omero.api

Interface IProjectionPrx

All Superinterfaces:

Ice.ObjectPrx, ServiceInterfacePrx

All Known Implementing Classes:

IProjectionPrxHelper

public interface IProjectionPrx
extends ServiceInterfacePrx

Provides methods for performing projections of Pixels sets.

Nested Class Summary

Nested classes/interfaces inherited from interface Ice.ObjectPrx

Ice.ObjectPrx.FunctionalCallback_Object_ice_invoke_Response

Method Summary

Modifier and Type	Method and Description
Ice.AsyncResult	begin_projectPixels(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int tStart, int tEnd, java.util.List<java.lang.Integer> channelList, int stepping, int zStart, int zEnd, java.lang.String name) Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set.
Ice.AsyncResult	begin_projectPixels(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int tStart, int tEnd, java.util.List<java.lang.Integer> channelList, int stepping, int zStart, int zEnd, java.lang.String name, Callback_IProjection_projectPixels __cb) Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set.
Ice.AsyncResult	begin_projectPixels(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int tStart, int tEnd, java.util.List<java.lang.Integer> channelList, int stepping, int zStart, int zEnd, java.lang.String name, Ice.Callback __cb) Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set.
Ice.AsyncResult	begin_projectPixels(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int tStart, int tEnd, java.util.List<java.lang.Integer> channelList, int stepping, int zStart, int zEnd, java.lang.String name, IceInternal.Functional_LongCallback __responseCb, IceInternal.Functional_GenericCallback1<Ice.UserException> __userExceptionCb, IceInternal.Functional_GenericCallback1<Ice.Exception> __exceptionCb) Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set.
Ice.AsyncResult	begin_projectPixels(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int tStart, int tEnd, java.util.List<java.lang.Integer> channelList, int stepping, int zStart, int zEnd, java.lang.String name, IceInternal.Functional_LongCallback __responseCb, IceInternal.Functional_GenericCallback1<Ice.UserException> __userExceptionCb, IceInternal.Functional_GenericCallback1<Ice.Exception> __exceptionCb, IceInternal.Functional_BoolCallback __sentCb) Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set.
Ice.AsyncResult	begin_projectPixels(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int tStart, int tEnd, java.util.List<java.lang.Integer> channelList, int stepping, int zStart, int zEnd, java.lang.String name, java.util.Map<java.lang.String,java.lang.String> __ctx) Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set.
Ice.AsyncResult	begin_projectPixels(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int tStart, int tEnd, java.util.List<java.lang.Integer> channelList, int stepping, int zStart, int zEnd, java.lang.String name, java.util.Map<java.lang.String,java.lang.String> __ctx, Callback_IProjection_projectPixels __cb) Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set.
Ice.AsyncResult	begin_projectPixels(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int tStart, int tEnd, java.util.List<java.lang.Integer> channelList, int stepping, int zStart, int zEnd, java.lang.String name, java.util.Map<java.lang.String,java.lang.String> __ctx, Ice.Callback __cb) Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set.
Ice.AsyncResult	begin_projectPixels(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int tStart, int tEnd, java.util.List<java.lang.Integer> channelList, int stepping, int zStart, int zEnd, java.lang.String name, java.util.Map<java.lang.String,java.lang.String> __ctx, IceInternal.Functional_LongCallback __responseCb, IceInternal.Functional_GenericCallback1<Ice.UserException> __userExceptionCb, IceInternal.Functional_GenericCallback1<Ice.Exception> __exceptionCb) Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set.
Ice.AsyncResult	begin_projectPixels(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int tStart, int tEnd, java.util.List<java.lang.Integer> channelList, int stepping, int zStart, int zEnd, java.lang.String name, java.util.Map<java.lang.String,java.lang.String> __ctx, IceInternal.Functional_LongCallback __responseCb, IceInternal.Functional_GenericCallback1<Ice.UserException> __userExceptionCb, IceInternal.Functional_GenericCallback1<Ice.Exception> __exceptionCb, IceInternal.Functional_BoolCallback __sentCb) Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set.
Ice.AsyncResult	begin_projectStack(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int timepoint, int channelIndex, int stepping, int start, int end) Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.
Ice.AsyncResult	begin_projectStack(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int timepoint, int channelIndex, int stepping, int start, int end, Callback_IProjection_projectStack __cb) Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.
Ice.AsyncResult	begin_projectStack(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int timepoint, int channelIndex, int stepping, int start, int end, Ice.Callback __cb) Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.
Ice.AsyncResult	begin_projectStack(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int timepoint, int channelIndex, int stepping, int start, int end, IceInternal.Functional_GenericCallback1<byte[]> __responseCb, IceInternal.Functional_GenericCallback1<Ice.UserException> __userExceptionCb, IceInternal.Functional_GenericCallback1<Ice.Exception> __exceptionCb) Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.
Ice.AsyncResult	begin_projectStack(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int timepoint, int channelIndex, int stepping, int start, int end, IceInternal.Functional_GenericCallback1<byte[]> __responseCb, IceInternal.Functional_GenericCallback1<Ice.UserException> __userExceptionCb, IceInternal.Functional_GenericCallback1<Ice.Exception> __exceptionCb, IceInternal.Functional_BoolCallback __sentCb) Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.
Ice.AsyncResult	begin_projectStack(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int timepoint, int channelIndex, int stepping, int start, int end, java.util.Map<java.lang.String,java.lang.String> __ctx) Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.
Ice.AsyncResult	begin_projectStack(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int timepoint, int channelIndex, int stepping, int start, int end, java.util.Map<java.lang.String,java.lang.String> __ctx, Callback_IProjection_projectStack __cb) Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.
Ice.AsyncResult	begin_projectStack(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int timepoint, int channelIndex, int stepping, int start, int end, java.util.Map<java.lang.String,java.lang.String> __ctx, Ice.Callback __cb) Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.
Ice.AsyncResult	begin_projectStack(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int timepoint, int channelIndex, int stepping, int start, int end, java.util.Map<java.lang.String,java.lang.String> __ctx, IceInternal.Functional_GenericCallback1<byte[]> __responseCb, IceInternal.Functional_GenericCallback1<Ice.UserException> __userExceptionCb, IceInternal.Functional_GenericCallback1<Ice.Exception> __exceptionCb) Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.
Ice.AsyncResult	begin_projectStack(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int timepoint, int channelIndex, int stepping, int start, int end, java.util.Map<java.lang.String,java.lang.String> __ctx, IceInternal.Functional_GenericCallback1<byte[]> __responseCb, IceInternal.Functional_GenericCallback1<Ice.UserException> __userExceptionCb, IceInternal.Functional_GenericCallback1<Ice.Exception> __exceptionCb, IceInternal.Functional_BoolCallback __sentCb) Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.
long	end_projectPixels(Ice.AsyncResult __result) Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set.
byte[]	end_projectStack(Ice.AsyncResult __result) Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.
long	projectPixels(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int tStart, int tEnd, java.util.List<java.lang.Integer> channelList, int stepping, int zStart, int zEnd, java.lang.String name) Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set.
long	projectPixels(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int tStart, int tEnd, java.util.List<java.lang.Integer> channelList, int stepping, int zStart, int zEnd, java.lang.String name, java.util.Map<java.lang.String,java.lang.String> __ctx) Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set.
byte[]	projectStack(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int timepoint, int channelIndex, int stepping, int start, int end) Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.
byte[]	projectStack(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int timepoint, int channelIndex, int stepping, int start, int end, java.util.Map<java.lang.String,java.lang.String> __ctx) Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.

