ui/gfx/selection_bound_unittest.cc - cobalt - Git at Google

 // Copyright 2014 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/gfx/selection_bound.h"

 #include "testing/gtest/include/gtest/gtest.h"
 #include "ui/gfx/geometry/rect.h"
 #include "ui/gfx/geometry/rect_f.h"

 namespace gfx {

 TEST(SelectionBoundTest, RectBetweenSelectionBounds) {
   SelectionBound b1, b2;
   // Simple case of aligned vertical bounds of equal height
   b1.SetEdge(gfx::PointF(0.f, 20.f), gfx::PointF(0.f, 25.f));
   b2.SetEdge(gfx::PointF(110.f, 20.f), gfx::PointF(110.f, 25.f));
   gfx::Rect expected_rect(
       b1.edge_start_rounded().x(), b1.edge_start_rounded().y(),
       b2.edge_start_rounded().x() - b1.edge_start_rounded().x(),
       b2.edge_end_rounded().y() - b2.edge_start_rounded().y());
   EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b1, b2));
   EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b2, b1));

   // Both bounds are invisible.
   b1.SetVisibleEdge(gfx::PointF(10.f, 20.f), gfx::PointF(10.f, 25.f));
   b2.SetVisibleEdge(gfx::PointF(100.f, 20.f), gfx::PointF(100.f, 25.f));
   gfx::RectF expected_visible_rect(
       b1.visible_edge_start().x(), b1.visible_edge_start().y(),
       b2.visible_edge_start().x() - b1.visible_edge_start().x(),
       b2.visible_edge_end().y() - b2.visible_edge_start().y());
   EXPECT_EQ(expected_visible_rect, RectFBetweenVisibleSelectionBounds(b1, b2));
   EXPECT_EQ(expected_visible_rect, RectFBetweenVisibleSelectionBounds(b2, b1));

   // One of the bounds is invisible.
   b1.SetVisibleEdge(gfx::PointF(0.f, 20.f), gfx::PointF(0.f, 25.f));
   b2.SetVisibleEdge(gfx::PointF(100.f, 20.f), gfx::PointF(100.f, 25.f));
   expected_visible_rect =
       gfx::RectF(b1.visible_edge_start().x(), b1.visible_edge_start().y(),
                  b2.visible_edge_start().x() - b1.visible_edge_start().x(),
                  b2.visible_edge_end().y() - b2.visible_edge_start().y());
   EXPECT_EQ(expected_visible_rect, RectFBetweenVisibleSelectionBounds(b1, b2));
   EXPECT_EQ(expected_visible_rect, RectFBetweenVisibleSelectionBounds(b2, b1));

   // Parallel vertical bounds of different heights
   b1.SetEdge(gfx::PointF(10.f, 20.f), gfx::PointF(10.f, 25.f));
   b2.SetEdge(gfx::PointF(110.f, 0.f), gfx::PointF(110.f, 35.f));
   expected_rect =
       gfx::Rect(b1.edge_start_rounded().x(), b2.edge_start_rounded().y(),
                 b2.edge_start_rounded().x() - b1.edge_start_rounded().x(),
                 b2.edge_end_rounded().y() - b2.edge_start_rounded().y());
   EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b1, b2));
   EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b2, b1));

   b1.SetEdge(gfx::PointF(10.f, 20.f), gfx::PointF(10.f, 30.f));
   b2.SetEdge(gfx::PointF(110.f, 25.f), gfx::PointF(110.f, 45.f));
   expected_rect =
       gfx::Rect(b1.edge_start_rounded().x(), b1.edge_start_rounded().y(),
                 b2.edge_start_rounded().x() - b1.edge_start_rounded().x(),
                 b2.edge_end_rounded().y() - b1.edge_start_rounded().y());
   EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b1, b2));
   EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b2, b1));

   b1.SetEdge(gfx::PointF(10.f, 20.f), gfx::PointF(10.f, 30.f));
   b2.SetEdge(gfx::PointF(110.f, 40.f), gfx::PointF(110.f, 60.f));
   expected_rect =
       gfx::Rect(b1.edge_start_rounded().x(), b1.edge_start_rounded().y(),
                 b2.edge_start_rounded().x() - b1.edge_start_rounded().x(),
                 b2.edge_end_rounded().y() - b1.edge_start_rounded().y());
   EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b1, b2));
   EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b2, b1));

