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1 {-# LANGUAGE CPP #-}
2 -----------------------------------------------------------------------------
3 -- |
4 -- Module : Hcompta.Lib.Leijen
5 -- Copyright : Julien Moutinho <julm+hcompta@autogeree.net> (c) 2015,
6 -- Ivan Lazar Miljenovic <Ivan.Miljenovic@gmail.com> (c) 2010,
7 -- Daan Leijen (c) 2000, http://www.cs.uu.nl/~daan
8 -- License : BSD-style
9 --
10 -- Stability : provisional
11 -- Portability : portable
12 --
13 -- This module is a merge between /wl-pprint-text/ and /ansi-wl-pprint/ packages
14 -- to use 'Text' values rather than 'String's and ANSI formatting.
15 --
16 -- Pretty print module based on Philip Wadler's \"prettier printer\"
17 --
18 -- @
19 -- \"A prettier printer\"
20 -- Draft paper, April 1997, revised March 1998.
21 -- <http://cm.bell-labs.com/cm/cs/who/wadler/papers/prettier/prettier.ps>
22 -- @
23 --
24 -- PPrint is an implementation of the pretty printing combinators
25 -- described by Philip Wadler (1997). In their bare essence, the
26 -- combinators of Wadler are not expressive enough to describe some
27 -- commonly occurring layouts. The PPrint library adds new primitives
28 -- to describe these layouts and works well in practice.
29 --
30 -- The library is based on a single way to concatenate documents,
31 -- which is associative and has both a left and right unit. This
32 -- simple design leads to an efficient and short implementation. The
33 -- simplicity is reflected in the predictable behaviour of the
34 -- combinators which make them easy to use in practice.
35 --
36 -- A thorough description of the primitive combinators and their
37 -- implementation can be found in Philip Wadler's paper
38 -- (1997). Additions and the main differences with his original paper
39 -- are:
40 --
41 -- * The nil document is called empty.
42 --
43 -- * The above combinator is called '<$>'. The operator '</>' is used
44 -- for soft line breaks.
45 --
46 -- * There are three new primitives: 'align', 'fill' and
47 -- 'fillBreak'. These are very useful in practice.
48 --
49 -- * Lots of other useful combinators, like 'fillSep' and 'list'.
50 --
51 -- * There are two renderers, 'renderPretty' for pretty printing and
52 -- 'renderCompact' for compact output. The pretty printing algorithm
53 -- also uses a ribbon-width now for even prettier output.
54 --
55 -- * There are two displayers, 'displayT' for 'Text' values and 'displayIO'
56 -- for file based output.
57 --
58 -- * There is a 'Pretty' class.
59 --
60 -- * The implementation uses optimised representations and strictness
61 -- annotations.
62 --
63 -- Ways that this library differs from /wl-pprint/ (apart from using
64 -- 'Text' rather than 'String'):
65 --
66 -- * Smarter treatment of 'empty' sub-documents (partially copied over
67 -- from the /pretty/ library).
68 -----------------------------------------------------------
69 module Hcompta.Lib.Leijen (
70 -- * Documents
71 Doc,
72
73 -- * Basic combinators
74 empty, char, text, strict_text, (<>), nest, line, linebreak, group, softline,
75 softbreak, spacebreak, renderSmart,
76 -- flatAlt
77
78 -- * Tests
79 is_empty,
80 if_color,
81
82 -- * Alignment
83 --
84 -- | The combinators in this section can not be described by Wadler's
85 -- original combinators. They align their output relative to the
86 -- current output position - in contrast to @nest@ which always
87 -- aligns to the current nesting level. This deprives these
88 -- combinators from being \`optimal\'. In practice however they
89 -- prove to be very useful. The combinators in this section should
90 -- be used with care, since they are more expensive than the other
91 -- combinators. For example, @align@ shouldn't be used to pretty
92 -- print all top-level declarations of a language, but using @hang@
93 -- for let expressions is fine.
94 align, hang, indent, encloseSep, list, tupled, semiBraces,
95
96 -- * Operators
97 (<+>), (<++>), (<$>), (</>), (<$$>), (<//>),
98
99 -- * List combinators
100 hsep, vsep, fillSep, sep, hcat, vcat, fillCat, cat, punctuate, intercalate,
101
102 -- * Fillers
103 fill, fillBreak,
104
105 -- * Bracketing combinators
106 enclose, squotes, dquotes, parens, angles, braces, brackets,
107
108 -- * Character documents
109 lparen, rparen, langle, rangle, lbrace, rbrace, lbracket, rbracket,
110 squote, dquote, semi, colon, comma, space, dot, backslash, equals,
111
112 -- * Colorisation combinators
113 black, red, green, yellow, blue, magenta, cyan, white,
114 dullblack, dullred, dullgreen, dullyellow, dullblue, dullmagenta, dullcyan, dullwhite,
115 onblack, onred, ongreen, onyellow, onblue, onmagenta, oncyan, onwhite,
116 ondullblack, ondullred, ondullgreen, ondullyellow, ondullblue, ondullmagenta, ondullcyan, ondullwhite,
117
118 -- * Emboldening combinators
119 bold, debold,
120
121 -- * Underlining combinators
122 underline, deunderline,
123
124 -- * Removing formatting
125 plain,
126
127 -- * Primitive type documents
128 string, int, integer, float, double, rational, bool,
129
130 -- * Position-based combinators
131 column, nesting, width,
132
133 -- * Pretty class
134 Pretty(..),
135
136 -- * Rendering
137 SimpleDoc(..), renderPretty, renderCompact, renderOneLine,
138 displayB, displayT, displayIO, putDoc, hPutDoc,
139
140 ) where
141
142 #if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ >= 710
143 import Prelude hiding ((<$>))
144 #endif
145
146 import Data.String (IsString (..))
147 import System.IO (Handle, hPutChar, stdout)
148 import System.Console.ANSI (Color(..), ColorIntensity(..), ConsoleLayer(..),
149 Underlining(..), ConsoleIntensity(..),
150 SGR(..), hSetSGR, setSGRCode)
151
152 import Data.Int (Int64)
153 import Data.Maybe (catMaybes)
154 import Data.Monoid (Monoid (..), (<>))
155 import qualified Data.Foldable (Foldable(..))
156 import qualified Data.Text (Text)
157 import Data.Text.Lazy (Text)
158 import qualified Data.Text.Lazy as T
159 import Data.Text.Lazy.Builder (Builder)
160 import qualified Data.Text.Lazy.Builder as B
161 import qualified Data.Text.Lazy.IO as T
162
163
164 infixr 5 </>,<//>,<$>,<$$>
165 infixr 6 <+>,<++>
166
167
168 -----------------------------------------------------------
169 -- list, tupled and semiBraces pretty print a list of
170 -- documents either horizontally or vertically aligned.
171 -----------------------------------------------------------
172
173
174 -- | The document @(list xs)@ comma separates the documents @xs@ and
175 -- encloses them in square brackets. The documents are rendered
176 -- horizontally if that fits the page. Otherwise they are aligned
177 -- vertically. All comma separators are put in front of the
178 -- elements.
179 list :: [Doc] -> Doc
180 list = encloseSep lbracket rbracket comma
181
182 -- | The document @(tupled xs)@ comma separates the documents @xs@ and
183 -- encloses them in parenthesis. The documents are rendered
184 -- horizontally if that fits the page. Otherwise they are aligned
185 -- vertically. All comma separators are put in front of the
186 -- elements.
187 tupled :: [Doc] -> Doc
188 tupled = encloseSep lparen rparen comma
189
190 -- | The document @(semiBraces xs)@ separates the documents @xs@ with
191 -- semi colons and encloses them in braces. The documents are
192 -- rendered horizontally if that fits the page. Otherwise they are
193 -- aligned vertically. All semi colons are put in front of the
194 -- elements.
