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// Copyright 2016 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 <memory>
#include "ash/common/system/tray/tri_view.h"
#include "base/memory/ptr_util.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "ui/gfx/geometry/insets.h"
#include "ui/gfx/geometry/rect_conversions.h"
#include "ui/views/test/test_layout_manager.h"
#include "ui/views/test/test_views.h"
#include "ui/views/view.h"
namespace ash {
class TriViewTest : public testing::Test {
public:
TriViewTest();
protected:
// Returns the bounds of |child| in the coordinate space of
// |tri_view_|.
gfx::Rect GetBoundsInHost(const views::View* child) const;
// Wrapper functions to access the internals of |tri_view_|.
views::View* GetContainer(TriView::Container container) const;
// The test target.
std::unique_ptr<TriView> tri_view_;
private:
DISALLOW_COPY_AND_ASSIGN(TriViewTest);
};
TriViewTest::TriViewTest() : tri_view_(base::MakeUnique<TriView>()) {}
gfx::Rect TriViewTest::GetBoundsInHost(const views::View* child) const {
gfx::RectF rect_f(child->bounds());
views::View::ConvertRectToTarget(child, tri_view_.get(), &rect_f);
return ToNearestRect(rect_f);
}
views::View* TriViewTest::GetContainer(TriView::Container container) const {
return tri_view_->GetContainer(container);
}
TEST_F(TriViewTest, PaddingBetweenContainers) {
const int kPaddingBetweenContainers = 3;
const int kViewWidth = 10;
const int kViewHeight = 10;
const gfx::Size kViewSize(kViewWidth, kViewHeight);
const int kStartChildExpectedX = 0;
const int kCenterChildExpectedX =
kStartChildExpectedX + kViewWidth + kPaddingBetweenContainers;
const int kEndChildExpectedX =
kCenterChildExpectedX + kViewWidth + kPaddingBetweenContainers;
tri_view_ = base::MakeUnique<TriView>(kPaddingBetweenContainers);
tri_view_->SetBounds(0, 0, 100, 10);
views::View* start_child = new views::StaticSizedView(kViewSize);
views::View* center_child = new views::StaticSizedView(kViewSize);
views::View* end_child = new views::StaticSizedView(kViewSize);
tri_view_->AddView(TriView::Container::START, start_child);
tri_view_->AddView(TriView::Container::CENTER, center_child);
tri_view_->AddView(TriView::Container::END, end_child);
tri_view_->Layout();
EXPECT_EQ(kStartChildExpectedX, GetBoundsInHost(start_child).x());
EXPECT_EQ(kCenterChildExpectedX, GetBoundsInHost(center_child).x());
EXPECT_EQ(kEndChildExpectedX, GetBoundsInHost(end_child).x());
}
TEST_F(TriViewTest, VerticalOrientation) {
const int kViewWidth = 10;
const int kViewHeight = 10;
const gfx::Size kViewSize(kViewWidth, kViewHeight);
tri_view_ = base::MakeUnique<TriView>(TriView::Orientation::VERTICAL);
tri_view_->SetBounds(0, 0, 10, 100);
views::View* start_child = new views::StaticSizedView(kViewSize);
views::View* center_child = new views::StaticSizedView(kViewSize);
views::View* end_child = new views::StaticSizedView(kViewSize);
tri_view_->AddView(TriView::Container::START, start_child);
tri_view_->AddView(TriView::Container::CENTER, center_child);
tri_view_->AddView(TriView::Container::END, end_child);
tri_view_->Layout();
EXPECT_EQ(0, GetBoundsInHost(start_child).y());
EXPECT_EQ(kViewWidth, GetBoundsInHost(center_child).y());
EXPECT_EQ(kViewWidth * 2, GetBoundsInHost(end_child).y());
}
TEST_F(TriViewTest, MainAxisMinSize) {
tri_view_->SetBounds(0, 0, 100, 10);
const gfx::Size kMinSize(15, 10);
tri_view_->SetMinSize(TriView::Container::START, kMinSize);
views::View* child = new views::StaticSizedView(gfx::Size(10, 10));
tri_view_->AddView(TriView::Container::CENTER, child);
tri_view_->Layout();
EXPECT_EQ(kMinSize.width(), GetBoundsInHost(child).x());
}
TEST_F(TriViewTest, MainAxisMaxSize) {
tri_view_->SetBounds(0, 0, 100, 10);
const gfx::Size kMaxSize(10, 10);
tri_view_->SetMaxSize(TriView::Container::START, kMaxSize);
views::View* start_child = new views::StaticSizedView(gfx::Size(20, 20));