   // Overlapping vertical bounds
   b1.SetEdge(gfx::PointF(10.f, 20.f), gfx::PointF(10.f, 30.f));
   b2.SetEdge(gfx::PointF(10.f, 25.f), gfx::PointF(10.f, 40.f));
   expected_rect =
       gfx::Rect(b1.edge_start_rounded().x(), b1.edge_start_rounded().y(), 0,
                 b2.edge_end_rounded().y() - b1.edge_start_rounded().y());
   EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b1, b2));
   EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b2, b1));

   // Non-vertical bounds: "\ \"
   b1.SetEdge(gfx::PointF(10.f, 20.f), gfx::PointF(20.f, 30.f));
   b2.SetEdge(gfx::PointF(110.f, 40.f), gfx::PointF(120.f, 60.f));
   expected_rect =
       gfx::Rect(b1.edge_start_rounded().x(), b1.edge_start_rounded().y(),
                 b2.edge_end_rounded().x() - b1.edge_start_rounded().x(),
                 b2.edge_end_rounded().y() - b1.edge_start_rounded().y());
   EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b1, b2));
   EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b2, b1));

   // Non-vertical bounds: "/ \"
   b1.SetEdge(gfx::PointF(20.f, 30.f), gfx::PointF(0.f, 40.f));
   b2.SetEdge(gfx::PointF(110.f, 30.f), gfx::PointF(120.f, 40.f));
   expected_rect =
       gfx::Rect(b1.edge_end_rounded().x(), b1.edge_start_rounded().y(),
                 b2.edge_end_rounded().x() - b1.edge_end_rounded().x(),
                 b2.edge_end_rounded().y() - b2.edge_start_rounded().y());
   EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b1, b2));
   EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b2, b1));
 }

 }  // namespace gfx
	// Copyright 2014 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/gfx/selection_bound.h"

	#include "testing/gtest/include/gtest/gtest.h"
	#include "ui/gfx/geometry/rect.h"
	#include "ui/gfx/geometry/rect_f.h"

	namespace gfx {

	TEST(SelectionBoundTest, RectBetweenSelectionBounds) {
	SelectionBound b1, b2;
	// Simple case of aligned vertical bounds of equal height
	b1.SetEdge(gfx::PointF(0.f, 20.f), gfx::PointF(0.f, 25.f));
	b2.SetEdge(gfx::PointF(110.f, 20.f), gfx::PointF(110.f, 25.f));
	gfx::Rect expected_rect(
	b1.edge_start_rounded().x(), b1.edge_start_rounded().y(),
	b2.edge_start_rounded().x() - b1.edge_start_rounded().x(),
	b2.edge_end_rounded().y() - b2.edge_start_rounded().y());
	EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b1, b2));
	EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b2, b1));

	// Both bounds are invisible.
	b1.SetVisibleEdge(gfx::PointF(10.f, 20.f), gfx::PointF(10.f, 25.f));
	b2.SetVisibleEdge(gfx::PointF(100.f, 20.f), gfx::PointF(100.f, 25.f));
	gfx::RectF expected_visible_rect(
	b1.visible_edge_start().x(), b1.visible_edge_start().y(),
	b2.visible_edge_start().x() - b1.visible_edge_start().x(),
	b2.visible_edge_end().y() - b2.visible_edge_start().y());
	EXPECT_EQ(expected_visible_rect, RectFBetweenVisibleSelectionBounds(b1, b2));
	EXPECT_EQ(expected_visible_rect, RectFBetweenVisibleSelectionBounds(b2, b1));

