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test_custom_class_registrations.cpp
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test_custom_class_registrations.cpp
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#include <test/cpp/jit/test_custom_class_registrations.h>
#include <torch/custom_class.h>
#include <torch/script.h>
#include <iostream>
#include <string>
#include <vector>
using namespace torch::jit;
namespace {
struct DefaultArgs : torch::CustomClassHolder {
int x;
DefaultArgs(int64_t start = 3) : x(start) {}
int64_t increment(int64_t val = 1) {
x += val;
return x;
}
int64_t decrement(int64_t val = 1) {
x += val;
return x;
}
int64_t scale_add(int64_t add, int64_t scale = 1) {
// NOLINTNEXTLINE(cppcoreguidelines-narrowing-conversions,bugprone-narrowing-conversions)
x = scale * x + add;
return x;
}
int64_t divide(c10::optional<int64_t> factor) {
if (factor) {
// NOLINTNEXTLINE(cppcoreguidelines-narrowing-conversions,bugprone-narrowing-conversions)
x = x / *factor;
}
return x;
}
};
struct Foo : torch::CustomClassHolder {
int x, y;
Foo() : x(0), y(0) {}
Foo(int x_, int y_) : x(x_), y(y_) {}
int64_t info() {
return this->x * this->y;
}
int64_t add(int64_t z) {
return (x + y) * z;
}
void increment(int64_t z) {
this->x += z;
this->y += z;
}
int64_t combine(c10::intrusive_ptr<Foo> b) {
return this->info() + b->info();
}
};
struct _StaticMethod : torch::CustomClassHolder {
// NOLINTNEXTLINE(modernize-use-equals-default)
_StaticMethod() {}
static int64_t staticMethod(int64_t input) {
return 2 * input;
}
};
struct FooGetterSetter : torch::CustomClassHolder {
FooGetterSetter() : x(0), y(0) {}
FooGetterSetter(int64_t x_, int64_t y_) : x(x_), y(y_) {}
int64_t getX() {
// to make sure this is not just attribute lookup
return x + 2;
}
void setX(int64_t z) {
// to make sure this is not just attribute lookup
x = z + 2;
}
int64_t getY() {
// to make sure this is not just attribute lookup
return y + 4;
}
private:
int64_t x, y;
};
struct FooGetterSetterLambda : torch::CustomClassHolder {
int64_t x;
FooGetterSetterLambda() : x(0) {}
FooGetterSetterLambda(int64_t x_) : x(x_) {}
};
struct FooReadWrite : torch::CustomClassHolder {
int64_t x;
const int64_t y;
FooReadWrite() : x(0), y(0) {}
FooReadWrite(int64_t x_, int64_t y_) : x(x_), y(y_) {}
};
struct LambdaInit : torch::CustomClassHolder {
int x, y;
LambdaInit(int x_, int y_) : x(x_), y(y_) {}
int64_t diff() {
return this->x - this->y;
}
};
// NOLINTNEXTLINE(cppcoreguidelines-pro-type-member-init)
struct NoInit : torch::CustomClassHolder {
int64_t x;
};
struct PickleTester : torch::CustomClassHolder {
PickleTester(std::vector<int64_t> vals) : vals(std::move(vals)) {}
std::vector<int64_t> vals;
};
at::Tensor take_an_instance(const c10::intrusive_ptr<PickleTester>& instance) {
return torch::zeros({instance->vals.back(), 4});
}
struct ElementwiseInterpreter : torch::CustomClassHolder {
using InstructionType = std::tuple<
std::string /*op*/,
std::vector<std::string> /*inputs*/,
std::string /*output*/>;
// NOLINTNEXTLINE(modernize-use-equals-default)
ElementwiseInterpreter() {}
// Load a list of instructions into the interpreter. As specified above,
// instructions specify the operation (currently support "add" and "mul"),
// the names of the input values, and the name of the single output value
// from this instruction
void setInstructions(std::vector<InstructionType> instructions) {
instructions_ = std::move(instructions);
}
// Add a constant. The interpreter maintains a set of constants across
// calls. They are keyed by name, and constants can be referenced in
// Instructions by the name specified
void addConstant(const std::string& name, at::Tensor value) {
constants_.insert_or_assign(name, std::move(value));
}
// Set the string names for the positional inputs to the function this
// interpreter represents. When invoked, the interpreter will assign
// the positional inputs to the names in the corresponding position in
// input_names.
void setInputNames(std::vector<std::string> input_names) {
input_names_ = std::move(input_names);
}
// Specify the output name for the function this interpreter represents. This
// should match the "output" field of one of the instructions in the
// instruction list, typically the last instruction.
void setOutputName(std::string output_name) {
output_name_ = std::move(output_name);
}
// Invoke this interpreter. This takes a list of positional inputs and returns
// a single output. Currently, inputs and outputs must all be Tensors.
