mirror of
https://github.com/zebrajr/pytorch.git
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737f48dfc5
Summary: Pull Request resolved: https://github.com/pytorch/pytorch/pull/57879 _save_data() and _load_data() were designed as a protocol of data serialization of trainer client. As confirmed with kwanmacher and dreiss , they are not used. In addition, there's no plan to use them in Federated Learning flow. Remove them for now. Test Plan: Imported from OSS Reviewed By: kwanmacher Differential Revision: D28306682 Pulled By: iseeyuan fbshipit-source-id: 1b993ce4d78e372ae9b83bcbe496a196f9269d47
256 lines
8.0 KiB
C++
256 lines
8.0 KiB
C++
#include <gtest/gtest.h>
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#include <c10/core/TensorOptions.h>
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#include <torch/csrc/autograd/generated/variable_factories.h>
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#include <torch/csrc/jit/api/module.h>
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#include <torch/csrc/jit/mobile/export_data.h>
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#include <torch/csrc/jit/mobile/import.h>
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#include <torch/csrc/jit/mobile/import_data.h>
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#include <torch/csrc/jit/mobile/module.h>
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#include <torch/csrc/jit/mobile/optim/sgd.h>
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#include <torch/csrc/jit/mobile/sequential.h>
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#include <torch/csrc/jit/serialization/import.h>
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#include <torch/data/dataloader.h>
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#include <torch/torch.h>
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// Tests go in torch::jit
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namespace torch {
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namespace jit {
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// NOLINTNEXTLINE(cppcoreguidelines-avoid-non-const-global-variables)
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TEST(LiteTrainerTest, Params) {
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Module m("m");
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m.register_parameter("foo", torch::ones({1}, at::requires_grad()), false);
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m.define(R"(
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def forward(self, x):
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b = 1.0
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return self.foo * x + b
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)");
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double learning_rate = 0.1, momentum = 0.1;
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int n_epoc = 10;
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// init: y = x + 1;
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// target: y = 2 x + 1
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std::vector<std::pair<Tensor, Tensor>> trainData{
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{1 * torch::ones({1}), 3 * torch::ones({1})},
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};
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// Reference: Full jit
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std::stringstream ms;
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m.save(ms);
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auto mm = load(ms);
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// mm.train();
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std::vector<::at::Tensor> parameters;
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for (auto parameter : mm.parameters()) {
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parameters.emplace_back(parameter);
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}
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::torch::optim::SGD optimizer(
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parameters, ::torch::optim::SGDOptions(learning_rate).momentum(momentum));
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for (int epoc = 0; epoc < n_epoc; ++epoc) {
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for (auto& data : trainData) {
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auto source = data.first, targets = data.second;
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optimizer.zero_grad();
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std::vector<IValue> train_inputs{source};
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auto output = mm.forward(train_inputs).toTensor();
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auto loss = ::torch::l1_loss(output, targets);
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loss.backward();
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optimizer.step();
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}
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}
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std::stringstream ss;
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m._save_for_mobile(ss);
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mobile::Module bc = _load_for_mobile(ss);
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std::vector<::at::Tensor> bc_parameters = bc.parameters();
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::torch::optim::SGD bc_optimizer(
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bc_parameters,
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::torch::optim::SGDOptions(learning_rate).momentum(momentum));
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for (int epoc = 0; epoc < n_epoc; ++epoc) {
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for (auto& data : trainData) {
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auto source = data.first, targets = data.second;
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bc_optimizer.zero_grad();
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std::vector<IValue> train_inputs{source};
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auto output = bc.forward(train_inputs).toTensor();
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auto loss = ::torch::l1_loss(output, targets);
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loss.backward();
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bc_optimizer.step();
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}
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}
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AT_ASSERT(parameters[0].item<float>() == bc_parameters[0].item<float>());
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}
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// TODO Renable these tests after parameters are correctly loaded on mobile
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/*
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TEST(MobileTest, NamedParameters) {
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Module m("m");
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m.register_parameter("foo", torch::ones({}), false);
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m.define(R"(
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def add_it(self, x):
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b = 4
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return self.foo + x + b
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)");
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Module child("m2");
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child.register_parameter("foo", 4 * torch::ones({}), false);
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child.register_parameter("bar", 4 * torch::ones({}), false);
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m.register_module("child1", child);
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m.register_module("child2", child.clone());
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std::stringstream ss;
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m._save_for_mobile(ss);
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mobile::Module bc = _load_for_mobile(ss);
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auto full_params = m.named_parameters();
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auto mobile_params = bc.named_parameters();
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AT_ASSERT(full_params.size() == mobile_params.size());
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for (const auto& e : full_params) {
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AT_ASSERT(e.value.item().toInt() ==
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mobile_params[e.name].item().toInt());
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}
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}
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TEST(MobileTest, SaveLoadParameters) {
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Module m("m");
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m.register_parameter("foo", torch::ones({}), false);
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m.define(R"(
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def add_it(self, x):
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b = 4
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return self.foo + x + b
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)");
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Module child("m2");
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child.register_parameter("foo", 4 * torch::ones({}), false);
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child.register_parameter("bar", 3 * torch::ones({}), false);
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m.register_module("child1", child);
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m.register_module("child2", child.clone());
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auto full_params = m.named_parameters();
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std::stringstream ss;