	// One of the bounds is invisible.
	b1.SetVisibleEdge(gfx::PointF(0.f, 20.f), gfx::PointF(0.f, 25.f));
	b2.SetVisibleEdge(gfx::PointF(100.f, 20.f), gfx::PointF(100.f, 25.f));
	expected_visible_rect =
	gfx::RectF(b1.visible_edge_start().x(), b1.visible_edge_start().y(),
	b2.visible_edge_start().x() - b1.visible_edge_start().x(),
	b2.visible_edge_end().y() - b2.visible_edge_start().y());
	EXPECT_EQ(expected_visible_rect, RectFBetweenVisibleSelectionBounds(b1, b2));
	EXPECT_EQ(expected_visible_rect, RectFBetweenVisibleSelectionBounds(b2, b1));

	// Parallel vertical bounds of different heights
	b1.SetEdge(gfx::PointF(10.f, 20.f), gfx::PointF(10.f, 25.f));
	b2.SetEdge(gfx::PointF(110.f, 0.f), gfx::PointF(110.f, 35.f));
	expected_rect =
	gfx::Rect(b1.edge_start_rounded().x(), b2.edge_start_rounded().y(),
	b2.edge_start_rounded().x() - b1.edge_start_rounded().x(),
	b2.edge_end_rounded().y() - b2.edge_start_rounded().y());
	EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b1, b2));
	EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b2, b1));

	b1.SetEdge(gfx::PointF(10.f, 20.f), gfx::PointF(10.f, 30.f));
	b2.SetEdge(gfx::PointF(110.f, 25.f), gfx::PointF(110.f, 45.f));
	expected_rect =
	gfx::Rect(b1.edge_start_rounded().x(), b1.edge_start_rounded().y(),
	b2.edge_start_rounded().x() - b1.edge_start_rounded().x(),
	b2.edge_end_rounded().y() - b1.edge_start_rounded().y());
	EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b1, b2));
	EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b2, b1));

	b1.SetEdge(gfx::PointF(10.f, 20.f), gfx::PointF(10.f, 30.f));
	b2.SetEdge(gfx::PointF(110.f, 40.f), gfx::PointF(110.f, 60.f));
	expected_rect =
	gfx::Rect(b1.edge_start_rounded().x(), b1.edge_start_rounded().y(),
	b2.edge_start_rounded().x() - b1.edge_start_rounded().x(),
	b2.edge_end_rounded().y() - b1.edge_start_rounded().y());
	EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b1, b2));
	EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b2, b1));

	// Overlapping vertical bounds
	b1.SetEdge(gfx::PointF(10.f, 20.f), gfx::PointF(10.f, 30.f));
	b2.SetEdge(gfx::PointF(10.f, 25.f), gfx::PointF(10.f, 40.f));
	expected_rect =
	gfx::Rect(b1.edge_start_rounded().x(), b1.edge_start_rounded().y(), 0,
	b2.edge_end_rounded().y() - b1.edge_start_rounded().y());
	EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b1, b2));
	EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b2, b1));

	// Non-vertical bounds: "\ \"
	b1.SetEdge(gfx::PointF(10.f, 20.f), gfx::PointF(20.f, 30.f));
	b2.SetEdge(gfx::PointF(110.f, 40.f), gfx::PointF(120.f, 60.f));
	expected_rect =
	gfx::Rect(b1.edge_start_rounded().x(), b1.edge_start_rounded().y(),
	b2.edge_end_rounded().x() - b1.edge_start_rounded().x(),
	b2.edge_end_rounded().y() - b1.edge_start_rounded().y());
	EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b1, b2));
	EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b2, b1));

	// Non-vertical bounds: "/ \"
	b1.SetEdge(gfx::PointF(20.f, 30.f), gfx::PointF(0.f, 40.f));
	b2.SetEdge(gfx::PointF(110.f, 30.f), gfx::PointF(120.f, 40.f));
	expected_rect =
	gfx::Rect(b1.edge_end_rounded().x(), b1.edge_start_rounded().y(),
	b2.edge_end_rounded().x() - b1.edge_end_rounded().x(),
	b2.edge_end_rounded().y() - b2.edge_start_rounded().y());
	EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b1, b2));
	EXPECT_EQ(expected_rect, RectBetweenSelectionBounds(b2, b1));
	}

	} // namespace gfx