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Diffstat (limited to 'PluginCommandInterfaceCAPI/src-gen/org/genivi/am.h')
| -rw-r--r-- | PluginCommandInterfaceCAPI/src-gen/org/genivi/am.h | 2460 |
1 files changed, 0 insertions, 2460 deletions
diff --git a/PluginCommandInterfaceCAPI/src-gen/org/genivi/am.h b/PluginCommandInterfaceCAPI/src-gen/org/genivi/am.h deleted file mode 100644 index 17c0c51..0000000 --- a/PluginCommandInterfaceCAPI/src-gen/org/genivi/am.h +++ /dev/null @@ -1,2460 +0,0 @@ -/* -* This file was generated by the CommonAPI Generators. -* Used org.genivi.commonapi.core 2.1.5.201312121915. -* Used org.franca.core 0.8.11.201401091023. -* -* This Source Code Form is subject to the terms of the Mozilla Public License, v. 2.0. -* If a copy of the MPL was not distributed with this file, You can obtain one at -* http://mozilla.org/MPL/2.0/. -*/ -/** - * @author Christian Linke - */ -#ifndef ORG_GENIVI_am_H_ -#define ORG_GENIVI_am_H_ - - - -#if !defined (COMMONAPI_INTERNAL_COMPILATION) -#define COMMONAPI_INTERNAL_COMPILATION -#endif - -#include <CommonAPI/InputStream.h> -#include <CommonAPI/OutputStream.h> -#include <CommonAPI/SerializableStruct.h> -#include <CommonAPI/SerializableVariant.h> -#include <CommonAPI/types.h> -#include <cstdint> -#include <memory> -#include <string> -#include <vector> - -#undef COMMONAPI_INTERNAL_COMPILATION - -namespace org { -namespace genivi { - -namespace am { - /** - * a source ID - */ - /** - * a source ID - */ - typedef uint16_t am_sourceID_t; - /** - * a mainConnection ID - */ - /** - * a mainConnection ID - */ - typedef uint16_t am_mainConnectionID_t; - /** - * offset time that is introduced in milli seconds. - */ - /** - * offset time that is introduced in milli seconds. - */ - typedef int16_t am_timeSync_t; - /** - * a sink ID - */ - /** - * a sink ID - */ - typedef uint16_t am_sinkID_t; - /** - * represents the connection state - */ - enum class am_ConnectionState_e: int32_t { - CS_UNKNOWN = 0, - /** - * This means the connection is just building up - */ - CS_CONNECTING = 1, - /** - * the connection is ready to be used - */ - CS_CONNECTED = 2, - /** - * the connection is in the course to be knocked down - */ - CS_DISCONNECTING = 3, - /** - * only relevant for connectionStatechanged. Is send after the connection was - * removed - */ - CS_DISCONNECTED = 4, - /** - * this means the connection is still build up but unused at the moment - */ - CS_SUSPENDED = 5, - CS_MAX - }; - - // Definition of a comparator still is necessary for GCC 4.4.1, topic is fixed since 4.5.1 - struct am_ConnectionState_eComparator; - /** - * this type holds all information of connections relevant to the HMI - */ - /** - * this type holds all information of connections relevant to the HMI - */ - struct am_MainConnectionType_s: CommonAPI::SerializableStruct { - /** - * the ID of the mainconnection - */ - am_mainConnectionID_t mainConnectionID; - /** - * the sourceID where the connection starts - */ - am_sourceID_t sourceID; - /** - * the sinkID where the connection ends - */ - am_sinkID_t sinkID; - /** - * the delay of the mainconnection - */ - am_timeSync_t delay; - /** - * the current connection state - */ - am_ConnectionState_e connectionState; - - am_MainConnectionType_s() = default; - am_MainConnectionType_s(const am_mainConnectionID_t& mainConnectionID, const am_sourceID_t& sourceID, const am_sinkID_t& sinkID, const am_timeSync_t& delay, const am_ConnectionState_e& connectionState); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeInt16Type(); - typeOutputStream.writeInt32Type(); - } - }; - typedef std::vector<am_MainConnectionType_s> am_MainConnection_L; - /** - * product specific identifier of property - */ - /** - * product specific identifier of property - */ - typedef uint16_t am_CustomClassProperty_t; - /** - * describes class properties - */ - /** - * describes class properties - */ - struct am_ClassProperty_s: CommonAPI::SerializableStruct { - /** - * the property as enum - */ - am_CustomClassProperty_t classProperty; - /** - * the value of the property - */ - int16_t value; - - am_ClassProperty_s() = default; - am_ClassProperty_s(const am_CustomClassProperty_t& classProperty, const int16_t& value); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeInt16Type(); - } - }; - typedef std::vector<am_ClassProperty_s> am_ClassProperty_L; - typedef uint16_t am_sinkClass_t; - /** - * struct describing sinkclasses - */ - /** - * struct describing sinkclasses - */ - struct am_SinkClass_s: CommonAPI::SerializableStruct { - /** - * the ID of the sinkClass - */ - am_sinkClass_t sinkClassID; - /** - * the name of the sinkClass - must be unique in the system - */ - std::string name; - /** - * the list of the class properties. These are pairs of a project specific enum - * describing the type of the value and an integer holding the real value. - */ - am_ClassProperty_L listClassProperties; - - am_SinkClass_s() = default; - am_SinkClass_s(const am_sinkClass_t& sinkClassID, const std::string& name, const am_ClassProperty_L& listClassProperties); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeStringType(); - typeOutputStream.beginWriteVectorType(); - typeOutputStream.beginWriteStructType(); - typeOutputStream.writeUInt16Type();typeOutputStream.writeInt16Type(); - typeOutputStream.endWriteStructType(); - typeOutputStream.endWriteVectorType(); - } - }; - typedef std::vector<am_SinkClass_s> am_SinkClass_L; - /** - * This is the volume presented on the command interface. It is in the duty of the - * Controller to change the volumes given here into meaningful values on the - * routing interface. - The range of this type is customer specific. - */ - /** - * This is the volume presented on the command interface. It is in the duty of the - * Controller to change the volumes given here into meaningful values on the - * routing interface. - The range of this type is customer specific. - */ - typedef int16_t am_mainVolume_t; - /** - * This project specific value gives the information about reason for reason for - * Source/Sink change - */ - /** - * This project specific value gives the information about reason for reason for - * Source/Sink change - */ - typedef uint16_t am_CustomAvailabilityReason_t; - /** - * with the help of this enum, sinks and sources can report their availability - * state - */ - enum class am_Availability_e: int32_t { - /** - * default - */ - A_UNKNOWN = 0, - /** - * The source / sink is available - */ - A_AVAILABLE = 1, - /** - * the source / sink is not available - */ - A_UNAVAILABLE = 2, - A_MAX - }; - - // Definition of a comparator still is necessary for GCC 4.4.1, topic is fixed since 4.5.1 - struct am_Availability_eComparator; - enum class am_MuteState_e: int32_t { - /** - * default - */ - MS_UNKNOWN = 0, - /** - * the source / sink is muted - */ - MS_MUTED = 1, - /** - * the source / sink is unmuted - */ - MS_UNMUTED = 2, - MS_MAX - }; - - // Definition of a comparator still is necessary for GCC 4.4.1, topic is fixed since 4.5.1 - struct am_MuteState_eComparator; - /** - * this describes the availability of a sink or a source together with the latest - * change - */ - /** - * this describes the availability of a sink or a source together with the latest - * change - */ - struct am_Availability_s: CommonAPI::SerializableStruct { - /** - * the current availability state - */ - am_Availability_e availability; - /** - * the reason for the last change. This can be used to trigger events that deal - * with state changes. - */ - am_CustomAvailabilityReason_t availabilityReason; - - am_Availability_s() = default; - am_Availability_s(const am_Availability_e& availability, const am_CustomAvailabilityReason_t& availabilityReason); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeInt32Type(); - typeOutputStream.writeUInt16Type(); - } - }; - /** - * this type holds all information of sinks relevant to the HMI - */ - /** - * this type holds all information of sinks relevant to the HMI - */ - struct am_SinkType_s: CommonAPI::SerializableStruct { - /** - * This is the ID of the sink, it is unique in the system. There are 2 ways, ID - * can be created: either it is assigned during the registration process (in a - * dynamic context, uniqueness will be ensured by the AudioManagerDaemon), or it - * is a fixed (the project has to ensure the uniqueness of the ID). - */ - am_sinkID_t sinkID; - /** - * The name of the sink. Must be unique in the whole system. - */ - std::string name; - /** - * This attribute reflects the availability of the sink. There are several reasons - * why a sink could be not available for the moment: for example the shutdown of - * a sink because of overtemperature or over- & undervoltage. The - * availability consists of two pieces of information: - - Availablility: the - * status itself, can be A_AVAILABLE, A_UNAVAILABLE or A_UNKNOWN - - * AvailabilityReason: this informs about the last reason for a change in - * availability. The reasons itself are product specific. - */ - am_Availability_s availability; - /** - * This is the representation of the Volume for the commandInterface. It is used - * by the HMI to set the volume of a sink, the AudioManagerController has to - * transform this into real source and sink volumes. - */ - am_mainVolume_t volume; - am_MuteState_e muteState; - /** - * The sinkClassID references to a sinkClass. With the help of classification, - * rules can be setup to define the system behaviour. - */ - am_sinkClass_t sinkClassID; - - am_SinkType_s() = default; - am_SinkType_s(const am_sinkID_t& sinkID, const