Copyright | Ivan Lazar Miljenovic (c) 2010 Daan Leijen (c) 2000 http://www.cs.uu.nl/~daan |
---|---|
License | BSD-style (see the file LICENSE) |
Maintainer | Ivan.Miljenovic@gmail.com |
Stability | provisional |
Portability | portable |
Safe Haskell | Safe |
Language | Haskell98 |
This module provides a version of
Text.PrettyPrint.Leijen.Text where the combinators have been
lifted into a Monad
. The main usage for this is for state-based
pretty-printing.
- data Doc
- empty :: Applicative m => m Doc
- char :: Applicative m => Char -> m Doc
- text :: Applicative m => Text -> m Doc
- textStrict :: Monad m => Text -> m Doc
- (<>) :: Applicative m => m Doc -> m Doc -> m Doc
- nest :: Functor m => Int -> m Doc -> m Doc
- line :: Applicative m => m Doc
- linebreak :: Applicative m => m Doc
- group :: Functor m => m Doc -> m Doc
- softline :: Applicative m => m Doc
- softbreak :: Applicative m => m Doc
- spacebreak :: Applicative m => m Doc
- align :: Functor m => m Doc -> m Doc
- hang :: Functor m => Int -> m Doc -> m Doc
- indent :: Functor m => Int -> m Doc -> m Doc
- encloseSep :: Applicative m => m Doc -> m Doc -> m Doc -> m [Doc] -> m Doc
- list :: Functor m => m [Doc] -> m Doc
- tupled :: Functor m => m [Doc] -> m Doc
- semiBraces :: Functor m => m [Doc] -> m Doc
- (<+>) :: Applicative m => m Doc -> m Doc -> m Doc
- (<++>) :: Applicative m => m Doc -> m Doc -> m Doc
- (<$>) :: Applicative m => m Doc -> m Doc -> m Doc
- (</>) :: Applicative m => m Doc -> m Doc -> m Doc
- (<$$>) :: Applicative m => m Doc -> m Doc -> m Doc
- (<//>) :: Applicative m => m Doc -> m Doc -> m Doc
- hsep :: Functor m => m [Doc] -> m Doc
- vsep :: Functor m => m [Doc] -> m Doc
- fillSep :: Functor m => m [Doc] -> m Doc
- sep :: Functor m => m [Doc] -> m Doc
- hcat :: Functor m => m [Doc] -> m Doc
- vcat :: Functor m => m [Doc] -> m Doc
- fillCat :: Functor m => m [Doc] -> m Doc
- cat :: Functor m => m [Doc] -> m Doc
- punctuate :: Applicative m => m Doc -> m [Doc] -> m [Doc]
- fill :: Functor m => Int -> m Doc -> m Doc
- fillBreak :: Functor m => Int -> m Doc -> m Doc
- enclose :: Applicative m => m Doc -> m Doc -> m Doc -> m Doc
- squotes :: Functor m => m Doc -> m Doc
- dquotes :: Functor m => m Doc -> m Doc
- parens :: Functor m => m Doc -> m Doc
- angles :: Functor m => m Doc -> m Doc
- braces :: Functor m => m Doc -> m Doc
- brackets :: Functor m => m Doc -> m Doc
- lparen :: Applicative m => m Doc
- rparen :: Applicative m => m Doc
- langle :: Applicative m => m Doc
- rangle :: Applicative m => m Doc
- lbrace :: Applicative m => m Doc
- rbrace :: Applicative m => m Doc
- lbracket :: Applicative m => m Doc
- rbracket :: Applicative m => m Doc
- squote :: Applicative m => m Doc
- dquote :: Applicative m => m Doc
- semi :: Applicative m => m Doc
- colon :: Applicative m => m Doc
- comma :: Applicative m => m Doc
- space :: Applicative m => m Doc
- dot :: Applicative m => m Doc
- backslash :: Applicative m => m Doc
- equals :: Applicative m => m Doc
- string :: Applicative m => Text -> m Doc
- stringStrict :: Monad m => Text -> m Doc
- int :: Applicative m => Int -> m Doc
- integer :: Applicative m => Integer -> m Doc
- float :: Applicative m => Float -> m Doc
- double :: Applicative m => Double -> m Doc
- rational :: Applicative m => Rational -> m Doc
- bool :: Applicative m => Bool -> m Doc
- column :: Functor m => m (Int -> Doc) -> m Doc
- nesting :: Functor m => m (Int -> Doc) -> m Doc
- width :: Applicative m => m Doc -> m (Int -> Doc) -> m Doc
- class Pretty a where
- prettyM :: (Pretty a, Applicative m) => a -> m Doc
- data SimpleDoc
- renderPretty :: Float -> Int -> Doc -> SimpleDoc
- renderCompact :: Doc -> SimpleDoc
- renderOneLine :: Doc -> SimpleDoc
- displayB :: SimpleDoc -> Builder
- displayT :: SimpleDoc -> Text
- displayTStrict :: SimpleDoc -> Text
- displayIO :: Handle -> SimpleDoc -> IO ()
- putDoc :: Doc -> IO ()
- hPutDoc :: Handle -> Doc -> IO ()
Documents
The abstract data type Doc
represents pretty documents.
