ui/events/blink/prediction/input_predictor_unittest_helpers.cc - chromium/src - Git at Google

 // Copyright 2018 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "ui/events/blink/prediction/input_predictor_unittest_helpers.h"

 namespace ui {

 InputPredictorTest::InputPredictorTest() = default;
 InputPredictorTest::~InputPredictorTest() = default;

 void InputPredictorTest::ValidatePredictor(
     const std::vector<double>& x,
     const std::vector<double>& y,
     const std::vector<double>& timestamp_ms) {
   predictor_->Reset();
   for (size_t i = 0; i < timestamp_ms.size(); i++) {
     if (predictor_->HasPrediction()) {
       auto result =
           predictor_->GeneratePrediction(FromMilliseconds(timestamp_ms[i]));
       EXPECT_TRUE(result);
       EXPECT_NEAR(result->pos.x(), x[i], kEpsilon);
       EXPECT_NEAR(result->pos.y(), y[i], kEpsilon);
     }
     InputPredictor::InputData data = {gfx::PointF(x[i], y[i]),
                                       FromMilliseconds(timestamp_ms[i])};
     predictor_->Update(data);
   }
 }

 void InputPredictorTest::ValidatePredictor(
     const std::vector<double>& events_x,
     const std::vector<double>& events_y,
     const std::vector<double>& events_time_ms,
     const std::vector<double>& prediction_time_ms,
     const std::vector<double>& predicted_x,
     const std::vector<double>& predicted_y) {
   predictor_->Reset();
   std::vector<double> computed_x;
   std::vector<double> computed_y;
   size_t current_prediction_index = 0;
   for (size_t i = 0; i < events_time_ms.size(); i++) {
     InputPredictor::InputData data = {gfx::PointF(events_x[i], events_y[i]),
                                       FromMilliseconds(events_time_ms[i])};
     predictor_->Update(data);

     if (predictor_->HasPrediction()) {
       auto result = predictor_->GeneratePrediction(
           FromMilliseconds(prediction_time_ms[current_prediction_index]));
       EXPECT_TRUE(result);
       computed_x.push_back(result->pos.x());
       computed_y.push_back(result->pos.y());
       EXPECT_GT(result->time_stamp, base::TimeTicks());
       current_prediction_index++;
     }
   }

   EXPECT_TRUE(computed_x.size() == predicted_x.size());
   if (computed_x.size() == predicted_x.size()) {
     for (size_t i = 0; i < predicted_x.size(); i++) {
       EXPECT_NEAR(computed_x[i], predicted_x[i], kEpsilon);
       EXPECT_NEAR(computed_y[i], predicted_y[i], kEpsilon);
     }
   }
 }

 }  // namespace ui
	// Copyright 2018 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "ui/events/blink/prediction/input_predictor_unittest_helpers.h"

	namespace ui {

	InputPredictorTest::InputPredictorTest() = default;
	InputPredictorTest::~InputPredictorTest() = default;

	void InputPredictorTest::ValidatePredictor(
	const std::vector<double>& x,
	const std::vector<double>& y,
	const std::vector<double>& timestamp_ms) {
	predictor_->Reset();
	for (size_t i = 0; i < timestamp_ms.size(); i++) {
	if (predictor_->HasPrediction()) {
	auto result =
	predictor_->GeneratePrediction(FromMilliseconds(timestamp_ms[i]));
	EXPECT_TRUE(result);
	EXPECT_NEAR(result->pos.x(), x[i], kEpsilon);
	EXPECT_NEAR(result->pos.y(), y[i], kEpsilon);
	}
	InputPredictor::InputData data = {gfx::PointF(x[i], y[i]),
	FromMilliseconds(timestamp_ms[i])};
	predictor_->Update(data);
	}
	}

	void InputPredictorTest::ValidatePredictor(
	const std::vector<double>& events_x,
	const std::vector<double>& events_y,
	const std::vector<double>& events_time_ms,
	const std::vector<double>& prediction_time_ms,
	const std::vector<double>& predicted_x,
	const std::vector<double>& predicted_y) {
	predictor_->Reset();
	std::vector<double> computed_x;
	std::vector<double> computed_y;
	size_t current_prediction_index = 0;
	for (size_t i = 0; i < events_time_ms.size(); i++) {
	InputPredictor::InputData data = {gfx::PointF(events_x[i], events_y[i]),
	FromMilliseconds(events_time_ms[i])};
	predictor_->Update(data);

	if (predictor_->HasPrediction()) {
	auto result = predictor_->GeneratePrediction(
	FromMilliseconds(prediction_time_ms[current_prediction_index]));
	EXPECT_TRUE(result);
	computed_x.push_back(result->pos.x());
	computed_y.push_back(result->pos.y());
	EXPECT_GT(result->time_stamp, base::TimeTicks());
	current_prediction_index++;
	}
	}

	EXPECT_TRUE(computed_x.size() == predicted_x.size());
	if (computed_x.size() == predicted_x.size()) {
	for (size_t i = 0; i < predicted_x.size(); i++) {
	EXPECT_NEAR(computed_x[i], predicted_x[i], kEpsilon);
	EXPECT_NEAR(computed_y[i], predicted_y[i], kEpsilon);
	}
	}
	}

	} // namespace ui