This package can be used to render character-based table layouts which should be displayed with monospace fonts.
The focus of this library lies on rendering cells with different styles per column:
- Columns can be fixed in size or expanding to make content fit.
- Whenever content has to be cut, it is possible to indicate this with special strings, which are called cut marks.
- Columns can be positionally aligned as
left
,right
orcenter
. - Columns may also be aligned at certain character occurence with respect to the other cells of that column. One such purpose is to display floating point numbers.
Those specifications are then applied to a list of rows. A row is simply a list of a cell. A cell is a type that implements the Cell
type class.
Typically cells are rendered as a grid, but it is also possible to render tables with simulated lines, including styling support. Such tables can use optional headers and multiple lines per cell. Multi-line content can be aligned vertically, with respect to the other horizontally adjacent cells, and text can be rendered justified.
Render some text rows as grid:
> let g = [["top left", "top right"], ["bottom left", "bottom right"]]
> putStrLn $ gridString [column expand left def def, column expand right def def] g
gridString
will join cells with a whitespace and rows with a newline character. The result is not spectacular but does look as expected:
top left top right
bottom left bottom right
There are sensible default values for all column specification types, even for columns. We could have used just def
for the first column.
Additionally some common types are provided. A particularly useful one is numCol
:
> import Numeric
> let toRow d = [showFFloat Nothing d ""]
> mapM_ putStrLn $ gridLines [numCol] $ toRow <$> [1.2, 100.5, 0.037, 5000.00001]
This will display the given numbers as a dot-aligned single column:
1.2
100.5
0.037
5000.00001
Big grids are usually not that readable. To improve their readability, two functions are provided:
altLines
will apply the given function in an alternating pattern. E.g., color every second row grey.checkeredCells
will checker cells with 2 different functions.
A good way to use this would be the ansi-terminal package, provided you are using a terminal to output your text. Another way to introduce color into cells is the Formatted
type:
> :set -XOverloadedStrings
> import Text.Layout.Table.Cell.Formatted
> import System.Console.ANSI.Codes
> let red s = formatted (setSGRCode [SetColor Foreground Dull Red]) (plain s) (setSGRCode [Reset])
> let g = [["Jim", "1203"], ["Jane", "523"], ["Jack", red "-959000"]]
> putStrLn $ gridString [def, numCol] g
This way the color can depend on the cell content.
For more complex data, grids do not offer as much visibility. Sometimes we want to explicitly display a table, for example, as output in a database application. tableLines
and tableString
are used to create a table.
> let t = headerlessTableS [def , numCol] unicodeRoundS [rowG ["Jack", "184.74"], rowG ["Jane", "162.2"]]
> putStrLn $ tableString t
A row group is a group of rows which are not visually separated from each other. Thus multiple rows form one cell.
In addition we specify the style and an optional header. By default the header is not visible. This will yield the following result:
╭──────┬────────╮
│ Jack │ 184.74 │
├──────┼────────┤
│ Jane │ 162.2 │
╰──────┴────────╯
Optionally we can use table headers. titlesH
will center titles, whereas fullH
allows more control:
> let cs = [fixedLeftCol 10, column (fixed 10) center dotAlign def]
> let h = (titlesH ["Text", "Number"])
> let rgs = [rowG ["A very long text", "0.42000000"], rowG ["Short text", "100200.5"]]
> let t = columnHeaderTableS cs unicodeS h rgs
> putStrLn $ tableString t
Headers are always displayed with a different style than the other columns (centered by default). A maximum column width is respected, otherwise a header may acquire additional space.
┌────────────┬────────────┐
│ Text │ Number │
╞════════════╪════════════╡
│ A very lo… │ 0.42000… │
├────────────┼────────────┤
│ Short text │ …00.5 │
└────────────┴────────────┘
Because a row group consists of multiple lines, we may also want to align the content of cells vertically, especially when we do not know how many lines there will be. The following piece of code will display a left-justified text alongside the length of the text:
> let txt = "Lorem ipsum ..."
> let rgs = [colsAllG center [justifyText 50 txt, [show $ length txt]]]
> let cs = [fixedLeftCol 50, numCol]
> let h = titlesH ["Text", "Length"]
> let t = columnHeaderTableS cs asciiS h rgs
> putStrLn $ tableString t
colsAllG
will merge the given columns into a row group with the given positioning:
+----------------------------------------------------+--------+
| Text | Length |
+----------------------------------------------------+--------+
| Lorem ipsum dolor sit amet, consectetur adipisici | |
| elit, sed eiusmod tempor incidunt ut labore et | |
| dolore magna aliqua. Ut enim ad minim veniam, quis | |
| nostrud exercitation ullamco laboris nisi ut | |
| aliquid ex ea commodi consequat. Quis aute iure | 429 |
| reprehenderit in voluptate velit esse cillum | |
| dolore eu fugiat nulla pariatur. Excepteur sint | |
| obcaecat cupiditat non proident, sunt in culpa qui | |
| officia deserunt mollit anim id est laborum. | |
+----------------------------------------------------+--------+
Additionally, the positioning can be specified for each column with colsG
. For grids colsAsRows
and colsAsRowsAll
are provided.
- Please report issues and suggestions to the GitHub page.
- Any kind of feedback is welcome.
- Contributions are much appreciated. Contact me first for bigger changes.