Methods inherited from interface Ice.ObjectPrx

begin_ice_flushBatchRequests, begin_ice_flushBatchRequests, begin_ice_flushBatchRequests, begin_ice_flushBatchRequests, begin_ice_getConnection, begin_ice_getConnection, begin_ice_getConnection, begin_ice_getConnection, begin_ice_id, begin_ice_id, begin_ice_id, begin_ice_id, begin_ice_id, begin_ice_id, begin_ice_id, begin_ice_id, begin_ice_id, begin_ice_id, begin_ice_ids, begin_ice_ids, begin_ice_ids, begin_ice_ids, begin_ice_ids, begin_ice_ids, begin_ice_ids, begin_ice_ids, begin_ice_ids, begin_ice_ids, begin_ice_invoke, begin_ice_invoke, begin_ice_invoke, begin_ice_invoke, begin_ice_invoke, begin_ice_invoke, begin_ice_invoke, begin_ice_invoke, begin_ice_invoke, begin_ice_invoke, begin_ice_isA, begin_ice_isA, begin_ice_isA, begin_ice_isA, begin_ice_isA, begin_ice_isA, begin_ice_isA, begin_ice_isA, begin_ice_isA, begin_ice_isA, begin_ice_ping, begin_ice_ping, begin_ice_ping, begin_ice_ping, begin_ice_ping, begin_ice_ping, begin_ice_ping, begin_ice_ping, begin_ice_ping, begin_ice_ping, end_ice_flushBatchRequests, end_ice_getConnection, end_ice_id, end_ice_ids, end_ice_invoke, end_ice_isA, end_ice_ping, equals, ice_adapterId, ice_batchDatagram, ice_batchOneway, ice_collocationOptimized, ice_compress, ice_connectionCached, ice_connectionId, ice_context, ice_datagram, ice_encodingVersion, ice_endpoints, ice_endpointSelection, ice_facet, ice_flushBatchRequests, ice_getAdapterId, ice_getCachedConnection, ice_getCommunicator, ice_getConnection, ice_getConnectionId, ice_getContext, ice_getEncodingVersion, ice_getEndpoints, ice_getEndpointSelection, ice_getFacet, ice_getIdentity, ice_getInvocationTimeout, ice_getLocator, ice_getLocatorCacheTimeout, ice_getRouter, ice_id, ice_id, ice_identity, ice_ids, ice_ids, ice_invocationTimeout, ice_invoke, ice_invoke, ice_isA, ice_isA, ice_isBatchDatagram, ice_isBatchOneway, ice_isCollocationOptimized, ice_isConnectionCached, ice_isDatagram, ice_isOneway, ice_isPreferSecure, ice_isSecure, ice_isTwoway, ice_locator, ice_locatorCacheTimeout, ice_oneway, ice_ping, ice_ping, ice_preferSecure, ice_router, ice_secure, ice_timeout, ice_twoway

