///<summary>Выполняет прямой проход через кодирующую нейросеть.</summary> ///<param name="input">Входные данные.</param> public Tensor Encode(Tensor input) { var Temp = Layers.Conv2D(input, this.Data.Conv1_1_Weights, this.Data.Conv1_1_Biases); if (Step != null) { Step(5); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(5); } Temp = Layers.Conv2D(Temp, this.Data.Conv1_2_Weights, this.Data.Conv1_2_Biases); if (Step != null) { Step(5); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(5); } Temp = Layers.MaxPool2D(Temp); if (Step != null) { Step(5); } Temp = Layers.Conv2D(Temp, this.Data.Conv2_1_Weights, this.Data.Conv2_1_Biases); if (Step != null) { Step(5); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(5); } Temp = Layers.Conv2D(Temp, this.Data.Conv2_2_Weights, this.Data.Conv2_2_Biases); if (Step != null) { Step(5); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(5); } Temp = Layers.MaxPool2D(Temp); if (Step != null) { Step(5); } Temp = Layers.Conv2D(Temp, this.Data.Conv3_1_Weights, this.Data.Conv3_1_Biases); if (Step != null) { Step(5); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(5); } Temp = Layers.Conv2D(Temp, this.Data.Conv3_2_Weights, this.Data.Conv3_2_Biases); if (Step != null) { Step(5); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(5); } Temp = Layers.Conv2D(Temp, this.Data.Conv3_3_Weights, this.Data.Conv3_3_Biases); if (Step != null) { Step(5); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(5); } Temp = Layers.Conv2D(Temp, this.Data.Conv3_4_Weights, this.Data.Conv3_4_Biases); if (Step != null) { Step(5); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(5); } Temp = Layers.MaxPool2D(Temp); if (Step != null) { Step(5); } Temp = Layers.Conv2D(Temp, this.Data.Conv4_1_Weights, this.Data.Conv4_1_Biases); Temp = Layers.ReLU(Temp); if (Step != null) { Step(5); } return(Temp); }
///<summary>Выполняет прямой проход через декодирующую нейросеть.</summary> ///<param name="input">Входные данные.</param> public Tensor Decode(Tensor input) { var Temp = input; if (this.Depth == DecoderType.Conv5) { Temp = Layers.Conv2D3x3(Temp, this.Data.Conv5_1_Weights, this.Data.Conv5_1_Biases); if (this.Step != null) { this.Step(100f / 30f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(100f / 30f); } Temp = Layers.Upsample2D(Temp); if (this.Step != null) { this.Step(100f / 30f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv4_4_Weights, this.Data.Conv4_4_Biases); if (this.Step != null) { this.Step(100f / 30f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(100f / 30f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv4_3_Weights, this.Data.Conv4_3_Biases); if (this.Step != null) { this.Step(100f / 30f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(100f / 30f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv4_2_Weights, this.Data.Conv4_2_Biases); if (this.Step != null) { this.Step(100f / 30f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(100f / 30f); } } if ((this.Depth == DecoderType.Conv4) || (this.Depth == DecoderType.Conv5)) { Temp = Layers.Conv2D3x3(Temp, this.Data.Conv4_1_Weights, this.Data.Conv4_1_Biases); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } } } Temp = Layers.ReLU(Temp); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } } } Temp = Layers.Upsample2D(Temp); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } } } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_4_Weights, this.Data.Conv3_4_Biases); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } } } Temp = Layers.ReLU(Temp); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } } } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_3_Weights, this.Data.Conv3_3_Biases); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } } } Temp = Layers.ReLU(Temp); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } } } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_2_Weights, this.Data.Conv3_2_Biases); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } } } Temp = Layers.ReLU(Temp); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } } } } if ((this.Depth == DecoderType.Conv3) || (this.Depth == DecoderType.Conv4) || (this.Depth == DecoderType.Conv5)) { Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_1_Weights, this.Data.Conv3_1_Biases); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } case DecoderType.Conv3: { this.Step(100f / 12f); break; } } } Temp = Layers.ReLU(Temp); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } case DecoderType.Conv3: { this.Step(100f / 12f); break; } } } Temp = Layers.Upsample2D(Temp); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } case DecoderType.Conv3: { this.Step(100f / 