195 semiBraces :: [Doc] -> Doc
196 semiBraces = encloseSep lbrace rbrace semi
197
198 -- | The document @(encloseSep l r sep xs)@ concatenates the documents
199 -- @xs@ separated by @sep@ and encloses the resulting document by
200 -- @l@ and @r@. The documents are rendered horizontally if that fits
201 -- the page. Otherwise they are aligned vertically. All separators
202 -- are put in front of the elements. For example, the combinator
203 -- 'list' can be defined with @encloseSep@:
204 --
205 -- > list xs = encloseSep lbracket rbracket comma xs
206 -- > test = text "list" <+> (list (map int [10,200,3000]))
207 --
208 -- Which is laid out with a page width of 20 as:
209 --
210 -- @
211 -- list [10,200,3000]
212 -- @
213 --
214 -- But when the page width is 15, it is laid out as:
215 --
216 -- @
217 -- list [10
218 -- ,200
219 -- ,3000]
220 -- @
221 encloseSep :: Doc -> Doc -> Doc -> [Doc] -> Doc
222 encloseSep left right sp ds
223 = case ds of
224 [] -> left <> right
225 [d] -> left <> d <> right
226 _ -> align (cat (zipWith (<>) (left : repeat sp) ds) <> right)
227
228 -----------------------------------------------------------
229 -- punctuate p [d1,d2,...,dn] => [d1 <> p,d2 <> p, ... ,dn]
230 -----------------------------------------------------------
231
232
233 -- | @(punctuate p xs)@ concatenates all documents in @xs@ with
234 -- document @p@ except for the last document.
235 --
236 -- > someText = map text ["words","in","a","tuple"]
237 -- > test = parens (align (cat (punctuate comma someText)))
238 --
239 -- This is laid out on a page width of 20 as:
240 --
241 -- @
242 -- (words,in,a,tuple)
243 -- @
244 --
245 -- But when the page width is 15, it is laid out as:
246 --
247 -- @
248 -- (words,
249 -- in,
250 -- a,
251 -- tuple)
252 -- @
253 --
254 -- (If you want put the commas in front of their elements instead of
255 -- at the end, you should use 'tupled' or, in general, 'encloseSep'.)
256 punctuate :: Doc -> [Doc] -> [Doc]
257 punctuate _ [] = []
258 punctuate _ [d] = [d]
259 punctuate p (d:ds) = (d <> p) : punctuate p ds
260
261
262 -----------------------------------------------------------
263 -- high-level combinators
264 -----------------------------------------------------------
265
266
267 -- | The document @(sep xs)@ concatenates all documents @xs@ either
268 -- horizontally with @(\<+\>)@, if it fits the page, or vertically
269 -- with @(\<$\>)@.
270 --
271 -- > sep xs = group (vsep xs)
272 sep :: [Doc] -> Doc
273 sep = group . vsep
274
275 -- | The document @(fillSep xs)@ concatenates documents @xs@
276 -- horizontally with @(\<+\>)@ as long as its fits the page, then
277 -- inserts a @line@ and continues doing that for all documents in
278 -- @xs@.
279 --
280 -- > fillSep xs = foldr (</>) empty xs
281 fillSep :: [Doc] -> Doc
282 fillSep = fold (</>)
283
284 -- | The document @(hsep xs)@ concatenates all documents @xs@
285 -- horizontally with @(\<+\>)@.
286 hsep :: [Doc] -> Doc
287 hsep = fold (<+>)
288
289 -- | The document @(vsep xs)@ concatenates all documents @xs@
290 -- vertically with @(\<$\>)@. If a 'group' undoes the line breaks
291 -- inserted by @vsep@, all documents are separated with a space.
292 --
293 -- > someText = map text (words ("text to lay out"))
294 -- >
295 -- > test = text "some" <+> vsep someText
296 --
297 -- This is laid out as:
298 --
299 -- @
300 -- some text
301 -- to
302 -- lay
303 -- out
304 -- @
305 --
306 -- The 'align' combinator can be used to align the documents under
307 -- their first element
308 --
309 -- > test = text "some" <+> align (vsep someText)
310 --
311 -- Which is printed as:
312 --
313 -- @
314 -- some text
315 -- to
316 -- lay
317 -- out
318 -- @
319 vsep :: [Doc] -> Doc
320 vsep = fold (<$>)
321
322 -- | The document @(cat xs)@ concatenates all documents @xs@ either
323 -- horizontally with @(\<\>)@, if it fits the page, or vertically
324 -- with @(\<$$\>)@.
325 --
326 -- > cat xs = group (vcat xs)
327 cat :: [Doc] -> Doc
328 cat = group . vcat
329
330 -- | The document @(fillCat xs)@ concatenates documents @xs@
331 -- horizontally with @(\<\>)@ as long as its fits the page, then
332 -- inserts a @linebreak@ and continues doing that for all documents
333 -- in @xs@.
334 --
335 -- > fillCat xs = foldr (<//>) empty xs
336 fillCat :: [Doc] -> Doc
337 fillCat = fold (<//>)
338
339 -- | The document @(hcat xs)@ concatenates all documents @xs@
340 -- horizontally with @(\<\>)@.
341 hcat :: [Doc] -> Doc
342 hcat = fold (<>)
343
344 -- | The document @(vcat xs)@ concatenates all documents @xs@
345 -- vertically with @(\<$$\>)@. If a 'group' undoes the line breaks
346 -- inserted by @vcat@, all documents are directly concatenated.
347 vcat :: [Doc] -> Doc
348 vcat = fold (<$$>)
349
350 fold :: (Doc -> Doc -> Doc) -> [Doc] -> Doc
351 fold _ [] = empty
352 fold f ds = foldr1 f ds
353
354 -- | The document @(x \<+\> y)@ concatenates document @x@ and @y@ with
355 -- a 'space' in between. (infixr 6)
356 (<+>) :: Doc -> Doc -> Doc
357 Empty <+> y = y
358 x <+> Empty = x
359 x <+> y = x <> space <> y
360
361 -- | The document @(x \<++\> y)@ concatenates document @x@ and @y@ with
362 -- a 'spacebreak' in between. (infixr 6)
363 (<++>) :: Doc -> Doc -> Doc
364 Empty <++> y = y
365 x <++> Empty = x
366 x <++> y = x <> spacebreak <> y
367
368
369 -- | The document @(x \<\/\> y)@ concatenates document @x@ and @y@
370 -- with a 'softline' in between. This effectively puts @x@ and @y@
371 -- either next to each other (with a @space@ in between) or
372 -- underneath each other. (infixr 5)
373 (</>) :: Doc -> Doc -> Doc
374 (</>) = splitWithBreak False
375
376 -- | The document @(x \<\/\/\> y)@ concatenates document @x@ and @y@
377 -- with a 'softbreak' in between. This effectively puts @x@ and @y@
378 -- either right next to each other or underneath each other. (infixr
379 -- 5)
380 (<//>) :: Doc -> Doc -> Doc
381 (<//>) = splitWithBreak True
382
383 splitWithBreak :: Bool -> Doc -> Doc -> Doc
384 splitWithBreak _ Empty b = b
385 splitWithBreak _ a Empty = a
386 splitWithBreak f a b = a <> group (Line f) <> b
387
388 -- | The document @(x \<$\> y)@ concatenates document @x@ and @y@ with
389 -- a 'line' in between. (infixr 5)
390 (<$>) :: Doc -> Doc -> Doc
391 (<$>) = splitWithLine False
392
393 -- | The document @(x \<$$\> y)@ concatenates document @x@ and @y@
394 -- with a 'linebreak' in between. (infixr 5)
395 (<$$>) :: Doc -> Doc -> Doc
396 (<$$>) = splitWithLine True
397
398 splitWithLine :: Bool -> Doc -> Doc -> Doc
399 splitWithLine _ Empty b = b
400 splitWithLine _ a Empty = a
401 splitWithLine f a b = a <> Line f <> b
402
403 -- | The document @softline@ behaves like 'space' if the resulting
404 -- output fits the page, otherwise it behaves like 'line'.
405 --
406 -- > softline = group line
407 softline :: Doc
408 softline = group line
409
410 -- | The document @softbreak@ behaves like 'empty' if the resulting
411 -- output fits the page, otherwise it behaves like 'line'.