Method Detail

projectStack

byte[] projectStack(long pixelsId,
                    PixelsType pixelsType,
                    ProjectionType algorithm,
                    int timepoint,
                    int channelIndex,
                    int stepping,
                    int start,
                    int end)
             throws ServerError

Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.

Parameters:

pixelsId - The source Pixels set Id.

pixelsType - The destination Pixels type. If null, the source Pixels set pixels type will be used.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

timepoint - Timepoint to perform the projection.

channelIndex - Index of the channel to perform the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

start - Optical section to start projecting from.

end - Optical section to finish projecting.

Returns:

A byte array of projected pixel values whose length is equal to the Pixels set 8 sizeX * sizeY * bytesPerPixel in big-endian format.

Throws:

ValidationException - Where:

• algorithm is unknown
• timepoint is out of range
• channelIndex is out of range
• start is out of range
• end is out of range
• start is greater than end
• the Pixels set qualified by pixelsId is not locatable.

ServerError

See Also:

projectPixels(long, omero.model.PixelsType, omero.constants.projection.ProjectionType, int, int, java.util.List<java.lang.Integer>, int, int, int, java.lang.String)

projectStack

byte[] projectStack(long pixelsId,
                    PixelsType pixelsType,
                    ProjectionType algorithm,
                    int timepoint,
                    int channelIndex,
                    int stepping,
                    int start,
                    int end,
                    java.util.Map<java.lang.String,java.lang.String> __ctx)
             throws ServerError

Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.

Parameters:

pixelsId - The source Pixels set Id.

pixelsType - The destination Pixels type. If null, the source Pixels set pixels type will be used.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

timepoint - Timepoint to perform the projection.

channelIndex - Index of the channel to perform the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

start - Optical section to start projecting from.

end - Optical section to finish projecting.

__ctx - The Context map to send with the invocation.

Returns:

A byte array of projected pixel values whose length is equal to the Pixels set 8 sizeX * sizeY * bytesPerPixel in big-endian format.

Throws:

ValidationException - Where:

• algorithm is unknown
• timepoint is out of range
• channelIndex is out of range
• start is out of range
• end is out of range
• start is greater than end
• the Pixels set qualified by pixelsId is not locatable.

ServerError

See Also:

projectPixels(long, omero.model.PixelsType, omero.constants.projection.ProjectionType, int, int, java.util.List<java.lang.Integer>, int, int, int, java.lang.String)

begin_projectStack

Ice.AsyncResult begin_projectStack(long pixelsId,
                                   PixelsType pixelsType,
                                   ProjectionType algorithm,
                                   int timepoint,
                                   int channelIndex,
                                   int stepping,
                                   int start,
                                   int end)

Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

timepoint - Timepoint to perform the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

start - Optical section to start projecting from.

Returns:

The asynchronous result object.

begin_projectStack

Ice.AsyncResult begin_projectStack(long pixelsId,
                                   PixelsType pixelsType,
                                   ProjectionType algorithm,
                                   int timepoint,
                                   int channelIndex,
                                   int stepping,
                                   int start,
                                   int end,
                                   java.util.Map<java.lang.String,java.lang.String> __ctx)

Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

timepoint - Timepoint to perform the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

start - Optical section to start projecting from.

