add some function

src/operators/fusion_conv_add.h

@@ -85,6 +85,16 @@ static framework::FusionOpRegistrar convadd_registrar(
 #ifdef PADDLE_MOBILE_FPGA
 #endif
 
+#ifdef PADDLE_MOBILE_CL
+
+#ifndef CONV_ADD_REGISTER
+static framework::FusionOpRegistrar convadd_registrar(
+    new FusionConvAddMatcher());
+#define CONV_ADD_REGISTER
+#endif
+
+#endif
+
 }  // namespace operators
 }  // namespace paddle_mobile
 

src/operators/kernel/cl/cl_kernel/conv_add_kernel.cl

@@ -101,47 +101,47 @@ __kernel void conv_3x3(__private const int global_size_dim0,
         input[0] = select(read_imageh(input_image, sampler,
                             (int2)(pos_in.x - dilation, pos_in.y - dilation)),
                             (half4)(0.0f),
-                            (ushort4)(in_pos_in_one_block.x - dilation < 0 || in_pos_in_one_block.y - dilation < 0 || in_pos_in_one_block.x - dilation >= input_width || in_pos_in_one_block.y - dilation >= input_height));
+                            (ushort4)((in_pos_in_one_block.x - dilation < 0 || in_pos_in_one_block.y - dilation < 0 || in_pos_in_one_block.x - dilation >= input_width || in_pos_in_one_block.y - dilation >= input_height) << 15));
 
         input[1] = select(read_imageh(input_image, sampler,
                           (int2)(pos_in.x, pos_in.y - dilation)),
                           (half4)(0.0f),
-                          (ushort4)(in_pos_in_one_block.x < 0 || in_pos_in_one_block.y - dilation < 0 || in_pos_in_one_block.x >= input_width || in_pos_in_one_block.y - dilation >= input_height));
+                          (ushort4)((in_pos_in_one_block.x < 0 || in_pos_in_one_block.y - dilation < 0 || in_pos_in_one_block.x >= input_width || in_pos_in_one_block.y - dilation >= input_height) << 15));
 
         input[2] = select(read_imageh(input_image, sampler,
                           (int2)(pos_in.x + dilation, pos_in.y - dilation)),
                           (half4)(0.0f),
-                          (ushort4)(in_pos_in_one_block.x + dilation < 0 || in_pos_in_one_block.y - dilation < 0 || in_pos_in_one_block.x + dilation >= input_width || in_pos_in_one_block.y - dilation >= input_height));
+                          (ushort4)((in_pos_in_one_block.x + dilation < 0 || in_pos_in_one_block.y - dilation < 0 || in_pos_in_one_block.x + dilation >= input_width || in_pos_in_one_block.y - dilation >= input_height) << 15));
 
         input[3] = select(read_imageh(input_image, sampler,
                           (int2)(pos_in.x - dilation, pos_in.y)),
                           (half4)(0.0f),
-                          (ushort4)(in_pos_in_one_block.x - dilation < 0 || in_pos_in_one_block.y < 0 || in_pos_in_one_block.x - dilation >= input_width || in_pos_in_one_block.y >= input_height));
+                          (ushort4)((in_pos_in_one_block.x - dilation < 0 || in_pos_in_one_block.y < 0 || in_pos_in_one_block.x - dilation >= input_width || in_pos_in_one_block.y >= input_height) << 15));
 
         input[4] = select(read_imageh(input_image, sampler,
                           (int2)(pos_in.x, pos_in.y)),
                           (half4)(0.0f),
-                          (ushort4)(in_pos_in_one_block.x < 0 || in_pos_in_one_block.y < 0 || in_pos_in_one_block.x >= input_width || in_pos_in_one_block.y >= input_height));
+                          (ushort4)((in_pos_in_one_block.x < 0 || in_pos_in_one_block.y < 0 || in_pos_in_one_block.x >= input_width || in_pos_in_one_block.y >= input_height) << 15));
 
         input[5] = select(read_imageh(input_image, sampler,
                           (int2)(pos_in.x + dilation, pos_in.y)),
                           (half4)(0.0f),
-                          (ushort4)(in_pos_in_one_block.x + dilation < 0 || in_pos_in_one_block.y < 0 || in_pos_in_one_block.x + dilation >= input_width || in_pos_in_one_block.y >= input_height));
+                          (ushort4)((in_pos_in_one_block.x + dilation < 0 || in_pos_in_one_block.y < 0 || in_pos_in_one_block.x + dilation >= input_width || in_pos_in_one_block.y >= input_height) << 15));
 