412 --
413 -- > softbreak = group linebreak
414 softbreak :: Doc
415 softbreak = group linebreak
416
417 -- | The document @spacebreak@ behaves like 'space' when rendered normally
418 -- but like 'empty' when using 'renderCompact' or 'renderOneLine'.
419 spacebreak :: Doc
420 spacebreak = Spaces 1
421
422 -- | Document @(squotes x)@ encloses document @x@ with single quotes
423 -- \"'\".
424 squotes :: Doc -> Doc
425 squotes = enclose squote squote
426
427 -- | Document @(dquotes x)@ encloses document @x@ with double quotes
428 -- '\"'.
429 dquotes :: Doc -> Doc
430 dquotes = enclose dquote dquote
431
432 -- | Document @(braces x)@ encloses document @x@ in braces, \"{\" and
433 -- \"}\".
434 braces :: Doc -> Doc
435 braces = enclose lbrace rbrace
436
437 -- | Document @(parens x)@ encloses document @x@ in parenthesis, \"(\"
438 -- and \")\".
439 parens :: Doc -> Doc
440 parens = enclose lparen rparen
441
442 -- | Document @(angles x)@ encloses document @x@ in angles, \"\<\" and
443 -- \"\>\".
444 angles :: Doc -> Doc
445 angles = enclose langle rangle
446
447 -- | Document @(brackets x)@ encloses document @x@ in square brackets,
448 -- \"[\" and \"]\".
449 brackets :: Doc -> Doc
450 brackets = enclose lbracket rbracket
451
452 -- | The document @(enclose l r x)@ encloses document @x@ between
453 -- documents @l@ and @r@ using @(\<\>)@.
454 --
455 -- > enclose l r x = l <> x <> r
456 enclose :: Doc -> Doc -> Doc -> Doc
457 enclose l r x = l <> x <> r
458
459 -- | The document @lparen@ contains a left parenthesis, \"(\".
460 lparen :: Doc
461 lparen = char '('
462
463 -- | The document @rparen@ contains a right parenthesis, \")\".
464 rparen :: Doc
465 rparen = char ')'
466
467 -- | The document @langle@ contains a left angle, \"\<\".
468 langle :: Doc
469 langle = char '<'
470
471 -- | The document @rangle@ contains a right angle, \">\".
472 rangle :: Doc
473 rangle = char '>'
474
475 -- | The document @lbrace@ contains a left brace, \"{\".
476 lbrace :: Doc
477 lbrace = char '{'
478
479 -- | The document @rbrace@ contains a right brace, \"}\".
480 rbrace :: Doc
481 rbrace = char '}'
482
483 -- | The document @lbracket@ contains a left square bracket, \"[\".
484 lbracket :: Doc
485 lbracket = char '['
486
487 -- | The document @rbracket@ contains a right square bracket, \"]\".
488 rbracket :: Doc
489 rbracket = char ']'
490
491 -- | The document @squote@ contains a single quote, \"'\".
492 squote :: Doc
493 squote = char '\''
494
495 -- | The document @dquote@ contains a double quote, '\"'.
496 dquote :: Doc
497 dquote = char '"'
498
499 -- | The document @semi@ contains a semi colon, \";\".
500 semi :: Doc
501 semi = char ';'
502
503 -- | The document @colon@ contains a colon, \":\".
504 colon :: Doc
505 colon = char ':'
506
507 -- | The document @comma@ contains a comma, \",\".
508 comma :: Doc
509 comma = char ','
510
511 -- | The document @space@ contains a single space, \" \".
512 --
513 -- > x <+> y = x <> space <> y
514 space :: Doc
515 space = char ' '
516
517 -- | The document @dot@ contains a single dot, \".\".
518 dot :: Doc
519 dot = char '.'
520
521 -- | The document @backslash@ contains a back slash, \"\\\".
522 backslash :: Doc
523 backslash = char '\\'
524
525 -- | The document @equals@ contains an equal sign, \"=\".
526 equals :: Doc
527 equals = char '='
528
529 -----------------------------------------------------------
530 -- Combinators for prelude types
531 -----------------------------------------------------------
532
533 -- string is like "text" but replaces '\n' by "line"
534
535 -- | The document @(string s)@ concatenates all characters in @s@
536 -- using @line@ for newline characters and @char@ for all other
537 -- characters. It is used instead of 'text' whenever the text
538 -- contains newline characters.
539 string :: Text -> Doc
540 string str = case T.uncons str of
541 Nothing -> empty
542 Just ('\n',str') -> line <> string str'
543 _ -> case (T.span (/='\n') str) of
544 (xs,ys) -> text xs <> string ys
545
546 -- | The document @(bool b)@ shows the literal boolean @b@ using
547 -- 'text'.
548 bool :: Bool -> Doc
549 bool b = text' b
550
551 -- | The document @(int i)@ shows the literal integer @i@ using
552 -- 'text'.
553 int :: Int -> Doc
554 int i = text' i
555
556 -- | The document @(integer i)@ shows the literal integer @i@ using
557 -- 'text'.
558 integer :: Integer -> Doc
559 integer i = text' i
560
561 -- | The document @(float f)@ shows the literal float @f@ using
562 -- 'text'.
563 float :: Float -> Doc
564 float f = text' f
565
566 -- | The document @(double d)@ shows the literal double @d@ using
567 -- 'text'.
568 double :: Double -> Doc
569 double d = text' d
570
571 -- | The document @(rational r)@ shows the literal rational @r@ using
572 -- 'text'.
573 rational :: Rational -> Doc
574 rational r = text' r
575
576 text' :: (Show a) => a -> Doc
577 text' = text . T.pack . show
578
579 -----------------------------------------------------------
580 -- overloading "pretty"
581 -----------------------------------------------------------
582
583 -- | The member @prettyList@ is only used to define the @instance
584 -- Pretty a => Pretty [a]@. In normal circumstances only the
585 -- @pretty@ function is used.
586 class Pretty a where
587 pretty :: a -> Doc
588
589 prettyList :: [a] -> Doc
590 prettyList = list . map pretty
591
592 instance Pretty a => Pretty [a] where
593 pretty = prettyList
594
595 instance Pretty Doc where
596 pretty = id
597
598 instance Pretty Text where
599 pretty = string
600
601 instance Pretty () where
602 pretty () = text' ()
603
604 instance Pretty Bool where
605 pretty b = bool b
606
607 instance Pretty Char where
608 pretty c = char c
609
610 prettyList s = string $ T.pack s
611
612 instance Pretty Int where
613 pretty i = int i
614
615 instance Pretty Integer where
616 pretty i = integer i
617
618 instance Pretty Float where
619 pretty f = float f
620
621 instance Pretty Double where
622 pretty d = double d
623
624 --instance Pretty Rational where
625 -- pretty r = rational r
626
627 instance (Pretty a,Pretty b) => Pretty (a,b) where
628 pretty (x,y) = tupled [pretty x, pretty y]
629
630 instance (Pretty a,Pretty b,Pretty c) => Pretty (a,b,c) where
631 pretty (x,y,z)= tupled [pretty x, pretty y, pretty z]
632
633 instance Pretty a => Pretty (Maybe a) where
634 pretty Nothing = empty
635
636 pretty (Just x) = pretty x
637
638 -----------------------------------------------------------
639 -- semi primitive: fill and fillBreak
640 -----------------------------------------------------------
641
642 -- | The document @(fillBreak i x)@ first renders document @x@. It
643 -- then appends @space@s until the width is equal to @i@. If the
644 -- width of @x@ is already larger than @i@, the nesting level is
645 -- increased by @i@ and a @line@ is appended. When we redefine
646 -- @ptype@ in the previous example to use @fillBreak@, we get a
647 -- useful variation of the previous output:
648 --
649 -- > ptype (name,tp)
650 -- > = fillBreak 6 (text name) <+> text "::" <+> text tp
651 --
652 -- The output will now be:
653 --
654 -- @
655 -- let empty :: Doc
656 -- nest :: Int -> Doc -> Doc
657 -- linebreak
658 -- :: Doc
659 -- @
660 fillBreak :: Int -> Doc -> Doc
661 fillBreak f x = width x (\w ->
662 if (w > f)
663 then nest f linebreak
664 else spaced (f - w)
665 )
666
667
668 -- | The document @(fill i x)@ renders document @x@. It then appends
669 -- @space@s until the width is equal to @i@. If the width of @x@ is
670 -- already larger, nothing is appended. This combinator is quite
671 -- useful in practice to output a list of bindings. The following
672 -- example demonstrates this.