Doc
is an instance of the Show
class. (show doc)
pretty
prints document doc
with a page width of 100 characters and a
ribbon width of 40 characters.
show (text "hello" <$> text "world")
Which would return the string "hello\nworld", i.e.
hello world
Basic combinators
empty :: Applicative m => m Doc Source #
The empty document is, indeed, empty. Although empty
has no
content, it does have a 'height' of 1 and behaves exactly like
(text "")
(and is therefore not a unit of <$>
).
char :: Applicative m => Char -> m Doc Source #
The document (char c)
contains the literal character c
. The
character shouldn't be a newline ('\n'
), the function line
should be used for line breaks.
text :: Applicative m => Text -> m Doc Source #
The document (text s)
contains the literal string s
. The
string shouldn't contain any newline ('\n'
) characters. If the
string contains newline characters, the function string
should
be used.
(<>) :: Applicative m => m Doc -> m Doc -> m Doc infixr 6 Source #
The document (x <> y)
concatenates document x
and document
y
. It is an associative operation having empty
as a left and
right unit. (infixr 6)
line :: Applicative m => m Doc Source #
The line
document advances to the next line and indents to the
current nesting level. Document line
behaves like (text "
")
if the line break is undone by group
or if rendered with
renderOneLine
.
linebreak :: Applicative m => m Doc Source #
group :: Functor m => m Doc -> m Doc Source #
The group
combinator is used to specify alternative
layouts. The document (group x)
undoes all line breaks in
document x
. The resulting line is added to the current line if
that fits the page. Otherwise, the document x
is rendered
without any changes.
softline :: Applicative m => m Doc Source #
softbreak :: Applicative m => m Doc Source #
spacebreak :: Applicative m => m Doc Source #
The document spacebreak
behaves like space
when rendered normally
but like empty
when using renderCompact
or renderOneLine
.
Alignment
The combinators in this section can not be described by Wadler's
original combinators. They align their output relative to the
current output position - in contrast to nest
which always
aligns to the current nesting level. This deprives these
combinators from being `optimal'. In practice however they
prove to be very useful. The combinators in this section should
be used with care, since they are more expensive than the other
combinators. For example, align
shouldn't be used to pretty
print all top-level declarations of a language, but using hang
for let expressions is fine.
align :: Functor m => m Doc -> m Doc Source #
The document (align x)
renders document x
with the nesting
level set to the current column. It is used for example to
implement hang
.
As an example, we will put a document right above another one, regardless of the current nesting level:
x $$ y = align (x <$> y)
test = text "hi" <+> (text "nice" $$ text "world")
which will be laid out as:
hi nice world
hang :: Functor m => Int -> m Doc -> m Doc Source #
The hang combinator implements hanging indentation. The document
(hang i x)
renders document x
with a nesting level set to the
current column plus i
. The following example uses hanging
indentation for some text:
test = hang 4 (fillSep (map text (words "the hang combinator indents these words !")))
Which lays out on a page with a width of 20 characters as:
the hang combinator indents these words !
The hang
combinator is implemented as:
hang i x = align (nest i x)
indent :: Functor m => Int -> m Doc -> m Doc Source #
The document (indent i x)
indents document x
with i
spaces.
test = indent 4 (fillSep (map text (words "the indent combinator indents these words !")))