         input[6] = select(read_imageh(input_image, sampler,
                           (int2)(pos_in.x - dilation, pos_in.y + dilation)),
                           (half4)(0.0f),
-                          (ushort4)(in_pos_in_one_block.x - dilation < 0 || in_pos_in_one_block.y + dilation < 0 || in_pos_in_one_block.x - dilation >= input_width || in_pos_in_one_block.y + dilation >= input_height));
+                          (ushort4)((in_pos_in_one_block.x - dilation < 0 || in_pos_in_one_block.y + dilation < 0 || in_pos_in_one_block.x - dilation >= input_width || in_pos_in_one_block.y + dilation >= input_height) << 15));
 
         input[7] = select(read_imageh(input_image, sampler,
                           (int2)(pos_in.x, pos_in.y + dilation)),
                           (half4)(0.0f),
-                          (ushort4)(in_pos_in_one_block.x < 0 || in_pos_in_one_block.y + dilation < 0 || in_pos_in_one_block.x >= input_width || in_pos_in_one_block.y + dilation >= input_height));
+                          (ushort4)((in_pos_in_one_block.x < 0 || in_pos_in_one_block.y + dilation < 0 || in_pos_in_one_block.x >= input_width || in_pos_in_one_block.y + dilation >= input_height) << 15));
 
         input[8] = select(read_imageh(input_image, sampler,
                           (int2)(pos_in.x + dilation, pos_in.y + dilation)),
                           (half4)(0.0f),
-                          (ushort4)(in_pos_in_one_block.x + dilation < 0 || in_pos_in_one_block.y + dilation < 0 || in_pos_in_one_block.x + dilation >= input_width || in_pos_in_one_block.y + dilation >= input_height));
+                          (ushort4)((in_pos_in_one_block.x + dilation < 0 || in_pos_in_one_block.y + dilation < 0 || in_pos_in_one_block.x + dilation >= input_width || in_pos_in_one_block.y + dilation >= input_height) << 15));
 
         for (int j = 0; j < 9; ++j) {
             int2 fuck;
@@ -177,6 +177,7 @@ __kernel void conv_3x3(__private const int global_size_dim0,
 
 
 
+
 __kernel void depth_conv_3x3(__private const int global_size_dim0,
                                               __private const int global_size_dim1,
                                               __private const int global_size_dim2,
@@ -203,6 +204,9 @@ __kernel void depth_conv_3x3(__private const int global_size_dim0,
     const int out_w = get_global_id(1);
     const int out_nh = get_global_id(2);
 
+    int2 output_pos = (int2)(out_c * global_size_dim1 + out_w, out_nh);
+
+
     const sampler_t sampler = CLK_NORMALIZED_COORDS_TRUE |
                               CLK_ADDRESS_CLAMP          |
                               CLK_FILTER_NEAREST;
@@ -211,7 +215,6 @@ __kernel void depth_conv_3x3(__private const int global_size_dim0,
 
     const int out_nh_in_one_batch = out_nh % output_height;
 
-    const uint kernelHXW = 1;
 
     int2 stride_xy = (int2)(stride, stride);
     int2 ouput_pos_in_one_block = (int2)(out_w, out_nh_in_one_batch);
@@ -225,53 +228,65 @@ __kernel void depth_conv_3x3(__private const int global_size_dim0,
 #endif
 
     int2 pos_in_input_block = (int2)(out_c * input_width, batch_index * input_height);
-    int weight_x_to = out_c * 3;
+    int weight_y_to = out_c * 12;
 
     half4 inputs[9];
 
     inputs[0] = select(read_imageh(input, sampler, (int2)(pos_in_input_block.x + in_pos_in_one_block.x - 1, pos_in_input_block.y + in_pos_in_one_block.y - 1)),
                        (half4)(0.0f),
-                       (ushort4)(in_pos_in_one_block.x - 1 < 0 || in_pos_in_one_block.y - 1 < 0 || in_pos_in_one_block.x - 1 >= input_width || in_pos_in_one_block.y - 1 >= input_height));
+                       (ushort4)((in_pos_in_one_block.x - 1 < 0 || in_pos_in_one_block.y - 1 < 0 || in_pos_in_one_block.x - 1 >= input_width || in_pos_in_one_block.y - 1 >= input_height) << 15));
 
