Description Usage Arguments Details Value See Also Examples
Functions for the intersection of data frames with TCR / Ig data.
See the repOverlap
function for a general interface to all overlap analysis functions.
intersectClonesets
- returns number of similar elements in the given two clonesets / data frames or matrix
with counts of similar elements among each pair of objects in the given list.
intersectCount
- similar to tcR::intersectClonesets
, but with fewer parameters and only for two objects.
intersectIndices
- returns matrix M with two columns, where element with index M[i, 1] in the first
given object is similar to an element with index M[i, 2] in the second given object.
intersectLogic
- returns logic vector with TRUE values in positions, where element in the first given data frame
is found in the second given data frame.
1 2 3 4 5 6 7 8 | intersectClonesets(.alpha = NULL, .beta = NULL, .type = "n0e", .head = -1, .norm = F,
.verbose = F)
intersectCount(.alpha, .beta, .method = c('exact', 'hamm', 'lev'), .col = NULL)
intersectIndices(.alpha, .beta, .method = c('exact', 'hamm', 'lev'), .col = NULL)
intersectLogic(.alpha, .beta, .method = c('exact', 'hamm', 'lev'), .col = NULL)
|
.alpha |
Either first vector or data.frame or list with data.frames. |
.beta |
Second vector or data.frame or type of intersection procedure (see the |
.type |
Types of intersection procedure if |
.head |
Parameter for the |
.norm |
If TRUE than normalise result by product of length or nrows of the given data. |
.verbose |
if T then produce output of processing the data. |
.method |
Method to use for intersecting string elements: 'exact' for exact matching, 'hamm' for matching strings which have <= 1 hamming distance, 'lev' for matching strings which have <= 1 levenshtein (edit) distance between them. |
.col |
Which columns use for fetching values to intersect. First supplied column matched with |
Parameter .type
of the intersectClonesets
function is a string of length 3
[0an][0vja][ehl], where:
First character defines which elements intersect ("a" for elements from the column "CDR3.amino.acid.sequence", "n" for elements from the column "CDR3.nucleotide.sequence", other characters - intersect elements as specified);
Second character defines which columns additionaly script should use ('0' for cross with no additional columns, 'v' for cross using the "V.gene" column, 'j' for cross using "J.gene" column, 'a' for cross using both "V.gene" and "J.gene" columns);
Third character defines a method of search for similar sequences is use: "e" stands for the exact match of sequnces, "h" for match elements which have the Hamming distance between them equal to or less than 1, "l" for match elements which have the Levenshtein distance between tham equal to or less than 1.
intersectClonesets
returns (normalised) number of similar elements or matrix with numbers of elements.
intersectCount
returns number of similar elements.
intersectIndices
returns 2-row matrix with the first column stands for an index of an element in the given x
, and the second column stands for an index of an element of y
which is similar to a relative element in x
;
intersectLogic
returns logical vector of length(x)
or nrow(x)
, where TRUE at position i
means that element with index i has been found in the y
repOverlap, vis.heatmap, ozScore, permutDistTest, vis.group.boxplot
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 | ## Not run:
data(twb)
# Equivalent to intersectClonesets(twb[[1]]$CDR3.nucleotide.sequence,
# twb[[2]]$CDR3.nucleotide.sequence)
# or intersectCount(twb[[1]]$CDR3.nucleotide.sequence,
# twb[[2]]$CDR3.nucleotide.sequence)
# First "n" stands for a "CDR3.nucleotide.sequence" column, "e" for exact match.
twb.12.n0e <- intersectClonesets(twb[[1]], twb[[2]], 'n0e')
stopifnot(twb.12.n0e == 46)
# First "a" stands for "CDR3.amino.acid.sequence" column.
# Second "v" means that intersect should also use the "V.gene" column.
intersectClonesets(twb[[1]], twb[[2]], 'ave')
# Works also on lists, performs all possible pairwise intersections.
intersectClonesets(twb, 'ave')
# Plot results.
vis.heatmap(intersectClonesets(twb, 'ave'), .title = 'twb - (ave)-intersection', .labs = '')
# Get elements which are in both twb[[1]] and twb[[2]].
# Elements are tuples of CDR3 nucleotide sequence and corresponding V-segment
imm.1.2 <- intersectLogic(twb[[1]], twb[[2]],
.col = c('CDR3.amino.acid.sequence', 'V.gene'))
head(twb[[1]][imm.1.2, c('CDR3.amino.acid.sequence', 'V.gene')])
data(twb)
ov <- repOverlap(twb)
sb <- matrixSubgroups(ov, list(tw1 = c('Subj.A', 'Subj.B'), tw2 = c('Subj.C', 'Subj.D')));
vis.group.boxplot(sb)
## End(Not run)
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