Google Git
Sign in
android / platform / external / chromium_org / 3551c9c / . / chrome / browser / extensions / api / system_display / display_info_provider_chromeos_unittest.cc
blob: e7a68e57b25c8015d5e66fcb65ccd02bda1cf5d8 [file] [log] [blame]
// Copyright 2013 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 "chrome/browser/extensions/api/system_display/display_info_provider.h"
#include "ash/display/display_controller.h"
#include "ash/display/display_manager.h"
#include "ash/screen_ash.h"
#include "ash/shell.h"
#include "ash/test/ash_test_base.h"
#include "ash/test/display_manager_test_api.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/stringprintf.h"
#include "ui/gfx/display.h"
#include "ui/gfx/rect.h"
namespace extensions {
namespace {
void BindRequestDisplayInfoResult(DisplayInfo* target, bool success) {
ASSERT_TRUE(success);
*target = DisplayInfoProvider::Get()->display_info();
}
void BindSetDisplayUnitInfoResult(bool* success,
std::string* error,
bool success_in,
const std::string& error_in) {
*success = success_in;
*error = error_in;
}
class DisplayInfoProviderChromeosTest : public ash::test::AshTestBase {
public:
DisplayInfoProviderChromeosTest() {}
virtual ~DisplayInfoProviderChromeosTest() {}
protected:
void CallRequestDisplayInfo(DisplayInfo* result) {
DisplayInfoProvider::Get()->RequestInfo(
base::Bind(&BindRequestDisplayInfoResult, result));
RunAllPendingInMessageLoop();
}
void CallSetDisplayUnitInfo(
const std::string& display_id,
const api::system_display::DisplayProperties& info,
bool* success,
std::string* error) {
DisplayInfoProvider::Get()->SetInfo(display_id, info,
base::Bind(&BindSetDisplayUnitInfoResult, success, error));
RunAllPendingInMessageLoop();
}
bool DisplayExists(int64 display_id) const {
const gfx::Display& display =
GetDisplayManager()->GetDisplayForId(display_id);
return display.id() != gfx::Display::kInvalidDisplayID;
}
ash::internal::DisplayManager* GetDisplayManager() const {
return ash::Shell::GetInstance()->display_manager();
}
ash::DisplayController* GetDisplayController() const {
return ash::Shell::GetInstance()->display_controller();
}
std::string SystemInfoDisplayInsetsToString(
const api::system_display::Insets& insets) const {
// Order to match gfx::Insets::ToString().
return base::StringPrintf("%d,%d,%d,%d",
insets.top, insets.left, insets.bottom, insets.right);
}
std::string SystemInfoDisplayBoundsToString(
const api::system_display::Bounds& bounds) const {
// Order to match gfx::Rect::ToString().
return base::StringPrintf("%d,%d %dx%d",
bounds.left, bounds.top, bounds.width, bounds.height);
}
DISALLOW_COPY_AND_ASSIGN(DisplayInfoProviderChromeosTest);
};
TEST_F(DisplayInfoProviderChromeosTest, GetBasic) {
UpdateDisplay("500x600,400x520");
DisplayInfo result;
CallRequestDisplayInfo(&result);
ASSERT_EQ(2u, result.size());
int64 display_id;
ASSERT_TRUE(base::StringToInt64(result[0]->id, &display_id))
<< "Display id must be convertable to integer: " << result[0]->id;
ASSERT_TRUE(DisplayExists(display_id)) << display_id << " not found";
EXPECT_EQ("0,0 500x600", SystemInfoDisplayBoundsToString(result[0]->bounds));
EXPECT_EQ("0,0,0,0", SystemInfoDisplayInsetsToString(result[0]->overscan));
EXPECT_EQ(0, result[0]->rotation);
EXPECT_TRUE(result[0]->is_primary);
EXPECT_EQ(96, result[0]->dpi_x);
EXPECT_EQ(96, result[0]->dpi_y);
EXPECT_TRUE(result[0]->mirroring_source_id.empty());
EXPECT_TRUE(result[0]->is_enabled);
ASSERT_TRUE(base::StringToInt64(result[1]->id, &display_id))
<< "Display id must be convertable to integer: " << result[0]->id;
ASSERT_TRUE(DisplayExists(display_id)) << display_id << " not found";
EXPECT_EQ(GetDisplayManager()->GetDisplayNameForId(display_id),
result[1]->name);
// The second display is positioned left of the primary display, whose width
// is 500.
