Tree datastructures: Difference between revisions
(Added Wren) |
(PascalABC.NET solution added before Perl) |
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Show all output on this page. |
Show all output on this page. |
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=={{header|11l}}== |
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{{trans|Nim}} |
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<syntaxhighlight lang="11l">T NNode |
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String value |
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[NNode] children |
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F (value) |
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.value = value |
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F add(node) |
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.children.append(node) |
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F.const to_str(depth) -> String |
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V result = (‘ ’ * depth)‘’(.value)"\n" |
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L(child) .children |
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result ‘’= child.to_str(depth + 1) |
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R result |
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F String() |
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R .to_str(0) |
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T INode |
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String value |
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Int level |
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F (value, level) |
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.value = value |
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.level = level |
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F to_indented(node) |
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[INode] result |
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F add_node(NNode node, Int level) -> Void |
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@result.append(INode(node.value, level)) |
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L(child) node.children |
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@add_node(child, level + 1) |
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add_node(node, 0) |
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R result |
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F to_nested(tree) |
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[NNode] stack |
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V nnode = NNode(tree[0].value) |
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L(i) 1 .< tree.len |
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V inode = tree[i] |
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I inode.level > stack.len |
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stack.append(nnode) |
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E I inode.level == stack.len |
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stack.last.children.append(nnode) |
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E |
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L inode.level < stack.len |
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stack.last.children.append(nnode) |
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nnode = stack.pop() |
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stack.last.children.append(nnode) |
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nnode = NNode(inode.value) |
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L stack.len > 0 |
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stack.last.children.append(nnode) |
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nnode = stack.pop() |
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R nnode |
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print(‘Displaying tree built using nested structure:’) |
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V nestedTree = NNode(‘RosettaCode’) |
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V rocks = NNode(‘rocks’) |
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rocks.add(NNode(‘code’)) |
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rocks.add(NNode(‘comparison’)) |
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rocks.add(NNode(‘wiki’)) |
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V mocks = NNode(‘mocks’) |
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mocks.add(NNode(‘trolling’)) |
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nestedTree.add(rocks) |
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nestedTree.add(mocks) |
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print(nestedTree) |
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print(‘Displaying tree converted to indented structure:’) |
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V indentedTree = to_indented(nestedTree) |
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L(node) indentedTree |
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print((node.level)‘ ’(node.value)) |
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print() |
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print(‘Displaying tree converted back to nested structure:’) |
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print(to_nested(indentedTree)) |
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print(‘Are they equal? ’(I String(nestedTree) == String(to_nested(indentedTree)) {‘yes’} E ‘no’))</syntaxhighlight> |
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{{out}} |
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<pre> |
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Displaying tree built using nested structure: |
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RosettaCode |
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rocks |
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code |
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comparison |
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wiki |
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mocks |
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trolling |
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Displaying tree converted to indented structure: |
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0 RosettaCode |
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1 rocks |
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2 code |
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2 comparison |
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2 wiki |
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1 mocks |
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2 trolling |
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Displaying tree converted back to nested structure: |
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RosettaCode |
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rocks |
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code |
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comparison |
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wiki |
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mocks |
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trolling |
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Are they equal? yes |
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</pre> |
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=={{header|C++}}== |
=={{header|C++}}== |
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< |
<syntaxhighlight lang="cpp">#include <iomanip> |
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#include <iostream> |
#include <iostream> |
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#include <list> |
#include <list> |
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Line 142: | Line 257: | ||
return 0; |
return 0; |
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}</ |
}</syntaxhighlight> |
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{{out}} |
{{out}} |
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Line 177: | Line 292: | ||