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std::stringstream ss_data;
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m._save_for_mobile(ss);
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// load mobile module, save mobile named parameters
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mobile::Module bc = _load_for_mobile(ss);
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_save_parameters(bc.named_parameters(), ss_data);
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// load back the named parameters, compare to full-jit Module's
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auto mobile_params = _load_parameters(ss_data);
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AT_ASSERT(full_params.size() == mobile_params.size());
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for (const auto& e : full_params) {
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AT_ASSERT(e.value.item<int>() == mobile_params[e.name].item<int>());
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}
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}
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*/
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// NOLINTNEXTLINE(cppcoreguidelines-avoid-non-const-global-variables)
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TEST(MobileTest, SaveLoadParametersEmpty) {
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Module m("m");
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m.define(R"(
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def add_it(self, x):
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b = 4
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return x + b
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)");
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Module child("m2");
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m.register_module("child1", child);
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m.register_module("child2", child.clone());
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std::stringstream ss;
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std::stringstream ss_data;
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m._save_for_mobile(ss);
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// load mobile module, save mobile named parameters
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mobile::Module bc = _load_for_mobile(ss);
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_save_parameters(bc.named_parameters(), ss_data);
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// load back the named parameters, test is empty
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auto mobile_params = _load_parameters(ss_data);
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AT_ASSERT(mobile_params.size() == 0);
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}
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// NOLINTNEXTLINE(cppcoreguidelines-avoid-non-const-global-variables)
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TEST(LiteTrainerTest, SGD) {
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Module m("m");
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m.register_parameter("foo", torch::ones({1}, at::requires_grad()), false);
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m.define(R"(
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def forward(self, x):
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b = 1.0
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return self.foo * x + b
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)");
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double learning_rate = 0.1, momentum = 0.1;
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int n_epoc = 10;
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// init: y = x + 1;
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// target: y = 2 x + 1
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std::vector<std::pair<Tensor, Tensor>> trainData{
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{1 * torch::ones({1}), 3 * torch::ones({1})},
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};
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// Reference: Full jit and torch::optim::SGD
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std::stringstream ms;
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m.save(ms);
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auto mm = load(ms);
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std::vector<::at::Tensor> parameters;
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for (auto parameter : mm.parameters()) {
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parameters.emplace_back(parameter);
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}
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::torch::optim::SGD optimizer(
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parameters, ::torch::optim::SGDOptions(learning_rate).momentum(momentum));
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for (int epoc = 0; epoc < n_epoc; ++epoc) {
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for (auto& data : trainData) {
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auto source = data.first, targets = data.second;
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optimizer.zero_grad();
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std::vector<IValue> train_inputs{source};
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auto output = mm.forward(train_inputs).toTensor();
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auto loss = ::torch::l1_loss(output, targets);
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loss.backward();
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optimizer.step();
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}
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}
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// Test: lite interpreter and torch::jit::mobile::SGD
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std::stringstream ss;
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m._save_for_mobile(ss);
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mobile::Module bc = _load_for_mobile(ss);
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std::vector<::at::Tensor> bc_parameters = bc.parameters();
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::torch::jit::mobile::SGD bc_optimizer(
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bc_parameters,
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::torch::jit::mobile::SGDOptions(learning_rate).momentum(momentum));
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for (int epoc = 0; epoc < n_epoc; ++epoc) {
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for (auto& data : trainData) {
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auto source = data.first, targets = data.second;
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bc_optimizer.zero_grad();
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std::vector<IValue> train_inputs{source};
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auto output = bc.forward(train_inputs).toTensor();
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auto loss = ::torch::l1_loss(output, targets);
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loss.backward();
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bc_optimizer.step();
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}
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}
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AT_ASSERT(parameters[0].item<float>() == bc_parameters[0].item<float>());
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}
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namespace {
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struct DummyDataset : torch::data::datasets::Dataset<DummyDataset, int> {
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explicit DummyDataset(size_t size = 100) : size_(size) {}
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int get(size_t index) override {
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// NOLINTNEXTLINE(bugprone-narrowing-conversions,cppcoreguidelines-narrowing-conversions)
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return 1 + index;
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}
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torch::optional<size_t> size() const override {
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return size_;
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}
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size_t size_;
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};
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} // namespace
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// NOLINTNEXTLINE(cppcoreguidelines-avoid-non-const-global-variables)
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TEST(LiteTrainerTest, SequentialSampler) {
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// test that sampler can be used with dataloader
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const int kBatchSize = 10;
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auto data_loader =
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torch::data::make_data_loader<torch::data::samplers::SequentialSampler>(
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DummyDataset(25),
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kBatchSize);
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int i = 1;
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for (const auto& batch : *data_loader) {
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for (const auto& example : batch) {
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AT_ASSERT(i == example);
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i++;
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}
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}
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}
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} // namespace jit
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} // namespace torch
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