EXPECT_EQ("500,0 400x520",
SystemInfoDisplayBoundsToString(result[1]->bounds));
EXPECT_EQ("0,0,0,0", SystemInfoDisplayInsetsToString(result[1]->overscan));
EXPECT_EQ(0, result[1]->rotation);
EXPECT_FALSE(result[1]->is_primary);
EXPECT_EQ(96, result[1]->dpi_x);
EXPECT_EQ(96, result[1]->dpi_y);
EXPECT_TRUE(result[1]->mirroring_source_id.empty());
EXPECT_TRUE(result[1]->is_enabled);
}
TEST_F(DisplayInfoProviderChromeosTest, GetRotation) {
UpdateDisplay("500x600/r");
DisplayInfo result;
CallRequestDisplayInfo(&result);
ASSERT_EQ(1u, result.size());
int64 display_id;
ASSERT_TRUE(base::StringToInt64(result[0]->id, &display_id))
<< "Display id must be convertable to integer: " << result[0]->id;
ASSERT_TRUE(DisplayExists(display_id)) << display_id << " not found";
EXPECT_EQ("0,0 600x500", SystemInfoDisplayBoundsToString(result[0]->bounds));
EXPECT_EQ(90, result[0]->rotation);
GetDisplayManager()->SetDisplayRotation(display_id, gfx::Display::ROTATE_270);
CallRequestDisplayInfo(&result);
ASSERT_EQ(1u, result.size());
EXPECT_EQ(base::Int64ToString(display_id), result[0]->id);
EXPECT_EQ("0,0 600x500", SystemInfoDisplayBoundsToString(result[0]->bounds));
EXPECT_EQ(270, result[0]->rotation);
GetDisplayManager()->SetDisplayRotation(display_id, gfx::Display::ROTATE_180);
CallRequestDisplayInfo(&result);
ASSERT_EQ(1u, result.size());
EXPECT_EQ(base::Int64ToString(display_id), result[0]->id);
EXPECT_EQ("0,0 500x600", SystemInfoDisplayBoundsToString(result[0]->bounds));
EXPECT_EQ(180, result[0]->rotation);
GetDisplayManager()->SetDisplayRotation(display_id, gfx::Display::ROTATE_0);
CallRequestDisplayInfo(&result);
ASSERT_EQ(1u, result.size());
EXPECT_EQ(base::Int64ToString(display_id), result[0]->id);
EXPECT_EQ("0,0 500x600", SystemInfoDisplayBoundsToString(result[0]->bounds));
EXPECT_EQ(0, result[0]->rotation);
}
TEST_F(DisplayInfoProviderChromeosTest, GetHiDPI) {
UpdateDisplay("500x600,400x520*2");
DisplayInfo result;
CallRequestDisplayInfo(&result);
ASSERT_EQ(2u, result.size());
EXPECT_EQ("0,0 500x600", SystemInfoDisplayBoundsToString(result[0]->bounds));
EXPECT_EQ(96, result[0]->dpi_x);
EXPECT_EQ(96, result[0]->dpi_y);
EXPECT_EQ("500,0 200x260",
SystemInfoDisplayBoundsToString(result[1]->bounds));
EXPECT_EQ(2 * 96, result[1]->dpi_x);
EXPECT_EQ(2 * 96, result[1]->dpi_y);
GetDisplayController()->SwapPrimaryDisplay();
CallRequestDisplayInfo(&result);
ASSERT_EQ(2u, result.size());
EXPECT_EQ("-500,0 500x600",
SystemInfoDisplayBoundsToString(result[0]->bounds));
EXPECT_EQ(96, result[0]->dpi_x);
EXPECT_EQ(96, result[0]->dpi_y);
EXPECT_EQ("0,0 200x260", SystemInfoDisplayBoundsToString(result[1]->bounds));
EXPECT_EQ(2 * 96, result[1]->dpi_x);
EXPECT_EQ(2 * 96, result[1]->dpi_y);
}
TEST_F(DisplayInfoProviderChromeosTest, GetVisibleArea) {
UpdateDisplay("640x720*2/o, 400x520/o");
DisplayInfo result;
CallRequestDisplayInfo(&result);
ASSERT_EQ(2u, result.size());
int64 display_id;
ASSERT_TRUE(base::StringToInt64(result[1]->id, &display_id))
<< "Display id must be convertable to integer: " << result[1]->id;
ASSERT_TRUE(DisplayExists(display_id)) << display_id << " not found";
// Default overscan is 5%.