=={{header|Go}}== |
=={{header|Go}}== |
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< |
<syntaxhighlight lang="go">package main |
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import ( |
import ( |
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Line 259: | Line 374: | ||
fmt.Println("\nRound trip test satisfied? ", s1 == s2) |
fmt.Println("\nRound trip test satisfied? ", s1 == s2) |
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}</ |
}</syntaxhighlight> |
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{{out}} |
{{out}} |
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Line 295: | Line 410: | ||
Round trip test satisfied? true |
Round trip test satisfied? true |
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</pre> |
</pre> |
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=={{header|Haskell}}== |
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The task is all about the isomorphism between different representations of a nested list structure. Therefore the solution is given in terms of the isomorphisms. |
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<syntaxhighlight lang="haskell">{-# LANGUAGE FlexibleInstances #-} |
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{-# LANGUAGE MultiParamTypeClasses #-} |
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{-# LANGUAGE UndecidableSuperClasses #-} |
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{-# LANGUAGE TypeApplications #-} |
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import Data.List (span) |
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-- A nested tree structure. |
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-- Using `Maybe` allows encoding several zero-level items |
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-- or irregular lists (see test example) |
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data Nest a = Nest (Maybe a) [Nest a] |
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deriving Eq |
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instance Show a => Show (Nest a) where |
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show (Nest (Just a) []) = show a |
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show (Nest (Just a) s) = show a ++ show s |
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show (Nest Nothing []) = "\"\"" |
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show (Nest Nothing s) = "\"\"" ++ show s |
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-- An indented tree structure. |
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type Indent a = [(Int, a)] |
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-- class for isomorphic types |
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class Iso b a => Iso a b where |
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from :: a -> b |
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-- A bijection from nested form to indent form |
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instance Iso (Nest a) (Indent a) where |
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from = go (-1) |
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where |
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go n (Nest a t) = |
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case a of |
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Just a -> (n, a) : foldMap (go (n + 1)) t |
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Nothing -> foldMap (go (n + 1)) t |
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-- A bijection from indent form to nested form |
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instance Iso (Indent a) (Nest a) where |
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from = revNest . foldl add (Nest Nothing []) |
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where |
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add t (d,x) = go 0 t |
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where |
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go n (Nest a s) = |
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case compare n d of |
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EQ -> Nest a $ Nest (Just x) [] : s |
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LT -> case s of |
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h:t -> Nest a $ go (n+1) h : t |
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[] -> go n $ Nest a [Nest Nothing []] |
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GT -> go (n-1) $ Nest Nothing [Nest a s] |
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revNest (Nest a s) = Nest a (reverse $ revNest <$> s) |
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-- A bijection from indent form to a string |
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instance Iso (Indent String) String where |
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from = unlines . map process |
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where |
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process (d, s) = replicate (4*d) ' ' ++ s |
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-- A bijection from a string to indent form |
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instance Iso String (Indent String) where |
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from = map process . lines |
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where |
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process s = let (i, a) = span (== ' ') s |
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in (length i `div` 4, a) |
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-- A bijection from nest form to a string via indent form |
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instance Iso (Nest String) String where |
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from = from @(Indent String) . from |
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-- A bijection from a string to nest form via indent form |
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instance Iso String (Nest String) where |
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from = from @(Indent String) . from</syntaxhighlight> |
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Testing: |
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<syntaxhighlight lang="haskell">test = unlines |
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[ "RosettaCode" |
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, " rocks" |
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, " code" |
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, " comparison" |
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, " wiki" |
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, " mocks" |
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, " trolling" |
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, "Some lists" |
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, " may" |
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, " be" |
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, " irregular" ] |
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itest :: Indent String |
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itest = from test |
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ttest :: Nest String |
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ttest = from test</syntaxhighlight> |
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<pre>λ> mapM_ print itest |
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(0,"RosettaCode") |
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(1,"rocks") |
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(2,"code") |
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(2,"comparison") |
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(2,"wiki") |
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(1,"mocks") |
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(2,"trolling") |
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(0,"Some lists") |
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(3,"may") |
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(2,"be") |
