本文整理汇总了Python中mvpa2.datasets.base.Dataset.a[sprefix+"_dim"]方法的典型用法代码示例。如果您正苦于以下问题:Python Dataset.a[sprefix+"_dim"]方法的具体用法?Python Dataset.a[sprefix+"_dim"]怎么用?Python Dataset.a[sprefix+"_dim"]使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类mvpa2.datasets.base.Dataset的用法示例。
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示例1: fmri_dataset
# 需要导入模块: from mvpa2.datasets.base import Dataset [as 别名]
# 或者: from mvpa2.datasets.base.Dataset import a[sprefix+"_dim"] [as 别名]
def fmri_dataset(samples, targets=None, chunks=None, mask=None, sprefix="voxel", tprefix="time", add_fa=None):
"""Create a dataset from an fMRI timeseries image.
The timeseries image serves as the samples data, with each volume becoming
a sample. All 3D volume samples are flattened into one-dimensional feature
vectors, optionally being masked (i.e. subset of voxels corresponding to
non-zero elements in a mask image).
In addition to (optional) samples attributes for targets and chunks the
returned dataset contains a number of additional attributes:
Samples attributes (per each volume):
* volume index (time_indices)
* volume acquisition time (time_coord)
Feature attributes (per each voxel):
* voxel indices (voxel_indices), sometimes referred to as ijk
Dataset attributes:
* dump of the image (e.g. NIfTI) header data (imghdr)
* class of the image (e.g. Nifti1Image) (imgtype)
* volume extent (voxel_dim)
* voxel extent (voxel_eldim)
The default attribute name is listed in parenthesis, but may be altered by
the corresponding prefix arguments. The validity of the attribute values
relies on correct settings in the NIfTI image header.
Parameters
----------
samples : str or NiftiImage or list
fMRI timeseries, specified either as a filename (single file 4D image),
an image instance (4D image), or a list of filenames or image instances
(each list item corresponding to a 3D volume).
targets : scalar or sequence
Label attribute for each volume in the timeseries, or a scalar value that
is assigned to all samples.
chunks : scalar or sequence
Chunk attribute for each volume in the timeseries, or a scalar value that
is assigned to all samples.
mask : str or NiftiImage
Filename or image instance of a 3D volume mask. Voxels corresponding to
non-zero elements in the mask will be selected. The mask has to be in the
same space (orientation and dimensions) as the timeseries image
sprefix : str or None
Prefix for attribute names describing spatial properties of the
timeseries. If None, no such attributes are stored in the dataset.
tprefix : str or None
Prefix for attribute names describing temporal properties of the
timeseries. If None, no such attributes are stored in the dataset.
add_fa : dict or None
Optional dictionary with additional volumetric data that shall be stored
as feature attributes in the dataset. The dictionary key serves as the
feature attribute name. Each value might be of any type supported by the
'mask' argument of this function.
Returns
-------
Dataset
"""
# load the samples
imgdata, imghdr, imgtype = _load_anyimg(samples, ensure=True, enforce_dim=4)
# figure out what the mask is, but only handle known cases, the rest
# goes directly into the mapper which maybe knows more
maskimg = _load_anyimg(mask)
if maskimg is None:
pass
else:
# take just data and ignore the header
mask = maskimg[0]
# compile the samples attributes
sa = {}
if not targets is None:
sa["targets"] = _expand_attribute(targets, imgdata.shape[0], "targets")
if not chunks is None:
sa["chunks"] = _expand_attribute(chunks, imgdata.shape[0], "chunks")
# create a dataset
ds = Dataset(imgdata, sa=sa)
if sprefix is None:
space = None
else:
space = sprefix + "_indices"
ds = ds.get_mapped(FlattenMapper(shape=imgdata.shape[1:], space=space))
# now apply the mask if any
if not mask is None:
flatmask = ds.a.mapper.forward1(mask)
# direct slicing is possible, and it is potentially more efficient,
# so let's use it
# mapper = StaticFeatureSelection(flatmask)
# ds = ds.get_mapped(StaticFeatureSelection(flatmask))
ds = ds[:, flatmask != 0]
# load and store additional feature attributes
#.........这里部分代码省略.........