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Results 1 - 10 of 41 for Shape (0.06 sec)

  1. tensorflow/c/eager/abstract_tensor_handle.h

      virtual absl::Status TensorHandleStatus() const;
    
      // Returns tensor shape. If tensor has unknown rank, shape remains untouched.
      virtual absl::Status Shape(tensorflow::PartialTensorShape* shape) const = 0;
    
      // Returns tensor (full) type.
      // While there is no immediate plan to deprecate dtype and shape in favor
      // of only using full type type information, this is a future possibility.
      //
    Registered: Tue Nov 05 12:39:12 UTC 2024
    - Last Modified: Sat Oct 12 05:11:17 UTC 2024
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  2. tensorflow/c/eager/parallel_device/parallel_device_lib.h

      // devices of a ParallelDevice. If called, ParallelTensor::Shape inspects
      // `components` to determine a shape.
      static std::unique_ptr<ParallelTensor> FromTensorHandles(
          const ParallelDevice& parallel_device,
          std::vector<TensorHandlePtr> components, TF_Status* status);
      // Uses the provided shape without additional checks, which avoids blocking
      // when ParallelTensor::Shape is called.
    Registered: Tue Nov 05 12:39:12 UTC 2024
    - Last Modified: Mon Oct 21 04:14:14 UTC 2024
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  3. tensorflow/c/eager/c_api_debug.cc

      std::vector<int64_t> shape;
      int rank = -1;
      *status = handle.NumDims(&rank);
      if (!status->ok()) {
        return shape;
      }
      shape.reserve(rank);
      for (int i = 0; i < rank; ++i) {
        int64_t dim;
        *status = handle.Dim(i, &dim);
        if (!status->ok()) {
          return shape;
        }
        shape.push_back(dim);
      }
      return shape;
    }
    
    }  // namespace
    
    extern "C" {
    
    Registered: Tue Nov 05 12:39:12 UTC 2024
    - Last Modified: Sat Oct 12 05:11:17 UTC 2024
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  4. tensorflow/c/eager/parallel_device/parallel_device_lib_test.cc

      ASSERT_TRUE(TF_GetCode(status.get()) == TF_OK) << TF_Message(status.get());
      const std::vector<std::unique_ptr<ParallelTensor>>& handles = *outputs;
      const std::vector<int64_t>* shape;
      absl::Status s = handles[0]->Shape(&shape);
      ASSERT_TRUE(s.ok());
      EXPECT_EQ(0, shape->size());
    }
    
    TEST(PARALLEL_DEVICE_LIB, TestCancelOnError) {
      std::unique_ptr<TF_Status, decltype(&TF_DeleteStatus)> status(
          TF_NewStatus(), TF_DeleteStatus);
    Registered: Tue Nov 05 12:39:12 UTC 2024
    - Last Modified: Mon Oct 21 04:14:14 UTC 2024
    - 15.6K bytes
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  5. tensorflow/c/eager/abstract_tensor_handle.cc

    namespace tensorflow {
    
    std::string AbstractTensorHandle::DebugString() const {
      PartialTensorShape shape;
      absl::Status s = Shape(&shape);
      std::string shape_string;
      if (!s.ok()) {
        shape_string = "<error computing shape>";
      } else {
        shape_string = shape.DebugString();
      }
      return absl::StrCat("TensorHandle(shape=", shape_string,
                          ", dtype=", DataType_Name(DataType()),
    Registered: Tue Nov 05 12:39:12 UTC 2024
    - Last Modified: Sat Oct 12 05:11:17 UTC 2024
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  6. tensorflow/c/eager/immediate_execution_tensor_handle.cc

    namespace tensorflow {
    
    std::string ImmediateExecutionTensorHandle::DebugString() const {
      PartialTensorShape shape;
      std::string shape_string;
      if (Shape(&shape).ok()) {
        shape_string = shape.DebugString();
      } else {
        shape_string = "<error computing shape>";
      }
      std::string value_string;
      if (!SummarizeValue(value_string).ok()) {
        value_string = "<error computing value>";
      }
    Registered: Tue Nov 05 12:39:12 UTC 2024
    - Last Modified: Sat Oct 12 05:24:07 UTC 2024
    - 2.1K bytes
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  7. tensorflow/c/c_api_experimental.cc

        ShapeHandle shape_handle = c.output(i);
        TF_ShapeAndType& shape = output_shapes_result->items[i];
        shape.num_dims = c.Rank(shape_handle);
        if (shape.num_dims == InferenceContext::kUnknownRank) {
          shape.dims = nullptr;
          continue;
        }
        shape.dims = new int64_t[shape.num_dims];
        for (size_t j = 0; j < shape.num_dims; ++j) {
          shape.dims[j] = c.Value(c.Dim(shape_handle, j));
        }
      }
    Registered: Tue Nov 05 12:39:12 UTC 2024
    - Last Modified: Sat Oct 12 16:27:48 UTC 2024
    - 29.5K bytes
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  8. tensorflow/c/c_api.cc

    }
    
    // Create an empty tensor of type 'dtype'. 'shape' can be arbitrary, but has to
    // result in a zero-sized tensor.
    static TF_Tensor* EmptyTensor(TF_DataType dtype,
                                  const tensorflow::TensorShape& shape) {
      static char empty;
      int64_t nelems = 1;
      std::vector<int64_t> dims;
      dims.reserve(shape.dims());
      for (int i = 0; i < shape.dims(); ++i) {
        dims.push_back(shape.dim_size(i));
    Registered: Tue Nov 05 12:39:12 UTC 2024
    - Last Modified: Sat Oct 12 16:27:48 UTC 2024
    - 102.3K bytes
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  9. tensorflow/c/eager/c_api_unified_experimental.cc

        return nullptr;
      }
      tensorflow::PartialTensorShape partial_shape;
      if (shape.num_dims != -1) {
        DCHECK(shape.dim_sizes != nullptr);
        Status status = tensorflow::PartialTensorShape::MakePartialShape(
            reinterpret_cast<int64_t*>(shape.dim_sizes), shape.num_dims,
            &partial_shape);
        if (!status.ok()) {
          tsl::Set_TF_Status_from_Status(s, status);
    Registered: Tue Nov 05 12:39:12 UTC 2024
    - Last Modified: Sat Oct 12 05:11:17 UTC 2024
    - 9K bytes
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  10. tensorflow/c/eager/c_api_unified_experimental_graph.cc

        TF_RETURN_IF_ERROR(operation->SetAttrType("dtype", dtype));
        if (!shape.unknown_rank()) {
          TF_RETURN_IF_ERROR(operation->SetAttrShape(
              "shape", reinterpret_cast<int64_t*>(shape.dim_sizes().data()),
              shape.dims()));
        }
        int num_outputs = 1;
        std::vector<AbstractTensorHandle*> outputs(num_outputs);
        TF_RETURN_IF_ERROR(operation->Execute(
    Registered: Tue Nov 05 12:39:12 UTC 2024
    - Last Modified: Sat Oct 12 05:11:17 UTC 2024
    - 15.7K bytes
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