__ctx - The Context map to send with the invocation.

Returns:

The asynchronous result object.

begin_projectStack

Ice.AsyncResult begin_projectStack(long pixelsId,
                                   PixelsType pixelsType,
                                   ProjectionType algorithm,
                                   int timepoint,
                                   int channelIndex,
                                   int stepping,
                                   int start,
                                   int end,
                                   Ice.Callback __cb)

Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

timepoint - Timepoint to perform the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

start - Optical section to start projecting from.

__cb - The asynchronous callback object.

Returns:

The asynchronous result object.

begin_projectStack

Ice.AsyncResult begin_projectStack(long pixelsId,
                                   PixelsType pixelsType,
                                   ProjectionType algorithm,
                                   int timepoint,
                                   int channelIndex,
                                   int stepping,
                                   int start,
                                   int end,
                                   java.util.Map<java.lang.String,java.lang.String> __ctx,
                                   Ice.Callback __cb)

Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

timepoint - Timepoint to perform the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

start - Optical section to start projecting from.

__ctx - The Context map to send with the invocation.

__cb - The asynchronous callback object.

Returns:

The asynchronous result object.

begin_projectStack

Ice.AsyncResult begin_projectStack(long pixelsId,
                                   PixelsType pixelsType,
                                   ProjectionType algorithm,
                                   int timepoint,
                                   int channelIndex,
                                   int stepping,
                                   int start,
                                   int end,
                                   Callback_IProjection_projectStack __cb)

Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

timepoint - Timepoint to perform the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

start - Optical section to start projecting from.

__cb - The asynchronous callback object.

Returns:

The asynchronous result object.

begin_projectStack

Ice.AsyncResult begin_projectStack(long pixelsId,
                                   PixelsType pixelsType,
                                   ProjectionType algorithm,
                                   int timepoint,
                                   int channelIndex,
                                   int stepping,
                                   int start,
                                   int end,
                                   java.util.Map<java.lang.String,java.lang.String> __ctx,
                                   Callback_IProjection_projectStack __cb)

Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

timepoint - Timepoint to perform the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

start - Optical section to start projecting from.

__ctx - The Context map to send with the invocation.

__cb - The asynchronous callback object.

Returns:

The asynchronous result object.

begin_projectStack

Ice.AsyncResult begin_projectStack(long pixelsId,
                                   PixelsType pixelsType,
                                   ProjectionType algorithm,
                                   int timepoint,
                                   int channelIndex,
                                   int stepping,
                                   int start,
                                   int end,
                                   IceInternal.Functional_GenericCallback1<byte[]> __responseCb,
                                   IceInternal.Functional_GenericCallback1<Ice.UserException> __userExceptionCb,
                                   IceInternal.Functional_GenericCallback1<Ice.Exception> __exceptionCb)

Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

timepoint - Timepoint to perform the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

start - Optical section to start projecting from.

__responseCb - The lambda response callback.

__userExceptionCb - The lambda user exception callback.

__exceptionCb - The lambda exception callback.

Returns:

The asynchronous result object.

begin_projectStack

Ice.AsyncResult begin_projectStack(long pixelsId,
                                   PixelsType pixelsType,
                                   ProjectionType algorithm,
                                   int timepoint,
                                   int channelIndex,
                                   int stepping,
                                   int start,
                                   int end,
                                   IceInternal.Functional_GenericCallback1<byte[]> __responseCb,
                                   IceInternal.Functional_GenericCallback1<Ice.UserException> __userExceptionCb,
                                   IceInternal.Functional_GenericCallback1<Ice.Exception> __exceptionCb,
                                   IceInternal.Functional_BoolCallback __sentCb)

Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

timepoint - Timepoint to perform the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

start - Optical section to start projecting from.

__responseCb - The lambda response callback.

__userExceptionCb - The lambda user exception callback.

__exceptionCb - The lambda exception callback.

__sentCb - The lambda sent callback.

Returns:

The asynchronous result object.

begin_projectStack

Ice.AsyncResult begin_projectStack(long pixelsId,
                                   PixelsType pixelsType,
                                   ProjectionType algorithm,
                                   int timepoint,
                                   int channelIndex,
                                   int stepping,
                                   int start,
                                   int end,
                                   java.util.Map<java.lang.String,java.lang.String> __ctx,
                                   IceInternal.Functional_GenericCallback1<byte[]> __responseCb,
                                   IceInternal.Functional_GenericCallback1<Ice.UserException> __userExceptionCb,
                                   IceInternal.Functional_GenericCallback1<Ice.Exception> __exceptionCb)

Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

timepoint - Timepoint to perform the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

start - Optical section to start projecting from.

