hyperion.ng/include/leddevice/LedDevice.h
LordGrey 67280b8566
Razor Chroma Support - Initial version (#1054)
* Razor Chroma Support - Initial version

* Address clang and lgtm findings

* Razer Fixes

* Merge branch 'master' into Razer_Chroma_Support

# Conflicts:
#	assets/webconfig/i18n/en.json
#	assets/webconfig/js/content_leds.js
#	libsrc/leddevice/dev_net/ProviderRestApi.cpp
#	libsrc/leddevice/dev_net/ProviderRestApi.h

* Corrections

* Set default config for Razer

* Simplify

* Razer - Support individual LEDs and have default layout per device type

* Differentiate between HWLEDCount and LayoutLEDCount

* Revert "Differentiate between HWLEDCount and LayoutLEDCount"

This reverts commit b147b215a5.

* Correct LGTM finding

* Disable verbose mode
2021-11-17 20:34:49 +01:00

467 lines
12 KiB
C++

#ifndef LEDEVICE_H
#define LEDEVICE_H
// qt includes
#include <QObject>
#include <QString>
#include <QJsonObject>
#include <QJsonArray>
#include <QJsonDocument>
#include <QTimer>
#include <QDateTime>
// STL includes
#include <vector>
#include <map>
#include <algorithm>
// Utility includes
#include <utils/ColorRgb.h>
#include <utils/ColorRgbw.h>
#include <utils/RgbToRgbw.h>
#include <utils/Logger.h>
#include <functional>
#include <utils/Components.h>
class LedDevice;
typedef LedDevice* ( *LedDeviceCreateFuncType ) ( const QJsonObject& );
typedef std::map<QString,LedDeviceCreateFuncType> LedDeviceRegistry;
///
/// @brief Interface (pure virtual base class) for LED-devices.
///
class LedDevice : public QObject
{
Q_OBJECT
public:
///
/// @brief Constructs LED-device
///
/// @param deviceConfig Device's configuration as JSON-Object
/// @param parent QT parent
///
LedDevice(const QJsonObject& deviceConfig = QJsonObject(), QObject* parent = nullptr);
///
/// @brief Destructor of the LED-device
///
~LedDevice() override;
///
/// @brief Set the current active LED-device type.
///
/// @param deviceType Device's type
///
void setActiveDeviceType(const QString& deviceType);
///
/// @brief Set the number of LEDs supported by the device.
///
/// @param[in] ledCount Number of device LEDs, 0 = unknown number
///
void setLedCount(int ledCount);
///
/// @brief Set a device's latch time.
///
/// Latch time is the time-frame a device requires until the next update can be processed.
/// During that time-frame any updates done via updateLeds are skipped.
///
/// @param[in] latchTime_ms Latch time in milliseconds
///
void setLatchTime(int latchTime_ms);
///
/// @brief Set a device's rewrite time.
///
/// Rewrite time is the time frame a devices requires to be refreshed, if no updated happened in the meantime.
///
/// @param[in] rewriteTime_ms Rewrite time in milliseconds
///
void setRewriteTime(int rewriteTime_ms);
///
/// @brief Discover devices of this type available (for configuration).
/// @note Mainly used for network devices. Allows to find devices, e.g. via ssdp, mDNS or cloud ways.
///
/// @param[in] params Parameters used to overwrite discovery default behaviour
///
/// @return A JSON structure holding a list of devices found
///
virtual QJsonObject discover(const QJsonObject& params);
///
/// @brief Discover first device of this type available (for configuration).
/// @note Mainly used for network devices. Allows to find devices, e.g. via ssdp, mDNS or cloud ways.
///
/// @return A string of the device found
///
virtual QString discoverFirst();
///
/// @brief Get the device's properties
///
/// Used in context of a set of devices of the same type.
///
/// @param[in] params Parameters to address device
/// @return A JSON structure holding the device's properties
///
virtual QJsonObject getProperties(const QJsonObject& params);
///
/// @brief Send an update to the device to identify it.
///
/// Used in context of a set of devices of the same type.
///
/// @param[in] params Parameters to address device
///
virtual void identify(const QJsonObject& /*params*/) {}
///
/// @brief Check, if device is properly initialised
///
/// i.e. initialisation and configuration were successful.
///
/// @return True, if device is initialised