EXPECT_EQ("304,0 380x494",
SystemInfoDisplayBoundsToString(result[1]->bounds));
EXPECT_EQ("13,10,13,10",
SystemInfoDisplayInsetsToString(result[1]->overscan));
GetDisplayManager()->SetOverscanInsets(display_id,
gfx::Insets(20, 30, 50, 60));
CallRequestDisplayInfo(&result);
ASSERT_EQ(2u, result.size());
EXPECT_EQ(base::Int64ToString(display_id), result[1]->id);
EXPECT_EQ("304,0 310x450",
SystemInfoDisplayBoundsToString(result[1]->bounds));
EXPECT_EQ("20,30,50,60",
SystemInfoDisplayInsetsToString(result[1]->overscan));
// Set insets for the primary screen. Note that it has 2x scale.
ASSERT_TRUE(base::StringToInt64(result[0]->id, &display_id))
<< "Display id must be convertable to integer: " << result[0]->id;
ASSERT_TRUE(DisplayExists(display_id)) << display_id << " not found";
EXPECT_EQ("0,0 304x342", SystemInfoDisplayBoundsToString(result[0]->bounds));
EXPECT_EQ("9,8,9,8", SystemInfoDisplayInsetsToString(result[0]->overscan));
GetDisplayManager()->SetOverscanInsets(display_id,
gfx::Insets(10, 20, 30, 40));
CallRequestDisplayInfo(&result);
ASSERT_EQ(2u, result.size());
EXPECT_EQ(base::Int64ToString(display_id), result[0]->id);
EXPECT_EQ("0,0 260x320", SystemInfoDisplayBoundsToString(result[0]->bounds));
EXPECT_EQ("10,20,30,40",
SystemInfoDisplayInsetsToString(result[0]->overscan));
}
TEST_F(DisplayInfoProviderChromeosTest, GetMirroring) {
UpdateDisplay("600x600, 400x520/o");
DisplayInfo result;
CallRequestDisplayInfo(&result);
ASSERT_EQ(2u, result.size());
int64 display_id_primary;
ASSERT_TRUE(base::StringToInt64(result[0]->id, &display_id_primary))
<< "Display id must be convertable to integer: " << result[0]->id;
ASSERT_TRUE(DisplayExists(display_id_primary))
<< display_id_primary << " not found";
int64 display_id_secondary;
ASSERT_TRUE(base::StringToInt64(result[1]->id, &display_id_secondary))
<< "Display id must be convertable to integer: " << result[1]->id;
ASSERT_TRUE(DisplayExists(display_id_secondary))
<< display_id_secondary << " not found";
ASSERT_FALSE(GetDisplayManager()->IsMirrored());
EXPECT_TRUE(result[0]->mirroring_source_id.empty());
EXPECT_TRUE(result[1]->mirroring_source_id.empty());
GetDisplayManager()->SetMirrorMode(true);
ASSERT_TRUE(GetDisplayManager()->IsMirrored());
CallRequestDisplayInfo(&result);
ASSERT_EQ(1u, result.size());
EXPECT_EQ(base::Int64ToString(display_id_primary), result[0]->id);
EXPECT_EQ(base::Int64ToString(display_id_secondary),
result[0]->mirroring_source_id);
GetDisplayManager()->SetMirrorMode(false);
ASSERT_FALSE(GetDisplayManager()->IsMirrored());
CallRequestDisplayInfo(&result);
ASSERT_EQ(2u, result.size());
EXPECT_EQ(base::Int64ToString(display_id_primary), result[0]->id);
EXPECT_TRUE(result[0]->mirroring_source_id.empty());
EXPECT_EQ(base::Int64ToString(display_id_secondary), result[1]->id);
EXPECT_TRUE(result[1]->mirroring_source_id.empty());
}
TEST_F(DisplayInfoProviderChromeosTest, GetBounds) {
UpdateDisplay("600x600, 400x520");
GetDisplayController()->SetLayoutForCurrentDisplays(
ash::DisplayLayout::FromInts(ash::DisplayLayout::LEFT, -40));