     inputs[1] = select(read_imageh(input, sampler, (int2)(pos_in_input_block.x + in_pos_in_one_block.x, pos_in_input_block.y + in_pos_in_one_block.y - 1)),
                        (half4)(0.0f),
-                       (ushort4)(in_pos_in_one_block.x < 0 || in_pos_in_one_block.y - 1 < 0 || in_pos_in_one_block.x >= input_width || in_pos_in_one_block.y - 1 >= input_height));
+                       (ushort4)((in_pos_in_one_block.x < 0 || in_pos_in_one_block.y - 1 < 0 || in_pos_in_one_block.x >= input_width || in_pos_in_one_block.y - 1 >= input_height) << 15));
 
     inputs[2] = select(read_imageh(input, sampler, (int2)(pos_in_input_block.x + in_pos_in_one_block.x + 1, pos_in_input_block.y + in_pos_in_one_block.y - 1)),
                        (half4)(0.0f),
-                       (ushort4)(in_pos_in_one_block.x + 1 < 0 || in_pos_in_one_block.y - 1 < 0 || in_pos_in_one_block.x + 1 >= input_width || in_pos_in_one_block.y - 1 >= input_height));
+                       (ushort4)((in_pos_in_one_block.x + 1 < 0 || in_pos_in_one_block.y - 1 < 0 || in_pos_in_one_block.x + 1 >= input_width || in_pos_in_one_block.y - 1 >= input_height) << 15));
 
     inputs[3] = select(read_imageh(input, sampler, (int2)(pos_in_input_block.x + in_pos_in_one_block.x - 1, pos_in_input_block.y + in_pos_in_one_block.y)),
                        (half4)(0.0f),
-                       (ushort4)(in_pos_in_one_block.x - 1 < 0 || in_pos_in_one_block.y < 0 || in_pos_in_one_block.x - 1 >= input_width || in_pos_in_one_block.y >= input_height));
+                       (ushort4)((in_pos_in_one_block.x - 1 < 0 || in_pos_in_one_block.y < 0 || in_pos_in_one_block.x - 1 >= input_width || in_pos_in_one_block.y >= input_height) << 15));
+    /*
+    if (output_pos.x == 112 && output_pos.y == 0) {
+          half4 input1 = inputs[3];
+          float4 in = (float4)(input1.x, input1.y, input1.z, input1.w);
+          printf(" input4 3 - %v4hlf \n", in);
+          printf(" --- %d ---\n", in_pos_in_one_block.x - 1);
+    }
+    */
+
 
     inputs[4] = select(read_imageh(input, sampler, (int2)(pos_in_input_block.x + in_pos_in_one_block.x, pos_in_input_block.y + in_pos_in_one_block.y)),
                        (half4)(0.0f),
-                       (ushort4)(in_pos_in_one_block.x < 0 || in_pos_in_one_block.y < 0 || in_pos_in_one_block.x >= input_width || in_pos_in_one_block.y >= input_height));
+                       (ushort4)((in_pos_in_one_block.x < 0 || in_pos_in_one_block.y < 0 || in_pos_in_one_block.x >= input_width || in_pos_in_one_block.y >= input_height) << 15));
 
     inputs[5] = select(read_imageh(input, sampler, (int2)(pos_in_input_block.x + in_pos_in_one_block.x + 1, pos_in_input_block.y + in_pos_in_one_block.y)),
                        (half4)(0.0f),
-                       (ushort4)(in_pos_in_one_block.x + 1 < 0 || in_pos_in_one_block.y < 0 || in_pos_in_one_block.x + 1 >= input_width || in_pos_in_one_block.y >= input_height));
+                       (ushort4)((in_pos_in_one_block.x + 1 < 0 || in_pos_in_one_block.y < 0 || in_pos_in_one_block.x + 1 >= input_width || in_pos_in_one_block.y >= input_height) << 15));
 
