test/cpp_extensions/extension.cpp - platform/external/pytorch - Git at Google

 #include <torch/extension.h>

 // test include_dirs in setuptools.setup with relative path
 #include <tmp.h>

 torch::Tensor sigmoid_add(torch::Tensor x, torch::Tensor y) {
   return x.sigmoid() + y.sigmoid();
 }

 struct MatrixMultiplier {
   MatrixMultiplier(int A, int B) {
     tensor_ =
         torch::ones({A, B}, torch::dtype(torch::kFloat64).requires_grad(true));
   }
   torch::Tensor forward(torch::Tensor weights) {
     return tensor_.mm(weights);
   }
   torch::Tensor get() const {
     return tensor_;
   }

  private:
   torch::Tensor tensor_;
 };

 bool function_taking_optional(c10::optional<torch::Tensor> tensor) {
   return tensor.has_value();
 }

 torch::Tensor random_tensor() {
   return torch::randn({1});
 }

 PYBIND11_MODULE(TORCH_EXTENSION_NAME, m) {
   m.def("sigmoid_add", &sigmoid_add, "sigmoid(x) + sigmoid(y)");
   m.def(
       "function_taking_optional",
       &function_taking_optional,
       "function_taking_optional");
   py::class_<MatrixMultiplier>(m, "MatrixMultiplier")
       .def(py::init<int, int>())
       .def("forward", &MatrixMultiplier::forward)
       .def("get", &MatrixMultiplier::get);

   m.def("get_complex", []() { return c10::complex<double>(1.0, 2.0); });
   m.def("get_device", []() { return at::device_of(random_tensor()).value(); });
   m.def("get_generator", []() { return at::detail::getDefaultCPUGenerator(); });
   m.def("get_intarrayref", []() { return at::IntArrayRef({1, 2, 3}); });
   m.def("get_memory_format", []() { return c10::get_contiguous_memory_format(); });
   m.def("get_storage", []() { return random_tensor().storage(); });
   m.def("get_symfloat", []() { return c10::SymFloat(1.0); });
   m.def("get_symint", []() { return c10::SymInt(1); });
   m.def("get_symintarrayref", []() { return at::SymIntArrayRef({1, 2, 3}); });
   m.def("get_tensor", []() { return random_tensor(); });
 }
	#include <torch/extension.h>

	// test include_dirs in setuptools.setup with relative path
	#include <tmp.h>

	torch::Tensor sigmoid_add(torch::Tensor x, torch::Tensor y) {
	return x.sigmoid() + y.sigmoid();
	}

	struct MatrixMultiplier {
	MatrixMultiplier(int A, int B) {
	tensor_ =
	torch::ones({A, B}, torch::dtype(torch::kFloat64).requires_grad(true));
	}
	torch::Tensor forward(torch::Tensor weights) {
	return tensor_.mm(weights);
	}
	torch::Tensor get() const {
	return tensor_;
	}

	private:
	torch::Tensor tensor_;
	};

	bool function_taking_optional(c10::optional<torch::Tensor> tensor) {
	return tensor.has_value();
	}

	torch::Tensor random_tensor() {
	return torch::randn({1});
	}

	PYBIND11_MODULE(TORCH_EXTENSION_NAME, m) {
	m.def("sigmoid_add", &sigmoid_add, "sigmoid(x) + sigmoid(y)");
	m.def(
	"function_taking_optional",
	&function_taking_optional,
	"function_taking_optional");
	py::class_<MatrixMultiplier>(m, "MatrixMultiplier")
	.def(py::init<int, int>())
	.def("forward", &MatrixMultiplier::forward)
	.def("get", &MatrixMultiplier::get);

	m.def("get_complex", []() { return c10::complex<double>(1.0, 2.0); });
	m.def("get_device", []() { return at::device_of(random_tensor()).value(); });
	m.def("get_generator", []() { return at::detail::getDefaultCPUGenerator(); });
	m.def("get_intarrayref", []() { return at::IntArrayRef({1, 2, 3}); });
	m.def("get_memory_format", []() { return c10::get_contiguous_memory_format(); });
	m.def("get_storage", []() { return random_tensor().storage(); });
	m.def("get_symfloat", []() { return c10::SymFloat(1.0); });
	m.def("get_symint", []() { return c10::SymInt(1); });
	m.def("get_symintarrayref", []() { return at::SymIntArrayRef({1, 2, 3}); });
	m.def("get_tensor", []() { return random_tensor(); });
	}