std::string& name, const am_Availability_s& availability, const am_mainVolume_t& volume, const am_MuteState_e& muteState, const am_sinkClass_t& sinkClassID); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeStringType(); - typeOutputStream.beginWriteStructType(); - typeOutputStream.writeInt32Type();typeOutputStream.writeUInt16Type(); - typeOutputStream.endWriteStructType(); - typeOutputStream.writeInt16Type(); - typeOutputStream.writeInt32Type(); - typeOutputStream.writeUInt16Type(); - } - }; - typedef std::vector<am_SinkType_s> am_SinkType_L; - typedef uint16_t am_sourceClass_t; - /** - * struct describing source classes - */ - /** - * struct describing source classes - */ - struct am_SourceClass_s: CommonAPI::SerializableStruct { - /** - * the source ID - */ - am_sourceClass_t sourceClassID; - /** - * the name of the sourceClass - must be unique in the system - */ - std::string name; - /** - * the list of the class properties. These are pairs of a project specific enum - * describing the type of the value and an integer holding the real value. - */ - am_ClassProperty_L listClassProperties; - - am_SourceClass_s() = default; - am_SourceClass_s(const am_sourceClass_t& sourceClassID, const std::string& name, const am_ClassProperty_L& listClassProperties); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeStringType(); - typeOutputStream.beginWriteVectorType(); - typeOutputStream.beginWriteStructType(); - typeOutputStream.writeUInt16Type();typeOutputStream.writeInt16Type(); - typeOutputStream.endWriteStructType(); - typeOutputStream.endWriteVectorType(); - } - }; - typedef std::vector<am_SourceClass_s> am_SourceClass_L; - /** - * this type holds all information of sources relevant to the HMI - */ - /** - * this type holds all information of sources relevant to the HMI - */ - struct am_SourceType_s: CommonAPI::SerializableStruct { - /** - * This is the ID of the source, it is unique in the system. There are 2 ways, ID - * can be created: either it is assigned during the registration process (in a - * dynamic context, uniqueness will be ensured by the AudioManagerDaemon), or it - * is a fixed (the project has to ensure the uniqueness of the ID). - */ - am_sourceID_t sourceID; - /** - * The name of the source. Must be unique in the whole system. - */ - std::string name; - /** - * the availability of the source - */ - am_Availability_s availability; - /** - * the sourceClassID, indicates the class the source is in. This information can - * be used by the Controller to implement different behaviour for different - * classes. - */ - am_sourceClass_t sourceClassID; - - am_SourceType_s() = default; - am_SourceType_s(const am_sourceID_t& sourceID, const std::string& name, const am_Availability_s& availability, const am_sourceClass_t& sourceClassID); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeStringType(); - typeOutputStream.beginWriteStructType(); - typeOutputStream.writeInt32Type();typeOutputStream.writeUInt16Type(); - typeOutputStream.endWriteStructType(); - typeOutputStream.writeUInt16Type(); - } - }; - typedef std::vector<am_SourceType_s> am_SourceType_L; - /** - * describes the different system properties. Project specific - */ - /** - * describes the different system properties. Project specific - */ - typedef uint16_t am_CustomSystemPropertyType_t; - /** - * struct describing system properties - */ - /** - * struct describing system properties - */ - struct am_SystemProperty_s: CommonAPI::SerializableStruct { - /** - * the type that is set - */ - am_CustomSystemPropertyType_t type; - /** - * the value - */ - int16_t value; - - am_SystemProperty_s() = default; - am_SystemProperty_s(const am_CustomSystemPropertyType_t& type, const int16_t& value); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeInt16Type(); - } - }; - typedef std::vector<am_SystemProperty_s> am_SystemProperty_L; - /** - * a connection ID - */ - /** - * a connection ID - */ - typedef uint16_t am_connectionID_t; - typedef std::vector<am_connectionID_t> am_ConnectionID_L; - /** - * The unit is 0.1 db steps,The smallest value -3000 (=AM_MUTE). The minimum and - * maximum can be limited by actual project. - */ - /** - * The unit is 0.1 db steps,The smallest value -3000 (=AM_MUTE). The minimum and - * maximum can be limited by actual project. - */ - typedef int16_t am_volume_t; - /** - * Project specific sound properties. - */ - /** - * Project specific sound properties. - */ - typedef uint16_t am_CustomSoundPropertyType_t; - /** - * This enum characterizes the data of the EarlyData_t - */ - enum class am_EarlyDataType_e: int32_t { - /** - * default - */ - ES_UNKNOWN = 0, - /** - * the source volume - */ - ED_SOURCE_VOLUME = 1, - /** - * the sink volume - */ - ED_SINK_VOLUME = 2, - /** - * a source property - */ - ED_SOURCE_PROPERTY = 3, - /** - * a sink property - */ - ED_SINK_PROPERTY = 4, - ED_MAX - }; - - // Definition of a comparator still is necessary for GCC 4.4.1, topic is fixed since 4.5.1 - struct am_EarlyDataType_eComparator; - /** - * struct describing the sound property - */ - /** - * struct describing the sound property - */ - struct am_SoundProperty_s: CommonAPI::SerializableStruct { - /** - * the type of the property - a project specific enum - */ - am_CustomSoundPropertyType_t type; - /** - * the actual value of the property - */ - int16_t value; - - am_SoundProperty_s() = default; - am_SoundProperty_s(const am_CustomSoundPropertyType_t& type, const int16_t& value); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeInt16Type(); - } - }; - /** - * data type depends of am_EarlyDataType_e: - volume_t in case of ED_SOURCE_VOLUME, - * ED_SINK_VOLUME - soundProperty_t in case of ED_SOURCE_PROPERTY, - * ED_SINK_PROPERTY - */ - /** - * data type depends of am_EarlyDataType_e: - volume_t in case of ED_SOURCE_VOLUME, - * ED_SINK_VOLUME - soundProperty_t in case of ED_SOURCE_PROPERTY, - * ED_SINK_PROPERTY - */ - typedef CommonAPI::Variant<am_volume_t, am_SoundProperty_s> am_EarlyData_u; - /** - * data type depends of am_EarlyDataType_e: - sourceID in case of ED_SOURCE_VOLUME, - * ED_SOURCE_PROPERTY - sinkID in case of ED_SINK_VOLUME, ED_SINK_PROPERTY - */ - /** - * data type depends of am_EarlyDataType_e: - sourceID in case of ED_SOURCE_VOLUME, - * ED_SOURCE_PROPERTY - sinkID in case of ED_SINK_VOLUME, ED_SINK_PROPERTY - */ - typedef CommonAPI::Variant<am_sinkID_t, am_sourceID_t> am_DataType_u; - struct am_EarlyData_s: CommonAPI::SerializableStruct { - am_EarlyDataType_e type; - am_DataType_u sinksource; - am_EarlyData_u data; - - am_EarlyData_s() = default; - am_EarlyData_s(const am_EarlyDataType_e& type, const am_DataType_u& sinksource, const am_EarlyData_u& data); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeInt32Type(); - typeOutputStream.writeVariantType(); - typeOutputStream.writeVariantType(); - } - }; - typedef std::vector<am_EarlyData_s> am_EarlyData_L; - /** - * Here are all SoundProperties that can be set via the CommandInterface. Product - * specific - */ - /** - * Here are all SoundProperties that can be set via the CommandInterface. Product - * specific - */ - typedef uint16_t am_CustomMainSoundPropertyType_t; - /** - * struct describung mainsound property - */ - /** - * struct describung mainsound property - */ - struct am_MainSoundProperty_s: CommonAPI::SerializableStruct { - /** - * the type of the property - */ - am_CustomMainSoundPropertyType_t type; - /** - * the actual value - */ - int16_t value; - - am_MainSoundProperty_s() = default; - am_MainSoundProperty_s(const am_CustomMainSoundPropertyType_t& type, const int16_t& value); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeInt16Type(); - } - }; - typedef std::vector<am_MainSoundProperty_s> am_MainSoundProperty_L; - /** - * gives the type of the Notification. - */ - /** - * gives the type of the Notification. - */ - typedef uint16_t am_CustomNotificationType_t; - enum class am_NotificationStatus_e: int32_t { - NS_UNKNOWN = 0, - /** - * No notification, the function is turned off - */ - NS_OFF = 1, - /** - * Periodic notifications are sent out. The period in ms is given by - * am_NotificationParameter - */ - NS_PERIODIC = 2, - /** - * The notification is sent out when the minimum given by am_NotificationParameter - * is reached. - */ - NS_MINIMUM = 3, - /** - * The notification is sent out when the maximum given by am_NotificationParameter - * is reached. - */ - NS_MAXIMUM = 4, - /** - * The notification is sent out when a change happened. The Resolution of the - * change is defined by am_NotificationParameter. - */ - NS_CHANGE_ = 5, - NS_MAX - }; - - // Definition of a comparator still is necessary for GCC 4.4.1, topic is fixed since 4.5.1 - struct am_NotificationStatus_eComparator; - /** - * This struct holds information about the configuration for notifications - */ - /** - * This struct holds information about the configuration for notifications - */ - struct am_NotificationConfiguration_s: CommonAPI::SerializableStruct { - /** - * The notification type of the notification - */ - am_CustomNotificationType_t type; - /** - * The Notification status. This can be periodic, min/max value based or even off - * for example - */ - am_NotificationStatus_e status; - /** - * This gives additional information to the notification status. - Relation - * between notification status and the value: - NS_PERIODIC - the period in - * ms - NS_MINIMUM - the minimum value that triggers the notification - NS_MAXIMUM - * - the maximum value that triggers the notifcation - NS_CHANGE - the resolution - * of the change value - */ - int16_t