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(1,"irregular") |
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λ> ttest |
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""["RosettaCode"["rocks"["code","comparison","wiki"],"mocks"["trolling"]], |
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"Some lists"[""[""["may"],"be"],"irregular"]] |
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λ> putStr $ from (from test :: Indent String) |
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RosettaCode |
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rocks |
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code |
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comparison |
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wiki |
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mocks |
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trolling |
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Some lists |
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may |
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be |
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irregular |
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λ> putStr $ from (from test :: Nest String) |
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RosettaCode |
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rocks |
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code |
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comparison |
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wiki |
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mocks |
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trolling |
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Some lists |
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may |
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be |
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irregular |
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λ> test == from (from test :: Nest String) |
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True |
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λ> test == from (from test :: Indent String) |
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True |
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λ> itest == from (from itest :: String) |
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True |
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λ> itest == from (from itest :: Nest String) |
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True |
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λ> ttest == from (from ttest :: String) |
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True |
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λ> ttest == from (from ttest :: Indent String) |
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True</pre> |
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And less satisfyingly and instructively – just relying a little passively on the existing Data.Tree, |
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we might also write something like: |
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<syntaxhighlight lang="haskell">import Data.Bifunctor (bimap, first) |
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import Data.Char (isSpace) |
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import Data.List (find) |
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import Data.Tree (Forest, Tree (..), drawTree) |
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-------- MAPPINGS BETWEEN INDENTED LINES AND TREES ------- |
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forestFromNestLevels :: [(Int, String)] -> Forest String |
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forestFromNestLevels = go |
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where |
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go [] = [] |
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go ((n, v) : xs) = |
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uncurry (:) $ |
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bimap (Node v . go) go (span ((n <) . fst) xs) |
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indentLevelsFromLines :: [String] -> [(Int, String)] |
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indentLevelsFromLines xs = |
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let pairs = first length . span isSpace <$> xs |
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indentUnit = maybe 1 fst (find ((0 <) . fst) pairs) |
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in first (`div` indentUnit) <$> pairs |
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outlineFromForest :: |
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(String -> String -> String) -> |
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String -> |
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Forest String -> |
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String |
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outlineFromForest showRoot tabString forest = |
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let go indent node = |
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showRoot indent (rootLabel node) : |
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(subForest node >>= go ((<>) tabString indent)) |
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in unlines $ forest >>= go "" |
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-------------------------- TESTS ------------------------- |
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main :: IO () |
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main = do |
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putStrLn "Tree representation parsed directly:\n" |
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putStrLn $ drawTree $ Node "" nativeForest |
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let levelPairs = indentLevelsFromLines test |
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putStrLn "\n[(Level, Text)] list from lines:\n" |
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mapM_ print levelPairs |
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putStrLn "\n\nTrees from indented text:\n" |
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let trees = forestFromNestLevels levelPairs |
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putStrLn $ drawTree $ Node "" trees |
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putStrLn "Indented text from trees:\n" |
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putStrLn $ outlineFromForest (<>) " " trees |
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test :: [String] |
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test = |
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[ "RosettaCode", |
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" rocks", |
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" code", |
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" comparison", |
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" wiki", |
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" mocks", |
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" trolling", |
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"Some lists", |
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" may", |
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" be", |
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" irregular" |
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] |
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nativeForest :: Forest String |
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nativeForest = |
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[ Node |
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"RosettaCode" |
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[ Node |
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"rocks" |
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[ Node "code" [], |
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Node "comparison" [], |
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Node "wiki" [] |