     inputs[6] = select(read_imageh(input, sampler, (int2)(pos_in_input_block.x + in_pos_in_one_block.x - 1, pos_in_input_block.y + in_pos_in_one_block.y + 1)),
                        (half4)(0.0f),
-                       (ushort4)(in_pos_in_one_block.x - 1 < 0 || in_pos_in_one_block.y + 1 < 0 || in_pos_in_one_block.x - 1 >= input_width || in_pos_in_one_block.y + 1 >= input_height));
+                       (ushort4)((in_pos_in_one_block.x - 1 < 0 || in_pos_in_one_block.y + 1 < 0 || in_pos_in_one_block.x - 1 >= input_width || in_pos_in_one_block.y + 1 >= input_height) << 15));
 
     inputs[7] = select(read_imageh(input, sampler, (int2)(pos_in_input_block.x + in_pos_in_one_block.x, pos_in_input_block.y + in_pos_in_one_block.y + 1)),
                        (half4)(0.0f),
-                       (ushort4)(in_pos_in_one_block.x < 0 || in_pos_in_one_block.y + 1 < 0 || in_pos_in_one_block.x >= input_width || in_pos_in_one_block.y + 1 >= input_height));
+                       (ushort4)((in_pos_in_one_block.x < 0 || in_pos_in_one_block.y + 1 < 0 || in_pos_in_one_block.x >= input_width || in_pos_in_one_block.y + 1 >= input_height) << 15));
 
     inputs[8] = select(read_imageh(input, sampler, (int2)(pos_in_input_block.x + in_pos_in_one_block.x + 1, pos_in_input_block.y + in_pos_in_one_block.y + 1)),
                        (half4)(0.0f),
-                       (ushort4)(in_pos_in_one_block.x + 1 < 0 || in_pos_in_one_block.y + 1 < 0 || in_pos_in_one_block.x + 1 >= input_width || in_pos_in_one_block.y + 1 >= input_height));
+                       (ushort4)((in_pos_in_one_block.x + 1 < 0 || in_pos_in_one_block.y + 1 < 0 || in_pos_in_one_block.x + 1 >= input_width || in_pos_in_one_block.y + 1 >= input_height) << 15));
 
     for (int j = 0; j < 9; ++j) {
         half4 input = inputs[j];
-        half4 weight = read_imageh(filter, sampler, (int2)(weight_x_to + j % 3, j / 3));
-        output.x += input.x * weight.x;
-        output.y += input.y * weight.y;
-        output.z += input.z * weight.z;
-        output.w += input.w * weight.w;
+        half4 weight0 = read_imageh(filter, sampler, (int2)(j % 3, weight_y_to + j / 3));
+        half4 weight1 = read_imageh(filter, sampler, (int2)(j % 3, weight_y_to + 3 + j / 3));
+        half4 weight2 = read_imageh(filter, sampler, (int2)(j % 3, weight_y_to + 6 + j / 3));
+        half4 weight3 = read_imageh(filter, sampler, (int2)(j % 3, weight_y_to + 9 + j / 3));
+        output.x += input.x * weight0.x;
+        output.y += input.y * weight1.x;
+        output.z += input.z * weight2.x;
+        output.w += input.w * weight3.x;
     }
 
 #ifdef BATCH_NORM
@@ -282,7 +297,27 @@ __kernel void depth_conv_3x3(__private const int global_size_dim0,
     output = activation(output);
 #endif
 
-    int2 output_pos = (int2)(out_c * global_size_dim1 + out_w, out_nh);
+
+    /*
+
+    if (output_pos.x == 112 && output_pos.y == 0) {
+
+        for (int i = 0; i < 9; ++i) {
+            half4 input1 = inputs[i];
+            float4 in = (float4)(input1.x, input1.y, input1.z, input1.w);
+            printf(" input4 %d - %v4hlf \n", i, in);
+        }
+
+        float4 out = (float4)(output.x, output.y, output.z, output.w);
+        printf(" depth wise output output4 = %v4hlf \n", out);
+        printf(" pos_in_input_block -x %d \n ", pos_in_input_block.x);
+        printf(" pos_in_input_block -y %d \n ", pos_in_input_block.y);
+        printf(" in_pos_in_one_block - x %d \n", in_pos_in_one_block.x);
+        printf(" in_pos_in_one_block - y %d \n", in_pos_in_one_block.y);
+    }
+
+    */
+
     write_imageh(output_image, output_pos, output);
 
 }
@@ -325,9 +360,19 @@ __kernel void conv_1x1(__private const int global_size_dim0,
     half4 output = 0.0f;
 #endif
 
