Mercurial > repos > iuc > scater_plot_tsne
comparison scater-create-qcmetric-ready-sce.R @ 1:2b09ca1c5e41 draft
"planemo upload for repository https://github.com/galaxyproject/tools-iuc/tree/master/tools/scater commit 154318f74839a4481c7c68993c4fb745842c4cce"
author | iuc |
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date | Thu, 09 Sep 2021 12:24:39 +0000 |
parents | a30f4bfe8f01 |
children |
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0:a30f4bfe8f01 | 1:2b09ca1c5e41 |
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6 library(scater) | 6 library(scater) |
7 library(LoomExperiment) | 7 library(LoomExperiment) |
8 | 8 |
9 # parse options | 9 # parse options |
10 #SCE-specific options | 10 #SCE-specific options |
11 option_list = list( | 11 option_list <- list( |
12 make_option( | 12 make_option( |
13 c("-a", "--counts"), | 13 c("-a", "--counts"), |
14 action = "store", | 14 action = "store", |
15 default = NA, | 15 default = NA, |
16 type = 'character', | 16 type = "character", |
17 help = "A tab-delimited expression matrix. The first column of all files is assumed to be feature names and the first row is assumed to be sample names." | 17 help = "A tab-delimited expression matrix. The first column of all files is assumed to be feature names and the first row is assumed to be sample names." |
18 ), | 18 ), |
19 make_option( | 19 make_option( |
20 c("-r", "--row-data"), | 20 c("-r", "--row-data"), |
21 action = "store", | 21 action = "store", |
22 default = NULL, | 22 default = NULL, |
23 type = 'character', | 23 type = "character", |
24 help = "Path to TSV (tab-delimited) format file describing the features. Row names from the expression matrix (-a), if present, become the row names of the SingleCellExperiment." | 24 help = "Path to TSV (tab-delimited) format file describing the features. Row names from the expression matrix (-a), if present, become the row names of the SingleCellExperiment." |
25 ), | 25 ), |
26 make_option( | 26 make_option( |
27 c("-c", "--col-data"), | 27 c("-c", "--col-data"), |
28 action = "store", | 28 action = "store", |
29 default = NULL, | 29 default = NULL, |
30 type = 'character', | 30 type = "character", |
31 help = "Path to TSV format file describing the samples (annotation). The number of rows (samples) must equal the number of columns in the expression matrix." | 31 help = "Path to TSV format file describing the samples (annotation). The number of rows (samples) must equal the number of columns in the expression matrix." |
32 ), | 32 ), |
33 #The scater-specific options | 33 #The scater-specific options |
34 make_option( | 34 make_option( |
35 c("--assay-name"), | |
36 action = "store", | |
37 default = 'counts', | |
38 type = 'character', | |
39 help= "String specifying the name of the 'assay' of the 'object' that should be used to define expression." | |
40 ), | |
41 make_option( | |
42 c("-f", "--mt-controls"), | 35 c("-f", "--mt-controls"), |
43 action = "store", | 36 action = "store", |
44 default = NULL, | 37 default = NULL, |
45 type = 'character', | 38 type = "character", |
46 help = "Path to file containing a list of the mitochondrial control genes" | 39 help = "Path to file containing a list of the mitochondrial control genes" |
47 ), | 40 ), |
48 make_option( | 41 make_option( |
49 c("-p", "--ercc-controls"), | 42 c("-p", "--ercc-controls"), |
50 action = "store", | 43 action = "store", |
51 default = NULL, | 44 default = NULL, |
52 type = 'character', | 45 type = "character", |
53 help = "Path to file containing a list of the ERCC controls" | 46 help = "Path to file containing a list of the ERCC controls" |
54 ), | 47 ), |
55 make_option( | 48 make_option( |
56 c("-l", "--cell-controls"), | 49 c("-l", "--cell-controls"), |
57 action = "store", | 50 action = "store", |
58 default = NULL, | 51 default = NULL, |
59 type = 'character', | 52 type = "character", |
60 help = "Path to file (one cell per line) to be used to derive a vector of cell (sample) names used to identify cell controls (for example, blank wells or bulk controls)." | 53 help = "Path to file (one cell per line) to be used to derive a vector of cell (sample) names used to identify cell controls (for example, blank wells or bulk controls)." |
61 ), | 54 ), |
62 make_option( | 55 make_option( |
63 c("-o", "--output-loom"), | 56 c("-o", "--output-loom"), |
64 action = "store", | 57 action = "store", |
65 default = NA, | 58 default = NA, |
66 type = 'character', | 59 type = "character", |