12f); break; } } } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv2_2_Weights, this.Data.Conv2_2_Biases); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } case DecoderType.Conv3: { this.Step(100f / 12f); break; } } } Temp = Layers.ReLU(Temp); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } case DecoderType.Conv3: { this.Step(100f / 12f); break; } } } } if ((this.Depth == DecoderType.Conv2) || (this.Depth == DecoderType.Conv3) || (this.Depth == DecoderType.Conv4) || (this.Depth == DecoderType.Conv5)) { Temp = Layers.Conv2D3x3(Temp, this.Data.Conv2_1_Weights, this.Data.Conv2_1_Biases); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } case DecoderType.Conv3: { this.Step(100f / 12f); break; } case DecoderType.Conv2: { this.Step(100f / 7f); break; } } } Temp = Layers.ReLU(Temp); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } case DecoderType.Conv3: { this.Step(100f / 12f); break; } case DecoderType.Conv2: { this.Step(100f / 7f); break; } } } Temp = Layers.Upsample2D(Temp); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } case DecoderType.Conv3: { this.Step(100f / 12f); break; } case DecoderType.Conv2: { this.Step(100f / 7f); break; } } } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv1_2_Weights, this.Data.Conv1_2_Biases); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } case DecoderType.Conv3: { this.Step(100f / 12f); break; } case DecoderType.Conv2: { this.Step(100f / 7f); break; } } } Temp = Layers.ReLU(Temp); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } case DecoderType.Conv3: { this.Step(100f / 12f); break; } case DecoderType.Conv2: { this.Step(100f / 7f); break; } } } } if ((this.Depth == DecoderType.Conv1) || (this.Depth == DecoderType.Conv2) || (this.Depth == DecoderType.Conv3) || (this.Depth == DecoderType.Conv4) || (this.Depth == DecoderType.Conv5)) { Temp = Layers.Conv2D3x3(Temp, this.Data.Conv1_1_Weights, this.Data.Conv1_1_Biases); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } case DecoderType.Conv3: { this.Step(100f / 12f); break; } case DecoderType.Conv2: { this.Step(100f / 7f); break; } case DecoderType.Conv1: { this.Step(100f / 2f); break; } } } Temp = Layers.ReLU(Temp); if (this.Step != null) { switch (this.Depth) { case DecoderType.Conv5: { this.Step(100f / 30f); break; } case DecoderType.Conv4: { this.Step(100f / 21f); break; } case DecoderType.Conv3: { this.Step(100f / 12f); break; } case DecoderType.Conv2: { this.Step(100f / 7f); break; } case DecoderType.Conv1: { this.Step(100f / 2f); break; } } } } return(Temp); }
///<summary>Выполняет прямой проход через кодирующую нейросеть.</summary> ///<param name="input">Входные данные.</param> public Tuple <Tensor, Tensor> Encode(Tensor input) { var Temp = input; Temp = Layers.Conv2D1x1(input, this.Data.Conv0_Weights, this.Data.Conv0_Biases); Temp = Layers.Conv2D3x3(Temp, this.Data.Conv1_1_Weights, this.Data.Conv1_1_Biases); if (Step != null) { Step(100f / 30f); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(100f / 30f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv1_2_Weights, this.Data.Conv1_2_Biases); if (Step != null) { Step(100f / 30f); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(100f / 30f); } Temp = Layers.MaxPool2D(Temp); if (Step != null) { Step(100f / 30f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv2_1_Weights, this.Data.Conv2_1_Biases); if (Step != null) { Step(100f / 30f); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(100f / 30f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv2_2_Weights, this.Data.Conv2_2_Biases); if (Step != null) { Step(100f / 30f); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(100f / 30f); } Temp = Layers.MaxPool2D(Temp); if (Step != null) { Step(100f / 30f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_1_Weights, this.Data.Conv3_1_Biases); if (Step != null) { Step(100f / 30f); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(100f / 30f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_2_Weights, this.Data.Conv3_2_Biases); if (Step != null) { Step(100f / 30f); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(100f / 30f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_3_Weights, this.Data.Conv3_3_Biases); if (Step != null) { Step(100f / 30f); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(100f / 30f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_4_Weights, this.Data.Conv3_4_Biases); if (Step != null) { Step(100f / 30f); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(100f / 30f); } Temp = Layers.MaxPool2D(Temp); if (Step != null) { Step(100f / 30f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv4_1_Weights, this.Data.Conv4_1_Biases); if (Step != null) { Step(100f / 30f); } Temp = Layers.ReLU(Temp); var Conv4_1 = Temp; if (Step != null) { Step(100f / 