Convert objects to Seurat objects
as.Seurat(x, ...)# S3 method for CellDataSet
as.Seurat(x, slot = "counts", assay = "RNA",
verbose = TRUE, ...)
# S3 method for loom
as.Seurat(x, cells = "CellID", features = "Gene",
normalized = NULL, scaled = NULL, assay = NULL, verbose = TRUE,
...)
# S3 method for SingleCellExperiment
as.Seurat(x, counts = "counts",
data = "logcounts", assay = "RNA",
project = "SingleCellExperiment", ...)
An object to convert to class Seurat
Arguments passed to other methods
Slot to store expression data as
Name to store expression matrices as
Display progress updates
The name of the dataset within col_attrs containing cell names
The name of the dataset within row_attrs containing feature names
The name of the dataset within layers containing the
normalized expression matrix; pass /matrix (with preceeding forward slash) to store
/matrix as normalized data
The name of the dataset within layers containing the scaled expression matrix
name of the SingleCellExperiment assay to store as counts;
set to NULL if only normalized data are present
name of the SingleCellExperiment assay to slot as data.
Set to NULL if only counts are present
Project name for new Seurat object
The loom method for as.Seurat will try to automatically fill in a Seurat object based on data presence.
For example, if no normalized data is present, then scaled data, dimensional reduction informan, and neighbor graphs
will not be pulled as these depend on normalized data. The following is a list of how the Seurat object will be constructed
If no assay information is provided, will default to an assay name in a root-level HDF5 attribute called assay;
if no attribute is present, will default to "RNA"
Cell-level metadata will consist of all one-dimensional datasets in col_attrs except datasets named "ClusterID", "ClusterName",
and whatever is passed to cells
Identity classes will be set if either col_attrs/ClusterID or col_attrs/ClusterName are present; if both are present, then
the values in col_attrs/ClusterID will set the order (numeric value of a factor) for values in col_attrs/ClusterName
(charater value of a factor)
Feature-level metadata will consist of all one-dimensional datasets in row_attrs except datasets named "Selected" and whatever
is passed to features; any feature-level metadata named "variance_standardized", "variance_expected", or "dispersion_scaled" will have
underscores "_" replaced with a period "."
Variable features will be set if row_attrs/Selected exists and it is a numeric type
If a dataset is passed to normalized, stored as a sparse matrix in data;
if no dataset provided, scaled will be set to NULL
If a dataset is passed to scaled, stored as a dense matrix in scale.data; all rows entirely consisting of NAs
will be removed
If a dataset is passed to scaled, dimensional reduction information will assembled from cell embedding information
stored in col_attrs; cell embeddings will be pulled from two-dimensional datasets ending with "_cell_embeddings"; priority will
be given to cell embeddings that have the name of assay in their name; feature loadings will be added from two-dimensional
datasets in row_attrs that start with the name of the dimensional reduction and end with either "feature_loadings" or
"feature_loadings_projected" (priority given to the latter)
If a dataset is passed to scaled, neighbor graphs will be pulled from col_graphs, provided the name starts
with the value of assay
# NOT RUN {
lfile <- as.loom(x = pbmc_small)
pbmc <- as.Seurat(x = lfile)
# }
# NOT RUN {
# }
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