests)
for request := 0; request < requests; request++ {
go func() {
RenderLoop(sampleCounter, workers[i], renderedImages, settings, synchronous, bar)
finishRender.Done()
}()
}
finishRender.Wait()
if !synchronous {
if !quiet {
bar.Prefix(fmt.Sprintf("Getting image from %s", workerAdresses[i]))
}
image, err := workers[i].GetImage()
if err == nil {
if image.Width != 0 {
renderedImages <- image
}
} else {
fmt.Printf("Smelly image x_x %s\n", err)
}
}
finishWorker.Done()
}(i)
}
go func() {
finishWorker.Wait()
close(renderedImages)
if !quiet {
bar.Done()
}
}()
averageImage := JoinSamples(renderedImages, width, height)
return savePng(averageImage, image)
}
