torch/csrc/jit/mobile/function.cpp - platform/external/pytorch - Git at Google

 #include <torch/csrc/jit/mobile/function.h>
 #include <torch/csrc/jit/mobile/interpreter.h>
 #include <torch/csrc/jit/runtime/instruction.h>
 #include <torch/csrc/jit/runtime/operator.h>
 #include <torch/csrc/jit/runtime/vararg_functions.h>
 #include <torch/custom_class_detail.h>
 #include <torch/library.h>

 namespace torch {
 namespace jit {

 char const* toString(OpCode op);
 namespace mobile {
 Function::Function(c10::QualifiedName name)
     : name_(name), code_(std::make_shared<Code>()) {}

 void Function::append_instruction(OpCode op, int X, int N) {
   TORCH_CHECK(
       op != CREATE_OBJECT,
       "CREATE_OBJECT is not supported in mobile module. ",
       "Workaround: instead of using arbitrary class type (class Foo()), ",
       "define a pytorch class (class Foo(torch.nn.Module)).");
   TORCH_CHECK(
       isOpSupportedInMobile(op),
       toString(op),
       " is not supported in mobile module.");
   code_->instructions_.emplace_back(op, X, N);
 }

 bool Function::append_operator(
     const std::string& name,
     const std::string& overload_name) {
   // Keep the original opname in code_
   code_->op_names_.emplace_back(name, overload_name);
   auto opname = code_->op_names_.back();

   auto opname_c10 = opname;
   std::function<void(Stack&)> fn;

   auto jit_op = findOperatorFor(opname);
   if (jit_op) {
     fn = [jit_op](Stack& stack) { jit_op->getOperation()(&stack); };
   } else {
     auto op = c10::Dispatcher::singleton().findSchema(opname_c10);
     if (op.has_value()) {
       fn = [op](Stack& stack) { op->callBoxed(&stack); };
     } else {
       return false;
     }
   }

   code_->operators_.emplace_back(fn);
   return true;
 }

 void Function::append_constant(const c10::IValue& constant) {
   code_->constants_.push_back(constant);
 }

 void Function::append_type(const at::TypePtr& type) {
   code_->types_.push_back(type);
 }

 void Function::set_register_size(size_t size) {
   code_->register_size_ = size;
 }

 bool Function::run(Stack& stack) const {
   InterpreterState interp_state(code_);
   return interp_state.run(stack);
 }
 } // namespace mobile
 } // namespace jit
 } // namespace torch
	#include <torch/csrc/jit/mobile/function.h>
	#include <torch/csrc/jit/mobile/interpreter.h>
	#include <torch/csrc/jit/runtime/instruction.h>
	#include <torch/csrc/jit/runtime/operator.h>
	#include <torch/csrc/jit/runtime/vararg_functions.h>
	#include <torch/custom_class_detail.h>
	#include <torch/library.h>

	namespace torch {
	namespace jit {

	char const* toString(OpCode op);
	namespace mobile {
	Function::Function(c10::QualifiedName name)
	: name_(name), code_(std::make_shared<Code>()) {}

	void Function::append_instruction(OpCode op, int X, int N) {
	TORCH_CHECK(
	op != CREATE_OBJECT,
	"CREATE_OBJECT is not supported in mobile module. ",
	"Workaround: instead of using arbitrary class type (class Foo()), ",
	"define a pytorch class (class Foo(torch.nn.Module)).");
	TORCH_CHECK(
	isOpSupportedInMobile(op),
	toString(op),
	" is not supported in mobile module.");
	code_->instructions_.emplace_back(op, X, N);
	}

	bool Function::append_operator(
	const std::string& name,
	const std::string& overload_name) {
	// Keep the original opname in code_
	code_->op_names_.emplace_back(name, overload_name);
	auto opname = code_->op_names_.back();

	auto opname_c10 = opname;
	std::function<void(Stack&)> fn;

	auto jit_op = findOperatorFor(opname);
	if (jit_op) {
	fn = [jit_op](Stack& stack) { jit_op->getOperation()(&stack); };
	} else {
	auto op = c10::Dispatcher::singleton().findSchema(opname_c10);
	if (op.has_value()) {
	fn = [op](Stack& stack) { op->callBoxed(&stack); };
	} else {
	return false;
	}
	}

	code_->operators_.emplace_back(fn);
	return true;
	}

	void Function::append_constant(const c10::IValue& constant) {
	code_->constants_.push_back(constant);
	}

	void Function::append_type(const at::TypePtr& type) {
	code_->types_.push_back(type);
	}

	void Function::set_register_size(size_t size) {
	code_->register_size_ = size;
	}

	bool Function::run(Stack& stack) const {
	InterpreterState interp_state(code_);
	return interp_state.run(stack);
	}
	} // namespace mobile
	} // namespace jit
	} // namespace torch