athena/system/orientation_controller.cc - Issue 431183003: Rotate screen in response to accelerator or device orientation sensors.

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Issue 431183003: Rotate screen in response to accelerator or device orientation sensors. (Closed) Base URL: svn://svn.chromium.org/chrome/trunk/src

Patch Set: Add dependencies on ipc and content. Created 6 years, 4 months ago

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	1 // Copyright 2014 The Chromium Authors. All rights reserved.

	2 // Use of this source code is governed by a BSD-style license that can be

	3 // found in the LICENSE file.

	4

	5 #include "athena/screen/public/screen_manager.h"

	6 #include "athena/system/orientation_controller.h"

	7 #include "base/bind.h"

	8 #include "base/file_util.h"

	9 #include "base/files/file_path_watcher.h"

	10 #include "base/message_loop/message_loop.h"

	11 #include "base/task_runner.h"

	12

	13 namespace athena {

	14

	15 namespace {

	16

	17 // Path of the socket which the sensor daemon creates.

	18 const char kSocketPath[] = "/dev/sensors/orientation";

	19

	20 // Threshold after which to rotate in a given direction.

	21 const int kGravityThreshold = 6.0f;

	22

	23 // Minimum delay before triggering another orientation change.

	24 const int kOrientationChangeDelayNS = 500000000;

	25

	26 enum SensorType {

	27 SENSOR_ACCELEROMETER,

	28 SENSOR_LIGHT,

	29 SENSOR_PROXIMITY

	30 };

	31

	32 // A sensor event from the device.

	33 struct DeviceSensorEvent {

	34 // The type of event from the SensorType enum above.

	35 int32_t type;

	36

	37 // The time in nanoseconds at which the event happened.

	38 int64_t timestamp;

	39

	40 union {

	41 // Accelerometer X,Y,Z values in SI units (m/s^2) including gravity.

	42 // The orientation is described at

	43 // http://www.html5rocks.com/en/tutorials/device/orientation/.

	44 float data[3];

	45

	46 // Ambient (room) temperature in degrees Celcius.

	47 float temperature;

	48

	49 // Proximity sensor distance in centimeters.

	50 float distance;

	51

	52 // Ambient light level in SI lux units.

	53 float light;

	54 };

	55 };

	56

	57 } // namespace

	58

	59 OrientationController::OrientationController(

	60 scoped_refptr<base::TaskRunner> io_task_runner)

	61 : DeviceSocketListener(kSocketPath, sizeof(DeviceSensorEvent)),

	62 last_orientation_change_time_(0),

	63 weak_factory_(this) {

	64 CHECK(base::MessageLoopForUI::current());

	65 ui_task_runner_ = base::MessageLoopForUI::current()->task_runner();

	66 io_task_runner->PostTask(FROM_HERE, base::Bind(

	67 &OrientationController::WatchForSocketPathOnIO,

	68 make_scoped_refptr<OrientationController>(this)));

	69 }

	70

	71 OrientationController::~OrientationController() {

	72 }

	73

	74 void OrientationController::WatchForSocketPathOnIO() {

	75 CHECK(base::MessageLoopForIO::current());

	76 if (base::PathExists(base::FilePath(kSocketPath))) {

	77 ui_task_runner_->PostTask(FROM_HERE,

	78 base::Bind(&OrientationController::StartListening,

	79 make_scoped_refptr<OrientationController>(this)));

	80 } else {

	81 watcher_.reset(new base::FilePathWatcher);

	82 watcher_->Watch(

	83 base::FilePath(kSocketPath), false,

	84 base::Bind(&OrientationController::OnFilePathChangedOnIO,

	85 make_scoped_refptr<OrientationController>(this)));

	86 }

	87 }

	88

	89 void OrientationController::OnFilePathChangedOnIO(const base::FilePath& path,

	90 bool error) {

	91 watcher_.reset();

	92 if (error)

	93 return;

	94

	95 ui_task_runner_->PostTask(FROM_HERE,

	96 base::Bind(&OrientationController::StartListening,

	97 make_scoped_refptr<OrientationController>(this)));

	98 }

	99

	100 void OrientationController::OnDataAvailableOnIO(const void* data) {

	101 const DeviceSensorEvent* event =

	102 static_cast<const DeviceSensorEvent*>(data);

	103 if (event->type != SENSOR_ACCELEROMETER)

	104 return;

	105

	106 float gravity_x = event->data[0];

	107 float gravity_y = event->data[1];

	108 gfx::Display::Rotation rotation;

	109 if (gravity_x < -kGravityThreshold) {

	110 rotation = gfx::Display::ROTATE_270;

	111 } else if (gravity_x > kGravityThreshold) {

	112 rotation = gfx::Display::ROTATE_90;

	113 } else if (gravity_y < -kGravityThreshold) {

	114 rotation = gfx::Display::ROTATE_180;

	115 } else if (gravity_y > kGravityThreshold) {

	116 rotation = gfx::Display::ROTATE_0;

	117 } else {

	118 // No rotation as gravity threshold was not hit.

	119 return;

	120 }

	121

	122 if (rotation == current_rotation_ \|\|

	123 event->timestamp - last_orientation_change_time_ <

	124 kOrientationChangeDelayNS) {

	125 return;

	126 }

	127

	128 last_orientation_change_time_ = event->timestamp;

	129 current_rotation_ = rotation;

	130 ui_task_runner_->PostTask(FROM_HERE,

	131 base::Bind(&OrientationController::RotateOnUI,

	132 make_scoped_refptr<OrientationController>(this), rotation));

	133 }

	134

	135 void OrientationController::RotateOnUI(gfx::Display::Rotation rotation) {

	136 ScreenManager* screen_manager = ScreenManager::Get();

	137 // Since this is called from the IO thread, the screen manager may no longer

	138 // exist.

	139 if (screen_manager)

	140 screen_manager->SetRotation(rotation);

	141 }

	142

	143 } // namespace athena

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