67 help = "File name in which to store the SingleCellExperiment object in Loom format." | 60 help = "File name in which to store the SingleCellExperiment object in Loom format." |
68 ) | 61 ) |
69 ) | 62 ) |
70 | 63 |
71 opt <- wsc_parse_args(option_list, mandatory = c('counts', 'output_loom')) | 64 opt <- wsc_parse_args(option_list, mandatory = c("counts", "output_loom")) |
72 | 65 |
73 # Read the expression matrix | 66 # Read the expression matrix |
74 | 67 |
75 counts <- wsc_split_string(opt$counts) | 68 counts <- wsc_split_string(opt$counts) |
76 reads <- read.table(counts) | 69 reads <- read.table(counts) |
77 | 70 |
78 # Read row and column annotations | 71 # Read row and column annotations |
79 | 72 |
80 rowdata <- opt$row_data | 73 rowdata <- opt$row_data |
81 | 74 |
82 if ( ! is.null(opt$row_data) ){ | 75 if (! is.null(opt$row_data)) { |
83 rowdata <- read.delim(opt$row_data) | 76 rowdata <- read.delim(opt$row_data) |
84 } | 77 } |
85 | 78 |
86 coldata <- opt$col_data | 79 coldata <- opt$col_data |
87 | 80 |
88 if ( ! is.null(opt$col_data) ){ | 81 if (! is.null(opt$col_data)) { |
89 coldata <- read.delim(opt$col_data) | 82 coldata <- read.delim(opt$col_data) |
90 } | 83 } |
91 | 84 |
92 # Now build the object | 85 # Now build the object |
93 assays <- list(as.matrix(reads)) | |
94 names(assays) <- c(opt$assay_name) | |
95 scle <- SingleCellLoomExperiment(assays = assays, colData = coldata, rowData = rowdata) | |
96 # Define spikes (if supplied) | |
97 | 86 |
98 | 87 sce <- SingleCellLoomExperiment(assays = list(counts = as.matrix(reads)), colData = coldata) |
99 #Scater options | 88 #Scater options |
100 | 89 |
101 # Check feature_controls (only mitochondrial and ERCC used for now) | 90 # Check feature_controls (only mitochondrial and ERCC used for now) |
102 feature_controls_list = list() | 91 |
103 if (! is.null(opt$mt_controls) && opt$mt_controls != 'NULL'){ | 92 if (! is.null(opt$mt_controls)) { |
104 if (! file.exists(opt$mt_controls)){ | 93 if (! file.exists(opt$mt_controls)) { |
105 stop((paste('Supplied feature_controls file', opt$mt_controls, 'does not exist'))) | 94 stop((paste("Supplied feature_controls file", opt$mt_controls, "does not exist"))) |
106 } else { | 95 } else { |
107 mt_controls <- readLines(opt$mt_controls) | 96 mts <- readLines(opt$mt_controls) |
108 feature_controls_list[["MT"]] <- mt_controls | |
109 } | 97 } |
98 } else { | |
99 mts <- NULL | |
110 } | 100 } |
111 | 101 |
112 if (! is.null(opt$ercc_controls) && opt$ercc_controls != 'NULL'){ | 102 if (! is.null(opt$ercc_controls)) { |
113 if (! file.exists(opt$ercc_controls)){ | 103 if (! file.exists(opt$ercc_controls)) { |
114 stop((paste('Supplied feature_controls file', opt$ercc_controls, 'does not exist'))) | 104 stop((paste("Supplied feature_controls file", opt$ercc_controls, "does not exist"))) |
115 } else { | 105 } else { |
116 ercc_controls <- readLines(opt$ercc_controls) | 106 ercc_controls <- readLines(opt$ercc_controls) |
117 feature_controls_list[["ERCC"]] <- ercc_controls | |
118 } | 107 } |
119 } else { | 108 } else { |
120 ercc_controls <- character() | 109 ercc_controls <- NULL |
121 } | 110 } |
122 | 111 |
123 # Check cell_controls | 112 # Check cell_controls |
124 cell_controls_list <- list() | 113 |
125 if (! is.null(opt$cell_controls) && opt$cell_controls != 'NULL'){ | 114 if (! is.null(opt$cell_controls)) { |
126 if (! file.exists(opt$cell_controls)){ | 115 if (! file.exists(opt$cell_controls)) { |
127 stop((paste('Supplied feature_controls file', opt$cell_controls, 'does not exist'))) | 116 stop((paste("Supplied feature_controls file", opt$cell_controls, "does not exist"))) |
128 } else { | 117 } else { |
129 cell_controls <- readLines(opt$cell_controls) | 118 cell_controls <- readLines(opt$cell_controls) |
130 cell_controls_list[["empty"]] <- cell_controls | |
131 } | 119 } |
120 } else { | |
121 cell_controls <- NULL | |
132 } | 122 } |
133 | 123 |
124 # calculate QCMs | |
134 | 125 |
135 # calculate QCMs | 126 sce <- addPerCellQC(sce, subsets = list(Mito = mts, ERCC = ercc_controls, cell_controls = cell_controls)) |
136 scle <- calculateQCMetrics(scle, exprs_values = opt$assay_name, feature_controls = feature_controls_list, cell_controls = cell_controls_list) | |
137 | 127 |
138 # Output to a Loom file | 128 # Output to a Loom file |
139 if (file.exists(opt$output_loom)) { | 129 if (file.exists(opt$output_loom)) { |
140 file.remove(opt$output_loom) | 130 file.remove(opt$output_loom) |
141 } | 131 } |
142 export(scle, opt$output_loom, format='loom') | 132 export(sce, opt$output_loom, format = "loom") |