parameter; - - am_NotificationConfiguration_s() = default; - am_NotificationConfiguration_s(const am_CustomNotificationType_t& type, const am_NotificationStatus_e& status, const int16_t& parameter); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeInt32Type(); - typeOutputStream.writeInt16Type(); - } - }; - typedef std::vector<am_NotificationConfiguration_s> am_NotificationConfiguration_L; - /** - * a domain ID - */ - /** - * a domain ID - */ - typedef uint16_t am_domainID_t; - /** - * This project specific value classifies the format in which data is exchanged - * within a connection. - */ - /** - * This project specific value classifies the format in which data is exchanged - * within a connection. - */ - typedef uint16_t am_CustomConnectionFormat_t; - /** - * This represents one "hopp" in a route - */ - /** - * This represents one "hopp" in a route - */ - struct am_RoutingElement_s: CommonAPI::SerializableStruct { - /** - * the source ID - */ - am_sourceID_t sourceID; - /** - * the sinkID - */ - am_sinkID_t sinkID; - /** - * the domainID the routeElement is in - */ - am_domainID_t domainID; - /** - * the connectionformat that is used for the route - */ - am_CustomConnectionFormat_t connectionFormat; - - am_RoutingElement_s() = default; - am_RoutingElement_s(const am_sourceID_t& sourceID, const am_sinkID_t& sinkID, const am_domainID_t& domainID, const am_CustomConnectionFormat_t& connectionFormat); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeUInt16Type(); - } - }; - typedef std::vector<am_RoutingElement_s> am_RoutingElement_L; - typedef std::vector<am_SoundProperty_s> am_SoundProperty_L; - /** - * time in ms! - */ - /** - * time in ms! - */ - typedef int16_t am_time_t; - /** - * For products, different ramp types can be defined here. - It is in the - * responsibility of the product to make sure that the routing plugins are aware - * of the ramp types used. - */ - /** - * For products, different ramp types can be defined here. - It is in the - * responsibility of the product to make sure that the routing plugins are aware - * of the ramp types used. - */ - typedef uint16_t am_CustomRampType_t; - /** - * This datatype determines if a sourceID or a sinkID is used in the union - * following - */ - enum class am_VolumeType_e: int32_t { - VT_UNKNOWN = 0, - /** - * the following type is a sink - */ - VT_SINK = 1, - /** - * the following type is a source - */ - VT_SOURCE = 2, - VT_MAX - }; - - // Definition of a comparator still is necessary for GCC 4.4.1, topic is fixed since 4.5.1 - struct am_VolumeType_eComparator; - /** - * This types describe a mixed description for source and sinks volumes. - */ - /** - * This types describe a mixed description for source and sinks volumes. - */ - struct am_Volumes_s: CommonAPI::SerializableStruct { - /** - * describes the type of the volume: source or sink. - */ - am_VolumeType_e volumeType; - /** - * either sourceID or sinkID - */ - am_DataType_u volumeID; - /** - * The volume - */ - am_volume_t volume; - /** - * the ramp that shall be driven - */ - am_CustomRampType_t ramp; - /** - * the time for the ramp - */ - am_time_t time; - - am_Volumes_s() = default; - am_Volumes_s(const am_VolumeType_e& volumeType, const am_DataType_u& volumeID, const am_volume_t& volume, const am_CustomRampType_t& ramp, const am_time_t& time); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeInt32Type(); - typeOutputStream.writeVariantType(); - typeOutputStream.writeInt16Type(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeInt16Type(); - } - }; - typedef std::vector<am_Volumes_s> am_Volumes_L; - typedef std::vector<am_CustomConnectionFormat_t> am_ConnectionFormat_L; - typedef bool am_bool_t; - typedef std::vector<am_bool_t> am_Convertion_L; - /** - * a gateway ID - */ - /** - * a gateway ID - */ - typedef uint16_t am_gatewayID_t; - /** - * a crossfader ID - */ - /** - * a crossfader ID - */ - typedef uint16_t am_crossfaderID_t; - /** - * speed - */ - /** - * speed - */ - typedef uint16_t am_speed_t; - /** - * describes the active sink of a crossfader. - */ - enum class am_HotSink_e: int32_t { - /** - * default - */ - HS_UNKNOWN = 0, - /** - * sinkA is active - */ - HS_SINKA = 1, - /** - * sinkB is active - */ - HS_SINKB = 2, - /** - * the crossfader is in the transition state - */ - HS_INTERMEDIATE = 3, - HS_MAX - }; - - // Definition of a comparator still is necessary for GCC 4.4.1, topic is fixed since 4.5.1 - struct am_HotSink_eComparator; - enum class am_DomainState_e: int32_t { - /** - * default - */ - DS_UNKNOWN = 0, - /** - * the domain is controlled by the daemon - */ - DS_CONTROLLED = 1, - /** - * the domain is independent starting up - */ - DS_INDEPENDENT_STARTUP = 1, - /** - * the domain is independent running down - */ - DS_INDEPENDENT_RUNDOWN = 2, - DS_MAX - }; - - // Definition of a comparator still is necessary for GCC 4.4.1, topic is fixed since 4.5.1 - struct am_DomainState_eComparator; - /** - * the errors of the audiomanager. All possible errors are in here. This enum is - * used widely as return parameter. - */ - enum class am_Error_e: int32_t { - /** - * no error - positive reply - */ - E_OK = 0, - /** - * default - */ - E_UNKNOWN = 1, - /** - * value out of range - */ - E_OUT_OF_RANGE = 2, - /** - * not used - */ - E_NOT_USED = 3, - /** - * a database error occurred - */ - E_DATABASE_ERROR = 4, - /** - * the desired object already exists - */ - E_ALREADY_EXISTS = 5, - /** - * there is no change - */ - E_NO_CHANGE = 6, - /** - * the desired action is not possible - */ - E_NOT_POSSIBLE = 7, - /** - * the desired object is non existent - */ - E_NON_EXISTENT = 8, - /** - * the asynchronous action was aborted - */ - E_ABORTED = 9, - /** - * This error is returned in case a connect is issued with a connectionFormat that - * cannot be selected for the connection. This could be either due to the - * capabilities of a source or a sink or gateway compatibilities for example - */ - E_WRONG_FORMAT = 10, - E_MAX - }; - - // Definition of a comparator still is necessary for GCC 4.4.1, topic is fixed since 4.5.1 - struct am_Error_eComparator; - enum class am_InterruptState_e: int32_t { - /** - * default - */ - IS_UNKNOWN = 0, - /** - * the interrupt state is off - no interrupt - */ - IS_OFF = 1, - /** - * the interrupt state is interrupted - the interrupt is active - */ - IS_INTERRUPTED = 2, - IS_MAX - }; - - // Definition of a comparator still is necessary for GCC 4.4.1, topic is fixed since 4.5.1 - struct am_InterruptState_eComparator; - /** - * This enumeration is used to define the type of the action that is correlated to - * a handle. - */ - enum class am_Handle_e: int32_t { - H_UNKNOWN = 0, - H_CONNECT = 1, - H_DISCONNECT = 2, - H_SETSOURCESTATE = 3, - H_SETSINKVOLUME = 4, - H_SETSOURCEVOLUME = 5, - H_SETSINKSOUNDPROPERTY = 6, - H_SETSOURCESOUNDPROPERTY = 7, - H_SETSINKSOUNDPROPERTIES = 8, - H_SETSOURCESOUNDPROPERTIES = 9, - H_CROSSFADE = 10, - H_SETVOLUMES = 11, - H_SETSINKNOTIFICATION = 12, - H_SETSOURCENOTIFICATION = 13, - H_MAX - }; - - // Definition of a comparator still is necessary for GCC 4.4.1, topic is fixed since 4.5.1 - struct am_Handle_eComparator; - /** - * The source state reflects the state of the source - */ - enum class am_SourceState_e: int32_t { - SS_UNKNNOWN = 0, - /** - * The source can be activly heared - */ - SS_ON = 1, - /** - * The source cannot be heared - */ - SS_OFF = 2, - /** - * The source is paused. Meaning it cannot be heared but should be prepared to - * play again soon. - */ - SS_PAUSED = 3, - SS_MAX - }; - - // Definition of a comparator still is necessary for GCC 4.4.1, topic is fixed since 4.5.1 - struct am_SourceState_eComparator; - /** - * This enum describes the ready state of the routing part - */ - enum class am_RoutingReady_e: int32_t { - RR_UNKNOWN = 0, - RR_READY = 1, - RR_RUNDOWN = 2 - }; - - // Definition of a comparator still is necessary for GCC 4.4.1, topic is fixed since 4.5.1 - struct am_RoutingReady_eComparator; - /** - * a list of routing elements that lead from source to sink - */ - /** - * a list of routing elements that lead from source to sink - */ - struct am_Route_s: CommonAPI::SerializableStruct { - /** - * the sourceID where the route starts - */ - am_sourceID_t sourceID; - /** - * the sinkID where the route ends - */ - am_sinkID_t sinkID; - /** - * the actual route as list of routing elements - */ - am_RoutingElement_L route; - - am_Route_s() = default; - am_Route_s(const am_sourceID_t& sourceID, const am_sinkID_t& sinkID, const am_RoutingElement_L& route); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.beginWriteVectorType(); - typeOutputStream.beginWriteStructType(); - typeOutputStream.writeUInt16Type();typeOutputStream.writeUInt16Type();typeOutputStream.writeUInt16Type();typeOutputStream.writeUInt16Type(); - typeOutputStream.endWriteStructType(); - typeOutputStream.endWriteVectorType(); - } - }; - /** - * This struct describes the attribiutes of a crossfader. - */ - /** - * This struct describes the attribiutes of a crossfader. - */ - struct am_Crossfader_s: CommonAPI::SerializableStruct { - /** - * This is the ID of the crossfader, it is unique in the system. There are 2 ways, - * ID can be created: either it is assigned during the registration process (in a - * dynamic context, uniqueness will be ensured by the AudioManager daemon), or it - * is a fixed (the project has to ensure the uniqueness of the ID). - */ - am_crossfaderID_t crossfaderID; - /** - * The name of the crossfader. Must be unique in the whole system. - */ - std::string name; - /** - * The sinkID of