Create a track for genomic graphics
circos.genomicTrackPlotRegion(data = NULL, ylim = NULL, stack = FALSE,
numeric.column = NULL, jitter = 0,
panel.fun = function(region, value, ...) {NULL}, ...)
A bed-file-like data frame or a list of data frames
If it is NULL
, the value will be calculated from data. If stack
is set to TRUE
, this value is ignored.
whether to plot in a "stack" mode.
Columns of numeric values in data
that will be used for plotting.
If data
is a data frame list, numeric.column
should be either length of one or length of data
.
If value of numeric.column
is not set, its value will depend on the structure of data
.
If data
is a data frame, the default value for numeric.column
is all the numeric column starting from the fourth column.
If data
is a list of data frame, the default value for numeric.column
is a vector which have the same length as data
and the value in default numeric.column
is the index of the first numeric column in corresponding data frame.
Numeric. Only works for adding points in circos.genomicTrackPlotRegion
under stack
mode
Self-defined function which will be applied on each sector. Please not it is different
from that in circos.trackPlotRegion
. In this function, there are two arguments (region
and value
) plus ...
.
In them, region
is a two-column data frame with start positions and end positions in current genomic category (e.g. chromosome).
value
is a data frame which is derived from data
but excluding the first three columns. Rows in value
correspond to
rows in region
. ...
is mandatory and is used to pass internal parameters to other functions. The definition of
value
will be different according to different input data (data frame or list of data frame) and different settings (stacked or not),
please refer to 'details' section and vignettes to detailed explanation.
Pass to circos.trackPlotRegion
.
Similar as circos.trackPlotRegion
, users can add customized graphics by panel.fun
, but the behaviour of panel.fun
will change depending on users' input data and stack
setting.
When data
is a single data frame, region
in panel.fun
is a data frame containing the second and third column in data
in 'current` genomic category (e.g. current chromosome).
value
is also a data frame containing columns in data
excluding the first three columns.
When data
is a list containing data frames, panel.fun
will be applied iteratively on each data frame, thus,
region
is extracted from the data frame which is in the current iteration. For example, if data
contains two data frames, panel.fun
will be applied with the first data frame in current chromosome and then applied with the second data frame in the same chromosome.
If stack
is set to TRUE
, ylim
will be re-defined. in stack
mode, the y-axis will be splitted into several part
with equal height and graphics will be drawn on each 'horizontal' lines (y = 1, 2, ...). In this case:
When data
is a single data frame containing one or more numeric columns, each numeric column defined in numeric.column
will be treated as a single unit.
ylim
is re-defined to c(0.5, n+0.5)
in which n
is number of numeric columns. panel.fun
will be applied iteratively on each numeric column. In each
iteration, in panel.fun
, region
is still the genomic regions in current genomic category, but value
contains current numeric column plus all non-numeric columns.
Under stack
mode, in panel.fun
, all low-level genomic graphical functions will draw on the 'horizontal line' y = i
in which i
is the index of current numeric column
and the value of i
can be obtained by getI
.
When data
is a list containing data frames, each data frame will be treated as a single unit. The situation is quite similar as described in previous paragraph.
ylim
is re-defined to c(0.5, n+0.5)
in which n
is number of data frames. panel.fun
will be applied iteratively on each data frame. In each
iteration, in panel.fun
, region
is still the genomic regions in current genomic category, and value
contains columns in current data frame excluding the first three columns.
Under stack
mode, in panel.fun
, all low-level genomic graphical functions will draw on the 'horizontal line' y = i
in which i
is the index of current data frame.
Being different from panel.fun
in circos.trackPlotRegion
, there should be an additional argument ...
in panel.fun
. This additional
argument is used to pass hidden values to low-level graphical functions. So if you are using functions like circos.genomicPoints
, you should also
add ...
as an additional argument into circos.genomicPoints
.
Gu, Z. (2014) circlize implements and enhances circular visualization in R. Bioinformatics.
# NOT RUN {
# There is no example
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# }
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