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], |
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Node |
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"mocks" |
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[Node "trolling" []] |
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], |
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Node |
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"Some lists" |
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[ Node "may" [], |
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Node "be" [], |
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Node "irregular" [] |
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] |
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]</syntaxhighlight> |
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{{Out}} |
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<pre>Tree representation parsed directly: |
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| |
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+- RosettaCode |
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| | |
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| +- rocks |
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| | | |
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| | +- code |
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| | | |
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| | +- comparison |
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| | | |
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| | `- wiki |
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| | |
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| `- mocks |
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| | |
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| `- trolling |
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| |
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`- Some lists |
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| |
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+- may |
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| |
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+- be |
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| |
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`- irregular |
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[(Level, Text)] list from lines: |
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(0,"RosettaCode") |
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(1,"rocks") |
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(2,"code") |
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(2,"comparison") |
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(2,"wiki") |
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(1,"mocks") |
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(2,"trolling") |
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(0,"Some lists") |
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(3,"may") |
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(2,"be") |
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(1,"irregular") |
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Trees from indented text: |
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| |
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+- RosettaCode |
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| | |
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| +- rocks |
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| | | |
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| | +- code |
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| | | |
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| | +- comparison |
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| | | |
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| | `- wiki |
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| | |
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| `- mocks |
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| | |
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| `- trolling |
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| |
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`- Some lists |
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| |
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+- may |
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| |
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+- be |
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| |
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`- irregular |
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Indented text from trees: |
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RosettaCode |
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rocks |
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code |
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comparison |
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wiki |
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mocks |
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trolling |
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Some lists |
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may |
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be |
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irregular</pre> |
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=={{header|Java}}== |
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<syntaxhighlight lang="java"> |
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public class TreeDatastructures { |
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public static void main(String[] args) { |
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String initialNested = """ |
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Rosetta Code |
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....rocks |
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........code |
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........comparison |
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........wiki |
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....mocks |
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........trolling |
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"""; |
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System.out.println(initialNested); |
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String indented = nestedToIndented(initialNested); |
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System.out.println(indented); |
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String finalNested = indentedToNested(indented); |
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System.out.println(finalNested); |
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final boolean equal = ( initialNested.compareTo(finalNested) == 0 ); |
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System.out.println("initialNested = finalNested ? " + equal); |
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} |
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private static String nestedToIndented(String nested) { |
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StringBuilder result = new StringBuilder(); |
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for ( String line : nested.split(LINE_END) ) { |
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int index = 0; |
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while ( line.charAt(index) == '.' ) { |
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index += 1; |
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} |
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result.append(String.valueOf(index / 4) + " " + line.substring(index) + LINE_END); |
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} |
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return result.toString(); |
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} |
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private static String indentedToNested(String indented) { |
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StringBuilder result = new StringBuilder(); |