the SinkA. Sinks shall be registered before registering the - * crossfader. - */ - am_sinkID_t sinkID_A; - /** - * The sinkID of the SinkB. Sinks shall be registered before registering the - * crossfader. - */ - am_sinkID_t sinkID_B; - /** - * The sourceID of the crossfader source. The source shall be registered before - * the crossfader. - */ - am_sourceID_t sourceID; - /** - * This enum can have 3 states: - - HS_SINKA sinkA is the current hot one, - * sinkB is not audible - HS_SINKB sinkB is the current hot one, sinkB is not - * audible - HS_INTERMEDIATE the fader is stuck in between a cross-fading - * action. This could be due to an abort or an error. Before using the - * crossfader, it must be set to either HS_SINKA or HS_SINKB. - */ - am_HotSink_e hotSink; - - am_Crossfader_s() = default; - am_Crossfader_s(const am_crossfaderID_t& crossfaderID, const std::string& name, const am_sinkID_t& sinkID_A, const am_sinkID_t& sinkID_B, const am_sourceID_t& sourceID, const am_HotSink_e& hotSink); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeStringType(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeInt32Type(); - } - }; - /** - * This struct describes the attributes of a gateway. - */ - /** - * This struct describes the attributes of a gateway. - */ - struct am_Gateway_s: CommonAPI::SerializableStruct { - /** - * This is the ID of the gateway, it is unique in the system. There are 2 ways, ID - * can be created: either it is assigned during the registration process (in a - * dynamic context, uniqueness will be ensured by the AudioManagerDaemon), or it - * is a fixed (the project has to ensure the uniqueness of the ID). - */ - am_gatewayID_t gatewayID; - /** - * The name of the gateway. Must be unique in the whole system. - */ - std::string name; - /** - * The sinkID of the gateway sink-end. The sink is a full blown sink with - * connectionFormats, sinkClassIDs etc... It makes sense to register the sinks of - * a gateway as non-visible. Care needs to be taken that the connectionsFormats - * match with the ones in the conversionMatrix. If the sink is located in the - * controllingDomain, the ID needs to be retrieved by registering the sink before - * registering the gateway. In case the sink is in a different domain, the ID - * needs to be retrieved via peeking. - */ - am_sinkID_t sinkID; - /** - * The sourceID of the gateway sink-end. The sink is a full blown source with - * connectionFormats, sinkClassIDs etc... It makes sense to register the sources - * of a gateway as non-visible. Care needs to be taken that the - * connectionsFormats match with the ones in the conversionMatrix. If the source - * is located in the controllingDomain, the ID needs to be retrieved by - * registering the source before registering the gateway. In case the source is - * in a different domain, the ID needs to be retrieved via peeking. - */ - am_sourceID_t sourceID; - /** - * The ID of the sink. If the domain is the same like the controlling domain, the - * ID is known due to registration. If the domain is different, the ID needs to - * be retrieved via peeking. - */ - am_domainID_t domainSinkID; - /** - * The ID of the source. If the domain is the same like the controlling domain, - * the ID is known due to registration. If the domain is different, the ID needs - * to be retrieved via peeking. - */ - am_domainID_t domainSourceID; - /** - * This is the ID of the domain that registers the gateway. - */ - am_domainID_t controlDomainID; - /** - * This is the list of available formats on the source side of the gateway. It is - * not defined during the gateway registration but copied from the source - * registration. - */ - am_ConnectionFormat_L listSourceFormats; - /** - * This is the list of available formats on the sink side of the gateway. It is - * not defined during the gateway registration but copied from the sink - * registration. - */ - am_ConnectionFormat_L listSinkFormats; - /** - * This is matrix holding information about the conversion capability of the - * gateway, it's length is defined by the length(listSinkFormats) x - * length(listSourceFormats). - If a SinkFormat can be converted into a - * SourceFormat, the vector will hold a 1, if no conversion is possible, a - * 0. - The data is stored row orientated, where the rows are related to the - * sinksFormats and the columns to the sourceFormats. The first value will hold - * the conversion information from the first sourceFormat to the first sinkFormat - * for example and the seventh value the information about the 3rd sinkFormat to - * the 1st sourceFormat in case we would have 3 sourceFormats. - */ - am_Convertion_L convertionMatrix; - - am_Gateway_s() = default; - am_Gateway_s(const am_gatewayID_t& gatewayID, const std::string& name, const am_sinkID_t& sinkID, const am_sourceID_t& sourceID, const am_domainID_t& domainSinkID, const am_domainID_t& domainSourceID, const am_domainID_t& controlDomainID, const am_ConnectionFormat_L& listSourceFormats, const am_ConnectionFormat_L& listSinkFormats, const am_Convertion_L& convertionMatrix); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeStringType(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.beginWriteVectorType(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.endWriteVectorType(); - typeOutputStream.beginWriteVectorType(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.endWriteVectorType(); - typeOutputStream.beginWriteVectorType(); - typeOutputStream.writeBoolType(); - typeOutputStream.endWriteVectorType(); - } - }; - /** - * a handle is used for asynchronous operations and is uniquely assigned for each - * of this operations - */ - /** - * a handle is used for asynchronous operations and is uniquely assigned for each - * of this operations - */ - struct am_Handle_s: CommonAPI::SerializableStruct { - /** - * the handletype - */ - am_Handle_e handleType; - /** - * the handle as value - */ - uint16_t handle; - - am_Handle_s() = default; - am_Handle_s(const am_Handle_e& handleType, const uint16_t& handle); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeInt32Type(); - typeOutputStream.writeUInt16Type(); - } - }; - /** - * struct that holds attribiutes of a mainconnection - */ - /** - * struct that holds attribiutes of a mainconnection - */ - struct am_MainConnection_s: CommonAPI::SerializableStruct { - /** - * the assigned ID - */ - am_mainConnectionID_t mainConnectionID; - /** - * the current connection state - */ - am_ConnectionState_e connectionState; - /** - * the sinkID - */ - am_sinkID_t sinkID; - /** - * the sourceID - */ - am_sourceID_t sourceID; - /** - * the delay of the connection - */ - am_timeSync_t delay; - /** - * the list of sub connection IDs the mainconnection consists of - */ - am_ConnectionID_L listConnectionID; - - am_MainConnection_s() = default; - am_MainConnection_s(const am_mainConnectionID_t& mainConnectionID, const am_ConnectionState_e& connectionState, const am_sinkID_t& sinkID, const am_sourceID_t& sourceID, const am_timeSync_t& delay, const am_ConnectionID_L& listConnectionID); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeInt32Type(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeInt16Type(); - typeOutputStream.beginWriteVectorType(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.endWriteVectorType(); - } - }; - /** - * This struct holds the payload of a notification. - */ - /** - * This struct holds the payload of a notification. - */ - struct am_NotificationPayload_s: CommonAPI::SerializableStruct { - /** - * This defines the notification type - */ - am_CustomNotificationType_t type; - /** - * This is finally the value of the notification. It's meaning depends on the - * notificationType - */ - int16_t value; - - am_NotificationPayload_s() = default; - am_NotificationPayload_s(const am_CustomNotificationType_t& type, const int16_t& value); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeInt16Type(); - } - }; - /** - * This struct describes the attribiutes of a sink - */ - /** - * This struct describes the attribiutes of a sink - */ - struct am_Sink_s: CommonAPI::SerializableStruct { - /** - * This is the ID of the sink, it is unique in the system. There are 2 ways, ID - * can be created: either it is assigned during the registration process (in a - * dynamic context, uniqueness will be ensured by the AudioManagerDaemon), or it - * is a fixed (the project has to ensure the uniqueness of the ID). - */ - am_sinkID_t sinkID; - /** - * The name of the sink. Must be unique in the whole system. - */ - std::string name; - /** - * The domainID is the domain the sink belongs to. A sink can only be in one - * domain. - */ - am_domainID_t domainID; - /** - * The sinkClassID references to a sinkClass. With the help of classification, - * rules can be setup to define the system behaviour. - */ - am_sinkClass_t sinkClassID; - /** - * This is the volume of the sink. It is set by the AudioManagerController. - */ - am_volume_t volume; - /** - * This Boolean flag indicates whether a sink is visible to the commandInterface - * or not. If the User must have the possibility to choose the source in the HMI, - * it must be visible. But there are also good reasons for invisible sinks, for - * example if the sink is part of a crossfader or gateway. HMI relevant changes - * in visible sinks will be automatically reported by the daemon to the - * commandInterface. - */ - bool visible; - /** - * This attribute reflects the availability of the sink. There are several reasons - * why a sink could be not available for the moment: for example the