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#ifndef TIM_LAYOUT_INFER_FULLYCONNECTED_LAYOUT_INFERENCE_H_
#define TIM_LAYOUT_INFER_FULLYCONNECTED_LAYOUT_INFERENCE_H_

#include "tim/vx/ops/fullyconnected.h"

#include "src/tim/transform/ops/op_layout_inference.h"
#include "src/tim/transform/permute_vector.h"
#include "src/tim/vx/operation_private.h"

namespace tim {
namespace transform {
class FullyConnectedLayoutInfer : public OpLayoutInfer {
 public:
  FullyConnectedLayoutInfer(
      const std::shared_ptr<vx::Operation> op,
      std::shared_ptr<layout_inference_impl::LayoutInferContext>& context)
      : OpLayoutInfer(op, context) {}

  void OnInputs(
      std::vector<std::shared_ptr<vx::Tensor>>& next_tensors) override {
    
    auto input_tensors = op_->impl()->InputsTensor();
    for (const auto& in : input_tensors) {
      if (in->IsConstTensor()) {
        auto infer_tensor = context_->infer_graph_->CreateTensor(in->GetSpec(),
                                                            in->GetDataRef());
        auto trans_pv = MakeShared(in->GetShape().size());

        context_->UpdateTensorMap(in, infer_tensor);
        context_->SetPermuteVector(in, trans_pv);
      }
    }
    uint32_t axis = op_->impl()->node()->nn_param.fcl.axis;
    uint32_t weight = op_->impl()->node()->nn_param.fcl.weights;

    auto fcl = context_->infer_graph_->CreateOperation<vx::ops::FullyConnected>(
        axis, weight);
    auto required_pv =
        MakeShared(op_->impl()->OutputsTensor()[0]->GetShape().size());
    auto out_infer = CreateOutputsTensor(required_pv);
    (*fcl)
        .BindInputs({context_->GetMapedTensor(op_->impl()->InputsTensor()[0]),
                     context_->GetMapedTensor(op_->impl()->InputsTensor()[1]),
                     context_->GetMapedTensor(op_->impl()->InputsTensor()[2])})
        .BindOutput(out_infer[0]);
    context_->SetPermuteVector(op_->impl()->OutputsTensor()[0], required_pv);
    next_tensors.push_back(op_->impl()->OutputsTensor()[0]);
  }
};

}  // namespace transform
}  // namespace tim
#endif