Which lays out with a page width of 20 as:
the indent combinator indents these words !
encloseSep :: Applicative m => m Doc -> m Doc -> m Doc -> m [Doc] -> m Doc Source #
The document (encloseSep l r sep xs)
concatenates the documents
xs
separated by sep
and encloses the resulting document by
l
and r
. The documents are rendered horizontally if that fits
the page. Otherwise they are aligned vertically. All separators
are put in front of the elements. For example, the combinator
list
can be defined with encloseSep
:
list xs = encloseSep lbracket rbracket comma xs test = text "list" <+> (list (map int [10,200,3000]))
Which is laid out with a page width of 20 as:
list [10,200,3000]
But when the page width is 15, it is laid out as:
list [10 ,200 ,3000]
list :: Functor m => m [Doc] -> m Doc Source #
The document (list xs)
comma separates the documents xs
and
encloses them in square brackets. The documents are rendered
horizontally if that fits the page. Otherwise they are aligned
vertically. All comma separators are put in front of the
elements.
tupled :: Functor m => m [Doc] -> m Doc Source #
The document (tupled xs)
comma separates the documents xs
and
encloses them in parenthesis. The documents are rendered
horizontally if that fits the page. Otherwise they are aligned
vertically. All comma separators are put in front of the
elements.
semiBraces :: Functor m => m [Doc] -> m Doc Source #
The document (semiBraces xs)
separates the documents xs
with
semi colons and encloses them in braces. The documents are
rendered horizontally if that fits the page. Otherwise they are
aligned vertically. All semi colons are put in front of the
elements.
Operators
(<+>) :: Applicative m => m Doc -> m Doc -> m Doc infixr 6 Source #
The document (x <+> y)
concatenates document x
and y
with
a space
in between. (infixr 6)
(<++>) :: Applicative m => m Doc -> m Doc -> m Doc infixr 6 Source #
The document (x <++> y)
concatenates document x
and y
with
a spacebreak
in between. (infixr 6)
(<$>) :: Applicative m => m Doc -> m Doc -> m Doc infixr 5 Source #
The document (x <$> y)
concatenates document x
and y
with
a line
in between. (infixr 5)
(</>) :: Applicative m => m Doc -> m Doc -> m Doc infixr 5 Source #
The document (x </> y)
concatenates document x
and y
with a softline
in between. This effectively puts x
and y
either next to each other (with a space
in between) or
underneath each other. (infixr 5)
(<$$>) :: Applicative m => m Doc -> m Doc -> m Doc infixr 5 Source #
The document (x <$$> y)
concatenates document x
and y
with a linebreak
in between. (infixr 5)
(<//>) :: Applicative m => m Doc -> m Doc -> m Doc infixr 5 Source #
The document (x <//> y)
concatenates document x
and y
with a softbreak
in between. This effectively puts x
and y
either right next to each other or underneath each other. (infixr
5)
List combinators
hsep :: Functor m => m [Doc] -> m Doc Source #
The document (hsep xs)
concatenates all documents xs
horizontally with (<+>)
.
vsep :: Functor m => m [Doc] -> m Doc Source #
The document (vsep xs)
concatenates all documents xs
vertically with (<$>)
. If a group
undoes the line breaks
inserted by vsep
, all documents are separated with a space.
someText = map text (words ("text to lay out")) test = text "some" <+> vsep someText
This is laid out as:
some text to lay out
The align
combinator can be used to align the documents under
their first element
test = text "some" <+> align (vsep someText)
Which is printed as:
some text to lay out
fillSep :: Functor m => m [Doc] -> m Doc Source #
The document (fillSep xs)
concatenates documents xs
horizontally with (<+>)
as long as its fits the page, then
inserts a line
and continues doing that for all documents in
xs
.
fillSep xs = foldr (</>) empty xs
sep :: Functor m => m [Doc] -> m Doc Source #
The document (sep xs)
concatenates all documents xs
either
horizontally with (<+>)
, if it fits the page, or vertically
with (<$>)
.
sep xs = group (vsep xs)
hcat :: Functor m => m [Doc] -> m Doc Source #
The document (hcat xs)
concatenates all documents xs
horizontally with (<>)
.
vcat :: Functor m => m [Doc] -> m Doc Source #
The document (vcat xs)
concatenates all documents xs
vertically with (<$$>)
. If a group
undoes the line breaks
inserted by vcat
, all documents are directly concatenated.
fillCat :: Functor m => m [Doc] -> m Doc Source #
The document (fillCat xs)
concatenates documents xs
horizontally with (<>)
as long as its fits the page, then
inserts a linebreak
and continues doing that for all documents
in xs
.
fillCat xs = foldr (<//>) empty xs
cat :: Functor m => m [Doc] -> m Doc Source #
The document (cat xs)
concatenates all documents xs
either
horizontally with (<>)
, if it fits the page, or vertically
with (<$$>)
.
cat xs = group (vcat xs)
punctuate :: Applicative m => m Doc -> m [Doc] -> m [Doc] Source #
(punctuate p xs)
concatenates all documents in xs
with
document p
except for the last document.
someText = map text ["words","in","a","tuple"] test = parens (align (cat (punctuate comma someText)))
This is laid out on a page width of 20 as:
(words,in,a,tuple)
But when the page width is 15, it is laid out as:
(words, in, a, tuple)
(If you want put the commas in front of their elements instead of
at the end, you should use tupled
or, in general, encloseSep
.)