tri_view_->AddView(TriView::Container::START, start_child);
views::View* center_child = new views::StaticSizedView(gfx::Size(10, 10));
tri_view_->AddView(TriView::Container::CENTER, center_child);
tri_view_->Layout();
EXPECT_EQ(kMaxSize.width(), GetBoundsInHost(center_child).x());
}
TEST_F(TriViewTest, ViewsAddedToCorrectContainers) {
views::View* start_child = new views::StaticSizedView();
views::View* center_child = new views::StaticSizedView();
views::View* end_child = new views::StaticSizedView();
tri_view_->AddView(TriView::Container::START, start_child);
tri_view_->AddView(TriView::Container::CENTER, center_child);
tri_view_->AddView(TriView::Container::END, end_child);
EXPECT_TRUE(GetContainer(TriView::Container::START)->Contains(start_child));
EXPECT_EQ(1, GetContainer(TriView::Container::START)->child_count());
EXPECT_TRUE(GetContainer(TriView::Container::CENTER)->Contains(center_child));
EXPECT_EQ(1, GetContainer(TriView::Container::CENTER)->child_count());
EXPECT_TRUE(GetContainer(TriView::Container::END)->Contains(end_child));
EXPECT_EQ(1, GetContainer(TriView::Container::END)->child_count());
}
TEST_F(TriViewTest, MultipleViewsAddedToTheSameContainer) {
views::View* child1 = new views::StaticSizedView();
views::View* child2 = new views::StaticSizedView();
tri_view_->AddView(TriView::Container::START, child1);
tri_view_->AddView(TriView::Container::START, child2);
EXPECT_TRUE(GetContainer(TriView::Container::START)->Contains(child1));
EXPECT_TRUE(GetContainer(TriView::Container::START)->Contains(child2));
}
TEST_F(TriViewTest, ViewsRemovedOnRemoveAllChildren) {
views::View* child1 = new views::StaticSizedView();
views::View* child2 = new views::StaticSizedView();
tri_view_->AddView(TriView::Container::START, child1);
tri_view_->AddView(TriView::Container::START, child2);
EXPECT_TRUE(GetContainer(TriView::Container::START)->Contains(child1));
EXPECT_TRUE(GetContainer(TriView::Container::START)->Contains(child2));
EXPECT_EQ(2, GetContainer(TriView::Container::START)->child_count());
tri_view_->RemoveAllChildren(TriView::Container::START, false);
EXPECT_FALSE(GetContainer(TriView::Container::START)->Contains(child1));
EXPECT_FALSE(GetContainer(TriView::Container::START)->Contains(child2));
EXPECT_EQ(0, GetContainer(TriView::Container::START)->child_count());
delete child1;
delete child2;
}
TEST_F(TriViewTest, Insets) {
const int kInset = 3;
const int kViewHeight = 10;
const int kExpectedViewHeight = kViewHeight - 2 * kInset;
const gfx::Size kStartViewSize(10, kViewHeight);
const gfx::Size kCenterViewSize(100, kViewHeight);
const gfx::Size kEndViewSize(10, kViewHeight);
const int kHostWidth = 100;
tri_view_->SetBounds(0, 0, kHostWidth, kViewHeight);
tri_view_->SetInsets(gfx::Insets(kInset));
views::View* start_child = new views::StaticSizedView(kStartViewSize);
views::View* center_child = new views::StaticSizedView(kCenterViewSize);
views::View* end_child = new views::StaticSizedView(kEndViewSize);
tri_view_->AddView(TriView::Container::START, start_child);
tri_view_->AddView(TriView::Container::CENTER, center_child);
tri_view_->AddView(TriView::Container::END, end_child);
tri_view_->SetFlexForContainer(TriView::Container::CENTER, 1.f);
tri_view_->Layout();
EXPECT_EQ(
gfx::Rect(kInset, kInset, kStartViewSize.width(), kExpectedViewHeight),
GetBoundsInHost(start_child));
EXPECT_EQ(gfx::Rect(kInset + kStartViewSize.width(), kInset,
kHostWidth - kStartViewSize.width() -
kEndViewSize.width() - 2 * kInset,
kExpectedViewHeight),
GetBoundsInHost(center_child));
EXPECT_EQ(gfx::Rect(kHostWidth - kEndViewSize.width() - kInset, kInset,
kEndViewSize.width(), kExpectedViewHeight),
GetBoundsInHost(end_child));
}
TEST_F(TriViewTest, InvisibleContainerDoesntTakeUpSpace) {
const int kViewWidth = 10;
const int kViewHeight = 10;
const gfx::Size kViewSize(kViewWidth, kViewHeight);
tri_view_->SetBounds(0, 0, 30, 10);
views::View* start_child = new views::StaticSizedView(kViewSize);