30f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv4_2_Weights, this.Data.Conv4_2_Biases); if (Step != null) { Step(100f / 30f); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(100f / 30f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv4_3_Weights, this.Data.Conv4_3_Biases); if (Step != null) { Step(100f / 30f); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(100f / 30f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv4_4_Weights, this.Data.Conv4_4_Biases); if (Step != null) { Step(100f / 30f); } Temp = Layers.ReLU(Temp); if (Step != null) { Step(100f / 30f); } Temp = Layers.MaxPool2D(Temp); if (Step != null) { Step(100f / 30f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv5_1_Weights, this.Data.Conv5_1_Biases); if (Step != null) { Step(100f / 30f); } Temp = Layers.ReLU(Temp); var Conv5_1 = Temp; if (Step != null) { Step(100f / 30f); } return(new Tuple <Tensor, Tensor>(Conv4_1, Conv5_1)); }
///<summary>Выполняет прямой проход через кодирующую нейросеть.</summary> ///<param name="input">Входные данные.</param> public Tensor Encode(Tensor input) { var Temp = input; Temp = Layers.Conv2D3x3(Temp, this.Data.Conv1_1_Weights, this.Data.Conv1_1_Biases); if (this.Step != null) { this.Step(1f / 12f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 12f * 100f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv1_2_Weights, this.Data.Conv1_2_Biases); if (this.Step != null) { this.Step(1f / 12f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 12f * 100f); } Temp = Layers.MaxPool2D(Temp); if (this.Step != null) { this.Step(1f / 12f * 100f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv2_1_Weights, this.Data.Conv2_1_Biases); if (this.Step != null) { this.Step(1f / 12f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 12f * 100f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv2_2_Weights, this.Data.Conv2_2_Biases); if (this.Step != null) { this.Step(1f / 12f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 12f * 100f); } Temp = Layers.MaxPool2D(Temp); if (this.Step != null) { this.Step(1f / 12f * 100f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_1_Weights, this.Data.Conv3_1_Biases); if (this.Step != null) { this.Step(1f / 12f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 12f * 100f); } return(Temp); }
///<summary>Выполняет прямой проход через сеть-трансформер.</summary> ///<param name="input">Входные данные.</param> public Tensor Stylize(Tensor input) { var Temp = Layers.Conv2D(input, this.Data.Conv1_Weights, 1); if (Step != null) { Step(10); } Temp = Layers.InstanceNorm2D(Temp, this.Data.Conv1_Shift, this.Data.Conv1_Scale); Temp = Layers.ReLU(Temp); Temp = Layers.Conv2D(Temp, this.Data.Conv2_Weights, 2); if (Step != null) { Step(10); } Temp = Layers.InstanceNorm2D(Temp, this.Data.Conv2_Shift, this.Data.Conv2_Scale); Temp = Layers.ReLU(Temp); Temp = Layers.Conv2D(Temp, this.Data.Conv3_Weights, 2); if (Step != null) { Step(10); } Temp = Layers.InstanceNorm2D(Temp, this.Data.Conv3_Shift, this.Data.Conv3_Scale); Temp = Layers.ReLU(Temp); Temp = Layers.ResBlock(Temp, this.Data.ResBlock1); if (Step != null) { Step(10); } Temp = Layers.ResBlock(Temp, this.Data.ResBlock2); if (Step != null) { Step(10); } Temp = Layers.ResBlock(Temp, this.Data.ResBlock3); if (Step != null) { Step(10); } Temp = Layers.ResBlock(Temp, this.Data.ResBlock4); if (Step != null) { Step(10); } Temp = Layers.ResBlock(Temp, this.Data.ResBlock5); if (Step != null) { Step(10); } Temp = Layers.ConvTranspose2D(Temp, this.Data.TConv1_Weights, 2); if (Step != null) { Step(10); } Temp = Layers.InstanceNorm2D(Temp, this.Data.TConv1_Shift, this.Data.TConv1_Scale); Temp = Layers.ReLU(Temp); Temp = Layers.ConvTranspose2D(Temp, this.Data.TConv2_Weights, 2); if (Step != null) { Step(10); } Temp = Layers.InstanceNorm2D(Temp, this.Data.TConv2_Shift, this.Data.TConv2_Scale); Temp = Layers.ReLU(Temp); Temp = Layers.Conv2D(Temp, this.Data.TConv3_Weights, 1); Temp = Layers.InstanceNorm2D(Temp, this.Data.TConv3_Shift, this.Data.TConv3_Scale); Temp = Layers.Tanh(Temp); return(Temp); }