__ctx - The Context map to send with the invocation.

__responseCb - The lambda response callback.

__userExceptionCb - The lambda user exception callback.

__exceptionCb - The lambda exception callback.

Returns:

The asynchronous result object.

begin_projectStack

Ice.AsyncResult begin_projectStack(long pixelsId,
                                   PixelsType pixelsType,
                                   ProjectionType algorithm,
                                   int timepoint,
                                   int channelIndex,
                                   int stepping,
                                   int start,
                                   int end,
                                   java.util.Map<java.lang.String,java.lang.String> __ctx,
                                   IceInternal.Functional_GenericCallback1<byte[]> __responseCb,
                                   IceInternal.Functional_GenericCallback1<Ice.UserException> __userExceptionCb,
                                   IceInternal.Functional_GenericCallback1<Ice.Exception> __exceptionCb,
                                   IceInternal.Functional_BoolCallback __sentCb)

Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

timepoint - Timepoint to perform the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

start - Optical section to start projecting from.

__ctx - The Context map to send with the invocation.

__responseCb - The lambda response callback.

__userExceptionCb - The lambda user exception callback.

__exceptionCb - The lambda exception callback.

__sentCb - The lambda sent callback.

Returns:

The asynchronous result object.

end_projectStack

byte[] end_projectStack(Ice.AsyncResult __result)
                 throws ServerError

Performs a projection through the optical sections of a particular wavelength at a given time point of a Pixels set.

Parameters:

__result - The asynchronous result object.

Returns:

A byte array of projected pixel values whose length is equal to the Pixels set 8 sizeX * sizeY * bytesPerPixel in big-endian format.

Throws:

ValidationException - Where:

• algorithm is unknown
• timepoint is out of range
• channelIndex is out of range
• start is out of range
• end is out of range
• start is greater than end
• the Pixels set qualified by pixelsId is not locatable.

ServerError

See Also:

projectPixels(long, omero.model.PixelsType, omero.constants.projection.ProjectionType, int, int, java.util.List<java.lang.Integer>, int, int, int, java.lang.String)

projectPixels

long projectPixels(long pixelsId,
                   PixelsType pixelsType,
                   ProjectionType algorithm,
                   int tStart,
                   int tEnd,
                   java.util.List<java.lang.Integer> channelList,
                   int stepping,
                   int zStart,
                   int zEnd,
                   java.lang.String name)
            throws ServerError

Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set. The Image which is linked to the Pixels set will be copied using omero.api.IPixels.copyAndResizeImage.

Parameters:

pixelsId - The source Pixels set Id.

pixelsType - The destination Pixels type. If null, the source Pixels set pixels type will be used.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

tStart - Timepoint to start projecting from.

tEnd - Timepoint to finish projecting.

channelList - List of the channel indexes to use while calculating the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

zStart - Optical section to start projecting from.

zEnd - Optical section to finish projecting.

name - Name for the newly created image. If null the name of the Image linked to the Pixels qualified by pixelsId will be used with a Projection suffix. For example, GFP-H2B Image of HeLa Cells will have an Image name of GFP-H2B Image of HeLa Cells Projection used for the projection.

Returns:

The Id of the newly created Image which has been projected.

Throws:

ValidationException - Where:

• algorithm is unknown
• tStart is out of range
• tEnd is out of range
• tStart is greater than tEnd
• channelList is null or has indexes out of range
• zStart is out of range
• zEnd is out of range
• zStart is greater than zEnd
• the Pixels set qualified by pixelsId is not locatable.

ServerError

See Also:

projectStack(long, omero.model.PixelsType, omero.constants.projection.ProjectionType, int, int, int, int, int)

projectPixels

long projectPixels(long pixelsId,
                   PixelsType pixelsType,
                   ProjectionType algorithm,
                   int tStart,
                   int tEnd,
                   java.util.List<java.lang.Integer> channelList,
                   int stepping,
                   int zStart,
                   int zEnd,
                   java.lang.String name,
                   java.util.Map<java.lang.String,java.lang.String> __ctx)
            throws ServerError

Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set. The Image which is linked to the Pixels set will be copied using omero.api.IPixels.copyAndResizeImage.

Parameters:

pixelsId - The source Pixels set Id.

pixelsType - The destination Pixels type. If null, the source Pixels set pixels type will be used.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

tStart - Timepoint to start projecting from.

tEnd - Timepoint to finish projecting.

channelList - List of the channel indexes to use while calculating the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

zStart - Optical section to start projecting from.

zEnd - Optical section to finish projecting.

name - Name for the newly created image. If null the name of the Image linked to the Pixels qualified by pixelsId will be used with a Projection suffix. For example, GFP-H2B Image of HeLa Cells will have an Image name of GFP-H2B Image of HeLa Cells Projection used for the projection.