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for ( String line : indented.split(LINE_END) ) { |
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final int index = line.indexOf(' '); |
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final int level = Integer.valueOf(line.substring(0, index)); |
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for ( int i = 0; i < level; i++ ) { |
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result.append("...."); |
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} |
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result.append(line.substring(index + 1) + LINE_END); |
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} |
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return result.toString(); |
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} |
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private static final String LINE_END = "\n"; |
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} |
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</syntaxhighlight> |
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{{ out }} |
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<pre> |
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Rosetta Code |
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....rocks |
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........code |
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........comparison |
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........wiki |
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....mocks |
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........trolling |
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0 Rosetta Code |
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1 rocks |
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2 code |
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2 comparison |
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2 wiki |
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1 mocks |
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2 trolling |
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Rosetta Code |
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....rocks |
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........code |
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........comparison |
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........wiki |
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....mocks |
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........trolling |
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initialNested = finalNested ? true |
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</pre> |
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=={{header|jq}}== |
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'''Adapted from [[#Wren|Wren]]''' |
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{{works with|jq}} |
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'''Also works with gojq, the Go implementation of jq''' |
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<syntaxhighlight lang="jq"> |
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# node of a nested representation |
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def NNode($name; $children): {$name, $children}; |
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# node of an indented representation: |
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def INode($level; $name): {$level, $name}; |
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# Output: string representation of an NNode structure |
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def printNest: |
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. as $nested |
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# input: string so far |
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| def printNest($n; $level): |
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if ($level == 0) then "\n==Nest form==\n\n" else . end |
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| reduce ($n.children[], null) as $c ( . + "\((" " * $level) // "")\($n.name)\n"; |
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if $c == null then . |
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else . + (" " * ($level + 1)) | printNest($c; $level + 1) |
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end ); |
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printNest($nested; 0); |
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# input: an INode structure |
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# output: the corresponding NNode structure |
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def toNest: |
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. as $in |
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| def toNest($iNodes; start; level): |
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{ i: (start + 1), |
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n: (if (level == 0) then .name = $iNodes[0].name else . end) |
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} |
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| until ( (.i >= ($iNodes|length)) or .done; |
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if ($iNodes[.i].level == level + 1) |
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then .i as $i |
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| (NNode($iNodes[$i].name; []) | toNest($iNodes; $i; level+1)) as $c |
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| .n.children += [$c] |
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else if ($iNodes[.i].level <= level) then .done = true else . end |
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end |
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| .i += 1 ) |
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| .n ; |
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NNode(""; []) | toNest($in; 0; 0); |
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# Output: string representation of an INode structure |
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def printIndent: |
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"\n==Indent form==\n\n" |
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+ reduce .[] as $n (""; |
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. + "\($n.level) \($n.name)\n") ; |
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# output: representation using INode |
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def toIndent: |
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def toIndent($n; level): |
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. + [INode(level; $n.name)] |
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+ reduce $n.children[] as $c ([]; |
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toIndent($c; level+1) ); |
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. as $in |
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| [] | toIndent($in; 0); |
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### Example |
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def n: NNode(""; []); |
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def n1: NNode("RosettaCode"; []); |
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def n2: NNode("rocks"; [NNode("code"; []), NNode("comparison"; []), NNode("wiki"; [])] ); |
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def n3: NNode("mocks"; [NNode("trolling"; [])]); |
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def n123: |
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n1 |
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| .children += [n2] |
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| .children += [n3]; |
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### The task |
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def nested: |
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n123 |
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| printNest ; |
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def indented: |
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n123 |