673 --
674 -- > types = [("empty","Doc")
675 -- > ,("nest","Int -> Doc -> Doc")
676 -- > ,("linebreak","Doc")]
677 -- >
678 -- > ptype (name,tp)
679 -- > = fill 6 (text name) <+> text "::" <+> text tp
680 -- >
681 -- > test = text "let" <+> align (vcat (map ptype types))
682 --
683 -- Which is laid out as:
684 --
685 -- @
686 -- let empty :: Doc
687 -- nest :: Int -> Doc -> Doc
688 -- linebreak :: Doc
689 -- @
690 fill :: Int -> Doc -> Doc
691 fill f d = width d (\w ->
692 if (w >= f)
693 then empty
694 else spaced (f - w)
695 )
696
697
698 width :: Doc -> (Int -> Doc) -> Doc
699 width d f = column (\k1 -> d <> column (\k2 -> f (k2 - k1)))
700
701 -----------------------------------------------------------
702 -- semi primitive: Alignment and indentation
703 -----------------------------------------------------------
704
705 -- | The document @(indent i x)@ indents document @x@ with @i@ spaces.
706 --
707 -- > test = indent 4 (fillSep (map text
708 -- > (words "the indent combinator indents these words !")))
709 --
710 -- Which lays out with a page width of 20 as:
711 --
712 -- @
713 -- the indent
714 -- combinator
715 -- indents these
716 -- words !
717 -- @
718 indent :: Int -> Doc -> Doc
719 indent _ Empty = Empty
720 indent i d = hang i (spaced i <> d)
721
722 -- | The hang combinator implements hanging indentation. The document
723 -- @(hang i x)@ renders document @x@ with a nesting level set to the
724 -- current column plus @i@. The following example uses hanging
725 -- indentation for some text:
726 --
727 -- > test = hang 4 (fillSep (map text
728 -- > (words "the hang combinator indents these words !")))
729 --
730 -- Which lays out on a page with a width of 20 characters as:
731 --
732 -- @
733 -- the hang combinator
734 -- indents these
735 -- words !
736 -- @
737 --
738 -- The @hang@ combinator is implemented as:
739 --
740 -- > hang i x = align (nest i x)
741 hang :: Int -> Doc -> Doc
742 hang i d = align (nest i d)
743
744 -- | The document @(align x)@ renders document @x@ with the nesting
745 -- level set to the current column. It is used for example to
746 -- implement 'hang'.
747 --
748 -- As an example, we will put a document right above another one,
749 -- regardless of the current nesting level:
750 --
751 -- > x $$ y = align (x <$> y)
752 --
753 -- > test = text "hi" <+> (text "nice" $$ text "world")
754 --
755 -- which will be laid out as:
756 --
757 -- @
758 -- hi nice
759 -- world
760 -- @
761 align :: Doc -> Doc
762 align d = column (\k ->
763 nesting (\i -> nest (k - i) d)) --nesting might be negative :-)
764
765 -----------------------------------------------------------
766 -- Primitives
767 -----------------------------------------------------------
768
769 -- | The abstract data type @Doc@ represents pretty documents.
770 --
771 -- @Doc@ is an instance of the 'Show' class. @(show doc)@ pretty
772 -- prints document @doc@ with a page width of 100 characters and a
773 -- ribbon width of 40 characters.
774 --
775 -- > show (text "hello" <$> text "world")
776 --
777 -- Which would return the string \"hello\\nworld\", i.e.
778 --
779 -- @
780 -- hello
781 -- world
782 -- @
783 data Doc = Empty
784 | Char Char -- invariant: char is not '\n'
785 | Text !Int64 Builder -- invariant: text doesn't contain '\n'
786 | Line !Bool -- True <=> when undone by group, do not insert a space
787 -- | FlatAlt Doc Doc -- Render the first doc, but when
788 -- flattened, render the second.
789 | Cat Doc Doc
790 | Nest !Int64 Doc
791 | Union Doc Doc -- invariant: first lines of first doc longer than the first lines of the second doc
792 | Column (Int64 -> Doc)
793 | Nesting (Int64 -> Doc)
794 | Spaces !Int64
795 | Color ConsoleLayer ColorIntensity -- Introduces coloring /around/ the embedded document
796 Color Doc
797 | IfColor Doc Doc
798 | Intensify ConsoleIntensity Doc
799 | Italicize Bool Doc
800 | Underline Underlining Doc
801 | RestoreFormat (Maybe (ColorIntensity, Color)) -- Only used during the rendered phase, to signal a SGR should be issued to restore the terminal formatting.
802 (Maybe (ColorIntensity, Color)) -- These are the colors to revert the current forecolor/backcolor to (i.e. those from before the start of the Color block).
803 (Maybe ConsoleIntensity) -- Intensity to revert to.
804 (Maybe Bool) -- Italicization to revert to.
805 (Maybe Underlining) -- Underlining to revert to.
806
807 instance IsString Doc where
808 fromString = string . T.pack
809
810 -- | In particular, note that the document @(x '<>' y)@ concatenates
811 -- document @x@ and document @y@. It is an associative operation
812 -- having 'empty' as a left and right unit. (infixr 6)
813 instance Monoid Doc where
814 mempty = empty
815 mappend = beside
816
817 -- | The data type @SimpleDoc@ represents rendered documents and is
818 -- used by the display functions.
819 --
820 -- The @Int@ in @SText@ contains the length of the string. The @Int@
821 -- in @SLine@ contains the indentation for that line. The library
822 -- provides two default display functions 'displayS' and
823 -- 'displayIO'. You can provide your own display function by writing
824 -- a function from a @SimpleDoc@ to your own output format.
825 data SimpleDoc = SEmpty
826 | SChar Char SimpleDoc
827 | SText !Int64 Builder SimpleDoc
828 | SLine !Int64 SimpleDoc
829 | SSGR [SGR] SimpleDoc
830
831 -- | The empty document is, indeed, empty. Although @empty@ has no
832 -- content, it does have a \'height\' of 1 and behaves exactly like
833 -- @(text \"\")@ (and is therefore not a unit of @\<$\>@).
834 empty :: Doc
835 empty = Empty
836
837 is_empty :: Doc -> Bool
838 is_empty doc = case doc of
839 Empty -> True
840 _ -> False
841
842 if_color :: Doc -> Doc -> Doc
843 if_color = IfColor
844
845 -- | The document @(char c)@ contains the literal character @c@. The
846 -- character shouldn't be a newline (@'\n'@), the function 'line'
847 -- should be used for line breaks.
848 char :: Char -> Doc
849 char '\n' = line
850 char c = Char c
851
852 -- | The document @(text s)@ contains the literal string @s@. The
853 -- string shouldn't contain any newline (@'\n'@) characters. If the
854 -- string contains newline characters, the function 'string' should
855 -- be used.
856 text :: Text -> Doc
857 text s
858 | T.null s = Empty
859 | otherwise = Text (T.length s) (B.fromLazyText s)
860
861 -- | The @line@ document advances to the next line and indents to the
862 -- current nesting level. Document @line@ behaves like @(text \"
863 -- \")@ if the line break is undone by 'group' or if rendered with
864 -- 'renderOneLine'.
865 line :: Doc
866 line = Line False
867 --line = FlatAlt Line space
868
869 -- | The @linebreak@ document advances to the next line and indents to
870 -- the current nesting level. Document @linebreak@ behaves like
871 -- 'empty' if the line break is undone by 'group'.
