compose7compose7Compose7Compose7compose7 (Operator)
Name
compose7compose7Compose7Compose7compose7
— Convert 7 images into a seven-channel image.
Signature
Herror compose7(const Hobject Image1, const Hobject Image2, const Hobject Image3, const Hobject Image4, const Hobject Image5, const Hobject Image6, const Hobject Image7, Hobject* MultiChannelImage)
Herror T_compose7(const Hobject Image1, const Hobject Image2, const Hobject Image3, const Hobject Image4, const Hobject Image5, const Hobject Image6, const Hobject Image7, Hobject* MultiChannelImage)
void Compose7(const HObject& Image1, const HObject& Image2, const HObject& Image3, const HObject& Image4, const HObject& Image5, const HObject& Image6, const HObject& Image7, HObject* MultiChannelImage)
HImage HImage::Compose7(const HImage& Image2, const HImage& Image3, const HImage& Image4, const HImage& Image5, const HImage& Image6, const HImage& Image7) const
static void HOperatorSet.Compose7(HObject image1, HObject image2, HObject image3, HObject image4, HObject image5, HObject image6, HObject image7, out HObject multiChannelImage)
HImage HImage.Compose7(HImage image2, HImage image3, HImage image4, HImage image5, HImage image6, HImage image7)
Description
The operator compose7compose7Compose7Compose7Compose7compose7
converts 7 one-channel images into
a 7-channel image. The definition domain is calculated as the
intersection of the definition domains of the input images.
No new storage is allocated for the multi-channel image.
Instead, the created multi-channel image contains references to the existing
input images.
Execution Information
- Supports objects on compute devices.
- Multithreading type: reentrant (runs in parallel with non-exclusive operators).
- Multithreading scope: global (may be called from any thread).
- Automatically parallelized on tuple level.
Parameters
Image1Image1Image1Image1image1image_1
(input_object) singlechannelimage(-array) →
objectHImageHObjectHImageHobject (byte / direction / cyclic / int1 / int2 / uint2 / int4 / int8 / real / complex / vector_field)
Input image 1.
Image2Image2Image2Image2image2image_2
(input_object) singlechannelimage(-array) →
objectHImageHObjectHImageHobject (byte / direction / cyclic / int1 / int2 / uint2 / int4 / int8 / real / complex / vector_field)
Input image 2.
Image3Image3Image3Image3image3image_3
(input_object) singlechannelimage(-array) →
objectHImageHObjectHImageHobject (byte / direction / cyclic / int1 / int2 / uint2 / int4 / int8 / real / complex / vector_field)
Input image 3.
Image4Image4Image4Image4image4image_4
(input_object) singlechannelimage(-array) →
objectHImageHObjectHImageHobject (byte / direction / cyclic / int1 / int2 / uint2 / int4 / int8 / real / complex / vector_field)
Input image 4.
Image5Image5Image5Image5image5image_5
(input_object) singlechannelimage(-array) →
objectHImageHObjectHImageHobject (byte / direction / cyclic / int1 / int2 / uint2 / int4 / int8 / real / complex / vector_field)
Input image 5.
Image6Image6Image6Image6image6image_6
(input_object) singlechannelimage(-array) →
objectHImageHObjectHImageHobject (byte / direction / cyclic / int1 / int2 / uint2 / int4 / int8 / real / complex / vector_field)
Input image 6.
Image7Image7Image7Image7image7image_7
(input_object) singlechannelimage(-array) →
objectHImageHObjectHImageHobject (byte / direction / cyclic / int1 / int2 / uint2 / int4 / int8 / real / complex / vector_field)
Input image 7.
MultiChannelImageMultiChannelImageMultiChannelImageMultiChannelImagemultiChannelImagemulti_channel_image
(output_object) multichannel-image(-array) →
objectHImageHObjectHImageHobject * (byte / direction / cyclic / int1 / int2 / uint2 / int4 / int8 / real / complex / vector_field)
Multi-channel image.
Possible Successors
disp_imagedisp_imageDispImageDispImageDispImagedisp_image
Alternatives
append_channelappend_channelAppendChannelAppendChannelAppendChannelappend_channel
See also
decompose7decompose7Decompose7Decompose7Decompose7decompose7
Module
Foundation