shutdown of - * a sink because of overtemperature or over- & undervoltage. The - * availability consists of two pieces of information: - - Availablility: the - * status itself, can be A_AVAILABLE, A_UNAVAILABLE or A_UNKNOWN - - * AvailabilityReason: this informs about the last reason for a change in - * availability. The reasons itself are product specific. - */ - am_Availability_s available; - /** - * This attribute reflects the muteState of the sink. The information is not the - * "real" state of the sink, but the HMI representation for he commandInterface - * controlled by the AudioManagerController. - */ - am_MuteState_e muteState; - /** - * This is the representation of the Volume for the commandInterface. It is used - * by the HMI to set the volume of a sink, the AudioManagerController has to - * transform this into real source and sink volumes. - */ - am_mainVolume_t mainVolume; - /** - * This is the list of soundProperties, that the sink is capable of. The - * soundProperties itself are project specific. For sinks, a possible - * soundProperty could be for example settings. - */ - am_SoundProperty_L listSoundProperties; - /** - * This list holds information about the formats that the Source is capable of - * supporting when delivering audio. - */ - am_ConnectionFormat_L listConnectionFormats; - /** - * This is the list of the available mainSoundProperties. The principle is the - * same than with soundProperties, but they are only visible to the - * CommandInterface. - */ - am_MainSoundProperty_L listMainSoundProperties; - /** - * This is the list of the MainNotificationConfigurations. These notifications - * work on the level of command interface. - */ - am_NotificationConfiguration_L listMainNotificationConfigurations; - /** - * This is the list of the NotificationConfigurations. These notifications work on - * the level of RoutingPlugins. - */ - am_NotificationConfiguration_L listNotificationConfigurations; - - am_Sink_s() = default; - am_Sink_s(const am_sinkID_t& sinkID, const std::string& name, const am_domainID_t& domainID, const am_sinkClass_t& sinkClassID, const am_volume_t& volume, const bool& visible, const am_Availability_s& available, const am_MuteState_e& muteState, const am_mainVolume_t& mainVolume, const am_SoundProperty_L& listSoundProperties, const am_ConnectionFormat_L& listConnectionFormats, const am_MainSoundProperty_L& listMainSoundProperties, const am_NotificationConfiguration_L& listMainNotificationConfigurations, const am_NotificationConfiguration_L& listNotificationConfigurations); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeStringType(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeInt16Type(); - typeOutputStream.writeBoolType(); - typeOutputStream.beginWriteStructType(); - typeOutputStream.writeInt32Type();typeOutputStream.writeUInt16Type(); - typeOutputStream.endWriteStructType(); - typeOutputStream.writeInt32Type(); - typeOutputStream.writeInt16Type(); - typeOutputStream.beginWriteVectorType(); - typeOutputStream.beginWriteStructType(); - typeOutputStream.writeUInt16Type();typeOutputStream.writeInt16Type(); - typeOutputStream.endWriteStructType(); - typeOutputStream.endWriteVectorType(); - typeOutputStream.beginWriteVectorType(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.endWriteVectorType(); - typeOutputStream.beginWriteVectorType(); - typeOutputStream.beginWriteStructType(); - typeOutputStream.writeUInt16Type();typeOutputStream.writeInt16Type(); - typeOutputStream.endWriteStructType(); - typeOutputStream.endWriteVectorType(); - typeOutputStream.beginWriteVectorType(); - typeOutputStream.beginWriteStructType(); - typeOutputStream.writeUInt16Type();typeOutputStream.writeInt32Type();typeOutputStream.writeInt16Type(); - typeOutputStream.endWriteStructType(); - typeOutputStream.endWriteVectorType(); - typeOutputStream.beginWriteVectorType(); - typeOutputStream.beginWriteStructType(); - typeOutputStream.writeUInt16Type();typeOutputStream.writeInt32Type();typeOutputStream.writeInt16Type(); - typeOutputStream.endWriteStructType(); - typeOutputStream.endWriteVectorType(); - } - }; - /** - * This struct describes the attribiutes of a source - */ - /** - * This struct describes the attribiutes of a source - */ - struct am_Source_s: CommonAPI::SerializableStruct { - /** - * This is the ID of the source, it is unique in the system. There are 2 ways, ID - * can be created: either it is assigned during the registration process (in a - * dynamic context, uniqueness will be ensured by the AudioManagerDaemon), or it - * is a fixed (the project has to ensure the uniqueness of the ID). - */ - am_sourceID_t sourceID; - /** - * The domainID is the domain the source belongs to. A source can only be in one - * domain. - */ - am_domainID_t domainID; - /** - * The name of the source. Must be unique in the whole system. - */ - std::string name; - /** - * the sourceClassID, indicates the class the source is in. This information can - * be used by the Controller to implement different behaviour for different - * classes. - */ - am_sourceClass_t sourceClassID; - /** - * The source state is an indication towards the source if it is actively heard or - * not. The source can use this information to implement features like automatic - * spin down of CD's in case the CD is not the active source or AF following of a - * tuner that is not actively heard. The source state is set by the - * AudioManagerController.There are 3 possible states: - - SS_ON: the source - * is active - SS_OFF: the source is off - SS_PAUSED: the source is paused - * and not active. - */ - am_SourceState_e sourceState; - /** - * This is the volume of the source. It is set by the AudioManagerController. It - * is used to adopt different audiolevels in a system and mixing of sources (e.g. - * navigation hints & music). - */ - am_volume_t volume; - /** - * This Boolean flag indicates whether a source is visible to the commandInterface - * or not. If the User must have the possibility to choose the source in the HMI, - * it must be visible. But there are also good reasons for invisible sources, for - * example if the source is part of a crossfader or gateway. HMI relevant changes - * in visible sources will be automatically reported by the daemon to the - * commandInterface. - */ - bool visible; - /** - * This attribute reflects the availability of the source. There are several - * reasons why a source could be not available for the moment. For example a CD - * player which has no CD entered in the slot can be unavailable, or a USB player - * with no or unreadable stick attached. Other scenarios involve the shutdown of - * a source because of overtemperature or over- & undervoltage. The - * availability consists of two informations: - - Availablility: the status - * itself, can be A_AVAILABLE, A_UNAVAILABLE or A_UNKNOWN - - * AvailabilityReason: this informs about the last reason for a change in - * availability. The reasons itself are product specific. - */ - am_Availability_s available; - /** - * Some special sources can have special behaviors, the are so called "Low Level - * Interrupts". Here the current status is documented. The information can be - * used by the AudioManagerController to react to the changes by for example - * lowering the volume of the mainSources. The two states are - - IS_OFF: the - * interrupt is not active at the moment - IS_INTERRUPTED: the interrupt is - * playing at the moment. - */ - am_InterruptState_e interruptState; - /** - * This is the list of soundProperties, that the source is capable of. The - * soundProperties itself are project specific. For sources, a possible - * soundProperty could be navigation volume offset, for example. - */ - am_SoundProperty_L listSoundProperties; - /** - * This list holds information about the formats that the Source is capable of - * supporting when delivering audio. - */ - am_ConnectionFormat_L listConnectionFormats; - /** - * This is the list of the available mainSoundProperties. The principle is the - * same than with soundProperties, but they are only visible to the - * CommandInterface. - */ - am_MainSoundProperty_L listMainSoundProperties; - /** - * The list of MainNotificationConfigurations. These notifications work on the - * level of CommandInterface. - */ - am_NotificationConfiguration_L listMainNotificationConfigurations; - /** - * The list of MainNotificationConfigurations. These notifications work on the - * level of RoutingInterface. - */ - am_NotificationConfiguration_L listNotificationConfigurations; - - am_Source_s() = default; - am_Source_s(const am_sourceID_t& sourceID, const am_domainID_t& domainID, const std::string& name, const am_sourceClass_t& sourceClassID, const am_SourceState_e& sourceState, const am_volume_t& volume, const bool& visible, const am_Availability_s& available, const am_InterruptState_e& interruptState, const am_SoundProperty_L& listSoundProperties, const am_ConnectionFormat_L& listConnectionFormats, const am_MainSoundProperty_L& listMainSoundProperties, const am_NotificationConfiguration_L& listMainNotificationConfigurations, const