872 linebreak :: Doc
873 linebreak = Line True
874 --linebreak = FlatAlt Line empty
875
876 beside :: Doc -> Doc -> Doc
877 beside Empty r = r
878 beside l Empty = l
879 beside l r = Cat l r
880
881 -- | The document @(nest i x)@ renders document @x@ with the current
882 -- indentation level increased by @i@ (See also 'hang', 'align' and
883 -- 'indent').
884 --
885 -- > nest 2 (text "hello" <$> text "world") <$> text "!"
886 --
887 -- outputs as:
888 --
889 -- @
890 -- hello
891 -- world
892 -- !
893 -- @
894 nest :: Int -> Doc -> Doc
895 nest _ Empty = Empty
896 nest i x = Nest (fromIntegral i) x
897
898 -- | Specifies how to create the document based upon which column it is in.
899 column :: (Int -> Doc) -> Doc
900 column f = Column (f . fromIntegral)
901
902 -- | Specifies how to nest the document based upon which column it is
903 -- being nested in.
904 nesting :: (Int -> Doc) -> Doc
905 nesting f = Nesting (f . fromIntegral)
906
907 -- | The @group@ combinator is used to specify alternative
908 -- layouts. The document @(group x)@ undoes all line breaks in
909 -- document @x@. The resulting line is added to the current line if
910 -- that fits the page. Otherwise, the document @x@ is rendered
911 -- without any changes.
912 group :: Doc -> Doc
913 group x = Union (flatten x) x
914
915 flatten :: Doc -> Doc
916 flatten (Cat x y) = Cat (flatten x) (flatten y)
917 flatten (Nest i x) = Nest i (flatten x)
918 flatten (Line brk) = if brk then Empty else Text 1 (B.singleton ' ')
919 flatten (Union x _) = flatten x
920 flatten (Column f) = Column (flatten . f)
921 flatten (Nesting f) = Nesting (flatten . f)
922 flatten (Color l i c x) = Color l i c (flatten x)
923 flatten (IfColor t f) = IfColor (flatten t) (flatten f)
924 flatten (Intensify i x) = Intensify i (flatten x)
925 flatten (Italicize b x) = Italicize b (flatten x)
926 flatten (Underline u x) = Underline u (flatten x)
927 -- flatten (FlatAlt x y) = y
928 flatten other = other --Empty,Char,Text,RestoreFormat
929
930
931 -----------------------------------------------------------
932 -- Colors
933 -----------------------------------------------------------
934
935 -- | Displays a document with the black forecolor
936 black :: Doc -> Doc
937 -- | Displays a document with the red forecolor
938 red :: Doc -> Doc
939 -- | Displays a document with the green forecolor
940 green :: Doc -> Doc
941 -- | Displays a document with the yellow forecolor
942 yellow :: Doc -> Doc
943 -- | Displays a document with the blue forecolor
944 blue :: Doc -> Doc
945 -- | Displays a document with the magenta forecolor
946 magenta :: Doc -> Doc
947 -- | Displays a document with the cyan forecolor
948 cyan :: Doc -> Doc
949 -- | Displays a document with the white forecolor
950 white :: Doc -> Doc
951 -- | Displays a document with the dull black forecolor
952 dullblack :: Doc -> Doc
953 -- | Displays a document with the dull red forecolor
954 dullred :: Doc -> Doc
955 -- | Displays a document with the dull green forecolor
956 dullgreen :: Doc -> Doc
957 -- | Displays a document with the dull yellow forecolor
958 dullyellow :: Doc -> Doc
959 -- | Displays a document with the dull blue forecolor
960 dullblue :: Doc -> Doc
961 -- | Displays a document with the dull magenta forecolor
962 dullmagenta :: Doc -> Doc
963 -- | Displays a document with the dull cyan forecolor
964 dullcyan :: Doc -> Doc
965 -- | Displays a document with the dull white forecolor
966 dullwhite :: Doc -> Doc
967 (black, dullblack) = colorFunctions Black
968 (red, dullred) = colorFunctions Red
969 (green, dullgreen) = colorFunctions Green
970 (yellow, dullyellow) = colorFunctions Yellow
971 (blue, dullblue) = colorFunctions Blue
972 (magenta, dullmagenta) = colorFunctions Magenta
973 (cyan, dullcyan) = colorFunctions Cyan
974 (white, dullwhite) = colorFunctions White
975
976 -- | Displays a document with a forecolor given in the first parameter
977 color :: Color -> Doc -> Doc
978 -- | Displays a document with a dull forecolor given in the first parameter
979 dullcolor :: Color -> Doc -> Doc
980 color = Color Foreground Vivid
981 dullcolor = Color Foreground Dull
982
983 colorFunctions :: Color -> (Doc -> Doc, Doc -> Doc)
984 colorFunctions what = (color what, dullcolor what)
985
986 -- | Displays a document with the black backcolor
987 onblack :: Doc -> Doc
988 -- | Displays a document with the red backcolor
989 onred :: Doc -> Doc
990 -- | Displays a document with the green backcolor
991 ongreen :: Doc -> Doc
992 -- | Displays a document with the yellow backcolor
993 onyellow :: Doc -> Doc
994 -- | Displays a document with the blue backcolor
995 onblue :: Doc -> Doc
996 -- | Displays a document with the magenta backcolor
997 onmagenta :: Doc -> Doc
998 -- | Displays a document with the cyan backcolor
999 oncyan :: Doc -> Doc
1000 -- | Displays a document with the white backcolor
1001 onwhite :: Doc -> Doc
1002 -- | Displays a document with the dull block backcolor
1003 ondullblack :: Doc -> Doc
1004 -- | Displays a document with the dull red backcolor
1005 ondullred :: Doc -> Doc
1006 -- | Displays a document with the dull green backcolor
1007 ondullgreen :: Doc -> Doc
1008 -- | Displays a document with the dull yellow backcolor
1009 ondullyellow :: Doc -> Doc
1010 -- | Displays a document with the dull blue backcolor
1011 ondullblue :: Doc -> Doc
1012 -- | Displays a document with the dull magenta backcolor
1013 ondullmagenta :: Doc -> Doc
1014 -- | Displays a document with the dull cyan backcolor
1015 ondullcyan :: Doc -> Doc
1016 -- | Displays a document with the dull white backcolor
1017 ondullwhite :: Doc -> Doc
1018 (onblack, ondullblack) = oncolorFunctions Black
1019 (onred, ondullred) = oncolorFunctions Red
1020 (ongreen, ondullgreen) = oncolorFunctions Green
1021 (onyellow, ondullyellow) = oncolorFunctions Yellow
1022 (onblue, ondullblue) = oncolorFunctions Blue
1023 (onmagenta, ondullmagenta) = oncolorFunctions Magenta
1024 (oncyan, ondullcyan) = oncolorFunctions Cyan
1025 (onwhite, ondullwhite) = oncolorFunctions White
1026
1027 -- | Displays a document with a backcolor given in the first parameter
1028 oncolor :: Color -> Doc -> Doc
1029 -- | Displays a document with a dull backcolor given in the first parameter
1030 ondullcolor :: Color -> Doc -> Doc
1031 oncolor = Color Background Vivid
1032 ondullcolor = Color Background Dull
1033
1034 oncolorFunctions :: Color -> (Doc -> Doc, Doc -> Doc)
1035 oncolorFunctions what = (oncolor what, ondullcolor what)
1036
1037
1038 -----------------------------------------------------------
1039 -- Console Intensity
1040 -----------------------------------------------------------
1041
1042 -- | Displays a document in a heavier font weight
1043 bold :: Doc -> Doc
1044 bold = Intensify BoldIntensity
1045
1046 -- | Displays a document in the normal font weight
1047 debold :: Doc -> Doc
1048 debold = Intensify NormalIntensity
1049
1050 -- NB: I don't support FaintIntensity here because it is not widely supported by terminals.
1051
1052
1053 -----------------------------------------------------------
1054 -- Italicization
1055 -----------------------------------------------------------
1056
1057 {-
1058
1059 I'm in two minds about providing these functions, since italicization is so rarely implemented.
1060 It is especially bad because "italicization" may cause the meaning of colors to flip, which will
1061 look a bit weird, to say the least...