///<summary>Выполняет прямой проход через декодирующую нейросеть.</summary> ///<param name="input">Входные данные.</param> public Tensor Decode(Tensor Content, Tensor[] Styles) { var Temp = Layers.StyleDecorator(Content, Styles[3]); Temp = Layers.Conv2D3x3(Temp, this.Data.Conv4_1_Weights, this.Data.Conv4_1_Biases); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.Upsample2D(Temp); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_4_Weights, this.Data.Conv3_4_Biases); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_3_Weights, this.Data.Conv3_3_Biases); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_2_Weights, this.Data.Conv3_2_Biases); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.AdaIN(Temp, Styles[2]); Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_1_Weights, this.Data.Conv3_1_Biases); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.Upsample2D(Temp); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv2_2_Weights, this.Data.Conv2_2_Biases); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.AdaIN(Temp, Styles[1]); Temp = Layers.Conv2D3x3(Temp, this.Data.Conv2_1_Weights, this.Data.Conv2_1_Biases); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.Upsample2D(Temp); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv1_2_Weights, this.Data.Conv1_2_Biases); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.AdaIN(Temp, Styles[0]); Temp = Layers.Conv2D3x3(Temp, this.Data.Conv1_1_Weights, this.Data.Conv1_1_Biases); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 22f * 100f); } Temp = Layers.Conv2D7x7(Temp, this.Data.Conv_Out_Weights, this.Data.Conv_Out_Biases); if (this.Step != null) { this.Step(1f / 22f * 100f); } return(Temp); }
///<summary>Выполняет прямой проход через декодирующую нейросеть.</summary> ///<param name="input">Входные данные.</param> public Tensor Decode(Tensor input) { var Temp = input; Temp = Layers.Conv2D3x3(Temp, this.Data.Conv4_1_Weights, this.Data.Conv4_1_Biases); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.Upsample2D(Temp); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_4_Weights, this.Data.Conv3_4_Biases); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_3_Weights, this.Data.Conv3_3_Biases); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_2_Weights, this.Data.Conv3_2_Biases); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_1_Weights, this.Data.Conv3_1_Biases); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.Upsample2D(Temp); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv2_2_Weights, this.Data.Conv2_2_Biases); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv2_1_Weights, this.Data.Conv2_1_Biases); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.Upsample2D(Temp); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv1_2_Weights, this.Data.Conv1_2_Biases); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(100f / 20f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv1_1_Weights, this.Data.Conv1_1_Biases); if (this.Step != null) { this.Step(100f / 20f); } return(Temp); }
///<summary>Выполняет прямой проход через декодирующую нейросеть.</summary> ///<param name="input">Входные данные.</param> public Tensor Decode(Tensor Content, Tensor Style) { var Temp = Layers.StyleSwap(Content, Style); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.ConvTranspose2D(Temp, this.Data.TConv3_1_Weights, this.Data.TConv3_1_Biases, 1); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.InstanceNorm2D(Temp, this.Data.TConv3_1_Shift, this.Data.TConv3_1_Scale); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.ConvTranspose2D(Temp, this.Data.TConv2_4_Weights, this.Data.TConv2_4_Biases, 1); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.InstanceNorm2D(Temp, this.Data.TConv2_4_Shift, this.Data.TConv2_4_Scale); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.Upsample2D(Temp); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.ConvTranspose2D(Temp, this.Data.TConv2_3_Weights, this.Data.TConv2_3_Biases, 1); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.InstanceNorm2D(Temp, this.Data.TConv2_3_Shift, this.Data.TConv2_3_Scale); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.ConvTranspose2D(Temp, this.Data.TConv2_2_Weights, this.Data.TConv2_2_Biases, 1); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.InstanceNorm2D(Temp, this.Data.TConv2_2_Shift, this.Data.TConv2_2_Scale); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.ConvTranspose2D(Temp, this.Data.TConv2_1_Weights, this.Data.TConv2_1_Biases, 1); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.InstanceNorm2D(Temp, this.Data.TConv2_1_Shift, this.Data.TConv2_1_Scale); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.ConvTranspose2D(Temp, this.Data.TConv1_4_Weights, this.Data.TConv1_4_Biases, 1); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.InstanceNorm2D(Temp, this.Data.TConv1_4_Shift, this.Data.TConv1_4_Scale); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.Upsample2D(Temp); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.ConvTranspose2D(Temp, this.Data.TConv1_3_Weights, this.Data.TConv1_3_Biases, 1); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.InstanceNorm2D(Temp, this.Data.TConv1_3_Shift, this.Data.TConv1_3_Scale); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.ConvTranspose2D(Temp, this.Data.TConv1_2_Weights, this.Data.TConv1_2_Biases, 1); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.InstanceNorm2D(Temp, this.Data.TConv1_2_Shift, this.Data.TConv1_2_Scale); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.ConvTranspose2D(Temp, this.Data.TConv1_1_Weights, this.Data.TConv1_1_Biases, 1); if (this.Step != null) { this.Step(1f / 29f * 100f); } Temp = Layers.Sigmoid(Temp); if (this.Step != null) { this.Step(1f / 29f * 100f); } return(Temp); }