__ctx - The Context map to send with the invocation.

Returns:

The Id of the newly created Image which has been projected.

Throws:

ValidationException - Where:

• algorithm is unknown
• tStart is out of range
• tEnd is out of range
• tStart is greater than tEnd
• channelList is null or has indexes out of range
• zStart is out of range
• zEnd is out of range
• zStart is greater than zEnd
• the Pixels set qualified by pixelsId is not locatable.

ServerError

See Also:

projectStack(long, omero.model.PixelsType, omero.constants.projection.ProjectionType, int, int, int, int, int)

begin_projectPixels

Ice.AsyncResult begin_projectPixels(long pixelsId,
                                    PixelsType pixelsType,
                                    ProjectionType algorithm,
                                    int tStart,
                                    int tEnd,
                                    java.util.List<java.lang.Integer> channelList,
                                    int stepping,
                                    int zStart,
                                    int zEnd,
                                    java.lang.String name)

Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set. The Image which is linked to the Pixels set will be copied using omero.api.IPixels.copyAndResizeImage.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

tStart - Timepoint to start projecting from.

channelList - List of the channel indexes to use while calculating the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

zStart - Optical section to start projecting from.

name - Name for the newly created image. If null the name of the Image linked to the Pixels qualified by pixelsId will be used with a Projection suffix. For example, GFP-H2B Image of HeLa Cells will have an Image name of GFP-H2B Image of HeLa Cells Projection used for the projection.

Returns:

The asynchronous result object.

begin_projectPixels

Ice.AsyncResult begin_projectPixels(long pixelsId,
                                    PixelsType pixelsType,
                                    ProjectionType algorithm,
                                    int tStart,
                                    int tEnd,
                                    java.util.List<java.lang.Integer> channelList,
                                    int stepping,
                                    int zStart,
                                    int zEnd,
                                    java.lang.String name,
                                    java.util.Map<java.lang.String,java.lang.String> __ctx)

Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set. The Image which is linked to the Pixels set will be copied using omero.api.IPixels.copyAndResizeImage.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

tStart - Timepoint to start projecting from.

channelList - List of the channel indexes to use while calculating the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

zStart - Optical section to start projecting from.

name - Name for the newly created image. If null the name of the Image linked to the Pixels qualified by pixelsId will be used with a Projection suffix. For example, GFP-H2B Image of HeLa Cells will have an Image name of GFP-H2B Image of HeLa Cells Projection used for the projection.

__ctx - The Context map to send with the invocation.

Returns:

The asynchronous result object.

begin_projectPixels

Ice.AsyncResult begin_projectPixels(long pixelsId,
                                    PixelsType pixelsType,
                                    ProjectionType algorithm,
                                    int tStart,
                                    int tEnd,
                                    java.util.List<java.lang.Integer> channelList,
                                    int stepping,
                                    int zStart,
                                    int zEnd,
                                    java.lang.String name,
                                    Ice.Callback __cb)

Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set. The Image which is linked to the Pixels set will be copied using omero.api.IPixels.copyAndResizeImage.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

tStart - Timepoint to start projecting from.

channelList - List of the channel indexes to use while calculating the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

zStart - Optical section to start projecting from.

name - Name for the newly created image. If null the name of the Image linked to the Pixels qualified by pixelsId will be used with a Projection suffix. For example, GFP-H2B Image of HeLa Cells will have an Image name of GFP-H2B Image of HeLa Cells Projection used for the projection.

__cb - The asynchronous callback object.

Returns:

The asynchronous result object.

begin_projectPixels

Ice.AsyncResult begin_projectPixels(long pixelsId,
                                    PixelsType pixelsType,
                                    ProjectionType algorithm,
                                    int tStart,
                                    int tEnd,
                                    java.util.List<java.lang.Integer> channelList,
                                    int stepping,
                                    int zStart,
                                    int zEnd,
                                    java.lang.String name,
                                    java.util.Map<java.lang.String,java.lang.String> __ctx,
                                    Ice.Callback __cb)

Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set. The Image which is linked to the Pixels set will be copied using omero.api.IPixels.copyAndResizeImage.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

tStart - Timepoint to start projecting from.

channelList - List of the channel indexes to use while calculating the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

zStart - Optical section to start projecting from.

name - Name for the newly created image. If null the name of the Image linked to the Pixels qualified by pixelsId will be used with a Projection suffix. For example, GFP-H2B Image of HeLa Cells will have an Image name of GFP-H2B Image of HeLa Cells Projection used for the projection.