1062
1063
1064 -- | Displays a document in italics. This is not widely supported, and it's use is not recommended
1065 italicize :: Doc -> Doc
1066 italicize = Italicize True
1067
1068 -- | Displays a document with no italics
1069 deitalicize :: Doc -> Doc
1070 deitalicize = Italicize False
1071
1072 -}
1073
1074 -----------------------------------------------------------
1075 -- Underlining
1076 -----------------------------------------------------------
1077
1078 -- | Displays a document with underlining
1079 underline :: Doc -> Doc
1080 underline = Underline SingleUnderline
1081
1082 -- | Displays a document with no underlining
1083 deunderline :: Doc -> Doc
1084 deunderline = Underline NoUnderline
1085
1086 -- NB: I don't support DoubleUnderline here because it is not widely supported by terminals.
1087
1088 -----------------------------------------------------------
1089 -- Removing formatting
1090 -----------------------------------------------------------
1091
1092 -- | Removes all colorisation, emboldening and underlining from a document
1093 plain :: Doc -> Doc
1094 -- plain Fail = Fail
1095 plain e@Empty = e
1096 plain c@(Char _) = c
1097 plain t@(Text _ _) = t
1098 plain l@(Line _) = l
1099 -- plain (FlatAlt x y) = FlatAlt (plain x) (plain y)
1100 plain (Cat x y) = Cat (plain x) (plain y)
1101 plain (Nest i x) = Nest i (plain x)
1102 plain (Union x y) = Union (plain x) (plain y)
1103 plain (Column f) = Column (plain . f)
1104 -- plain (Columns f) = Columns (plain . f)
1105 plain (Nesting f) = Nesting (plain . f)
1106 plain (Spaces l) = Spaces l
1107 plain (Color _ _ _ x) = plain x
1108 plain (Intensify _ x) = plain x
1109 plain (IfColor _ x) = plain x
1110 plain (Italicize _ x) = plain x
1111 plain (Underline _ x) = plain x
1112 plain (RestoreFormat _ _ _ _ _) = Empty
1113
1114 -----------------------------------------------------------
1115 -- Renderers
1116 -----------------------------------------------------------
1117
1118 -----------------------------------------------------------
1119 -- renderPretty: the default pretty printing algorithm
1120 -----------------------------------------------------------
1121
1122 -- list of indentation/document pairs; saves an indirection over [(Int,Doc)]
1123 data Docs = Nil
1124 | Cons !Int64 Doc Docs
1125
1126 -- | This is the default pretty printer which is used by 'show',
1127 -- 'putDoc' and 'hPutDoc'. @(renderPretty ribbonfrac width x)@
1128 -- renders document @x@ with a page width of @width@ and a ribbon
1129 -- width of @(ribbonfrac * width)@ characters. The ribbon width is
1130 -- the maximal amount of non-indentation characters on a line. The
1131 -- parameter @ribbonfrac@ should be between @0.0@ and @1.0@. If it
1132 -- is lower or higher, the ribbon width will be 0 or @width@
1133 -- respectively.
1134 renderPretty :: Bool -> Float -> Int -> Doc -> SimpleDoc
1135 renderPretty = renderFits fits1
1136
1137 -- | A slightly smarter rendering algorithm with more lookahead. It provides
1138 -- provide earlier breaking on deeply nested structures
1139 -- For example, consider this python-ish pseudocode:
1140 -- @fun(fun(fun(fun(fun([abcdefg, abcdefg])))))@
1141 -- If we put a softbreak (+ nesting 2) after each open parenthesis, and align
1142 -- the elements of the list to match the opening brackets, this will render with
1143 -- @renderPretty@ and a page width of 20 as:
1144 -- @
1145 -- fun(fun(fun(fun(fun([
1146 -- | abcdef,
1147 -- | abcdef,
1148 -- ]
1149 -- ))))) |
1150 -- @
1151 -- Where the 20c. boundary has been marked with |.
1152 -- Because @renderPretty@ only uses one-line lookahead, it sees that the first
1153 -- line fits, and is stuck putting the second and third lines after the 20-c
1154 -- mark. In contrast, @renderSmart@ will continue to check that the potential
1155 -- document up to the end of the indentation level. Thus, it will format the
1156 -- document as:
1157 --
1158 -- @
1159 -- fun( |
1160 -- fun( |
1161 -- fun( |
1162 -- fun( |
1163 -- fun([ |
1164 -- abcdef,
1165 -- abcdef,
1166 -- ] |
1167 -- ))))) |
1168 -- @
1169 -- Which fits within the 20c. boundary.
1170 renderSmart :: Bool -> Float -> Int -> Doc -> SimpleDoc
1171 renderSmart = renderFits fitsR
1172
1173 renderFits :: (Int64 -> Int64 -> Int64 -> SimpleDoc -> Bool)
1174 -> Bool -> Float -> Int -> Doc -> SimpleDoc
1175 renderFits fits with_color rfrac w doc
1176 -- I used to do a @SSGR [Reset]@ here, but if you do that it will result
1177 -- in any rendered @Doc@ containing at least some ANSI control codes. This
1178 -- may be undesirable if you want to render to non-ANSI devices by simply
1179 -- not making use of the ANSI color combinators I provide.
1180 --
1181 -- What I "really" want to do here is do an initial Reset iff there is some
1182 -- ANSI color within the Doc, but that's a bit fiddly. I'll fix it if someone
1183 -- complains!
1184 = best 0 0 Nothing Nothing Nothing Nothing Nothing (Cons 0 doc Nil)
1185 where
1186 -- r :: the ribbon width in characters
1187 r = max 0 (min w64 (round (fromIntegral w * rfrac)))
1188
1189 w64 = fromIntegral w
1190
1191 -- best :: n = indentation of current line
1192 -- k = current column
1193 -- (ie. (k >= n) && (k - n == count of inserted characters)
1194 best _n _k _mb_fc _mb_bc _mb_in _mb_it _mb_un Nil = SEmpty
1195 best n k mb_fc mb_bc mb_in mb_it mb_un (Cons i d ds)
1196 = case d of
1197 -- Fail -> SFail
1198 Empty -> best_typical n k ds
1199 Char c -> let k' = k+1 in seq k' (SChar c (best_typical n k' ds))
1200 Text l s -> let k' = k+l in seq k' (SText l s (best_typical n k' ds))
1201 Line _ -> SLine i (best_typical i i ds)
1202 -- FlatAlt x _ -> best_typical n k (Cons i x ds)
1203 Cat x y -> best_typical n k (Cons i x (Cons i y ds))
1204 Nest j x -> let i' = i+j in seq i' (best_typical n k (Cons i' x ds))
1205 Union x y -> nicest n k (best_typical n k (Cons i x ds))
1206 (best_typical n k (Cons i y ds))
1207 Column f -> best_typical n k (Cons i (f k) ds)
1208 -- Columns f -> best_typical n k (Cons i (f (Just w)) ds)
1209 Nesting f -> best_typical n k (Cons i (f i) ds)
1210 Spaces l -> let k' = k+l in seq k' $ SText l (spaces l) (best_typical n k' ds)
1211 Color _ _ _ x | not with_color -> best_typical n k (Cons i x ds)
1212 Color l t c x -> SSGR [SetColor l t c] (best n k mb_fc' mb_bc' mb_in mb_it mb_un (Cons i x ds_restore))
1213 where
1214 mb_fc' = case l of { Background -> mb_fc; Foreground -> Just (t, c) }
1215 mb_bc' = case l of { Background -> Just (t, c); Foreground -> mb_bc }
1216 IfColor xt xf -> best_typical n k (if with_color then Cons i xt ds else Cons i xf ds)
1217 Intensify _ x | not with_color -> best_typical n k (Cons i x ds)
1218 Intensify t x -> SSGR [SetConsoleIntensity t] (best n k mb_fc mb_bc (Just t) mb_it mb_un (Cons i x ds_restore))
1219 Italicize _ x | not with_color -> best_typical n k (Cons i x ds)
1220 Italicize t x -> SSGR [SetItalicized t] (best n k mb_fc mb_bc mb_in (Just t) mb_un (Cons i x ds_restore))
1221 Underline _ x | not with_color -> best_typical n k (Cons i x ds)
1222 Underline u x -> SSGR [SetUnderlining u] (best n k mb_fc mb_bc mb_in mb_it (Just u) (Cons i x ds_restore))
1223 RestoreFormat _ _ _ _ _ | not with_color -> best_typical n k ds
1224 RestoreFormat mb_fc' mb_bc' mb_in' mb_it' mb_un' -> SSGR sgrs (best n k mb_fc' mb_bc' mb_in' mb_it' mb_un' ds)
1225 where
1226 -- We need to be able to restore the entire SGR state, hence we carry around what we believe
1227 -- that state should be in all the arguments to this function. Note that in some cases we could
1228 -- avoid the Reset of the entire state, but not in general.