am_NotificationConfiguration_L& listNotificationConfigurations); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeStringType(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeInt32Type(); - typeOutputStream.writeInt16Type(); - typeOutputStream.writeBoolType(); - typeOutputStream.beginWriteStructType(); - typeOutputStream.writeInt32Type();typeOutputStream.writeUInt16Type(); - typeOutputStream.endWriteStructType(); - typeOutputStream.writeInt32Type(); - typeOutputStream.beginWriteVectorType(); - typeOutputStream.beginWriteStructType(); - typeOutputStream.writeUInt16Type();typeOutputStream.writeInt16Type(); - typeOutputStream.endWriteStructType(); - typeOutputStream.endWriteVectorType(); - typeOutputStream.beginWriteVectorType(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.endWriteVectorType(); - typeOutputStream.beginWriteVectorType(); - typeOutputStream.beginWriteStructType(); - typeOutputStream.writeUInt16Type();typeOutputStream.writeInt16Type(); - typeOutputStream.endWriteStructType(); - typeOutputStream.endWriteVectorType(); - typeOutputStream.beginWriteVectorType(); - typeOutputStream.beginWriteStructType(); - typeOutputStream.writeUInt16Type();typeOutputStream.writeInt32Type();typeOutputStream.writeInt16Type(); - typeOutputStream.endWriteStructType(); - typeOutputStream.endWriteVectorType(); - typeOutputStream.beginWriteVectorType(); - typeOutputStream.beginWriteStructType(); - typeOutputStream.writeUInt16Type();typeOutputStream.writeInt32Type();typeOutputStream.writeInt16Type(); - typeOutputStream.endWriteStructType(); - typeOutputStream.endWriteVectorType(); - } - }; - /** - * This struct describes the attribiutes of a domain - */ - /** - * This struct describes the attribiutes of a domain - */ - struct am_Domain_s: CommonAPI::SerializableStruct { - /** - * the domain ID - */ - am_domainID_t domainID; - /** - * the name of the domain - */ - std::string name; - /** - * the busname. This is equal to a plugin name and is used to dispatch messages to - * the elements of a plugin - */ - std::string busname; - /** - * the name of the node - */ - std::string nodename; - /** - * indicated if the domain is independent at startup or not - */ - bool early; - /** - * indicates if the domain registration is complete or not - */ - bool complete; - /** - * the current domain state - */ - am_DomainState_e state; - - am_Domain_s() = default; - am_Domain_s(const am_domainID_t& domainID, const std::string& name, const std::string& busname, const std::string& nodename, const bool& early, const bool& complete, const am_DomainState_e& state); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeStringType(); - typeOutputStream.writeStringType(); - typeOutputStream.writeStringType(); - typeOutputStream.writeBoolType(); - typeOutputStream.writeBoolType(); - typeOutputStream.writeInt32Type(); - } - }; - /** - * a connection - */ - /** - * a connection - */ - struct am_Connection_s: CommonAPI::SerializableStruct { - /** - * the assigned ID - */ - am_connectionID_t connectionID; - /** - * the source the audio flows from - */ - am_sourceID_t sourceID; - /** - * the sink the audio flows to - */ - am_sinkID_t sinkID; - /** - * the delay of the conneciton - */ - am_timeSync_t delay; - /** - * the used connectionformat - */ - am_CustomConnectionFormat_t connectionFormat; - - am_Connection_s() = default; - am_Connection_s(const am_connectionID_t& connectionID, const am_sourceID_t& sourceID, const am_sinkID_t& sinkID, const am_timeSync_t& delay, const am_CustomConnectionFormat_t& connectionFormat); - - - virtual void readFromInputStream(CommonAPI::InputStream& inputStream); - virtual void writeToOutputStream(CommonAPI::OutputStream& outputStream) const; - - static inline void writeToTypeOutputStream(CommonAPI::TypeOutputStream& typeOutputStream) { - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeUInt16Type(); - typeOutputStream.writeInt16Type(); - typeOutputStream.writeUInt16Type(); - } - }; - -inline CommonAPI::InputStream& operator>>(CommonAPI::InputStream& inputStream, am_Availability_e& enumValue) { - return inputStream.readEnumValue<int32_t>(enumValue); -} - -inline CommonAPI::OutputStream& operator<<(CommonAPI::OutputStream& outputStream, const am_Availability_e& enumValue) { - return outputStream.writeEnumValue(static_cast<int32_t>(enumValue)); -} - -struct am_Availability_eComparator { - inline bool operator()(const am_Availability_e& lhs, const am_Availability_e& rhs) const { - return static_cast<int32_t>(lhs) < static_cast<int32_t>(rhs); - } -}; - -inline CommonAPI::InputStream& operator>>(CommonAPI::InputStream& inputStream, am_HotSink_e& enumValue) { - return inputStream.readEnumValue<int32_t>(enumValue); -} - -inline CommonAPI::OutputStream& operator<<(CommonAPI::OutputStream& outputStream, const am_HotSink_e& enumValue) { - return outputStream.writeEnumValue(static_cast<int32_t>(enumValue)); -} - -struct am_HotSink_eComparator { - inline bool operator()(const am_HotSink_e& lhs, const am_HotSink_e& rhs) const { - return static_cast<int32_t>(lhs) < static_cast<int32_t>(rhs); - } -}; - -inline CommonAPI::InputStream& operator>>(CommonAPI::InputStream& inputStream, am_ConnectionState_e& enumValue) { - return inputStream.readEnumValue<int32_t>(enumValue); -} - -inline CommonAPI::OutputStream& operator<<(CommonAPI::OutputStream& outputStream, const am_ConnectionState_e& enumValue) { - return outputStream.writeEnumValue(static_cast<int32_t>(enumValue)); -} - -struct am_ConnectionState_eComparator { - inline bool operator()(const am_ConnectionState_e& lhs, const am_ConnectionState_e& rhs) const { - return static_cast<int32_t>(lhs) < static_cast<int32_t>(rhs); - } -}; - -inline CommonAPI::InputStream& operator>>(CommonAPI::InputStream& inputStream, am_DomainState_e& enumValue) { - return inputStream.readEnumValue<int32_t>(enumValue); -} - -inline CommonAPI::OutputStream& operator<<(CommonAPI::OutputStream& outputStream, const am_DomainState_e& enumValue) { - return outputStream.writeEnumValue(static_cast<int32_t>(enumValue)); -} - -struct am_DomainState_eComparator { - inline bool operator()(const am_DomainState_e& lhs, const am_DomainState_e& rhs) const { - return static_cast<int32_t>(lhs) < static_cast<int32_t>(rhs); - } -}; - -inline CommonAPI::InputStream& operator>>(CommonAPI::InputStream& inputStream, am_EarlyDataType_e& enumValue) { - return inputStream.readEnumValue<int32_t>(enumValue); -} - -inline CommonAPI::OutputStream& operator<<(CommonAPI::OutputStream& outputStream, const am_EarlyDataType_e& enumValue) { - return outputStream.writeEnumValue(static_cast<int32_t>(enumValue)); -} - -struct am_EarlyDataType_eComparator { - inline bool operator()(const am_EarlyDataType_e& lhs, const am_EarlyDataType_e& rhs) const { - return static_cast<int32_t>(lhs) < static_cast<int32_t>(rhs); - } -}; - -inline CommonAPI::InputStream& operator>>(CommonAPI::InputStream& inputStream, am_Error_e& enumValue) { - return inputStream.readEnumValue<int32_t>(enumValue); -} - -inline CommonAPI::OutputStream& operator<<(CommonAPI::OutputStream& outputStream, const am_Error_e& enumValue) { - return outputStream.writeEnumValue(static_cast<int32_t>(enumValue)); -} - -struct am_Error_eComparator { - inline bool operator()(const am_Error_e& lhs, const am_Error_e& rhs) const { - return static_cast<int32_t>(lhs) < static_cast<int32_t>(rhs); - } -}; - -inline CommonAPI::InputStream& operator>>(CommonAPI::InputStream& inputStream, am_MuteState_e& enumValue) { - return inputStream.readEnumValue<int32_t>(enumValue); -} - -inline CommonAPI::OutputStream& operator<<(CommonAPI::OutputStream& outputStream, const am_MuteState_e& enumValue) { - return outputStream.writeEnumValue(static_cast<int32_t>(enumValue)); -} - -struct am_MuteState_eComparator { - inline bool operator()(const am_MuteState_e& lhs, const am_MuteState_e& rhs) const { - return static_cast<int32_t>(lhs) < static_cast<int32_t>(rhs); - } -}; - -inline CommonAPI::InputStream& operator>>(CommonAPI::InputStream& inputStream, am_InterruptState_e& enumValue) { - return inputStream.readEnumValue<int32_t>(enumValue); -} - -inline CommonAPI::OutputStream& operator<<(CommonAPI::OutputStream& outputStream, const am_InterruptState_e& enumValue) { - return outputStream.writeEnumValue(static_cast<int32_t>(enumValue)); -} - -struct am_InterruptState_eComparator { - inline bool operator()(const am_InterruptState_e& lhs, const am_InterruptState_e& rhs) const { - return static_cast<int32_t>(lhs) < static_cast<int32_t>(rhs); - } -}; - -inline CommonAPI::InputStream& operator>>(CommonAPI::InputStream& inputStream, am_VolumeType_e& enumValue) { - return inputStream.readEnumValue<int32_t>(enumValue); -} - -inline CommonAPI::OutputStream& operator<<(CommonAPI::OutputStream& outputStream, const am_VolumeType_e& enumValue) { - return outputStream.writeEnumValue(static_cast<int32_t>(enumValue)); -} - -struct am_VolumeType_eComparator { - inline bool operator()(const am_VolumeType_e& lhs, const am_VolumeType_e& rhs) const { - return static_cast<int32_t>(lhs) < static_cast<int32_t>(rhs); - } -}; - -inline CommonAPI::InputStream& operator>>(CommonAPI::InputStream& inputStream, am_NotificationStatus_e& enumValue) { - return inputStream.readEnumValue<int32_t>(enumValue); -} - -inline CommonAPI::OutputStream& operator<<(CommonAPI::OutputStream& outputStream, const am_NotificationStatus_e& enumValue) { - return outputStream.writeEnumValue(static_cast<int32_t>(enumValue)); -} - -struct am_NotificationStatus_eComparator { - inline bool operator()(const am_NotificationStatus_e& lhs, const am_NotificationStatus_e& rhs) const { - return static_cast<int32_t>(lhs) < static_cast<int32_t>(rhs); - } -}; - -inline CommonAPI::InputStream& operator>>(CommonAPI::InputStream& inputStream, am_Handle_e& enumValue) { - return inputStream.readEnumValue<int32_t>(enumValue); -} - -inline CommonAPI::OutputStream& operator<<(CommonAPI::OutputStream& outputStream, const am_Handle_e& enumValue) { - return outputStream.writeEnumValue(static_cast<int32_t>(enumValue)); -} - -struct am_Handle_eComparator { - inline bool operator()(const am_Handle_e& lhs, const am_Handle_e& rhs) const { - return static_cast<int32_t>(lhs) < static_cast<int32_t>(rhs); - } -}; - -inline CommonAPI::InputStream& operator>>(CommonAPI::InputStream& inputStream, am_SourceState_e& enumValue) { - return inputStream.readEnumValue<int32_t>(enumValue); -} - -inline CommonAPI::OutputStream& operator<<(CommonAPI::OutputStream& outputStream, const am_SourceState_e& enumValue) { - return outputStream.writeEnumValue(static_cast<int32_t>(enumValue)); -} - -struct am_SourceState_eComparator { - inline bool operator()(const am_SourceState_e& lhs, const am_SourceState_e& rhs) const { - return static_cast<int32_t>(lhs) < static_cast<int32_t>(rhs); - } -}; - -inline CommonAPI::InputStream& operator>>(CommonAPI::InputStream& inputStream, am_RoutingReady_e& enumValue) { - return inputStream.readEnumValue<int32_t>(enumValue); -} - -inline CommonAPI::OutputStream& operator<<(CommonAPI::OutputStream& outputStream, const am_RoutingReady_e& enumValue) { - return outputStream.writeEnumValue(static_cast<int32_t>(enumValue)); -} - -struct am_RoutingReady_eComparator { - inline bool operator()(const am_RoutingReady_e& lhs, const am_RoutingReady_e& rhs) const { - return static_cast<int32_t>(lhs) < static_cast<int32_t>(rhs); - } -}; - -bool operator==(const am_Route_s& lhs, const am_Route_s& rhs); -inline bool operator!