///<summary>Выполняет прямой проход через кодирующую нейросеть.</summary> ///<param name="input">Входные данные.</param> public Tensor Encode(Tensor input) { var Temp = input; Temp = Layers.Conv2D3x3(Temp, this.Data.Conv1_1_Weights, this.Data.Conv1_1_Biases); if (this.Step != null) { this.Step(5f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(5f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv1_2_Weights, this.Data.Conv1_2_Biases); if (this.Step != null) { this.Step(5f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(5f); } Temp = Layers.AvgPool2D(Temp); if (this.Step != null) { this.Step(5f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv2_1_Weights, this.Data.Conv2_1_Biases); if (this.Step != null) { this.Step(5f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(5f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv2_2_Weights, this.Data.Conv2_2_Biases); if (this.Step != null) { this.Step(5f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(5f); } Temp = Layers.AvgPool2D(Temp); if (this.Step != null) { //this.Step(5f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_1_Weights, this.Data.Conv3_1_Biases); if (this.Step != null) { this.Step(5f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(5f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_2_Weights, this.Data.Conv3_2_Biases); if (this.Step != null) { this.Step(5f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(5f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_3_Weights, this.Data.Conv3_3_Biases); if (this.Step != null) { this.Step(5f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(5f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_4_Weights, this.Data.Conv3_4_Biases); if (this.Step != null) { this.Step(5f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(5f); } Temp = Layers.AvgPool2D(Temp); if (this.Step != null) { this.Step(5f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv4_1_Weights, this.Data.Conv4_1_Biases); if (this.Step != null) { this.Step(5f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(5f); } return(Temp); }
///<summary>Выполняет прямой проход через кодирующую нейросеть.</summary> ///<param name="input">Входные данные.</param> public Tensor[] EncodeStyle(Tensor input) { var Temp = input; Temp = Layers.Conv2D3x3(Temp, this.Data.Conv1_1_Weights, this.Data.Conv1_1_Biases); if (this.Step != null) { this.Step(5f); } Temp = Layers.ReLU(Temp); var Conv1 = Temp; if (this.Step != null) { this.Step(5f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv1_2_Weights, this.Data.Conv1_2_Biases); if (this.Step != null) { this.Step(5f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(5f); } Temp = Layers.AvgPool2D(Temp); if (this.Step != null) { this.Step(5f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv2_1_Weights, this.Data.Conv2_1_Biases); if (this.Step != null) { this.Step(5f); } Temp = Layers.ReLU(Temp); var Conv2 = Temp; if (this.Step != null) { this.Step(5f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv2_2_Weights, this.Data.Conv2_2_Biases); if (this.Step != null) { this.Step(5f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(5f); } Temp = Layers.AvgPool2D(Temp); if (this.Step != null) { //this.Step(5f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_1_Weights, this.Data.Conv3_1_Biases); if (this.Step != null) { this.Step(5f); } Temp = Layers.ReLU(Temp); var Conv3 = Temp; if (this.Step != null) { this.Step(5f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_2_Weights, this.Data.Conv3_2_Biases); if (this.Step != null) { this.Step(5f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(5f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_3_Weights, this.Data.Conv3_3_Biases); if (this.Step != null) { this.Step(5f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(5f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv3_4_Weights, this.Data.Conv3_4_Biases); if (this.Step != null) { this.Step(5f); } Temp = Layers.ReLU(Temp); if (this.Step != null) { this.Step(5f); } Temp = Layers.AvgPool2D(Temp); if (this.Step != null) { this.Step(5f); } Temp = Layers.Conv2D3x3(Temp, this.Data.Conv4_1_Weights, this.Data.Conv4_1_Biases); if (this.Step != null) { this.Step(5f); } Temp = Layers.ReLU(Temp); var Conv4 = Temp; if (this.Step != null) { this.Step(5f); } return(new Tensor[4] { Conv1, Conv2, Conv3, Conv4 }); }