// Copyright (c) 2012 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/app_list/pagination_model.h" #include #include "base/basictypes.h" #include "base/compiler_specific.h" #include "base/message_loop.h" #include "base/stringprintf.h" #include "testing/gtest/include/gtest/gtest.h" #include "ui/app_list/pagination_model_observer.h" namespace app_list { namespace test { class TestPaginationModelObserver : public PaginationModelObserver { public: TestPaginationModelObserver() : model_(NULL), expected_page_selection_(0), expected_transition_start_(0), expected_transition_end_(0), transition_page_(-1) { Reset(); } virtual ~TestPaginationModelObserver() {} void Reset() { selection_count_ = 0; transition_start_count_ = 0; transition_end_count_ = 0; selected_pages_.clear(); } void set_model(PaginationModel* model) { model_ = model; } void set_expected_page_selection(int expected_page_selection) { expected_page_selection_ = expected_page_selection; } void set_expected_transition_start(int expected_transition_start) { expected_transition_start_ = expected_transition_start; } void set_expected_transition_end(int expected_transition_end) { expected_transition_end_ = expected_transition_end; } void set_transition_page(int page) { transition_page_ = page; } const std::string& selected_pages() const { return selected_pages_; } int selection_count() const { return selection_count_; } int transition_start_count() const { return transition_start_count_; } int transition_end_count() const { return transition_end_count_; } private: void AppendSelectedPage(int page) { if (selected_pages_.length()) selected_pages_.append(std::string(" ")); selected_pages_.append(base::StringPrintf("%d", page)); } // PaginationModelObserver overrides: virtual void TotalPagesChanged() OVERRIDE {} virtual void SelectedPageChanged(int old_selected, int new_selected) OVERRIDE { AppendSelectedPage(new_selected); ++selection_count_; if (expected_page_selection_ && selection_count_ == expected_page_selection_) { MessageLoop::current()->Quit(); } } virtual void TransitionChanged() OVERRIDE { if (transition_page_ == -1 || model_->transition().target_page == transition_page_) { if (model_->transition().progress == 0) ++transition_start_count_; if (model_->transition().progress == 1) ++transition_end_count_; } if ((expected_transition_start_ && transition_start_count_ == expected_transition_start_) || (expected_transition_end_ && transition_end_count_ == expected_transition_end_)) { MessageLoop::current()->Quit(); } } PaginationModel* model_; int expected_page_selection_; int expected_transition_start_; int expected_transition_end_; int selection_count_; int transition_start_count_; int transition_end_count_; // Indicate which page index should be counted for |transition_start_count_| // and |transition_end_count_|. -1 means all the pages should be counted. int transition_page_; std::string selected_pages_; DISALLOW_COPY_AND_ASSIGN(TestPaginationModelObserver); }; class PaginationModelTest : public testing::Test { public: PaginationModelTest() {} virtual ~PaginationModelTest() {} // testing::Test overrides: virtual void SetUp() OVERRIDE { pagination_.SetTotalPages(5); pagination_.SetTransitionDurations(1, 1); observer_.set_model(&pagination_); pagination_.AddObserver(&observer_); } virtual void TearDown() OVERRIDE { pagination_.RemoveObserver(&observer_); observer_.set_model(NULL); } protected: void SetStartPageAndExpects(int start_page, int expected_selection, int expected_transition_start, int expected_transition_end) { observer_.set_expected_page_selection(0); pagination_.SelectPage(start_page, false /* animate */); observer_.Reset(); observer_.set_expected_page_selection(expected_selection); observer_.set_expected_transition_start(expected_transition_start); observer_.set_expected_transition_end(expected_transition_end); } PaginationModel