=(const am_Route_s& lhs, const am_Route_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_Availability_s& lhs, const am_Availability_s& rhs); -inline bool operator!=(const am_Availability_s& lhs, const am_Availability_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_ClassProperty_s& lhs, const am_ClassProperty_s& rhs); -inline bool operator!=(const am_ClassProperty_s& lhs, const am_ClassProperty_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_Crossfader_s& lhs, const am_Crossfader_s& rhs); -inline bool operator!=(const am_Crossfader_s& lhs, const am_Crossfader_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_Gateway_s& lhs, const am_Gateway_s& rhs); -inline bool operator!=(const am_Gateway_s& lhs, const am_Gateway_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_RoutingElement_s& lhs, const am_RoutingElement_s& rhs); -inline bool operator!=(const am_RoutingElement_s& lhs, const am_RoutingElement_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_SoundProperty_s& lhs, const am_SoundProperty_s& rhs); -inline bool operator!=(const am_SoundProperty_s& lhs, const am_SoundProperty_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_SystemProperty_s& lhs, const am_SystemProperty_s& rhs); -inline bool operator!=(const am_SystemProperty_s& lhs, const am_SystemProperty_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_SinkClass_s& lhs, const am_SinkClass_s& rhs); -inline bool operator!=(const am_SinkClass_s& lhs, const am_SinkClass_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_SourceClass_s& lhs, const am_SourceClass_s& rhs); -inline bool operator!=(const am_SourceClass_s& lhs, const am_SourceClass_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_SourceType_s& lhs, const am_SourceType_s& rhs); -inline bool operator!=(const am_SourceType_s& lhs, const am_SourceType_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_SinkType_s& lhs, const am_SinkType_s& rhs); -inline bool operator!=(const am_SinkType_s& lhs, const am_SinkType_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_Handle_s& lhs, const am_Handle_s& rhs); -inline bool operator!=(const am_Handle_s& lhs, const am_Handle_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_MainSoundProperty_s& lhs, const am_MainSoundProperty_s& rhs); -inline bool operator!=(const am_MainSoundProperty_s& lhs, const am_MainSoundProperty_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_MainConnectionType_s& lhs, const am_MainConnectionType_s& rhs); -inline bool operator!=(const am_MainConnectionType_s& lhs, const am_MainConnectionType_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_MainConnection_s& lhs, const am_MainConnection_s& rhs); -inline bool operator!=(const am_MainConnection_s& lhs, const am_MainConnection_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_NotificationPayload_s& lhs, const am_NotificationPayload_s& rhs); -inline bool operator!=(const am_NotificationPayload_s& lhs, const am_NotificationPayload_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_NotificationConfiguration_s& lhs, const am_NotificationConfiguration_s& rhs); -inline bool operator!=(const am_NotificationConfiguration_s& lhs, const am_NotificationConfiguration_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_Sink_s& lhs, const am_Sink_s& rhs); -inline bool operator!=(const am_Sink_s& lhs, const am_Sink_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_Source_s& lhs, const am_Source_s& rhs); -inline bool operator!=(const am_Source_s& lhs, const am_Source_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_Domain_s& lhs, const am_Domain_s& rhs); -inline bool operator!=(const am_Domain_s& lhs, const am_Domain_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_EarlyData_s& lhs, const am_EarlyData_s& rhs); -inline bool operator!=(const am_EarlyData_s& lhs, const am_EarlyData_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_Connection_s& lhs, const am_Connection_s& rhs); -inline bool operator!=(const am_Connection_s& lhs, const am_Connection_s& rhs) { - return !(lhs == rhs); -} -bool operator==(const am_Volumes_s& lhs, const am_Volumes_s& rhs); -inline bool operator!=(const am_Volumes_s& lhs, const am_Volumes_s& rhs) { - return !(lhs == rhs); -} - - -static inline const char* getTypeCollectionName() { - static const char* typeCollectionName = "org.genivi.am"; - return typeCollectionName; -} - -inline CommonAPI::Version getTypeCollectionVersion() { - return CommonAPI::Version(1, 0); -} - -} // namespace am - -} // namespace genivi -} // namespace org - -namespace CommonAPI { - - template<> - struct BasicTypeWriter<org::genivi::am::am_Availability_e> { - inline static void writeType (CommonAPI::TypeOutputStream& typeStream) { - typeStream.writeInt32EnumType(); - } - }; - - template<> - struct InputStreamVectorHelper<org::genivi::am::am_Availability_e> { - static void beginReadVector(InputStream& inputStream, const std::vector<org::genivi::am::am_Availability_e>& vectorValue) { - (void)vectorValue; - inputStream.beginReadInt32EnumVector(); - } - }; - - template <> - struct OutputStreamVectorHelper<org::genivi::am::am_Availability_e> { - static void beginWriteVector(OutputStream& outputStream, const std::vector<org::genivi::am::am_Availability_e>& vectorValue) { - outputStream.beginWriteInt32EnumVector(vectorValue.size()); - } - }; - template<> - struct BasicTypeWriter<org::genivi::am::am_HotSink_e> { - inline static void writeType (CommonAPI::TypeOutputStream& typeStream) { - typeStream.writeInt32EnumType(); - } - }; - - template<> - struct InputStreamVectorHelper<org::genivi::am::am_HotSink_e> { - static void beginReadVector(InputStream& inputStream, const std::vector<org::genivi::am::am_HotSink_e>& vectorValue) { - (void)vectorValue; - inputStream.beginReadInt32EnumVector(); - } - }; - - template <> - struct OutputStreamVectorHelper<org::genivi::am::am_HotSink_e> { - static void beginWriteVector(OutputStream& outputStream, const std::vector<org::genivi::am::am_HotSink_e>& vectorValue) { - outputStream.beginWriteInt32EnumVector(vectorValue.size()); - } - }; - template<> - struct BasicTypeWriter<org::genivi::am::am_ConnectionState_e> { - inline static void writeType (CommonAPI::TypeOutputStream& typeStream) { - typeStream.writeInt32EnumType(); - } - }; - - template<> - struct InputStreamVectorHelper<org::genivi::am::am_ConnectionState_e> { - static void beginReadVector(InputStream& inputStream, const std::vector<org::genivi::am::am_ConnectionState_e>& vectorValue) { - (void)vectorValue; - inputStream.beginReadInt32EnumVector(); - } - }; - - template <> - struct OutputStreamVectorHelper<org::genivi::am::am_ConnectionState_e> { - static void beginWriteVector(OutputStream& outputStream, const std::vector<org::genivi::am::am_ConnectionState_e>& vectorValue) { - outputStream.beginWriteInt32EnumVector(vectorValue.size()); - } - }; - template<> - struct BasicTypeWriter<org::genivi::am::am_DomainState_e> { - inline static void writeType (CommonAPI::TypeOutputStream& typeStream) { - typeStream.writeInt32EnumType(); - } - }; - - template<> - struct InputStreamVectorHelper<org::genivi::am::am_DomainState_e> { - static void beginReadVector(InputStream& inputStream, const std::vector<org::genivi::am::am_DomainState_e>& vectorValue) { - (void)vectorValue; - inputStream.beginReadInt32EnumVector(); - } - }; - - template <> - struct OutputStreamVectorHelper<org::genivi::am::am_DomainState_e> { - static void beginWriteVector(OutputStream& outputStream, const std::vector<org::genivi::am::am_DomainState_e>& vectorValue) { - outputStream.beginWriteInt32EnumVector(vectorValue.size()); - } - }; - template<> - struct BasicTypeWriter<org::genivi::am::am_EarlyDataType_e> { - inline static void writeType (CommonAPI::TypeOutputStream& typeStream) { - typeStream.writeInt32EnumType(); - } - }; - - template<> - struct InputStreamVectorHelper<org::genivi::am::am_EarlyDataType_e> { - static void beginReadVector(InputStream& inputStream, const std::vector<org::genivi::am::am_EarlyDataType_e>& vectorValue) { - (void)vectorValue; - inputStream.beginReadInt32EnumVector(); - } - }; - - template <> - struct