__ctx - The Context map to send with the invocation.

__cb - The asynchronous callback object.

Returns:

The asynchronous result object.

begin_projectPixels

Ice.AsyncResult begin_projectPixels(long pixelsId,
                                    PixelsType pixelsType,
                                    ProjectionType algorithm,
                                    int tStart,
                                    int tEnd,
                                    java.util.List<java.lang.Integer> channelList,
                                    int stepping,
                                    int zStart,
                                    int zEnd,
                                    java.lang.String name,
                                    Callback_IProjection_projectPixels __cb)

Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set. The Image which is linked to the Pixels set will be copied using omero.api.IPixels.copyAndResizeImage.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

tStart - Timepoint to start projecting from.

channelList - List of the channel indexes to use while calculating the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

zStart - Optical section to start projecting from.

name - Name for the newly created image. If null the name of the Image linked to the Pixels qualified by pixelsId will be used with a Projection suffix. For example, GFP-H2B Image of HeLa Cells will have an Image name of GFP-H2B Image of HeLa Cells Projection used for the projection.

__cb - The asynchronous callback object.

Returns:

The asynchronous result object.

begin_projectPixels

Ice.AsyncResult begin_projectPixels(long pixelsId,
                                    PixelsType pixelsType,
                                    ProjectionType algorithm,
                                    int tStart,
                                    int tEnd,
                                    java.util.List<java.lang.Integer> channelList,
                                    int stepping,
                                    int zStart,
                                    int zEnd,
                                    java.lang.String name,
                                    java.util.Map<java.lang.String,java.lang.String> __ctx,
                                    Callback_IProjection_projectPixels __cb)

Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set. The Image which is linked to the Pixels set will be copied using omero.api.IPixels.copyAndResizeImage.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

tStart - Timepoint to start projecting from.

channelList - List of the channel indexes to use while calculating the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

zStart - Optical section to start projecting from.

name - Name for the newly created image. If null the name of the Image linked to the Pixels qualified by pixelsId will be used with a Projection suffix. For example, GFP-H2B Image of HeLa Cells will have an Image name of GFP-H2B Image of HeLa Cells Projection used for the projection.

__ctx - The Context map to send with the invocation.

__cb - The asynchronous callback object.

Returns:

The asynchronous result object.

begin_projectPixels

Ice.AsyncResult begin_projectPixels(long pixelsId,
                                    PixelsType pixelsType,
                                    ProjectionType algorithm,
                                    int tStart,
                                    int tEnd,
                                    java.util.List<java.lang.Integer> channelList,
                                    int stepping,
                                    int zStart,
                                    int zEnd,
                                    java.lang.String name,
                                    IceInternal.Functional_LongCallback __responseCb,
                                    IceInternal.Functional_GenericCallback1<Ice.UserException> __userExceptionCb,
                                    IceInternal.Functional_GenericCallback1<Ice.Exception> __exceptionCb)

Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set. The Image which is linked to the Pixels set will be copied using omero.api.IPixels.copyAndResizeImage.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

tStart - Timepoint to start projecting from.

channelList - List of the channel indexes to use while calculating the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

zStart - Optical section to start projecting from.

name - Name for the newly created image. If null the name of the Image linked to the Pixels qualified by pixelsId will be used with a Projection suffix. For example, GFP-H2B Image of HeLa Cells will have an Image name of GFP-H2B Image of HeLa Cells Projection used for the projection.

__responseCb - The lambda response callback.

__userExceptionCb - The lambda user exception callback.

__exceptionCb - The lambda exception callback.

Returns:

The asynchronous result object.

begin_projectPixels

Ice.AsyncResult begin_projectPixels(long pixelsId,
                                    PixelsType pixelsType,
                                    ProjectionType algorithm,
                                    int tStart,
                                    int tEnd,
                                    java.util.List<java.lang.Integer> channelList,
                                    int stepping,
                                    int zStart,
                                    int zEnd,
                                    java.lang.String name,
                                    IceInternal.Functional_LongCallback __responseCb,
                                    IceInternal.Functional_GenericCallback1<Ice.UserException> __userExceptionCb,
                                    IceInternal.Functional_GenericCallback1<Ice.Exception> __exceptionCb,
                                    IceInternal.Functional_BoolCallback __sentCb)

Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set. The Image which is linked to the Pixels set will be copied using omero.api.IPixels.copyAndResizeImage.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

tStart - Timepoint to start projecting from.

channelList - List of the channel indexes to use while calculating the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

zStart - Optical section to start projecting from.

name - Name for the newly created image. If null the name of the Image linked to the Pixels qualified by pixelsId will be used with a Projection suffix. For example, GFP-H2B Image of HeLa Cells will have an Image name of GFP-H2B Image of HeLa Cells Projection used for the projection.

