public interface IProjectionPrx extends ServiceInterfacePrx
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.
|
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
byte[] projectStack(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int timepoint, int channelIndex, int stepping, int start, int end) throws ServerError
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.sizeX * sizeY * bytesPerPixel
in
big-endian format.ValidationException
- Where:
algorithm
is unknowntimepoint
is out of rangechannelIndex
is out of rangestart
is out of rangeend
is out of rangestart
is greater than end
pixelsId
is
not locatable.ServerError
projectPixels(long, omero.model.PixelsType, omero.constants.projection.ProjectionType, int, int, java.util.List<java.lang.Integer>, int, int, int, java.lang.String)
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
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.sizeX * sizeY * bytesPerPixel
in
big-endian format.ValidationException
- Where:
algorithm
is unknowntimepoint
is out of rangechannelIndex
is out of rangestart
is out of rangeend
is out of rangestart
is greater than end
pixelsId
is
not locatable.ServerError
projectPixels(long, omero.model.PixelsType, omero.constants.projection.ProjectionType, int, int, java.util.List<java.lang.Integer>, int, int, int, java.lang.String)
Ice.AsyncResult begin_projectStack(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int timepoint, int channelIndex, int stepping, int start, int end)
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.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)
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.Ice.AsyncResult begin_projectStack(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int timepoint, int channelIndex, int stepping, int start, int end, Ice.Callback __cb)
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.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)
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.Ice.AsyncResult begin_projectStack(long pixelsId, PixelsType pixelsType, ProjectionType algorithm, int timepoint, int channelIndex, int stepping, int start, int end, Callback_IProjection_projectStack __cb)
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.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)
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.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)
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.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)
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.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)
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.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)
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.byte[] end_projectStack(Ice.AsyncResult __result) throws ServerError
__result
- The asynchronous result object.sizeX * sizeY * bytesPerPixel
in
big-endian format.ValidationException
- Where:
algorithm
is unknowntimepoint
is out of rangechannelIndex
is out of rangestart
is out of rangeend
is out of rangestart
is greater than end
pixelsId
is
not locatable.ServerError
projectPixels(long, omero.model.PixelsType, omero.constants.projection.ProjectionType, int, int, java.util.List<java.lang.Integer>, int, int, int, java.lang.String)
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
omero.api.IPixels.copyAndResizeImage
.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.ValidationException
- Where:
algorithm
is unknowntStart
is out of rangetEnd
is out of rangetStart
is greater than tEnd
channelList
is null or has indexes out of
rangezStart
is out of rangezEnd
is out of rangezStart
is greater than zEnd
pixelsId
is
not locatable.ServerError
projectStack(long, omero.model.PixelsType, omero.constants.projection.ProjectionType, int, int, int, int, int)
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
omero.api.IPixels.copyAndResizeImage
.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.ValidationException
- Where:
algorithm
is unknowntStart
is out of rangetEnd
is out of rangetStart
is greater than tEnd
channelList
is null or has indexes out of
rangezStart
is out of rangezEnd
is out of rangezStart
is greater than zEnd
pixelsId
is
not locatable.ServerError
projectStack(long, omero.model.PixelsType, omero.constants.projection.ProjectionType, int, int, int, int, int)
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)
omero.api.IPixels.copyAndResizeImage
.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.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)
omero.api.IPixels.copyAndResizeImage
.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.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)
omero.api.IPixels.copyAndResizeImage
.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.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)
omero.api.IPixels.copyAndResizeImage
.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.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)
omero.api.IPixels.copyAndResizeImage
.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.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)
omero.api.IPixels.copyAndResizeImage
.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.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)
omero.api.IPixels.copyAndResizeImage
.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.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)
omero.api.IPixels.copyAndResizeImage
.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.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)
omero.api.IPixels.copyAndResizeImage
.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.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)
omero.api.IPixels.copyAndResizeImage
.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.long end_projectPixels(Ice.AsyncResult __result) throws ServerError
omero.api.IPixels.copyAndResizeImage
.__result
- The asynchronous result object.ValidationException
- Where:
algorithm
is unknowntStart
is out of rangetEnd
is out of rangetStart
is greater than tEnd
channelList
is null or has indexes out of
rangezStart
is out of rangezEnd
is out of rangezStart
is greater than zEnd
pixelsId
is
not locatable.ServerError
projectStack(long, omero.model.PixelsType, omero.constants.projection.ProjectionType, int, int, int, int, int)