OutputStreamVectorHelper<org::genivi::am::am_EarlyDataType_e> { - static void beginWriteVector(OutputStream& outputStream, const std::vector<org::genivi::am::am_EarlyDataType_e>& vectorValue) { - outputStream.beginWriteInt32EnumVector(vectorValue.size()); - } - }; - template<> - struct BasicTypeWriter<org::genivi::am::am_Error_e> { - inline static void writeType (CommonAPI::TypeOutputStream& typeStream) { - typeStream.writeInt32EnumType(); - } - }; - - template<> - struct InputStreamVectorHelper<org::genivi::am::am_Error_e> { - static void beginReadVector(InputStream& inputStream, const std::vector<org::genivi::am::am_Error_e>& vectorValue) { - (void)vectorValue; - inputStream.beginReadInt32EnumVector(); - } - }; - - template <> - struct OutputStreamVectorHelper<org::genivi::am::am_Error_e> { - static void beginWriteVector(OutputStream& outputStream, const std::vector<org::genivi::am::am_Error_e>& vectorValue) { - outputStream.beginWriteInt32EnumVector(vectorValue.size()); - } - }; - template<> - struct BasicTypeWriter<org::genivi::am::am_MuteState_e> { - inline static void writeType (CommonAPI::TypeOutputStream& typeStream) { - typeStream.writeInt32EnumType(); - } - }; - - template<> - struct InputStreamVectorHelper<org::genivi::am::am_MuteState_e> { - static void beginReadVector(InputStream& inputStream, const std::vector<org::genivi::am::am_MuteState_e>& vectorValue) { - (void)vectorValue; - inputStream.beginReadInt32EnumVector(); - } - }; - - template <> - struct OutputStreamVectorHelper<org::genivi::am::am_MuteState_e> { - static void beginWriteVector(OutputStream& outputStream, const std::vector<org::genivi::am::am_MuteState_e>& vectorValue) { - outputStream.beginWriteInt32EnumVector(vectorValue.size()); - } - }; - template<> - struct BasicTypeWriter<org::genivi::am::am_InterruptState_e> { - inline static void writeType (CommonAPI::TypeOutputStream& typeStream) { - typeStream.writeInt32EnumType(); - } - }; - - template<> - struct InputStreamVectorHelper<org::genivi::am::am_InterruptState_e> { - static void beginReadVector(InputStream& inputStream, const std::vector<org::genivi::am::am_InterruptState_e>& vectorValue) { - (void)vectorValue; - inputStream.beginReadInt32EnumVector(); - } - }; - - template <> - struct OutputStreamVectorHelper<org::genivi::am::am_InterruptState_e> { - static void beginWriteVector(OutputStream& outputStream, const std::vector<org::genivi::am::am_InterruptState_e>& vectorValue) { - outputStream.beginWriteInt32EnumVector(vectorValue.size()); - } - }; - template<> - struct BasicTypeWriter<org::genivi::am::am_VolumeType_e> { - inline static void writeType (CommonAPI::TypeOutputStream& typeStream) { - typeStream.writeInt32EnumType(); - } - }; - - template<> - struct InputStreamVectorHelper<org::genivi::am::am_VolumeType_e> { - static void beginReadVector(InputStream& inputStream, const std::vector<org::genivi::am::am_VolumeType_e>& vectorValue) { - (void)vectorValue; - inputStream.beginReadInt32EnumVector(); - } - }; - - template <> - struct OutputStreamVectorHelper<org::genivi::am::am_VolumeType_e> { - static void beginWriteVector(OutputStream& outputStream, const std::vector<org::genivi::am::am_VolumeType_e>& vectorValue) { - outputStream.beginWriteInt32EnumVector(vectorValue.size()); - } - }; - template<> - struct BasicTypeWriter<org::genivi::am::am_NotificationStatus_e> { - inline static void writeType (CommonAPI::TypeOutputStream& typeStream) { - typeStream.writeInt32EnumType(); - } - }; - - template<> - struct InputStreamVectorHelper<org::genivi::am::am_NotificationStatus_e> { - static void beginReadVector(InputStream& inputStream, const std::vector<org::genivi::am::am_NotificationStatus_e>& vectorValue) { - (void)vectorValue; - inputStream.beginReadInt32EnumVector(); - } - }; - - template <> - struct OutputStreamVectorHelper<org::genivi::am::am_NotificationStatus_e> { - static void beginWriteVector(OutputStream& outputStream, const std::vector<org::genivi::am::am_NotificationStatus_e>& vectorValue) { - outputStream.beginWriteInt32EnumVector(vectorValue.size()); - } - }; - template<> - struct BasicTypeWriter<org::genivi::am::am_Handle_e> { - inline static void writeType (CommonAPI::TypeOutputStream& typeStream) { - typeStream.writeInt32EnumType(); - } - }; - - template<> - struct InputStreamVectorHelper<org::genivi::am::am_Handle_e> { - static void beginReadVector(InputStream& inputStream, const std::vector<org::genivi::am::am_Handle_e>& vectorValue) { - (void)vectorValue; - inputStream.beginReadInt32EnumVector(); - } - }; - - template <> - struct OutputStreamVectorHelper<org::genivi::am::am_Handle_e> { - static void beginWriteVector(OutputStream& outputStream, const std::vector<org::genivi::am::am_Handle_e>& vectorValue) { - outputStream.beginWriteInt32EnumVector(vectorValue.size()); - } - }; - template<> - struct BasicTypeWriter<org::genivi::am::am_SourceState_e> { - inline static void writeType (CommonAPI::TypeOutputStream& typeStream) { - typeStream.writeInt32EnumType(); - } - }; - - template<> - struct InputStreamVectorHelper<org::genivi::am::am_SourceState_e> { - static void beginReadVector(InputStream& inputStream, const std::vector<org::genivi::am::am_SourceState_e>& vectorValue) { - (void)vectorValue; - inputStream.beginReadInt32EnumVector(); - } - }; - - template <> - struct OutputStreamVectorHelper<org::genivi::am::am_SourceState_e> { - static void beginWriteVector(OutputStream& outputStream, const std::vector<org::genivi::am::am_SourceState_e>& vectorValue) { - outputStream.beginWriteInt32EnumVector(vectorValue.size()); - } - }; - template<> - struct BasicTypeWriter<org::genivi::am::am_RoutingReady_e> { - inline static void writeType (CommonAPI::TypeOutputStream& typeStream) { - typeStream.writeInt32EnumType(); - } - }; - - template<> - struct InputStreamVectorHelper<org::genivi::am::am_RoutingReady_e> { - static void beginReadVector(InputStream& inputStream, const std::vector<org::genivi::am::am_RoutingReady_e>& vectorValue) { - (void)vectorValue; - inputStream.beginReadInt32EnumVector(); - } - }; - - template <> - struct OutputStreamVectorHelper<org::genivi::am::am_RoutingReady_e> { - static void beginWriteVector(OutputStream& outputStream, const std::vector<org::genivi::am::am_RoutingReady_e>& vectorValue) { - outputStream.beginWriteInt32EnumVector(vectorValue.size()); - } - }; - -} - - -namespace std { - //Hash for am_Availability_e - template<> - struct hash<org::genivi::am::am_Availability_e> { - inline size_t operator()(const org::genivi::am::am_Availability_e& am_Availability_e) const { - return static_cast<int32_t>(am_Availability_e); - } - }; - //Hash for am_HotSink_e - template<> - struct hash<org::genivi::am::am_HotSink_e> { - inline size_t operator()(const org::genivi::am::am_HotSink_e& am_HotSink_e) const { - return static_cast<int32_t>(am_HotSink_e); - } - }; - //Hash for am_ConnectionState_e - template<> - struct hash<org::genivi::am::am_ConnectionState_e> { - inline size_t operator()(const org::genivi::am::am_ConnectionState_e& am_ConnectionState_e) const { - return static_cast<int32_t>(am_ConnectionState_e); - } - }; - //Hash for am_DomainState_e - template<> - struct hash<org::genivi::am::am_DomainState_e> { - inline size_t operator()(const org::genivi::am::am_DomainState_e& am_DomainState_e) const { - return static_cast<int32_t>(am_DomainState_e); - } - }; - //Hash for am_EarlyDataType_e - template<> - struct hash<org::genivi::am::am_EarlyDataType_e> { - inline size_t operator()(const org::genivi::am::am_EarlyDataType_e& am_EarlyDataType_e) const { - return static_cast<int32_t>(am_EarlyDataType_e); - } - }; - //Hash for am_Error_e - template<> - struct hash<org::genivi::am::am_Error_e> { - inline size_t operator()(const org::genivi::am::am_Error_e& am_Error_e) const { - return static_cast<int32_t>(am_Error_e); - } - }; - //Hash for am_MuteState_e - template<> - struct hash<org::genivi::am::am_MuteState_e> { - inline size_t operator()(const org::genivi::am::am_MuteState_e& am_MuteState_e) const { - return static_cast<int32_t>(am_MuteState_e); - } - }; - //Hash for am_InterruptState_e - template<> - struct hash<org::genivi::am::am_InterruptState_e> { - inline size_t operator()(const org::genivi::am::am_InterruptState_e& am_InterruptState_e) const { - return static_cast<int32_t>(am_InterruptState_e); - } - }; - //Hash for am_VolumeType_e - template<> - struct hash<org::genivi::am::am_VolumeType_e> { - inline size_t operator()(const org::genivi::am::am_VolumeType_e& am_VolumeType_e) const { - return static_cast<int32_t>(am_VolumeType_e); - } - }; - //Hash for am_NotificationStatus_e - template<> - struct hash<org::genivi::am::am_NotificationStatus_e> { - inline size_t operator()(const org::genivi::am::am_NotificationStatus_e& am_NotificationStatus_e) const { - return static_cast<int32_t>(am_NotificationStatus_e); - } - }; - //Hash for am_Handle_e - template<> - struct hash<org::genivi::am::am_Handle_e> { - inline size_t operator()(const org::genivi::am::am_Handle_e& am_Handle_e) const { - return static_cast<int32_t>(am_Handle_e); - } - }; - //Hash for am_SourceState_e - template<> - struct hash<org::genivi::am::am_SourceState_e> { - inline size_t operator()(const org::genivi::am::am_SourceState_e& am_SourceState_e) const { - return static_cast<int32_t>(am_SourceState_e); - } - }; - //Hash for am_RoutingReady_e - template<> - struct hash<org::genivi::am::am_RoutingReady_e> { - inline size_t operator()(const org::genivi::am::am_RoutingReady_e& am_RoutingReady_e) const { - return static_cast<int32_t>(am_RoutingReady_e); - } - }; -} - -#endif // ORG_GENIVI_am_H_ |