DisplayInfo result;
CallRequestDisplayInfo(&result);
ASSERT_EQ(2u, result.size());
EXPECT_EQ("0,0 600x600", SystemInfoDisplayBoundsToString(result[0]->bounds));
EXPECT_EQ("-400,-40 400x520",
SystemInfoDisplayBoundsToString(result[1]->bounds));
GetDisplayController()->SetLayoutForCurrentDisplays(
ash::DisplayLayout::FromInts(ash::DisplayLayout::TOP, 40));
CallRequestDisplayInfo(&result);
ASSERT_EQ(2u, result.size());
EXPECT_EQ("0,0 600x600", SystemInfoDisplayBoundsToString(result[0]->bounds));
EXPECT_EQ("40,-520 400x520",
SystemInfoDisplayBoundsToString(result[1]->bounds));
GetDisplayController()->SetLayoutForCurrentDisplays(
ash::DisplayLayout::FromInts(ash::DisplayLayout::BOTTOM, 80));
CallRequestDisplayInfo(&result);
ASSERT_EQ(2u, result.size());
EXPECT_EQ("0,0 600x600", SystemInfoDisplayBoundsToString(result[0]->bounds));
EXPECT_EQ("80,600 400x520",
SystemInfoDisplayBoundsToString(result[1]->bounds));
}
TEST_F(DisplayInfoProviderChromeosTest, SetBoundsOriginLeftExact) {
UpdateDisplay("1200x600,520x400");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.bounds_origin_x.reset(new int(-520));
info.bounds_origin_y.reset(new int(50));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
ASSERT_TRUE(error.empty());
EXPECT_EQ("-520,50 520x400", secondary.bounds().ToString());
}
TEST_F(DisplayInfoProviderChromeosTest, SetBoundsOriginRightExact) {
UpdateDisplay("1200x600,520x400");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.bounds_origin_x.reset(new int(1200));
info.bounds_origin_y.reset(new int(100));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
ASSERT_TRUE(error.empty());
EXPECT_EQ("1200,100 520x400", secondary.bounds().ToString());
}
TEST_F(DisplayInfoProviderChromeosTest, SetBoundsOriginTopExact) {
UpdateDisplay("1200x600,520x400");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.bounds_origin_x.reset(new int(1100));
info.bounds_origin_y.reset(new int(-400));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
ASSERT_TRUE(error.empty());
EXPECT_EQ("1100,-400 520x400", secondary.bounds().ToString());
}
TEST_F(DisplayInfoProviderChromeosTest, SetBoundsOriginBottomExact) {
UpdateDisplay("1200x600,520x400");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.bounds_origin_x.reset(new int(-350));
info.bounds_origin_y.reset(new int(600));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
ASSERT_TRUE(error.empty());
EXPECT_EQ("-350,600 520x400", secondary.bounds().ToString());
}
TEST_F(DisplayInfoProviderChromeosTest, SetBoundsOriginSameCenter) {
UpdateDisplay("1200x600,520x400");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.bounds_origin_x.reset(new int(340));
info.bounds_origin_y.reset(new int(100));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
ASSERT_TRUE(error.empty());
EXPECT_EQ("1200,100 520x400", secondary.bounds().ToString());
}
TEST_F(DisplayInfoProviderChromeosTest, SetBoundsOriginLeftOutside) {
UpdateDisplay("1200x600,520x400");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.bounds_origin_x.reset(new int(-1040));