at::Tensor __call__(std::vector<at::Tensor> inputs) {
// Environment to hold local variables
std::unordered_map<std::string, at::Tensor> environment;
// Load inputs according to the specified names
if (inputs.size() != input_names_.size()) {
std::stringstream err;
err << "Expected " << input_names_.size() << " inputs, but got "
<< inputs.size() << "!";
throw std::runtime_error(err.str());
}
for (size_t i = 0; i < inputs.size(); ++i) {
environment[input_names_[i]] = inputs[i];
}
for (InstructionType& instr : instructions_) {
// Retrieve all input values for this op
std::vector<at::Tensor> inputs;
for (const auto& input_name : std::get<1>(instr)) {
// Operator output values shadow constants.
// Imagine all constants are defined in statements at the beginning
// of a function (a la K&R C). Any definition of an output value must
// necessarily come after constant definition in textual order. Thus,
// We look up values in the environment first then the constant table
// second to implement this shadowing behavior
if (environment.find(input_name) != environment.end()) {
inputs.push_back(environment.at(input_name));
} else if (constants_.find(input_name) != constants_.end()) {
inputs.push_back(constants_.at(input_name));
} else {
std::stringstream err;
err << "Instruction referenced unknown value " << input_name << "!";
throw std::runtime_error(err.str());
}
}
// Run the specified operation
at::Tensor result;
const auto& op = std::get<0>(instr);
if (op == "add") {
if (inputs.size() != 2) {
throw std::runtime_error("Unexpected number of inputs for add op!");
}
result = inputs[0] + inputs[1];
} else if (op == "mul") {
if (inputs.size() != 2) {
throw std::runtime_error("Unexpected number of inputs for mul op!");
}
result = inputs[0] * inputs[1];
} else {
std::stringstream err;
err << "Unknown operator " << op << "!";
throw std::runtime_error(err.str());
}
// Write back result into environment
const auto& output_name = std::get<2>(instr);
environment[output_name] = std::move(result);
}
if (!output_name_) {
throw std::runtime_error("Output name not specified!");
}
return environment.at(*output_name_);
}
// Ser/De infrastructure. See
// https://pytorch.org/tutorials/advanced/torch_script_custom_classes.html#defining-serialization-deserialization-methods-for-custom-c-classes
// for more info.
// This is the type we will use to marshall information on disk during
// ser/de. It is a simple tuple composed of primitive types and simple
// collection types like vector, optional, and dict.
using SerializationType = std::tuple<
std::vector<std::string> /*input_names_*/,
c10::optional<std::string> /*output_name_*/,
c10::Dict<std::string, at::Tensor> /*constants_*/,
std::vector<InstructionType> /*instructions_*/
>;
// This function yields the SerializationType instance for `this`.
SerializationType __getstate__() const {
return SerializationType{
input_names_, output_name_, constants_, instructions_};
}
// This function will create an instance of `ElementwiseInterpreter` given
// an instance of `SerializationType`.
static c10::intrusive_ptr<ElementwiseInterpreter> __setstate__(
SerializationType state) {
auto instance = c10::make_intrusive<ElementwiseInterpreter>();
std::tie(
instance->input_names_,
instance->output_name_,
instance->constants_,
instance->instructions_) = std::move(state);
return instance;
}
// Class members
std::vector<std::string> input_names_;
c10::optional<std::string> output_name_;
c10::Dict<std::string, at::Tensor> constants_;
std::vector<InstructionType> instructions_;
};
struct ReLUClass : public torch::CustomClassHolder {
at::Tensor run(const at::Tensor& t) {
return t.relu();
}
};
TORCH_LIBRARY(_TorchScriptTesting, m) {
m.class_<ScalarTypeClass>("_ScalarTypeClass")
.def(torch::init<at::ScalarType>())
.def_pickle(
[](const c10::intrusive_ptr<ScalarTypeClass>& self) {
return std::make_tuple(self->scalar_type_);
},
[](std::tuple<at::ScalarType> s) {
return c10::make_intrusive<ScalarTypeClass>(std::get<0>(s));
});
m.class_<ReLUClass>("_ReLUClass")
.def(torch::init<>())
.def("run", &ReLUClass::run);
m.class_<_StaticMethod>("_StaticMethod")
.def(torch::init<>())
.def_static("staticMethod", &_StaticMethod::staticMethod);
m.class_<DefaultArgs>("_DefaultArgs")