views::View* center_child = new views::StaticSizedView(kViewSize);
views::View* end_child = new views::StaticSizedView(kViewSize);
tri_view_->AddView(TriView::Container::START, start_child);
tri_view_->AddView(TriView::Container::CENTER, center_child);
tri_view_->AddView(TriView::Container::END, end_child);
tri_view_->SetContainerVisible(TriView::Container::START, false);
tri_view_->Layout();
EXPECT_EQ(gfx::Rect(0, 0, 0, 0), GetBoundsInHost(start_child));
EXPECT_EQ(0, GetBoundsInHost(center_child).x());
EXPECT_EQ(kViewWidth, GetBoundsInHost(end_child).x());
tri_view_->SetContainerVisible(TriView::Container::START, true);
tri_view_->Layout();
EXPECT_EQ(0, GetBoundsInHost(start_child).x());
EXPECT_EQ(kViewWidth, GetBoundsInHost(center_child).x());
EXPECT_EQ(kViewWidth * 2, GetBoundsInHost(end_child).x());
}
TEST_F(TriViewTest, NonZeroFlex) {
const int kHostWidth = 100;
const gfx::Size kDefaultViewSize(10, 10);
const gfx::Size kCenterViewSize(100, 10);
const gfx::Size kExpectedCenterViewSize(
kHostWidth - 2 * kDefaultViewSize.width(), 10);
tri_view_->SetBounds(0, 0, kHostWidth, 10);
views::View* start_child = new views::StaticSizedView(kDefaultViewSize);
views::View* center_child = new views::StaticSizedView(kCenterViewSize);
views::View* end_child = new views::StaticSizedView(kDefaultViewSize);
tri_view_->AddView(TriView::Container::START, start_child);
tri_view_->AddView(TriView::Container::CENTER, center_child);
tri_view_->AddView(TriView::Container::END, end_child);
tri_view_->SetFlexForContainer(TriView::Container::CENTER, 1.f);
tri_view_->Layout();
EXPECT_EQ(kDefaultViewSize, GetBoundsInHost(start_child).size());
EXPECT_EQ(kExpectedCenterViewSize, GetBoundsInHost(center_child).size());
EXPECT_EQ(kDefaultViewSize, GetBoundsInHost(end_child).size());
}
TEST_F(TriViewTest, NonZeroFlexTakesPrecedenceOverMinSize) {
const int kHostWidth = 25;
const gfx::Size kViewSize(10, 10);
const gfx::Size kMinCenterSize = kViewSize;
const gfx::Size kExpectedCenterSize(kHostWidth - 2 * kViewSize.width(), 10);
tri_view_->SetBounds(0, 0, kHostWidth, 10);
views::View* start_child = new views::StaticSizedView(kViewSize);
views::View* center_child = new views::StaticSizedView(kViewSize);
views::View* end_child = new views::StaticSizedView(kViewSize);
tri_view_->AddView(TriView::Container::START, start_child);
tri_view_->AddView(TriView::Container::CENTER, center_child);
tri_view_->AddView(TriView::Container::END, end_child);
tri_view_->SetFlexForContainer(TriView::Container::CENTER, 1.f);
tri_view_->SetMinSize(TriView::Container::CENTER, kMinCenterSize);
tri_view_->Layout();
EXPECT_EQ(kViewSize, GetBoundsInHost(start_child).size());
EXPECT_EQ(kExpectedCenterSize,
GetBoundsInHost(GetContainer(TriView::Container::CENTER)).size());
EXPECT_EQ(kViewSize, GetBoundsInHost(end_child).size());
}
TEST_F(TriViewTest, NonZeroFlexTakesPrecedenceOverMaxSize) {
const int kHostWidth = 100;
const gfx::Size kViewSize(10, 10);
const gfx::Size kMaxCenterSize(20, 10);
const gfx::Size kExpectedCenterSize(kHostWidth - 2 * kViewSize.width(), 10);
tri_view_->SetBounds(0, 0, kHostWidth, 10);
views::View* start_child = new views::StaticSizedView(kViewSize);
views::View* center_child = new views::StaticSizedView(kViewSize);
views::View* end_child = new views::StaticSizedView(kViewSize);
tri_view_->AddView(TriView::Container::START, start_child);
tri_view_->AddView(TriView::Container::CENTER, center_child);
tri_view_->AddView(TriView::Container::END, end_child);
tri_view_->SetFlexForContainer(TriView::Container::CENTER, 1.f);
tri_view_->SetMaxSize(TriView::Container::CENTER, kMaxCenterSize);
tri_view_->Layout();
EXPECT_EQ(kViewSize, GetBoundsInHost(start_child).size());
EXPECT_EQ(kExpectedCenterSize,
GetBoundsInHost(GetContainer(TriView::Container::CENTER)).size());
EXPECT_EQ(kViewSize, GetBoundsInHost(end_child).size());
}
} // namespace ash