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| toIndent |
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| printIndent; |
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def roundtrip: |
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n123 |
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| toIndent |
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| toNest |
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| printNest; |
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def task: |
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nested as $nested |
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| roundtrip as $roundtrip |
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| $nested, indented, $roundtrip, |
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"\nRound trip test satisfied? \($nested == $roundtrip)" ; |
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task |
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</syntaxhighlight> |
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{{output}} |
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As for [[#Wren|Wren]]. |
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=={{header|Julia}}== |
=={{header|Julia}}== |
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< |
<syntaxhighlight lang="julia">const nesttext = """ |
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RosettaCode |
RosettaCode |
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rocks |
rocks |
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Line 335: | Line 963: | ||
println("Back to nest form:\n", restorednesttext, "\n") |
println("Back to nest form:\n", restorednesttext, "\n") |
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println("original == restored: ", strip(nesttext) == strip(restorednesttext)) |
println("original == restored: ", strip(nesttext) == strip(restorednesttext)) |
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</ |
</syntaxhighlight>{{out}} |
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<pre> |
<pre> |
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Original: |
Original: |
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Line 370: | Line 998: | ||
original == restored: true |
original == restored: true |
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</pre> |
</pre> |
||
=={{header|Nim}}== |
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<syntaxhighlight lang="nim">import strformat, strutils |
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#################################################################################################### |
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# Nested representation of trees. |
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# The tree is simply the first node. |
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type |
|||
NNode*[T] = ref object |
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value*: T |
|||
children*: seq[NNode[T]] |
|||
proc newNNode*[T](value: T; children: varargs[NNode[T]]): NNode[T] = |
|||
## Create a node. |
|||
NNode[T](value: value, children: @children) |
|||
proc add*[T](node: NNode[T]; children: varargs[NNode[T]]) = |
|||
## Add a list of chlidren to a node. |
|||
node.children.add children |
|||
proc `$`*[T](node: NNode[T]; depth = 0): string = |
|||
## Return a string representation of a tree/node. |
|||
result = repeat(' ', 2 * depth) & $node.value & '\n' |
|||
for child in node.children: |
|||
result.add `$`(child, depth + 1) |
|||
#################################################################################################### |
|||
# Indented representation of trees. |
|||
# The tree is described as the list of the nodes. |
|||
type |
|||
INode*[T] = object |
|||
value*: T |
|||
level*: Natural |
|||
ITree*[T] = seq[INode[T]] |
|||
proc initINode*[T](value: T; level: Natural): INode[T] = |
|||
## Return a new node. |
|||
INode[T](value: value, level: level) |
|||
proc initItree*[T](value: T): ITree[T] = |
|||
## Return a new tree initialized with the first node (root node). |
|||
result = @[initINode(value, 0)] |
|||
proc add*[T](tree: var ITree[T]; nodes: varargs[INode[T]]) = |
|||
## Add a list of nodes to the tree. |
|||
for node in nodes: |
|||
if node.level - tree[^1].level > 1: |
|||
raise newException(ValueError, &"wrong level {node.level} in node {node.value}.") |
|||
tree.add node |
|||
proc `$`*[T](tree: ITree[T]): string = |
|||
## Return a string representation of a tree. |
|||
for node in tree: |
|||
result.add $node.level & ' ' & $node.value & '\n' |
|||
#################################################################################################### |
|||
# Conversion between nested form and indented form. |
|||
proc toIndented*[T](node: NNode[T]): Itree[T] = |
|||
## Convert a tree in nested form to a tree in indented form. |
|||
proc addNode[T](tree: var Itree[T]; node: NNode[T]; level: Natural) = |
|||
## Add a node to the tree at the given level. |
|||
tree.add initINode(node.value, level) |
|||
for child in node.children: |
|||
tree.addNode(child, level + 1) |
|||
result.addNode(node, 0) |
|||
proc toNested*[T](tree: Itree[T]): NNode[T] = |
|||
## Convert a tree in indented form to a tree in nested form. |
|||
var stack: seq[NNode[T]] # Note that stack.len is equal to the current level. |
|||
var nnode = newNNode(tree[0].value) # Root. |
|||
for i in 1..tree.high: |
|||
let inode = tree[i] |
|||
if inode.level > stack.len: |
|||
# Child. |
|||
stack.add nnode |
|||
elif inode.level == stack.len: |
|||
# Sibling. |
|||
stack[^1].children.add nnode |
|||
else: |
|||
# Branch terminated. |
|||
while inode.level < stack.len: |
|||
stack[^1].children.add nnode |
|||
nnode = stack.pop() |
|||
stack[^1].children.add nnode |
|||
nnode = newNNode(inode.value) |
|||
# Empty the stack. |
|||
while stack.len > 0: |
|||
stack[^1].children.add nnode |
|||
nnode = stack.pop() |
|||
result = nnode |
|||
#——————————————————————————————————————————————————————————————————————————————————————————————————— |
|||
when isMainModule: |
|||
echo "Displaying tree built using nested structure:" |
|||
let nestedTree = newNNode("RosettaCode") |
|||
let rocks = newNNode("rocks") |
|||
rocks.add newNNode("code"), newNNode("comparison"), newNNode("wiki") |
|||
let mocks = newNNode("mocks", newNNode("trolling")) |
|||
nestedTree.add rocks, mocks |
|||
echo nestedTree |
|||
echo "Displaying tree converted to indented structure:" |
|||
let indentedTree = nestedTree.toIndented |
|||
echo indentedTree |
|||
echo "Displaying tree converted back to nested structure:" |
|||
echo indentedTree.toNested |
|||
echo "Are they equal? ", if $nestedTree == $indentedTree.toNested: "yes" else: "no"</syntaxhighlight> |
|||
{{out}} |
|||
<pre>Displaying tree built using nested structure: |
|||
RosettaCode |
|||
rocks |
|||
code |
|||
comparison |
|||
wiki |
|||
mocks |
|||
trolling |
|||
Displaying tree converted to indented structure: |
|||
0 RosettaCode |
|||
1 rocks |
|||
2 code |
|||
2 comparison |
|||
2 wiki |
|||
1 mocks |
|||
2 trolling |
|||
Displaying tree converted back to nested structure: |
|||
RosettaCode |
|||
rocks |
|||
code |
|||
comparison |
|||
wiki |
|||
mocks |
|||
trolling |
|||
Are they equal? yes</pre> |
|||
=={{header|PascalABC.NET}}== |
|||
<syntaxhighlight lang="delphi"> |
|||
{$zerobasedstrings} |
|||
function NestedToIndented(nested: string): string; |
|||
begin |
|||
var lst := new List<string>; |
|||
foreach var line in Regex.Split(nested,NewLine) do |
|||
begin |
|||
var ind := Regex.Match(line,'[^\.]').Index; |
|||
lst.Add($'{ind div 4} {line[ind:]}'); |
|||
end; |
|||
Result := lst.JoinToString(NewLine); |
|||
end; |
|||
function IndentedToNested(indented: string): string; |
|||
begin |
|||
var lst := new List<string>; |
|||
foreach var line in Regex.Split(indented,NewLine) do |
|||
begin |
|||
var ind := line.IndexOf(' '); |
|||
var level := line[:ind].ToInteger; |
|||
lst.Add((level*4) * '.' + line[ind+1:]); |
|||
end; |
|||
Result := lst.JoinToString(NewLine); |
|||
end; |
|||
begin |
|||
var initialNested := ''' |
|||
Rosetta Code |
|||
....rocks |
|||
........code |
|||
........comparison |
|||
........wiki |
|||
....mocks |
|||
........trolling |
|||
'''; |
|||