1229 sgrs = Reset : catMaybes [
1230 fmap (uncurry (SetColor Foreground)) mb_fc',
1231 fmap (uncurry (SetColor Background)) mb_bc',
1232 fmap SetConsoleIntensity mb_in',
1233 fmap SetItalicized mb_it',
1234 fmap SetUnderlining mb_un'
1235 ]
1236 where
1237 best_typical n' k' ds' = best n' k' mb_fc mb_bc mb_in mb_it mb_un ds'
1238 ds_restore = Cons i (RestoreFormat mb_fc mb_bc mb_in mb_it mb_un) ds
1239
1240 --nicest :: r = ribbon width, w = page width,
1241 -- n = indentation of current line, k = current column
1242 -- x and y, the (simple) documents to chose from.
1243 -- precondition: first lines of x are longer than the first lines of y.
1244 nicest n k x y | fits w64 (min n k) width_ x = x
1245 | otherwise = y
1246 where
1247 width_ = min (w64 - k) (r - k + n)
1248
1249 -- @fits1@ does 1 line lookahead.
1250 fits1 :: Int64 -> Int64 -> Int64 -> SimpleDoc -> Bool
1251 fits1 _ _ w _x | w < 0 = False
1252 --fits1 _ _ w SFail = False
1253 fits1 _ _ _w SEmpty = True
1254 fits1 p m w (SChar _c x) = fits1 p m (w - 1) x
1255 fits1 p m w (SText l _s x) = fits1 p m (w - l) x
1256 fits1 _ _ _w (SLine _i _x) = True
1257 fits1 p m w (SSGR _ x) = fits1 p m w x
1258
1259 -- @fitsR@ has a little more lookahead: assuming that nesting roughly
1260 -- corresponds to syntactic depth, @fitsR@ checks that not only the current line
1261 -- fits, but the entire syntactic structure being formatted at this level of
1262 -- indentation fits. If we were to remove the second case for @SLine@, we would
1263 -- check that not only the current structure fits, but also the rest of the
1264 -- document, which would be slightly more intelligent but would have exponential
1265 -- runtime (and is prohibitively expensive in practice).
1266 -- p = pagewidth
1267 -- m = minimum nesting level to fit in
1268 -- w = the width in which to fit the first line
1269 fitsR :: Int64 -> Int64 -> Int64 -> SimpleDoc -> Bool
1270 fitsR _p _m w _x | w < 0 = False
1271 --fitsR p m w SFail = False
1272 fitsR _p _m _w SEmpty = True
1273 fitsR p m w (SChar _c x) = fitsR p m (w - 1) x
1274 fitsR p m w (SText l _s x) = fitsR p m (w - l) x
1275 fitsR p m _w (SLine i x) | m < i = fitsR p m (p - i) x
1276 | otherwise = True
1277 fitsR p m w (SSGR _ x) = fitsR p m w x
1278
1279 -----------------------------------------------------------
1280 -- renderCompact: renders documents without indentation
1281 -- fast and fewer characters output, good for machines
1282 -----------------------------------------------------------
1283
1284
1285 -- | @(renderCompact x)@ renders document @x@ without adding any
1286 -- indentation. Since no \'pretty\' printing is involved, this
1287 -- renderer is very fast. The resulting output contains fewer
1288 -- characters than a pretty printed version and can be used for
1289 -- output that is read by other programs.
1290 renderCompact :: Bool -> Doc -> SimpleDoc
1291 renderCompact with_color dc
1292 = scan 0 Nothing Nothing Nothing Nothing Nothing [dc]
1293 where
1294 scan _ _mb_fc _mb_bc _mb_in _mb_it _mb_un [] = SEmpty
1295 scan k mb_fc mb_bc mb_in mb_it mb_un (d:ds)
1296 = case d of
1297 Empty -> scan' k ds
1298 Char c -> let k' = k+1 in seq k' (SChar c (scan' k' ds))
1299 Text l s -> let k' = k+l in seq k' (SText l s (scan' k' ds))
1300 Line _ -> SLine 0 (scan' 0 ds)
1301 -- FlatAlt x _ -> scan' k (x:ds)
1302 Cat x y -> scan' k (x:y:ds)
1303 Nest _ x -> scan' k (x:ds)
1304 Union _ y -> scan' k (y:ds)
1305 Column f -> scan' k (f k:ds)
1306 -- Columns f -> scan' k (f Nothing:ds)
1307 Nesting f -> scan' k (f 0:ds)
1308 Spaces _ -> scan' k ds
1309 Color _ _ _ x | not with_color -> scan' k (x:ds)
1310 Color l t c x -> SSGR [SetColor l t c] (scan k mb_fc' mb_bc' mb_in mb_it mb_un (x:ds_restore))
1311 where
1312 mb_fc' = case l of { Background -> mb_fc; Foreground -> Just (t, c) }
1313 mb_bc' = case l of { Background -> Just (t, c); Foreground -> mb_bc }
1314 IfColor x _ | not with_color -> scan' k (x:ds)
1315 IfColor _ x -> scan' k (x:ds)
1316 Intensify _ x | not with_color -> scan' k (x:ds)
1317 Intensify t x -> SSGR [SetConsoleIntensity t] (scan k mb_fc mb_bc (Just t) mb_it mb_un (x:ds_restore))
1318 Italicize _ x | not with_color -> scan' k (x:ds)
1319 Italicize t x -> SSGR [SetItalicized t] (scan k mb_fc mb_bc mb_in (Just t) mb_un (x:ds_restore))
1320 Underline _ x | not with_color -> scan' k (x:ds)
1321 Underline u x -> SSGR [SetUnderlining u] (scan k mb_fc mb_bc mb_in mb_it (Just u) (x:ds_restore))
1322 RestoreFormat _ _ _ _ _ | not with_color -> scan' k ds
1323 RestoreFormat mb_fc' mb_bc' mb_in' mb_it' mb_un' -> SSGR sgrs (scan k mb_fc' mb_bc' mb_in' mb_it' mb_un' ds)
1324 where
1325 sgrs = Reset : catMaybes [
1326 fmap (uncurry (SetColor Foreground)) mb_fc',
1327 fmap (uncurry (SetColor Background)) mb_bc',
1328 fmap SetConsoleIntensity mb_in',
1329 fmap SetItalicized mb_it',
1330 fmap SetUnderlining mb_un'
1331 ]
1332 where
1333 scan' k' ds' = scan k' mb_fc mb_bc mb_in mb_it mb_un ds'
1334 ds_restore = RestoreFormat mb_fc mb_bc mb_in mb_it mb_un:ds
1335
1336 -- | @(renderOneLine x)@ renders document @x@ without adding any
1337 -- indentation or newlines.