///
bool isInitialised() const { return _isDeviceInitialised; }
///
/// @brief Check, if device is ready to be used.
///
/// i.e. initialisation and opening were successful.
///
/// @return True, if device is ready
///
bool isReady() const { return _isDeviceReady; }
///
/// @brief Check, if device is in error state.
///
/// @return True, if device is in error
///
bool isInError() const { return _isDeviceInError; }
///
/// @brief Prints the color values to stdout.
///
/// @param[in] ledValues The color per led
///
static void printLedValues(const std::vector<ColorRgb>& ledValues);
public slots:
///
/// @brief Is called on thread start, all construction tasks and init should run here.
///
virtual void start();
///
/// @brief Stops the device.
///
/// Includes switching-off the device and stopping refreshes.
///
virtual void stop();
///
/// @brief Update the color values of the device's LEDs.
///
/// Handles refreshing of LEDs.
///
/// @param[in] ledValues The color per LED
/// @return Zero on success else negative (i.e. device is not ready)
///
virtual int updateLeds(const std::vector<ColorRgb>& ledValues);
///
/// @brief Get the currently defined LatchTime.
///
/// @return Latch time in milliseconds
///
int getLatchTime() const { return _latchTime_ms; }
///
/// @brief Get the currently defined RewriteTime.
///
/// @return Rewrite time in milliseconds
///
int getRewriteTime() const { return _refreshTimerInterval_ms; }
///
/// @brief Get the number of LEDs supported by the device.
///
/// @return Number of device's LEDs, 0 = unknown number
///
int getLedCount() const { return _ledCount; }
///
/// @brief Get the current active LED-device type.
///
QString getActiveDeviceType() const { return _activeDeviceType; }
///
/// @brief Get color order of device.
///
/// @return The color order
///
QString getColorOrder() const { return _colorOrder; }
///
/// @brief Get the LED-Device component's state.
///
/// @return True, if enabled
///
inline bool componentState() const { return _isEnabled; }
///
/// @brief Enables the device for output.
///
/// If the device is not ready, it will not be enabled.
///
void enable();
///
/// @brief Disables the device for output.
///
void disable();
///
/// @brief Switch the LEDs on.
///
/// Takes care that the device is opened and powered-on.
/// Depending on the configuration, the device may store its current state for later restore.
/// @see powerOn, storeState
///
/// @return True, if success
///
virtual bool switchOn();
///
/// @brief Switch the LEDs off.
///
/// Takes care that the LEDs and device are switched-off and device is closed.
/// Depending on the configuration, the device may be powered-off or restored to its previous state.
/// @see powerOff, restoreState
///
/// @return True, if success
///
virtual bool switchOff();
bool switchOnOff(bool onState)
{
return onState == true ? switchOn() : switchOff();
}
signals:
///
/// @brief Emits whenever the LED-Device switches between on/off.
///
/// @param[in] newState The new state of the device
///
void enableStateChanged(bool newState);
protected:
///
/// @brief Initialise the device's configuration.
///
/// @param[in] deviceConfig the JSON device configuration
/// @return True, if success
///
virtual bool init(const QJsonObject &deviceConfig);
///
/// @brief Opens the output device.
///
/// @return Zero, on success (i.e. device is ready), else negative
///
virtual int open();
///
/// @brief Closes the output device.
///
/// @return Zero on success (i.e. device is closed), else negative
///
virtual int close();
///
/// @brief Writes the RGB-Color values to the LEDs.
///
/// @param[in] ledValues The RGB-color per LED
/// @return Zero on success, else negative
///
virtual int write(const std::vector<ColorRgb>& ledValues) = 0;
///
/// @brief Writes "BLACK" to the output stream,
/// even if the device is not in enabled state (allowing to have a defined state during device power-off).
/// @note: latch-time is considered between each write
///
/// @param[in] numberOfWrites Write Black a given number of times