Fillers
fill :: Functor m => Int -> m Doc -> m Doc Source #
The document (fill i x)
renders document x
. It then appends
space
s until the width is equal to i
. If the width of x
is
already larger, nothing is appended. This combinator is quite
useful in practice to output a list of bindings. The following
example demonstrates this.
types = [("empty","Doc") ,("nest","Int -> Doc -> Doc") ,("linebreak","Doc")] ptype (name,tp) = fill 6 (text name) <+> text "::" <+> text tp test = text "let" <+> align (vcat (map ptype types))
Which is laid out as:
let empty :: Doc nest :: Int -> Doc -> Doc linebreak :: Doc
fillBreak :: Functor m => Int -> m Doc -> m Doc Source #
The document (fillBreak i x)
first renders document x
. It
then appends space
s until the width is equal to i
. If the
width of x
is already larger than i
, the nesting level is
increased by i
and a line
is appended. When we redefine
ptype
in the previous example to use fillBreak
, we get a
useful variation of the previous output:
ptype (name,tp) = fillBreak 6 (text name) <+> text "::" <+> text tp
The output will now be:
let empty :: Doc nest :: Int -> Doc -> Doc linebreak :: Doc
Bracketing combinators
enclose :: Applicative m => m Doc -> m Doc -> m Doc -> m Doc Source #
The document (enclose l r x)
encloses document x
between
documents l
and r
using (<>)
.
enclose l r x = l <> x <> r
squotes :: Functor m => m Doc -> m Doc Source #
Document (squotes x)
encloses document x
with single quotes
"'".
dquotes :: Functor m => m Doc -> m Doc Source #
Document (dquotes x)
encloses document x
with double quotes
'"'.
parens :: Functor m => m Doc -> m Doc Source #
Document (parens x)
encloses document x
in parenthesis, "("
and ")".
angles :: Functor m => m Doc -> m Doc Source #
Document (angles x)
encloses document x
in angles, "<" and
">".
braces :: Functor m => m Doc -> m Doc Source #
Document (braces x)
encloses document x
in braces, "{" and
"}".
brackets :: Functor m => m Doc -> m Doc Source #
Document (brackets x)
encloses document x
in square brackets,
"[" and "]".
Character documents
lparen :: Applicative m => m Doc Source #
The document lparen
contains a left parenthesis, "(".
rparen :: Applicative m => m Doc Source #
The document rparen
contains a right parenthesis, ")".
langle :: Applicative m => m Doc Source #
The document langle
contains a left angle, "<".
rangle :: Applicative m => m Doc Source #
The document rangle
contains a right angle, ">".
lbrace :: Applicative m => m Doc Source #
The document lbrace
contains a left brace, "{".
rbrace :: Applicative m => m Doc Source #
The document rbrace
contains a right brace, "}".
lbracket :: Applicative m => m Doc Source #
The document lbracket
contains a left square bracket, "[".
rbracket :: Applicative m => m Doc Source #
The document rbracket
contains a right square bracket, "]".
squote :: Applicative m => m Doc Source #
The document squote
contains a single quote, "'".
dquote :: Applicative m => m Doc Source #
The document dquote
contains a double quote, '"'.
semi :: Applicative m => m Doc Source #
The document semi
contains a semi colon, ";".
colon :: Applicative m => m Doc Source #
The document colon
contains a colon, ":".
comma :: Applicative m => m Doc Source #
The document comma
contains a comma, ",".
space :: Applicative m => m Doc Source #
The document space
contains a single space, " ".
x <+> y = x <> space <> y
dot :: Applicative m => m Doc Source #
The document dot
contains a single dot, ".".
backslash :: Applicative m => m Doc Source #
The document backslash
contains a back slash, "\".
equals :: Applicative m => m Doc Source #
The document equals
contains an equal sign, "=".