pagination_; TestPaginationModelObserver observer_; private: MessageLoopForUI message_loop_; DISALLOW_COPY_AND_ASSIGN(PaginationModelTest); }; TEST_F(PaginationModelTest, SelectPage) { pagination_.SelectPage(2, false /* animate */); pagination_.SelectPage(4, false /* animate */); pagination_.SelectPage(3, false /* animate */); pagination_.SelectPage(1, false /* animate */); EXPECT_EQ(0, observer_.transition_start_count()); EXPECT_EQ(0, observer_.transition_end_count()); EXPECT_EQ(4, observer_.selection_count()); EXPECT_EQ(std::string("2 4 3 1"), observer_.selected_pages()); // Nothing happens if select the same page. pagination_.SelectPage(1, false /* animate */); EXPECT_EQ(4, observer_.selection_count()); EXPECT_EQ(std::string("2 4 3 1"), observer_.selected_pages()); } TEST_F(PaginationModelTest, SelectPageAnimated) { const int kStartPage = 0; // One transition. SetStartPageAndExpects(kStartPage, 1, 0, 0); pagination_.SelectPage(1, true /* animate */); MessageLoop::current()->Run(); EXPECT_EQ(1, observer_.transition_start_count()); EXPECT_EQ(1, observer_.transition_end_count()); EXPECT_EQ(1, observer_.selection_count()); EXPECT_EQ(std::string("1"), observer_.selected_pages()); // Two transitions in a row. SetStartPageAndExpects(kStartPage, 2, 0, 0); pagination_.SelectPage(1, true /* animate */); pagination_.SelectPage(3, true /* animate */); MessageLoop::current()->Run(); EXPECT_EQ(2, observer_.transition_start_count()); EXPECT_EQ(2, observer_.transition_end_count()); EXPECT_EQ(2, observer_.selection_count()); EXPECT_EQ(std::string("1 3"), observer_.selected_pages()); // Transition to same page twice and only one should happen. SetStartPageAndExpects(kStartPage, 1, 0, 0); pagination_.SelectPage(1, true /* animate */); pagination_.SelectPage(1, true /* animate */); // Ignored. MessageLoop::current()->Run(); EXPECT_EQ(1, observer_.transition_start_count()); EXPECT_EQ(1, observer_.transition_end_count()); EXPECT_EQ(1, observer_.selection_count()); EXPECT_EQ(std::string("1"), observer_.selected_pages()); // More than two transitions and only the first and last would happen. SetStartPageAndExpects(kStartPage, 2, 0, 0); pagination_.SelectPage(1, true /* animate */); pagination_.SelectPage(3, true /* animate */); // Ignored pagination_.SelectPage(4, true /* animate */); // Ignored pagination_.SelectPage(2, true /* animate */); MessageLoop::current()->Run(); EXPECT_EQ(2, observer_.transition_start_count()); EXPECT_EQ(2, observer_.transition_end_count()); EXPECT_EQ(2, observer_.selection_count()); EXPECT_EQ(std::string("1 2"), observer_.selected_pages()); // Multiple transitions with one transition that goes back to the original // and followed by a new transition. Two transitions would happen. The first // one will be reversed by the kStart transition and the second one will be // finished. SetStartPageAndExpects(kStartPage, 1, 0, 0); pagination_.SelectPage(1, true /* animate */); pagination_.SelectPage(2, true /* animate */); // Ignored pagination_.SelectPage(kStartPage, true /* animate */); pagination_.SelectPage(3, true /* animate */); MessageLoop::current()->Run(); EXPECT_EQ(std::string("3"), observer_.selected_pages()); } TEST_F(PaginationModelTest, SimpleScroll) { const int kStartPage = 2; // Scroll to the next page (negative delta) and finish it. SetStartPageAndExpects(kStartPage, 1, 0, 0); pagination_.StartScroll(); pagination_.UpdateScroll(-0.1); EXPECT_EQ(kStartPage + 1, pagination_.transition().target_page); pagination_.EndScroll(false); // Finish transition MessageLoop::current()->Run(); EXPECT_EQ(1, observer_.selection_count()); // Scroll to the previous page (positive delta) and finish it. SetStartPageAndExpects(kStartPage, 1, 0, 