/// @return Zero on success else negative
///
virtual int writeBlack(int numberOfWrites = 1);
///
/// @brief Writes a color to the output stream,
/// even if the device is not in enabled state (allowing to have a defined state during device power-off).
/// @note: latch-time is considered between each write
///
/// @param[in] color to be written
/// @param[in] numberOfWrites Write the color a given number of times
/// @return Zero on success else negative
///
virtual int writeColor(const ColorRgb& color, int numberOfWrites = 1);
///
/// @brief Power-/turn on the LED-device.
///
/// Powers-/Turns on the LED hardware, if supported.
///
/// @return True, if success
///
virtual bool powerOn();
///
/// @brief Power-/turn off the LED-device.
///
/// Depending on the device's capability, the device is powered-/turned off or
/// an off state is simulated by writing "Black to LED" (default).
///
/// @return True, if success
///
virtual bool powerOff();
///
/// @brief Store the device's original state.
///
/// Save the device's state before hyperion color streaming starts allowing to restore state during switchOff().
///
/// @return True, if success
///
virtual bool storeState();
///
/// @brief Restore the device's original state.
///
/// Restore the device's state as before hyperion color streaming started.
/// This includes the on/off state of the device.
///
/// @return True, if success
///
virtual bool restoreState();
///
/// @brief Converts an uint8_t array to hex string.
///
/// @param data uint8_t array
/// @param size of the array
/// @param number Number of array items to be converted.
/// @return array as string of hex values
QString uint8_t_to_hex_string(const uint8_t * data, const int size, int number = -1) const;
///
/// @brief Converts a ByteArray to hex string.
///
/// @param data ByteArray
/// @param number Number of array items to be converted.
/// @return array as string of hex values
QString toHex(const QByteArray& data, int number = -1) const;
/// Current device's type
QString _activeDeviceType;
/// Helper to pipe device configuration from constructor to start()
QJsonObject _devConfig;
/// The common Logger instance for all LED-devices
Logger * _log;
/// The buffer containing the packed RGB values
std::vector<uint8_t> _ledBuffer;
/// Timer object which makes sure that LED data is written at a minimum rate
/// e.g. some devices will switch off when they do not receive data at least every 15 seconds
QTimer* _refreshTimer;
// Device configuration parameters
/// Refresh interval in milliseconds
int _refreshTimerInterval_ms;
/// Time a device requires mandatorily between two writes (in milliseconds)
int _latchTime_ms;
/// Number of hardware LEDs supported by device.
uint _ledCount;
uint _ledRGBCount;
uint _ledRGBWCount;
/// Does the device allow restoring the original state?
bool _isRestoreOrigState;
/// Device, lights state before streaming via hyperion
QJsonObject _orignalStateValues;
// Device states
/// Is the device enabled?
bool _isEnabled;
/// Is the device initialised?
bool _isDeviceInitialised;
/// Is the device ready for processing?
bool _isDeviceReady;
/// Is the device switched on?
bool _isOn;
/// Is the device in error state and stopped?
bool _isDeviceInError;
/// Is the device in the switchOff process?
bool _isInSwitchOff;
/// Timestamp of last write
QDateTime _lastWriteTime;
protected slots:
///
/// @brief Write the last data to the LEDs again.
///
/// @return Zero on success else negative
///
virtual int rewriteLEDs();
///
/// @brief Set device in error state
///
/// @param[in] errorMsg The error message to be logged
///
virtual void setInError( const QString& errorMsg);
private:
/// @brief Start a new refresh cycle
void startRefreshTimer();
/// @brief Stop refresh cycle
void stopRefreshTimer();
/// Is last write refreshing enabled?
bool _isRefreshEnabled;
/// Order of Colors supported by the device
/// "RGB", "BGR", "RBG", "BRG", "GBR", "GRB"
QString _colorOrder;
/// Last LED values written
std::vector<ColorRgb> _lastLedValues;
};
#endif // LEDEVICE_H