__responseCb - The lambda response callback.

__userExceptionCb - The lambda user exception callback.

__exceptionCb - The lambda exception callback.

__sentCb - The lambda sent callback.

Returns:

The asynchronous result object.

begin_projectPixels

Ice.AsyncResult begin_projectPixels(long pixelsId,
                                    PixelsType pixelsType,
                                    ProjectionType algorithm,
                                    int tStart,
                                    int tEnd,
                                    java.util.List<java.lang.Integer> channelList,
                                    int stepping,
                                    int zStart,
                                    int zEnd,
                                    java.lang.String name,
                                    java.util.Map<java.lang.String,java.lang.String> __ctx,
                                    IceInternal.Functional_LongCallback __responseCb,
                                    IceInternal.Functional_GenericCallback1<Ice.UserException> __userExceptionCb,
                                    IceInternal.Functional_GenericCallback1<Ice.Exception> __exceptionCb)

Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set. The Image which is linked to the Pixels set will be copied using omero.api.IPixels.copyAndResizeImage.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

tStart - Timepoint to start projecting from.

channelList - List of the channel indexes to use while calculating the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

zStart - Optical section to start projecting from.

name - Name for the newly created image. If null the name of the Image linked to the Pixels qualified by pixelsId will be used with a Projection suffix. For example, GFP-H2B Image of HeLa Cells will have an Image name of GFP-H2B Image of HeLa Cells Projection used for the projection.

__ctx - The Context map to send with the invocation.

__responseCb - The lambda response callback.

__userExceptionCb - The lambda user exception callback.

__exceptionCb - The lambda exception callback.

Returns:

The asynchronous result object.

begin_projectPixels

Ice.AsyncResult begin_projectPixels(long pixelsId,
                                    PixelsType pixelsType,
                                    ProjectionType algorithm,
                                    int tStart,
                                    int tEnd,
                                    java.util.List<java.lang.Integer> channelList,
                                    int stepping,
                                    int zStart,
                                    int zEnd,
                                    java.lang.String name,
                                    java.util.Map<java.lang.String,java.lang.String> __ctx,
                                    IceInternal.Functional_LongCallback __responseCb,
                                    IceInternal.Functional_GenericCallback1<Ice.UserException> __userExceptionCb,
                                    IceInternal.Functional_GenericCallback1<Ice.Exception> __exceptionCb,
                                    IceInternal.Functional_BoolCallback __sentCb)

Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set. The Image which is linked to the Pixels set will be copied using omero.api.IPixels.copyAndResizeImage.

Parameters:

pixelsId - The source Pixels set Id.

algorithm - MAXIMUM_INTENSITY, MEAN_INTENSITY or SUM_INTENSITY. NOTE: When performing a SUM_INTENSITY projection, pixel values will be pinned to the maximum pixel value of the destination Pixels type.

tStart - Timepoint to start projecting from.

channelList - List of the channel indexes to use while calculating the projection.

stepping - Stepping value to use while calculating the projection. For example, stepping=1 will use every optical section from start to end where stepping=2 will use every other section from start to end to perform the projection.

zStart - Optical section to start projecting from.

name - Name for the newly created image. If null the name of the Image linked to the Pixels qualified by pixelsId will be used with a Projection suffix. For example, GFP-H2B Image of HeLa Cells will have an Image name of GFP-H2B Image of HeLa Cells Projection used for the projection.

__ctx - The Context map to send with the invocation.

__responseCb - The lambda response callback.

__userExceptionCb - The lambda user exception callback.

__exceptionCb - The lambda exception callback.

__sentCb - The lambda sent callback.

Returns:

The asynchronous result object.

end_projectPixels

long end_projectPixels(Ice.AsyncResult __result)
                throws ServerError

Performs a projection through selected optical sections and optical sections for a given set of time points of a Pixels set. The Image which is linked to the Pixels set will be copied using omero.api.IPixels.copyAndResizeImage.

Parameters:

__result - The asynchronous result object.

Returns:

The Id of the newly created Image which has been projected.

Throws:

ValidationException - Where:

• algorithm is unknown
• tStart is out of range
• tEnd is out of range
• tStart is greater than tEnd
• channelList is null or has indexes out of range
• zStart is out of range
• zEnd is out of range
• zStart is greater than zEnd
• the Pixels set qualified by pixelsId is not locatable.

ServerError

See Also:

projectStack(long, omero.model.PixelsType, omero.constants.projection.ProjectionType, int, int, int, int, int)