colonnade: Format multiple vectors in a tabular display
In pillar: Coloured Formatting for Columns
colonnade R Documentation
Format multiple vectors in a tabular display
Description
![[Soft-deprecated]](../help/figures/lifecycle-soft-deprecated.svg)
The vectors are formatted to fit horizontally into a user-supplied number of
characters per row.
The colonnade() function doesn't process the input but returns an object
with a format() and a print() method.
The implementations call squeeze() to create pillar objects and fit them to a given width.
Usage
colonnade(x, has_row_id = TRUE, width = NULL, ...)
Arguments
x
A list, which can contain matrices or data frames.
If named, the names will be used as title for the pillars. Non-syntactic names
will be escaped.
has_row_id
Include a column indicating row IDs? Pass "*" to mark
the row ID column with a star.
width
Default width of the entire output, optional.
...
These dots are for future extensions and must be empty.
Details
Pillars may be distributed over multiple tiers if
width > getOption("width"). In this case each tier is at most
getOption("width") characters wide. The very first step of formatting
is to determine how many tiers are shown at most, and the width of each
tier.
To avoid unnecessary computation for showing very wide colonnades, a first
pass tries to fit all capitals into the tiers.
For each pillar whose capital fits, it is then decided in which tier it is
shown, if at all, and how much horizontal space it may use (either its
minimum or its maximum width).
Remaining space is then distributed proportionally to pillars that do not
use their desired width.
For fitting pillars in one or more tiers, first a check is made
if all pillars fit with their maximum width (e.g.,
option(tibble.width = Inf) or narrow colonnade).
If yes, this is the resulting fit, no more work needs to be done.
Otherwise, if the maximum width is too wide, the same test
is carried out with the minimum width.
If this is still too wide, this is the resulting fit.
Otherwise, some tiers from the start
will contain pillars with their maximum width,
one tier will contain some pillars with maximum and some with minimum width,
and the remaining tiers contain pillars with their minimum width only.
For this, we compute a "reverse minimum assignment".
We determine the cut point where minimum and maximum assignment
agree.
The following strategy is applied:
First, we determine the tier in which the cut point lies.
This is the first instance of a column that ends up in the same tier
for both minimum and maximum assignment.
A set of candidate cut points is derived.
We consult the column offsets. The last column where the minimum assignment
has a greater or equal offset than the maximum assignment is our latest
cut point.
If no such column exists, the cut point is the column just before our
first candidate.
Finally, we combine maximum and minimum reverse fits at the cut point.
We don't need to redistribute anything here.
Fitting pillars into tiers is very similar to a word-wrapping algorithm.
In a loop, new tiers are opened if the current tier overflows.
If a column is too wide to fit a single tier, it will never be
displayed, and the colonnade will be truncated there.
This case should never occur with reasonable display widths larger than
30 characters.
Truncation also happens if all available tiers are filled.
The remaining space is distributed from left to right.
Each column gains space proportional to the fraction of missing and
remaining space,
rounded down.
Any space remaining after rounding is distributed from left to right,
one space per column.
pillar documentation built on March 31, 2023, 10:19 p.m.
R Package Documentation
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
| colonnade | R Documentation |
Format multiple vectors in a tabular display
Description
The vectors are formatted to fit horizontally into a user-supplied number of characters per row.
The colonnade() function doesn't process the input but returns an object
with a format() and a print() method.
The implementations call squeeze() to create pillar objects and fit them to a given width.
Usage
colonnade(x, has_row_id = TRUE, width = NULL, ...)
Arguments
x |
A list, which can contain matrices or data frames. If named, the names will be used as title for the pillars. Non-syntactic names will be escaped. |
has_row_id |
Include a column indicating row IDs? Pass |
width |
Default width of the entire output, optional. |
... |
These dots are for future extensions and must be empty. |
Details
Pillars may be distributed over multiple tiers if
width > getOption("width"). In this case each tier is at most
getOption("width") characters wide. The very first step of formatting
is to determine how many tiers are shown at most, and the width of each
tier.
To avoid unnecessary computation for showing very wide colonnades, a first pass tries to fit all capitals into the tiers. For each pillar whose capital fits, it is then decided in which tier it is shown, if at all, and how much horizontal space it may use (either its minimum or its maximum width). Remaining space is then distributed proportionally to pillars that do not use their desired width.
For fitting pillars in one or more tiers, first a check is made
if all pillars fit with their maximum width (e.g.,
option(tibble.width = Inf) or narrow colonnade).
If yes, this is the resulting fit, no more work needs to be done.
Otherwise, if the maximum width is too wide, the same test
is carried out with the minimum width.
If this is still too wide, this is the resulting fit.
Otherwise, some tiers from the start
will contain pillars with their maximum width,
one tier will contain some pillars with maximum and some with minimum width,
and the remaining tiers contain pillars with their minimum width only.
For this, we compute a "reverse minimum assignment".
We determine the cut point where minimum and maximum assignment agree. The following strategy is applied:
First, we determine the tier in which the cut point lies. This is the first instance of a column that ends up in the same tier for both minimum and maximum assignment.
A set of candidate cut points is derived.
We consult the column offsets. The last column where the minimum assignment has a greater or equal offset than the maximum assignment is our latest cut point. If no such column exists, the cut point is the column just before our first candidate.
Finally, we combine maximum and minimum reverse fits at the cut point. We don't need to redistribute anything here.
Fitting pillars into tiers is very similar to a word-wrapping algorithm. In a loop, new tiers are opened if the current tier overflows. If a column is too wide to fit a single tier, it will never be displayed, and the colonnade will be truncated there. This case should never occur with reasonable display widths larger than 30 characters. Truncation also happens if all available tiers are filled.
The remaining space is distributed from left to right. Each column gains space proportional to the fraction of missing and remaining space, rounded down. Any space remaining after rounding is distributed from left to right, one space per column.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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