Primitive type documents
string :: Applicative m => Text -> m Doc Source #
The document (string s)
concatenates all characters in s
using line
for newline characters and char
for all other
characters. It is used instead of text
whenever the text
contains newline characters.
int :: Applicative m => Int -> m Doc Source #
The document (int i)
shows the literal integer i
using
text
.
integer :: Applicative m => Integer -> m Doc Source #
The document (integer i)
shows the literal integer i
using
text
.
float :: Applicative m => Float -> m Doc Source #
The document (float f)
shows the literal float f
using
text
.
double :: Applicative m => Double -> m Doc Source #
The document (double d)
shows the literal double d
using
text
.
rational :: Applicative m => Rational -> m Doc Source #
The document (rational r)
shows the literal rational r
using
text
.
bool :: Applicative m => Bool -> m Doc Source #
The document (bool b)
shows the literal boolean b
using
text
.
Position-based combinators
column :: Functor m => m (Int -> Doc) -> m Doc Source #
Specifies how to create the document based upon which column it is in.
nesting :: Functor m => m (Int -> Doc) -> m Doc Source #
Specifies how to nest the document based upon which column it is being nested in.
Pretty class
The member prettyList
is only used to define the instance
Pretty a => Pretty [a]
. In normal circumstances only the
pretty
function is used.
Pretty Bool Source # | |
Pretty Char Source # | |
Pretty Double Source # | |
Pretty Float Source # | |
Pretty Int Source # | |
Pretty Integer Source # | |
Pretty () Source # | |
Pretty Text Source # | |
Pretty Text Source # | |
Pretty Doc Source # | |
Pretty a => Pretty [a] Source # | |
Pretty a => Pretty (Maybe a) Source # | |
(Pretty a, Pretty b) => Pretty (a, b) Source # | |
(Pretty a, Pretty b, Pretty c) => Pretty (a, b, c) Source # | |
Rendering
The data type SimpleDoc
represents rendered documents and is
used by the display functions.
The Int
in SText
contains the length of the string. The Int
in SLine
contains the indentation for that line. The library
provides two default display functions displayS
and
displayIO
. You can provide your own display function by writing
a function from a SimpleDoc
to your own output format.
renderPretty :: Float -> Int -> Doc -> SimpleDoc Source #
This is the default pretty printer which is used by show
,
putDoc
and hPutDoc
. (renderPretty ribbonfrac width x)
renders document x
with a page width of width
and a ribbon
width of (ribbonfrac * width)
characters. The ribbon width is
the maximal amount of non-indentation characters on a line. The
parameter ribbonfrac
should be between 0.0
and 1.0
. If it
is lower or higher, the ribbon width will be 0 or width
respectively.
renderCompact :: Doc -> SimpleDoc Source #
(renderCompact x)
renders document x
without adding any
indentation. Since no 'pretty' printing is involved, this
renderer is very fast. The resulting output contains fewer
characters than a pretty printed version and can be used for
output that is read by other programs.
renderOneLine :: Doc -> SimpleDoc Source #
(renderOneLine x)
renders document x
without adding any
indentation or newlines.
displayT :: SimpleDoc -> Text Source #
(displayT simpleDoc)
takes the output simpleDoc
from a
rendering function and transforms it to a lazy Text
value.
showWidth :: Int -> Doc -> Text showWidth w x = displayT (renderPretty 0.4 w x)
displayTStrict :: SimpleDoc -> Text Source #
displayIO :: Handle -> SimpleDoc -> IO () Source #
(displayIO handle simpleDoc)
writes simpleDoc
to the
file handle handle
. This function is used for example by
hPutDoc
:
hPutDoc handle doc = displayIO handle (renderPretty 0.4 100 doc)
putDoc :: Doc -> IO () Source #
The action (putDoc doc)
pretty prints document doc
to the
standard output, with a page width of 100 characters and a ribbon
width of 40 characters.
main :: IO () main = do{ putDoc (text "hello" <+> text "world") }
Which would output
hello world
hPutDoc :: Handle -> Doc -> IO () Source #
(hPutDoc handle doc)
pretty prints document doc
to the file
handle handle
with a page width of 100 characters and a ribbon
width of 40 characters.
main = do handle <- 'openFile' "MyFile" 'WriteMode' 'hPutDoc' handle ('vcat' ('map' 'text' ['T.pack' "vertical", 'T.pack' "text"])) 'hClose' handle
Orphan instances
Applicative m => IsString (m Doc) Source # | |