info.bounds_origin_y.reset(new int(100));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
ASSERT_TRUE(error.empty());
EXPECT_EQ("-520,100 520x400", secondary.bounds().ToString());
}
TEST_F(DisplayInfoProviderChromeosTest, SetBoundsOriginTopOutside) {
UpdateDisplay("1200x600,520x400");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.bounds_origin_x.reset(new int(-360));
info.bounds_origin_y.reset(new int(-301));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
ASSERT_TRUE(error.empty());
EXPECT_EQ("-360,-400 520x400", secondary.bounds().ToString());
}
TEST_F(DisplayInfoProviderChromeosTest,
SetBoundsOriginLeftButSharesBottomSide) {
UpdateDisplay("1200x600,1000x100");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.bounds_origin_x.reset(new int(-650));
info.bounds_origin_y.reset(new int(700));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
ASSERT_TRUE(error.empty());
EXPECT_EQ("-650,600 1000x100", secondary.bounds().ToString());
}
TEST_F(DisplayInfoProviderChromeosTest,
SetBoundsOriginRightButSharesTopSide) {
UpdateDisplay("1200x600,1000x100");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.bounds_origin_x.reset(new int(850));
info.bounds_origin_y.reset(new int(-150));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
ASSERT_TRUE(error.empty());
EXPECT_EQ("850,-100 1000x100", secondary.bounds().ToString());
}
TEST_F(DisplayInfoProviderChromeosTest,
SetBoundsOriginTopButSharesLeftSide) {
UpdateDisplay("1200x600,1000x100/l");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.bounds_origin_x.reset(new int(-150));
info.bounds_origin_y.reset(new int(-650));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
ASSERT_TRUE(error.empty());
EXPECT_EQ("-100,-650 100x1000", secondary.bounds().ToString());
}
TEST_F(DisplayInfoProviderChromeosTest,
SetBoundsOriginBottomButSharesRightSide) {
UpdateDisplay("1200x600,1000x100/l");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.bounds_origin_x.reset(new int(1350));
info.bounds_origin_y.reset(new int(450));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
ASSERT_TRUE(error.empty());
EXPECT_EQ("1200,450 100x1000", secondary.bounds().ToString());
}
TEST_F(DisplayInfoProviderChromeosTest, SetBoundsOriginPrimaryHiDPI) {
UpdateDisplay("1200x600*2,500x500");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.bounds_origin_x.reset(new int(250));
info.bounds_origin_y.reset(new int(-100));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
ASSERT_TRUE(error.empty());
EXPECT_EQ("600,-100 500x500", secondary.bounds().ToString());
}
TEST_F(DisplayInfoProviderChromeosTest, SetBoundsOriginSecondaryHiDPI) {
UpdateDisplay("1200x600,600x1000*2");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.bounds_origin_x.reset(new int(450));
info.bounds_origin_y.reset(new int(-100));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
ASSERT_TRUE(error.empty());
EXPECT_EQ("450,-500 300x500", secondary.bounds().ToString());
}
TEST_F(DisplayInfoProviderChromeosTest, SetBoundsOriginOutOfBounds) {