+  int out_c_p = 0, out_w_p = 0, out_nh_p = 0;
+
+/*
+  if (out_c == out_c_p && out_w == out_w_p && out_nh == out_nh_p) {
+        float4 out = (float4)(output.x, output.y, output.z, output.w);
+        printf(" after bias output4 = %v4hlf \n", out);
+
+  }
+
+*/
+
    for (int i = 0; i < input_c; ++i) {
         int2 pos_in = (int2)(i * input_width + in_pos_in_one_block.x, in_pos_in_one_block.y);
-    if (pos_in.x >=0 && pos_in.y >= 0 && pos_in.x < input_width && pos_in.y < input_height) {
         half4 input = read_imageh(input_image, sampler, pos_in);
 
         half4 weight_x = read_imageh(filter, sampler, (int2)(i, out_c * 4 + 0));
@@ -341,21 +386,56 @@ __kernel void conv_1x1(__private const int global_size_dim0,
 
         half4 weight_w = read_imageh(filter, sampler, (int2)(i, out_c * 4 + 3));
         output.w += dot(input, weight_w);
+/*
+        if (out_c == out_c_p && out_w == out_w_p && out_nh == out_nh_p) {
+            printf("x - %d \n", pos_in.x);
+
+            printf("y - %d \n", pos_in.y);
+
+            float4 in = (float4)(input.x, input.y, input.z, input.w);
+            printf("input4 = %v4hlf \n", in);
+
+            float4 w = (float4)(weight_x.x, weight_x.y, weight_x.z, weight_x.w);
+            printf("weight4 = %v4hlf \n", w);
 
         }
+*/
   }
+/*
+  if (out_c == out_c_p && out_w == out_w_p && out_nh == out_nh_p) {
+        float4 out = (float4)(output.x, output.y, output.z, output.w);
+        printf("output4 = %v4hlf \n", out);
+
+  }
+
+*/
 
 #ifdef BATCH_NORM
     output = output * read_imageh(new_scale, sampler, (int2)(out_c, 0)) + read_imageh(new_biase, sampler, (int2)(out_c, 0));
 #endif
 
+/*
+  if (out_c == out_c_p && out_w == out_w_p && out_nh == out_nh_p) {
+        float4 out = (float4)(output.x, output.y, output.z, output.w);
+        printf(" after batch output4 = %v4hlf \n", out);
+
+  }
+
+*/
+
 #ifdef RELU
   output = activation(output);
 #endif
 
-  int2 output_pos = (int2)(out_c * global_size_dim1 + out_w, out_nh);
-  write_imageh(output_image, output_pos, output);
+/*
+  if (out_c == out_c_p && out_w == out_w_p && out_nh == out_nh_p) {
+        float4 out = (float4)(output.x, output.y, output.z, output.w);
+        printf(" after relu output4 = %v4hlf \n", out);
 
-}
+  }
 
+*/
 
+  int2 output_pos = (int2)(out_c * global_size_dim1 + out_w, out_nh);
+  write_imageh(output_image, output_pos, output);
+}

src/operators/kernel/cl/conv_add_kernel.cpp

@@ -36,12 +36,12 @@ bool ConvAddKernel<GPU_CL, float>::Init(FusionConvAddParam<GPU_CL> *param) {
 
   if (param->Filter()->WidthOfOneBlock() == 1 &&
       param->Filter()->HeightOfOneBlock() == 1) {
-    this->cl_helper_.AddKernel("conv_1x1", "conv_add_bn_relu_kernel.cl");
+    this->cl_helper_.AddKernel("conv_1x1", "conv_add_kernel.cl");
   } else if (param->Filter()->dims()[1] == 1) {
-    this->cl_helper_.AddKernel("depth_conv_3x3", "conv_add_bn_relu_kernel.cl");
+    this->cl_helper_.AddKernel("depth_conv_3x3", "conv_add_kernel.cl");
   } else if (param->Filter()->WidthOfOneBlock() == 3 &&
              param->Filter()->HeightOfOneBlock() == 3) {
-    this->cl_helper_.AddKernel("conv_3x3", "conv_add_bn_relu_kernel.cl");
+    this->cl_helper_.AddKernel("conv_3x3", "conv_add_kernel.cl");
   } else {
     PADDLE_MOBILE_THROW_EXCEPTION(" not support ");
   }