package models import ( "errors" "os" "path" . "git.andr3h3nriqu3s.com/andr3/fyp/logic/db_types" . "git.andr3h3nriqu3s.com/andr3/fyp/logic/models/utils" . "git.andr3h3nriqu3s.com/andr3/fyp/logic/tasks/utils" tf "github.com/galeone/tensorflow/tensorflow/go" "github.com/galeone/tensorflow/tensorflow/go/op" tg "github.com/galeone/tfgo" "github.com/galeone/tfgo/image" ) func ReadPNG(scope *op.Scope, imagePath string, channels int64) *image.Image { scope = tg.NewScope(scope) contents := op.ReadFile(scope.SubScope("ReadFile"), op.Const(scope.SubScope("filename"), imagePath)) output := op.DecodePng(scope.SubScope("DecodePng"), contents, op.DecodePngChannels(channels)) output = op.ExpandDims(scope.SubScope("ExpandDims"), output, op.Const(scope.SubScope("axis"), []int32{0})) image := &image.Image{ Tensor: tg.NewTensor(scope, output)} return image.Scale(0, 255) } func ReadJPG(scope *op.Scope, imagePath string, channels int64) *image.Image { scope = tg.NewScope(scope) contents := op.ReadFile(scope.SubScope("ReadFile"), op.Const(scope.SubScope("filename"), imagePath)) output := op.DecodePng(scope.SubScope("DecodeJpeg"), contents, op.DecodePngChannels(channels)) output = op.ExpandDims(scope.SubScope("ExpandDims"), output, op.Const(scope.SubScope("axis"), []int32{0})) image := &image.Image{ Tensor: tg.NewTensor(scope, output)} return image.Scale(0, 255) } func runModelNormal(base BasePack, model *BaseModel, def_id string, inputImage *tf.Tensor) (order int, confidence float32, err error) { order = 0 err = nil tf_model := tg.LoadModel(path.Join("savedData", model.Id, "defs", def_id, "model"), []string{"serve"}, nil) results := tf_model.Exec([]tf.Output{ tf_model.Op("StatefulPartitionedCall", 0), }, map[tf.Output]*tf.Tensor{ tf_model.Op("serving_default_rescaling_input", 0): inputImage, }) var vmax float32 = 0.0 var predictions = results[0].Value().([][]float32)[0] for i, v := range predictions { if v > vmax { order = i vmax = v } } confidence = vmax return } func runModelExp(base BasePack, model *BaseModel, def_id string, inputImage *tf.Tensor) (order int, confidence float32, err error) { err = nil order = 0 base_model := tg.LoadModel(path.Join("savedData", model.Id, "defs", def_id, "base", "model"), []string{"serve"}, nil) //results := base_model.Exec([]tf.Output{ base_results := base_model.Exec([]tf.Output{ base_model.Op("StatefulPartitionedCall", 0), }, map[tf.Output]*tf.Tensor{ //base_model.Op("serving_default_rescaling_input", 0): inputImage, base_model.Op("serving_default_input_1", 0): inputImage, }) type head struct { Id string Range_start int } heads, err := GetDbMultitple[head](base.GetDb(), "exp_model_head where def_id=$1;", def_id) if err != nil { return } base.GetLogger().Info("test", "count", len(heads)) var vmax float32 = 0.0 for _, element := range heads { head_model := tg.LoadModel(path.Join("savedData", model.Id, "defs", def_id, "head", element.Id, "model"), []string{"serve"}, nil) results := head_model.Exec([]tf.Output{ head_model.Op("StatefulPartitionedCall", 0), }, map[tf.Output]*tf.Tensor{ head_model.Op("serving_default_head_input", 0): base_results[0], }) var predictions = results[0].Value().([][]float32)[0] for i, v := range predictions { base.GetLogger().Debug("predictions", "class", i, "preds", v) if v > vmax { order = element.Range_start + i vmax = v } } } // TODO runthe head model confidence = vmax base.GetLogger().Debug("Got", "heads", len(heads), "order", order, "vmax", vmax) return } func ClassifyTask(base BasePack, task Task) (err error) { task.UpdateStatusLog(base, TASK_RUNNING, "Runner running task") model, err := GetBaseModel(base.GetDb(), task.ModelId) if err != nil { task.UpdateStatusLog(base, TASK_FAILED_RUNNING, "Failed to obtain the model") return err } if !model.CanEval() { task.UpdateStatusLog(base, TASK_FAILED_RUNNING, "Failed to obtain the model") return errors.New("Model not in the right state for evaluation") } def := JustId{} err = GetDBOnce(base.GetDb(), &def, "model_definition where model_id=$1", model.Id) if err != nil { task.UpdateStatusLog(base, TASK_FAILED_RUNNING, "Failed to obtain the model") return } def_id := def.Id // TODO create a database table with tasks run_path := path.Join("/tmp", model.Id, "runs") os.MkdirAll(run_path, os.ModePerm) img_path := path.Join("savedData", model.Id, "tasks", task.Id+"."+model.Format) root := tg.NewRoot() var tf_img *image.Image = nil switch model.Format { case "png": tf_img = ReadPNG(root, img_path, int64(model.ImageMode)) case "jpeg": tf_img = ReadJPG(root, img_path, int64(model.ImageMode)) default: task.UpdateStatusLog(base, TASK_FAILED_RUNNING, "Failed to obtain the model") } exec_results := tg.Exec(root, []tf.Output{tf_img.Value()}, nil, &tf.SessionOptions{}) inputImage, err := tf.NewTensor(exec_results[0].Value()) if err != nil { task.UpdateStatusLog(base, TASK_FAILED_RUNNING, "Failed to run model") return } vi := -1 var confidence float32 = 0 if model.ModelType == 2 { base.GetLogger().Info("Running model normal", "model", model.Id, "def", def_id) vi, confidence, err = runModelExp(base, model, def_id, inputImage) if err != nil { task.UpdateStatusLog(base, TASK_FAILED_RUNNING, "Failed to run model") return } } else { base.GetLogger().Info("Running model normal", "model", model.Id, "def", def_id) vi, confidence, err = runModelNormal(base, model, def_id, inputImage) if err != nil { task.UpdateStatusLog(base, TASK_FAILED_RUNNING, "Failed to run model") return } } var GetName struct { Name string Id string } err = GetDBOnce(base.GetDb(), &GetName, "model_classes where model_id=$1 and class_order=$2;", model.Id, vi) if err != nil { task.UpdateStatusLog(base, TASK_FAILED_RUNNING, "Failed to obtain model results") return } returnValue := struct { ClassId string `json:"class_id"` Class string `json:"class"` Confidence float32 `json:"confidence"` }{ Class: GetName.Name, ClassId: GetName.Id, Confidence: confidence, } err = task.SetResult(base, returnValue) if err != nil { task.UpdateStatusLog(base, TASK_FAILED_RUNNING, "Failed to save model results") return } task.UpdateStatusLog(base, TASK_DONE, "Model ran successfully") return }