Writeln(initialNested,NewLine); |
|||
var indented := NestedToIndented(initialNested); |
|||
Writeln(indented,NewLine); |
|||
var nested := IndentedToNested(indented); |
|||
Writeln(nested,NewLine); |
|||
Writeln($'Initial = Restored: {initialNested = nested}'); |
|||
end. |
|||
</syntaxhighlight> |
|||
{{ out }} |
|||
<pre> |
|||
Rosetta Code |
|||
....rocks |
|||
........code |
|||
........comparison |
|||
........wiki |
|||
....mocks |
|||
........trolling |
|||
0 Rosetta Code |
|||
1 rocks |
|||
2 code |
|||
2 comparison |
|||
2 wiki |
|||
1 mocks |
|||
2 trolling |
|||
Rosetta Code |
|||
....rocks |
|||
........code |
|||
........comparison |
|||
........wiki |
|||
....mocks |
|||
........trolling |
|||
Initial = Restored: True |
|||
</pre> |
|||
=={{header|Perl}}== |
=={{header|Perl}}== |
||
{{trans|Raku}} |
{{trans|Raku}} |
||
< |
<syntaxhighlight lang="perl">use strict; |
||
use warnings; |
use warnings; |
||
use feature 'say'; |
use feature 'say'; |
||
Line 431: | Line 1,299: | ||
my $forest = import $trees; |
my $forest = import $trees; |
||
say "Native data structure:\n" . np $forest; |
say "Native data structure:\n" . np $forest; |
||
say "\nJSON:\n" . encode_json($forest);</ |
say "\nJSON:\n" . encode_json($forest);</syntaxhighlight> |
||
{{out}} |
{{out}} |
||
<pre>RosettaCode |
<pre>RosettaCode |
||
Line 487: | Line 1,355: | ||
=={{header|Phix}}== |
=={{header|Phix}}== |
||
{{libheader|Phix/basics}} |
|||
The standard Phix sequence is perfect for handling all of these kinds of structures. |
The standard Phix sequence is perfect for handling all of these kinds of structures. |
||
<!--<syntaxhighlight lang="phix">--> |
|||
<lang Phix>function text_to_indent(string plain_text) |
|||
<span style="color: #008080;">function</span> <span style="color: #000000;">text_to_indent</span><span style="color: #0000FF;">(</span><span style="color: #004080;">string</span> <span style="color: #000000;">plain_text</span><span style="color: #0000FF;">)</span> |
|||
sequence lines = split(plain_text,"\n",no_empty:=true), |
|||
<span style="color: #004080;">sequence</span> <span style="color: #000000;">lines</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">split</span><span style="color: #0000FF;">(</span><span style="color: #000000;">plain_text</span><span style="color: #0000FF;">,</span><span style="color: #008000;">"\n"</span><span style="color: #0000FF;">,</span><span style="color: #000000;">no_empty</span><span style="color: #0000FF;">:=</span><span style="color: #004600;">true</span><span style="color: #0000FF;">),</span> |
|||
parents = {} |
|||
<span style="color: #000000;">parents</span> <span style="color: #0000FF;">=</span> <span style="color: #0000FF;">{}</span> |
|||
for i=1 to length(lines) do |
|||
<span style="color: #008080;">for</span> <span style="color: #000000;">i</span><span style="color: #0000FF;">=</span><span style="color: #000000;">1</span> <span style="color: #008080;">to</span> <span style="color: #7060A8;">length</span><span style="color: #0000FF;">(</span><span style="color: #000000;">lines</span><span style="color: #0000FF;">)</span> <span style="color: #008080;">do</span> |
|||
string line = trim_tail(lines[i]), |
|||
<span style="color: #004080;">string</span> <span style="color: #000000;">line</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">trim_tail</span><span style="color: #0000FF;">(</span><span style="color: #000000;">lines</span><span style="color: #0000FF;">[</span><span style="color: #000000;">i</span><span style="color: #0000FF;">]),</span> |
|||
text = trim_head(line) |
|||
<span style="color: #000000;">text</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">trim_head</span><span style="color: #0000FF;">(</span><span style="color: #000000;">line</span><span style="color: #0000FF;">)</span> |
|||
integer indent = length(line)-length(text) |
|||
<span style="color: #004080;">integer</span> <span style="color: #000000;">indent</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">length</span><span style="color: #0000FF;">(</span><span style="color: #000000;">line</span><span style="color: #0000FF;">)-</span><span style="color: #7060A8;">length</span><span style="color: #0000FF;">(</span><span style="color: #000000;">text</span><span style="color: #0000FF;">)</span> |
|||
-- remove any completed parents |
|||
<span style="color: #000080;font-style:italic;">-- remove any completed parents</span> |
|||
while length(parents) and indent<=parents[$] do |
|||
<span style="color: #008080;">while</span> <span style="color: #7060A8;">length</span><span style="color: #0000FF;">(</span><span style="color: #000000;">parents</span><span style="color: #0000FF;">)</span> <span style="color: #008080;">and</span> <span style="color: #000000;">indent</span><span style="color: #0000FF;"><=</span><span style="color: #000000;">parents</span><span style="color: #0000FF;">[$]</span> <span style="color: #008080;">do</span> |
|||
parents = parents[1..$-1] |
|||
<span style="color: #000000;">parents</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">parents</span><span style="color: #0000FF;">[</span><span style="color: #000000;">1</span><span style="color: #0000FF;">..$-</span><span style="color: #000000;">1</span><span style="color: #0000FF;">]</span> |
|||
end while |
|||
<span style="color: #008080;">end</span> <span style="color: #008080;">while</span> |
|||
-- append potential new parent |
|||
<span style="color: #000080;font-style:italic;">-- append potential new parent</span> |
|||
parents &= indent |
|||
<span style="color: #000000;">parents</span> <span style="color: #0000FF;">&=</span> <span style="color: #000000;">indent</span> |
|||
integer depth = length(parents) |
|||
<span style="color: #004080;">integer</span> <span style="color: #000000;">depth</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">length</span><span style="color: #0000FF;">(</span><span style="color: #000000;">parents</span><span style="color: #0000FF;">)</span> |
|||
lines[i] = {depth,text} |
|||
<span style="color: #000000;">lines</span><span style="color: #0000FF;">[</span><span style="color: #000000;">i</span><span style="color: #0000FF;">]</span> <span style="color: #0000FF;">=</span> <span style="color: #0000FF;">{</span><span style="color: #000000;">depth</span><span style="color: #0000FF;">,</span><span style="color: #000000;">text</span><span style="color: #0000FF;">}</span> |
|||
end for |
|||
<span style="color: #008080;">end</span> <span style="color: #008080;">for</span> |
|||
return lines |
|||
<span style="color: #008080;">return</span> <span style="color: #000000;">lines</span> |
|||
end function |
|||
<span style="color: #008080;">end</span> <span style="color: #008080;">function</span> |
|||
function indent_to_nested(sequence indent, integer idx=1, level=1) |
|||
<span style="color: #008080;">function</span> <span style="color: #000000;">indent_to_nested</span><span style="color: #0000FF;">(</span><span style="color: #004080;">sequence</span> <span style="color: #000000;">indent</span><span style="color: #0000FF;">,</span> <span style="color: #004080;">integer</span> <span style="color: #000000;">idx</span><span style="color: #0000FF;">=</span><span style="color: #000000;">1</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">level</span><span style="color: #0000FF;">=</span><span style="color: #000000;">1</span><span style="color: #0000FF;">)</span> |
|||
sequence res = {} |
|||
<span style="color: #004080;">sequence</span> <span style="color: #000000;">res</span> <span style="color: #0000FF;">=</span> <span style="color: #0000FF;">{}</span> |
|||
while idx<=length(indent) do |
|||
<span style="color: #008080;">while</span> <span style="color: #000000;">idx</span><span style="color: #0000FF;"><=</span><span style="color: #7060A8;">length</span><span style="color: #0000FF;">(</span><span style="color: #000000;">indent</span><span style="color: #0000FF;">)</span> <span style="color: #008080;">do</span> |
|||
{integer lvl, string text} = indent[idx] |
|||
<span style="color: #0000FF;">{</span><span style="color: #004080;">integer</span> <span style="color: #000000;">lvl</span><span style="color: #0000FF;">,</span> <span style="color: #004080;">string</span> <span style="color: #000000;">text</span><span style="color: #0000FF;">}</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">indent</span><span style="color: #0000FF;">[</span><span style="color: #000000;">idx</span><span style="color: #0000FF;">]</span> |