0); pagination_.StartScroll(); pagination_.UpdateScroll(0.1); EXPECT_EQ(kStartPage - 1, pagination_.transition().target_page); pagination_.EndScroll(false); // Finish transition MessageLoop::current()->Run(); EXPECT_EQ(1, observer_.selection_count()); // Scroll to the next page (negative delta) and cancel it. SetStartPageAndExpects(kStartPage, 0, 1, 0); pagination_.StartScroll(); pagination_.UpdateScroll(-0.1); EXPECT_EQ(kStartPage + 1, pagination_.transition().target_page); pagination_.EndScroll(true); // Cancel transition MessageLoop::current()->Run(); EXPECT_EQ(0, observer_.selection_count()); // Scroll to the previous page (position delta) and cancel it. SetStartPageAndExpects(kStartPage, 0, 1, 0); pagination_.StartScroll(); pagination_.UpdateScroll(0.1); EXPECT_EQ(kStartPage - 1, pagination_.transition().target_page); pagination_.EndScroll(true); // Cancel transition MessageLoop::current()->Run(); EXPECT_EQ(0, observer_.selection_count()); } TEST_F(PaginationModelTest, ScrollWithTransition) { const int kStartPage = 2; // Scroll to the next page (negative delta) with a transition in the same // direction. SetStartPageAndExpects(kStartPage, 1, 0, 0); pagination_.SetTransition(PaginationModel::Transition(kStartPage + 1, 0.5)); pagination_.StartScroll(); pagination_.UpdateScroll(-0.1); EXPECT_EQ(kStartPage + 1, pagination_.transition().target_page); EXPECT_EQ(0.6, pagination_.transition().progress); pagination_.EndScroll(false); MessageLoop::current()->Run(); EXPECT_EQ(1, observer_.selection_count()); // Scroll to the next page (negative delta) with a transition in a different // direction. SetStartPageAndExpects(kStartPage, 0, 1, 0); pagination_.SetTransition(PaginationModel::Transition(kStartPage - 1, 0.5)); pagination_.StartScroll(); pagination_.UpdateScroll(-0.1); EXPECT_EQ(kStartPage - 1, pagination_.transition().target_page); EXPECT_EQ(0.4, pagination_.transition().progress); pagination_.EndScroll(true); // Scroll to the previous page (positive delta) with a transition in the same // direction. SetStartPageAndExpects(kStartPage, 1, 0, 0); pagination_.SetTransition(PaginationModel::Transition(kStartPage - 1, 0.5)); pagination_.StartScroll(); pagination_.UpdateScroll(0.1); EXPECT_EQ(kStartPage - 1, pagination_.transition().target_page); EXPECT_EQ(0.6, pagination_.transition().progress); pagination_.EndScroll(false); MessageLoop::current()->Run(); EXPECT_EQ(1, observer_.selection_count()); // Scroll to the previous page (positive delta) with a transition in a // different direction. SetStartPageAndExpects(kStartPage, 0, 1, 0); pagination_.SetTransition(PaginationModel::Transition(kStartPage + 1, 0.5)); pagination_.StartScroll(); pagination_.UpdateScroll(0.1); EXPECT_EQ(kStartPage + 1, pagination_.transition().target_page); EXPECT_EQ(0.4, pagination_.transition().progress); pagination_.EndScroll(true); } TEST_F(PaginationModelTest, LongScroll) { const int kStartPage = 2; // Scroll to the next page (negative delta) with a transition in the same // direction. And scroll enough to change page twice. SetStartPageAndExpects(kStartPage, 2, 0, 0); pagination_.SetTransition(PaginationModel::Transition(kStartPage + 1, 0.5)); pagination_.StartScroll(); pagination_.UpdateScroll(-0.1); EXPECT_EQ(kStartPage + 1, pagination_.transition().target_page); EXPECT_EQ(0.6, pagination_.transition().progress); pagination_.UpdateScroll(-0.5); EXPECT_EQ(1, observer_.selection_count()); pagination_.UpdateScroll(-0.5); EXPECT_EQ(kStartPage + 2, pagination_.transition().target_page); pagination_.EndScroll(false); MessageLoop::current()->Run(); EXPECT_EQ(2, observer_.selection_count()); // Scroll to the next page (negative delta) with a transition in a different // direction. And scroll enough to revert it and switch page once. SetStartPageAndExpects(kStartPage, 1, 0, 