1338 renderOneLine :: Bool -> Doc -> SimpleDoc
1339 renderOneLine with_color dc
1340 = scan 0 Nothing Nothing Nothing Nothing Nothing [dc]
1341 where
1342 scan _ _mb_fc _mb_bc _mb_in _mb_it _mb_un [] = SEmpty
1343 scan k mb_fc mb_bc mb_in mb_it mb_un (d:ds)
1344 = case d of
1345 Empty -> scan' k ds
1346 Char c -> let k' = k+1 in seq k' (SChar c (scan' k' ds))
1347 Text l s -> let k' = k+l in seq k' (SText l s (scan' k' ds))
1348 Line False -> let k' = k+1 in seq k' (SChar ' ' (scan' k' ds))
1349 Line _ -> scan' k ds
1350 Cat x y -> scan' k (x:y:ds)
1351 Nest _ x -> scan' k (x:ds)
1352 Union _ y -> scan' k (y:ds)
1353 Column f -> scan' k (f k:ds)
1354 Nesting f -> scan' k (f 0:ds)
1355 Spaces _ -> scan' k ds
1356 Color _ _ _ x | not with_color -> scan' k (x:ds)
1357 Color l t c x -> SSGR [SetColor l t c] (scan k mb_fc' mb_bc' mb_in mb_it mb_un (x:ds_restore))
1358 where
1359 mb_fc' = case l of { Background -> mb_fc; Foreground -> Just (t, c) }
1360 mb_bc' = case l of { Background -> Just (t, c); Foreground -> mb_bc }
1361 IfColor x _ | with_color -> scan' k (x:ds)
1362 IfColor _ x -> scan' k (x:ds)
1363 Intensify _ x | with_color -> scan' k (x:ds)
1364 Intensify t x -> SSGR [SetConsoleIntensity t] (scan k mb_fc mb_bc (Just t) mb_it mb_un (x:ds_restore))
1365 Italicize _ x | with_color -> scan' k (x:ds)
1366 Italicize t x -> SSGR [SetItalicized t] (scan k mb_fc mb_bc mb_in (Just t) mb_un (x:ds_restore))
1367 Underline _ x | with_color -> scan' k (x:ds)
1368 Underline u x -> SSGR [SetUnderlining u] (scan k mb_fc mb_bc mb_in mb_it (Just u) (x:ds_restore))
1369 RestoreFormat _ _ _ _ _ | with_color -> scan' k ds
1370 RestoreFormat mb_fc' mb_bc' mb_in' mb_it' mb_un' -> SSGR sgrs (scan k mb_fc' mb_bc' mb_in' mb_it' mb_un' ds)
1371 where
1372 sgrs = Reset : catMaybes [
1373 fmap (uncurry (SetColor Foreground)) mb_fc',
1374 fmap (uncurry (SetColor Background)) mb_bc',
1375 fmap SetConsoleIntensity mb_in',
1376 fmap SetItalicized mb_it',
1377 fmap SetUnderlining mb_un'
1378 ]
1379 where
1380 scan' k' ds' = scan k' mb_fc mb_bc mb_in mb_it mb_un ds'
1381 ds_restore = RestoreFormat mb_fc mb_bc mb_in mb_it mb_un:ds
1382
1383 -----------------------------------------------------------
1384 -- Displayers: displayS and displayIO
1385 -----------------------------------------------------------
1386
1387
1388 -- | @(displayB simpleDoc)@ takes the output @simpleDoc@ from a
1389 -- rendering function and transforms it to a 'Builder' type (for
1390 -- further manipulation before converting to a lazy 'Text').
1391 displayB :: SimpleDoc -> Builder
1392 displayB SEmpty = mempty
1393 displayB (SChar c x) = c `consB` displayB x
1394 displayB (SText _ s x) = s `mappend` displayB x
1395 displayB (SLine i x) = '\n' `consB` (indentation i `mappend` displayB x)
1396 displayB (SSGR s x) = B.fromLazyText (T.pack (setSGRCode s)) `mappend` displayB x
1397
1398 consB :: Char -> Builder -> Builder
1399 c `consB` b = B.singleton c `mappend` b
1400
1401 -- | @(displayT simpleDoc)@ takes the output @simpleDoc@ from a
1402 -- rendering function and transforms it to a lazy 'Text' value.
1403 --
1404 -- > showWidth :: Int -> Doc -> Text
1405 -- > showWidth w x = displayT (renderPretty 0.4 w x)
1406 displayT :: SimpleDoc -> Text
1407 displayT = B.toLazyText . displayB
1408
1409 -- | @(displayIO handle simpleDoc)@ writes @simpleDoc@ to the
1410 -- file handle @handle@. This function is used for example by
1411 -- 'hPutDoc':
1412 --
1413 -- > hPutDoc handle doc = displayIO handle (renderPretty 0.4 100 doc)
1414 displayIO :: Handle -> SimpleDoc -> IO ()
1415 displayIO handle simpleDoc
1416 = display simpleDoc
1417 where
1418 display SEmpty = return ()
1419 display (SChar c x) = hPutChar handle c >> display x
1420 display (SText _ s x) = T.hPutStr handle (B.toLazyText s) >> display x
1421 display (SLine i x) = T.hPutStr handle newLine >> display x
1422 where
1423 newLine = B.toLazyText $ '\n' `consB` indentation i
1424 display (SSGR s x) = hSetSGR handle s >> display x
1425
1426 -----------------------------------------------------------
1427 -- default pretty printers: show, putDoc and hPutDoc
1428 -----------------------------------------------------------
1429
1430 instance Show Doc where
1431 showsPrec d doc = showsPrec d (displayT $ renderPretty True 0.4 80 doc)
1432 show doc = T.unpack (displayT $ renderPretty True 0.4 80 doc)
1433
1434 instance Show SimpleDoc where
1435 show simpleDoc = T.unpack (displayT simpleDoc)
1436
1437 -- | The action @(putDoc doc)@ pretty prints document @doc@ to the
1438 -- standard output, with a page width of 100 characters and a ribbon
1439 -- width of 40 characters.
1440 --
1441 -- > main :: IO ()
1442 -- > main = do{ putDoc (text "hello" <+> text "world") }
1443 --
1444 -- Which would output
1445 --
1446 -- @
1447 -- hello world
1448 -- @
1449 putDoc :: Doc -> IO ()
1450 putDoc doc = hPutDoc stdout doc
1451
1452 -- | @(hPutDoc handle doc)@ pretty prints document @doc@ to the file
1453 -- handle @handle@ with a page width of 100 characters and a ribbon
1454 -- width of 40 characters.
1455 --
1456 -- > main = do handle <- 'openFile' "MyFile" 'WriteMode'
1457 -- > 'hPutDoc' handle ('vcat' ('map' 'text'
1458 -- > ['T.pack' "vertical", 'T.pack' "text"]))
1459 -- > 'hClose' handle
1460 hPutDoc :: Handle -> Doc -> IO ()
1461 hPutDoc handle doc = displayIO handle (renderPretty True 0.4 80 doc)
1462
1463 -----------------------------------------------------------
1464 -- insert spaces
1465 -- "indentation" used to insert tabs but tabs seem to cause
1466 -- more trouble than they solve :-)
1467 -----------------------------------------------------------
1468 spaces :: Int64 -> Builder
1469 spaces n
1470 | n <= 0 = mempty
1471 | otherwise = B.fromLazyText $ T.replicate n (T.singleton ' ')
1472
1473 spaced :: Int -> Doc
1474 spaced l = Spaces l'
1475 where
1476 l' = fromIntegral l
1477
1478 -- An alias for readability purposes
1479 indentation :: Int64 -> Builder
1480 indentation = spaces
1481
1482 -- | Return a 'Doc' from a strict 'Text'
1483 strict_text :: Data.Text.Text -> Doc
1484 strict_text = text . T.fromStrict
1485
1486 -- | Return a 'Doc' concatenating converted values of a 'Foldable'
1487 -- separated by a given 'Doc'.
1488 intercalate
1489 :: Data.Foldable.Foldable t
1490 => Doc -> (a -> Doc) -> t a -> Doc
1491 intercalate separator f =
1492 Data.Foldable.foldl
1493 (\doc x -> doc <> (if is_empty doc then empty else separator) <> f x)
1494 empty
1495
1496 -- LocalWords: PPrint combinators Wadler Wadler's encloseSep