UpdateDisplay("1200x600,600x1000*2");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.bounds_origin_x.reset(new int(0x200001));
info.bounds_origin_y.reset(new int(-100));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_FALSE(success);
ASSERT_EQ("Bounds origin x out of bounds.", error);
EXPECT_EQ("1200,0 300x500", secondary.bounds().ToString());
}
TEST_F(DisplayInfoProviderChromeosTest, SetBoundsOriginOutOfBoundsNegative) {
UpdateDisplay("1200x600,600x1000*2");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.bounds_origin_x.reset(new int(300));
info.bounds_origin_y.reset(new int(-0x200001));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_FALSE(success);
ASSERT_EQ("Bounds origin y out of bounds.", error);
EXPECT_EQ("1200,0 300x500", secondary.bounds().ToString());
}
TEST_F(DisplayInfoProviderChromeosTest, SetBoundsOriginMaxValues) {
UpdateDisplay("1200x4600,600x1000*2");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.bounds_origin_x.reset(new int(200000));
info.bounds_origin_y.reset(new int(10));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
EXPECT_TRUE(error.empty());
EXPECT_EQ("1200,10 300x500", secondary.bounds().ToString());
}
TEST_F(DisplayInfoProviderChromeosTest, SetBoundsOriginOnPrimary) {
UpdateDisplay("1200x600,600x1000*2");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.bounds_origin_x.reset(new int(300));
info.is_primary.reset(new bool(true));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_FALSE(success);
ASSERT_EQ("Bounds origin not allowed for the primary display.", error);
EXPECT_EQ("1200,0 300x500", secondary.bounds().ToString());
// The operation failed because the primary property would be set before
// setting bounds. The primary display shouldn't have been changed, though.
EXPECT_NE(ash::DisplayController::GetPrimaryDisplay().id(), secondary.id());
}
TEST_F(DisplayInfoProviderChromeosTest, SetBoundsOriginWithMirroring) {
UpdateDisplay("1200x600,600x1000*2");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
const gfx::Display& primary = GetDisplayController()->GetPrimaryDisplay();
api::system_display::DisplayProperties info;
info.bounds_origin_x.reset(new int(300));
info.mirroring_source_id.reset(
new std::string(base::Int64ToString(primary.id())));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_FALSE(success);
ASSERT_EQ("No other parameter should be set alongside mirroringSourceId.",
error);
}
TEST_F(DisplayInfoProviderChromeosTest, SetRotation) {
UpdateDisplay("1200x600,600x1000*2");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.rotation.reset(new int(90));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
EXPECT_TRUE(error.empty());
EXPECT_EQ("1200,0 500x300", secondary.bounds().ToString());
EXPECT_EQ(gfx::Display::ROTATE_90, secondary.rotation());
info.rotation.reset(new int(270));
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
EXPECT_TRUE(error.empty());
EXPECT_EQ("1200,0 500x300", secondary.bounds().ToString());
EXPECT_EQ(gfx::Display::ROTATE_270, secondary.rotation());
info.rotation.reset(new int(180));
// Switch primary display.