0); pagination_.SetTransition(PaginationModel::Transition(kStartPage - 1, 0.5)); pagination_.StartScroll(); pagination_.UpdateScroll(-0.1); EXPECT_EQ(kStartPage - 1, pagination_.transition().target_page); EXPECT_EQ(0.4, pagination_.transition().progress); pagination_.UpdateScroll(-0.5); // This clears the transition. pagination_.UpdateScroll(-0.5); // This starts a new transition. EXPECT_EQ(kStartPage + 1, pagination_.transition().target_page); pagination_.EndScroll(false); MessageLoop::current()->Run(); EXPECT_EQ(1, observer_.selection_count()); // Similar cases as above but in the opposite direction. // Scroll to the previous page (positive delta) with a transition in the same // direction. And scroll enough to change page twice. SetStartPageAndExpects(kStartPage, 2, 0, 0); pagination_.SetTransition(PaginationModel::Transition(kStartPage - 1, 0.5)); pagination_.StartScroll(); pagination_.UpdateScroll(0.1); EXPECT_EQ(kStartPage - 1, pagination_.transition().target_page); EXPECT_EQ(0.6, pagination_.transition().progress); pagination_.UpdateScroll(0.5); EXPECT_EQ(1, observer_.selection_count()); pagination_.UpdateScroll(0.5); EXPECT_EQ(kStartPage - 2, pagination_.transition().target_page); pagination_.EndScroll(false); MessageLoop::current()->Run(); EXPECT_EQ(2, observer_.selection_count()); // Scroll to the previous page (positive delta) with a transition in a // different direction. And scroll enough to revert it and switch page once. SetStartPageAndExpects(kStartPage, 1, 0, 0); pagination_.SetTransition(PaginationModel::Transition(kStartPage + 1, 0.5)); pagination_.StartScroll(); pagination_.UpdateScroll(0.1); EXPECT_EQ(kStartPage + 1, pagination_.transition().target_page); EXPECT_EQ(0.4, pagination_.transition().progress); pagination_.UpdateScroll(0.5); // This clears the transition. pagination_.UpdateScroll(0.5); // This starts a new transition. EXPECT_EQ(kStartPage - 1, pagination_.transition().target_page); pagination_.EndScroll(false); MessageLoop::current()->Run(); EXPECT_EQ(1, observer_.selection_count()); } TEST_F(PaginationModelTest, FireTransitionZero) { const int kStartPage = 2; // Scroll to next page then revert the scroll and make sure transition // progress 0 is fired when previous scroll is cleared. SetStartPageAndExpects(kStartPage, 0, 0, 0); pagination_.StartScroll(); pagination_.UpdateScroll(-0.1); int target_page = kStartPage + 1; EXPECT_EQ(target_page, pagination_.transition().target_page); observer_.set_transition_page(target_page); pagination_.UpdateScroll(0.2); // This clears the transition. EXPECT_EQ(1, observer_.transition_start_count()); pagination_.EndScroll(true); // Cancel transition. // Similar to above but in the other direction. SetStartPageAndExpects(kStartPage, 0, 0, 0); pagination_.StartScroll(); pagination_.UpdateScroll(0.1); target_page = kStartPage - 1; EXPECT_EQ(target_page, pagination_.transition().target_page); observer_.set_transition_page(target_page); pagination_.UpdateScroll(-0.2); // This clears the transition. EXPECT_EQ(1, observer_.transition_start_count()); pagination_.EndScroll(true); // Cancel transition. } TEST_F(PaginationModelTest, SelectedPageIsLost) { pagination_.SetTotalPages(2); // The selected page is set to 0 once the total number of pages are set. EXPECT_EQ(0, pagination_.selected_page()); pagination_.SelectPage(1, false /* animate */); EXPECT_EQ(1, pagination_.selected_page()); // The selected page is unchanged if it's still valid. pagination_.SetTotalPages(3); EXPECT_EQ(1, pagination_.selected_page()); pagination_.SetTotalPages(2); EXPECT_EQ(1, pagination_.selected_page()); // But if the currently selected_page exceeds the total number of pages, // it automatically switches to the last page. pagination_.SetTotalPages(1); EXPECT_EQ(0, pagination_.selected_page()); } } // namespace test } // namespace app_list