#include "Ltdic.h"
L_INT32* LDicomWaveformChannel::GetChannelSamples(puNumberOfSamples)
L_UINT32* puNumberOfSamples; |
pointer to a variable to be updated |
Gets the samples (data) for a waveform channel.
Parameter |
Description |
puNumberOfSamples |
Pointer to a variable to be updated with the number of samples for the channel. |
!NULL |
Pointer to a buffer that holds the channel samples. |
NULL |
Channel has no samples set. |
This function Returns a pointer to a buffer that holds the channel samples (data). If puNumberOfSamples is not NULL then it gets updated with the number of samples for the channel.
Please note that the data is always encapsulated as 32-bit regardless of the bits allocated for the channel (8- or 16-bit). You can tell if the data for the channel is 8- or 16-bit from the waveform sample interpretation. For 8-bit channels the "Waveform Sample Interpretation" (5400,1006) can either be signed 8-bit linear (DICOM_SAMPLE_INTERPRETATION_SB), unsigned 8-bit linear (DICOM_SAMPLE_INTERPRETATION_UB), 8-bit mu-law (DICOM_SAMPLE_INTERPRETATION_MB) or 8-bit A-law(DICOM_SAMPLE_INTERPRETATION_AB). For 16-bit channels the "Waveform Sample Interpretation" can either be signed 16-bit linear (DICOM_SAMPLE_INTERPRETATION_SS) or unsigned 16-bit linear (DICOM_SAMPLE_INTERPRETATION_US). Use the LDicomWaveformGroup::GetSampleInterpretation function to get the waveform sample interpretation.
Note: |
This function Returns a pointer to an internal buffer that is managed by the class. Therefore, you should not free it when you are done with it. |
Required DLLs and Libraries
LTDIC For a listing of the exact DLLs and Libraries needed, based on the toolkit version, refer to Files To Be Included With Your Application |
Win32, x64
For an example, refer to LDicomWaveformChannel::SetChannelSamples8.
Raster .NET | C API | C++ Class Library | JavaScript HTML5
Document .NET | C API | C++ Class Library | JavaScript HTML5
Medical .NET | C API | C++ Class Library | JavaScript HTML5
Medical Web Viewer .NET