.def(torch::init<int64_t>(), "", {torch::arg("start") = 3})
.def("increment", &DefaultArgs::increment, "", {torch::arg("val") = 1})
.def("decrement", &DefaultArgs::decrement, "", {torch::arg("val") = 1})
.def(
"scale_add",
&DefaultArgs::scale_add,
"",
{torch::arg("add"), torch::arg("scale") = 1})
.def(
"divide",
&DefaultArgs::divide,
"",
{torch::arg("factor") = torch::arg::none()});
m.class_<Foo>("_Foo")
.def(torch::init<int64_t, int64_t>())
// .def(torch::init<>())
.def("info", &Foo::info)
.def("increment", &Foo::increment)
.def("add", &Foo::add)
.def("combine", &Foo::combine);
m.class_<FooGetterSetter>("_FooGetterSetter")
.def(torch::init<int64_t, int64_t>())
.def_property("x", &FooGetterSetter::getX, &FooGetterSetter::setX)
.def_property("y", &FooGetterSetter::getY);
m.class_<FooGetterSetterLambda>("_FooGetterSetterLambda")
.def(torch::init<int64_t>())
.def_property(
"x",
[](const c10::intrusive_ptr<FooGetterSetterLambda>& self) {
return self->x;
},
[](const c10::intrusive_ptr<FooGetterSetterLambda>& self,
int64_t val) { self->x = val; });
m.class_<FooReadWrite>("_FooReadWrite")
.def(torch::init<int64_t, int64_t>())
.def_readwrite("x", &FooReadWrite::x)
.def_readonly("y", &FooReadWrite::y);
m.class_<LambdaInit>("_LambdaInit")
.def(torch::init([](int64_t x, int64_t y, bool swap) {
if (swap) {
return c10::make_intrusive<LambdaInit>(y, x);
} else {
return c10::make_intrusive<LambdaInit>(x, y);
}
}))
.def("diff", &LambdaInit::diff);
m.class_<NoInit>("_NoInit").def(
"get_x", [](const c10::intrusive_ptr<NoInit>& self) { return self->x; });
m.class_<MyStackClass<std::string>>("_StackString")
.def(torch::init<std::vector<std::string>>())
.def("push", &MyStackClass<std::string>::push)
.def("pop", &MyStackClass<std::string>::pop)
.def("clone", &MyStackClass<std::string>::clone)
.def("merge", &MyStackClass<std::string>::merge)
.def_pickle(
[](const c10::intrusive_ptr<MyStackClass<std::string>>& self) {
return self->stack_;
},
[](std::vector<std::string> state) { // __setstate__
return c10::make_intrusive<MyStackClass<std::string>>(
std::vector<std::string>{"i", "was", "deserialized"});
})
.def("return_a_tuple", &MyStackClass<std::string>::return_a_tuple)
.def(
"top",
[](const c10::intrusive_ptr<MyStackClass<std::string>>& self)
-> std::string { return self->stack_.back(); })
.def(
"__str__",
[](const c10::intrusive_ptr<MyStackClass<std::string>>& self) {
std::stringstream ss;
ss << "[";
for (size_t i = 0; i < self->stack_.size(); ++i) {
ss << self->stack_[i];
if (i != self->stack_.size() - 1) {
ss << ", ";
}
}
ss << "]";
return ss.str();
});
// clang-format off
// The following will fail with a static assert telling you you have to
// take an intrusive_ptr<MyStackClass> as the first argument.
// .def("foo", [](int64_t a) -> int64_t{ return 3;});
// clang-format on
m.class_<PickleTester>("_PickleTester")
.def(torch::init<std::vector<int64_t>>())
.def_pickle(
[](c10::intrusive_ptr<PickleTester> self) { // __getstate__
return std::vector<int64_t>{1, 3, 3, 7};
},
[](std::vector<int64_t> state) { // __setstate__
return c10::make_intrusive<PickleTester>(std::move(state));
})
.def(
"top",
[](const c10::intrusive_ptr<PickleTester>& self) {
return self->vals.back();
})
.def("pop", [](const c10::intrusive_ptr<PickleTester>& self) {
auto val = self->vals.back();
self->vals.pop_back();
return val;
});
m.def(
"take_an_instance(__torch__.torch.classes._TorchScriptTesting._PickleTester x) -> Tensor Y",
take_an_instance);
// test that schema inference is ok too
m.def("take_an_instance_inferred", take_an_instance);
m.class_<ElementwiseInterpreter>("_ElementwiseInterpreter")
.def(torch::init<>())
.def("set_instructions", &ElementwiseInterpreter::setInstructions)
.def("add_constant", &ElementwiseInterpreter::addConstant)
.def("set_input_names", &ElementwiseInterpreter::setInputNames)
.def("set_output_name", &ElementwiseInterpreter::setOutputName)
.def("__call__", &ElementwiseInterpreter::__call__)
.def_pickle(
/* __getstate__ */
[](const c10::intrusive_ptr<ElementwiseInterpreter>& self) {
return self->__getstate__();
},
/* __setstate__ */
[](ElementwiseInterpreter::SerializationType state) {
return ElementwiseInterpreter::__setstate__(std::move(state));
});
}
} // namespace