info.is_primary.reset(new bool(true));
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
EXPECT_TRUE(error.empty());
EXPECT_EQ("0,0 300x500", secondary.bounds().ToString());
EXPECT_EQ(gfx::Display::ROTATE_180, secondary.rotation());
EXPECT_EQ(ash::DisplayController::GetPrimaryDisplay().id(), secondary.id());
info.rotation.reset(new int(0));
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
EXPECT_TRUE(error.empty());
EXPECT_EQ("0,0 300x500", secondary.bounds().ToString());
EXPECT_EQ(gfx::Display::ROTATE_0, secondary.rotation());
EXPECT_EQ(ash::DisplayController::GetPrimaryDisplay().id(), secondary.id());
}
TEST_F(DisplayInfoProviderChromeosTest, SetInvalidRotation) {
UpdateDisplay("1200x600,600x1000*2");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.rotation.reset(new int(91));
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_FALSE(success);
EXPECT_EQ("Invalid rotation.", error);
}
TEST_F(DisplayInfoProviderChromeosTest, SetNegativeOverscan) {
UpdateDisplay("1200x600,600x1000*2");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.overscan.reset(new api::system_display::Insets);
info.overscan->left= -10;
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_FALSE(success);
EXPECT_EQ("Negative overscan not allowed.", error);
EXPECT_EQ("1200,0 300x500", secondary.bounds().ToString());
info.overscan->left= 0;
info.overscan->right = -200;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_FALSE(success);
EXPECT_EQ("Negative overscan not allowed.", error);
EXPECT_EQ("1200,0 300x500", secondary.bounds().ToString());
info.overscan->right= 0;
info.overscan->top = -300;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_FALSE(success);
EXPECT_EQ("Negative overscan not allowed.", error);
EXPECT_EQ("1200,0 300x500", secondary.bounds().ToString());
info.overscan->right= 0;
info.overscan->top = -1000;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_FALSE(success);
EXPECT_EQ("Negative overscan not allowed.", error);
EXPECT_EQ("1200,0 300x500", secondary.bounds().ToString());
info.overscan->right= 0;
info.overscan->top = 0;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
EXPECT_TRUE(error.empty());
EXPECT_EQ("1200,0 300x500", secondary.bounds().ToString());
}
TEST_F(DisplayInfoProviderChromeosTest, SetOverscanLargerThanHorizontalBounds) {
UpdateDisplay("1200x600,600x1000*2");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.overscan.reset(new api::system_display::Insets);
// Horizontal overscan is 151, which would make the bounds width 149.
info.overscan->left= 50;
info.overscan->top = 10;
info.overscan->right = 101;
info.overscan->bottom = 20;
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_FALSE(success);
EXPECT_EQ("Horizontal overscan is more than half of the screen width.",
error);
}
TEST_F(DisplayInfoProviderChromeosTest, SetOverscanLargerThanVerticalBounds) {
UpdateDisplay("1200x600,600x1000");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.overscan.reset(new api::system_display::Insets);
// Vertical overscan is 501, which would make the bounds height 499.
info.overscan->left= 20;
info.overscan->top = 250;
info.overscan->right = 101;
info.overscan->bottom = 251;
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_FALSE(success);
EXPECT_EQ("Vertical overscan is more than half of the screen height.",
error);
}
TEST_F(DisplayInfoProviderChromeosTest, SetOverscan) {
UpdateDisplay("1200x600,600x1000*2");
const gfx::Display& secondary = ash::ScreenAsh::GetSecondaryDisplay();
api::system_display::DisplayProperties info;
info.overscan.reset(new api::system_display::Insets);
info.overscan->left= 20;
info.overscan->top = 199;
info.overscan->right = 130;
info.overscan->bottom = 51;
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(secondary.id()), info,
&success, &error);
ASSERT_TRUE(success);
EXPECT_TRUE(error.empty());
EXPECT_EQ("1200,0 150x250", secondary.bounds().ToString());
const gfx::Insets overscan =
GetDisplayManager()->GetOverscanInsets(secondary.id());
EXPECT_EQ(20, overscan.left());
EXPECT_EQ(199, overscan.top());
EXPECT_EQ(130, overscan.right());
EXPECT_EQ(51, overscan.bottom());
}
TEST_F(DisplayInfoProviderChromeosTest, SetOverscanForInternal) {
UpdateDisplay("1200x600,600x1000*2");
const int64 internal_display_id =
ash::test::DisplayManagerTestApi(GetDisplayManager()).
SetFirstDisplayAsInternalDisplay();
api::system_display::DisplayProperties info;
info.overscan.reset(new api::system_display::Insets);
// Vertical overscan is 501, which would make the bounds height 499.
info.overscan->left= 20;
info.overscan->top = 20;
info.overscan->right = 20;
info.overscan->bottom = 20;
bool success = false;
std::string error;
CallSetDisplayUnitInfo(base::Int64ToString(internal_display_id), info,
&success, &error);
ASSERT_FALSE(success);
EXPECT_EQ("Overscan changes not allowed for the internal monitor.",
error);
}
} // namespace
} // namespace extensions