|||
if lvl<level then exit end if |
|||
<span style="color: #008080;">if</span> <span style="color: #000000;">lvl</span><span style="color: #0000FF;"><</span><span style="color: #000000;">level</span> <span style="color: #008080;">then</span> <span style="color: #008080;">exit</span> <span style="color: #008080;">end</span> <span style="color: #008080;">if</span> |
|||
{sequence children,idx} = indent_to_nested(indent,idx+1,level+1) |
|||
<span style="color: #0000FF;">{</span><span style="color: #004080;">sequence</span> <span style="color: #000000;">children</span><span style="color: #0000FF;">,</span><span style="color: #000000;">idx</span><span style="color: #0000FF;">}</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">indent_to_nested</span><span style="color: #0000FF;">(</span><span style="color: #000000;">indent</span><span style="color: #0000FF;">,</span><span style="color: #000000;">idx</span><span style="color: #0000FF;">+</span><span style="color: #000000;">1</span><span style="color: #0000FF;">,</span><span style="color: #000000;">level</span><span style="color: #0000FF;">+</span><span style="color: #000000;">1</span><span style="color: #0000FF;">)</span> |
|||
res = append(res,{text,children}) |
|||
<span style="color: #000000;">res</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">append</span><span style="color: #0000FF;">(</span><span style="color: #000000;">res</span><span style="color: #0000FF;">,{</span><span style="color: #000000;">text</span><span style="color: #0000FF;">,</span><span style="color: #000000;">children</span><span style="color: #0000FF;">})</span> |
|||
end while |
|||
<span style="color: #008080;">end</span> <span style="color: #008080;">while</span> |
|||
return {res,idx} |
|||
<span style="color: #008080;">return</span> <span style="color: #0000FF;">{</span><span style="color: #000000;">res</span><span style="color: #0000FF;">,</span><span style="color: #000000;">idx</span><span style="color: #0000FF;">}</span> |
|||
end function |
|||
<span style="color: #008080;">end</span> <span style="color: #008080;">function</span> |
|||
function nested_to_indent(sequence nested, integer level=1) |
|||
<span style="color: #008080;">function</span> <span style="color: #000000;">nested_to_indent</span><span style="color: #0000FF;">(</span><span style="color: #004080;">sequence</span> <span style="color: #000000;">nested</span><span style="color: #0000FF;">,</span> <span style="color: #004080;">integer</span> <span style="color: #000000;">level</span><span style="color: #0000FF;">=</span><span style="color: #000000;">1</span><span style="color: #0000FF;">)</span> |
|||
sequence res = {} |
|||
<span style="color: #004080;">sequence</span> <span style="color: #000000;">res</span> <span style="color: #0000FF;">=</span> <span style="color: #0000FF;">{}</span> |
|||
for i=1 to length(nested) do |
|||
<span style="color: #008080;">for</span> <span style="color: #000000;">i</span><span style="color: #0000FF;">=</span><span style="color: #000000;">1</span> <span style="color: #008080;">to</span> <span style="color: #7060A8;">length</span><span style="color: #0000FF;">(</span><span style="color: #000000;">nested</span><span style="color: #0000FF;">)</span> <span style="color: #008080;">do</span> |
|||
{string text, sequence children} = nested[i] |
|||
<span style="color: #0000FF;">{</span><span style="color: #004080;">string</span> <span style="color: #000000;">text</span><span style="color: #0000FF;">,</span> <span style="color: #004080;">sequence</span> <span style="color: #000000;">children</span><span style="color: #0000FF;">}</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">nested</span><span style="color: #0000FF;">[</span><span style="color: #000000;">i</span><span style="color: #0000FF;">]</span> |
|||
res = append(res,{level,text}) |
|||
<span style="color: #000000;">res</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">append</span><span style="color: #0000FF;">(</span><span style="color: #000000;">res</span><span style="color: #0000FF;">,{</span><span style="color: #000000;">level</span><span style="color: #0000FF;">,</span><span style="color: #000000;">text</span><span style="color: #0000FF;">})</span> |
|||
res &= nested_to_indent(children,level+1) |
|||
<span style="color: #000000;">res</span> <span style="color: #0000FF;">&=</span> <span style="color: #000000;">nested_to_indent</span><span style="color: #0000FF;">(</span><span style="color: #000000;">children</span><span style="color: #0000FF;">,</span><span style="color: #000000;">level</span><span style="color: #0000FF;">+</span><span style="color: #000000;">1</span><span style="color: #0000FF;">)</span> |
|||
end for |
|||
<span style="color: #008080;">end</span> <span style="color: #008080;">for</span> |
|||
return res |
|||
<span style="color: #008080;">return</span> <span style="color: #000000;">res</span> |
|||
end function |
|||
<span style="color: #008080;">end</span> <span style="color: #008080;">function</span> |
|||
constant text = """ |
|||
<span style="color: #008080;">constant</span> <span style="color: #000000;">text</span> <span style="color: #0000FF;">=</span> <span style="color: #008000;">""" |
|||
RosettaCode |
|||
RosettaCode |
|||
encourages |
|||
code |
|||
diversity |
|||
comparison |
|||
discourages |
|||
emphasising execution speed |
|||
emphasising execution speed |
|||
code-golf.io |
|||
code-golf.io |
|||
encourages |
|||
golfing |
|||
discourages |
|||
comparison"""</span> |
|||
sequence indent = text_to_indent(text), |
|||
<span style="color: #004080;">sequence</span> <span style="color: #000000;">indent</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">text_to_indent</span><span style="color: #0000FF;">(</span><span style="color: #000000;">text</span><span style="color: #0000FF;">),</span> |
|||
nested = indent_to_nested(indent)[1], |
|||
<span style="color: #000000;">nested</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">indent_to_nested</span><span style="color: #0000FF;">(</span><span style="color: #000000;">indent</span><span style="color: #0000FF;">)[</span><span style="color: #000000;">1</span><span style="color: #0000FF;">],</span> |
|||
n2ichk = nested_to_indent(nested) |
|||
<span style="color: #000000;">n2ichk</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">nested_to_indent</span><span style="color: #0000FF;">(</span><span style="color: #000000;">nested</span><span style="color: #0000FF;">)</span> |
|||
puts(1,"Indent form:\n") |
|||
<span style="color: #7060A8;">puts</span><span style="color: #0000FF;">(</span><span style="color: #000000;">1</span><span style="color: #0000FF;">,</span><span style="color: #008000;">"Indent form:\n"</span><span style="color: #0000FF;">)</span> |
|||
pp(indent,{pp_Nest,1}) |
|||
<span style="color: #7060A8;">pp</span><span style="color: #0000FF;">(</span><span style="color: #000000;">indent</span><span style="color: #0000FF;">,{</span><span style="color: #000000;">pp_Nest</span><span style="color: #0000FF;">,</span><span style="color: #000000;">1</span><span style="color: #0000FF;">})</span> |
|||
puts(1,"\nNested form:\n") |
|||
<span style="color: #7060A8;">puts</span><span style="color: #0000FF;">(</span><span style="color: #000000;">1</span><span style="color: #0000FF;">,</span><span style="color: #008000;">"\nNested form:\n"</span><span style="color: #0000FF;">)</span> |
|||
pp(nested,{pp_Nest,8}) |
|||
<span style="color: #7060A8;">pp</span><span style="color: #0000FF;">(</span><span style="color: #000000;">nested</span><span style="color: #0000FF;">,{</span><span style="color: #000000;">pp_Nest</span><span style="color: #0000FF;">,</span><span style="color: #000000;">8</span><span style="color: #0000FF;">})</span> |
|||
printf(1,"\nNested to indent:%s\n",{iff(n2ichk==indent?"same":"***ERROR***")})</lang> |
|||
<span style="color: #7060A8;">printf</span><span style="color: #0000FF;">(</span><span style="color: #000000;">1</span><span style="color: #0000FF;">,</span><span style="color: #008000;">"\nNested to indent:%s\n"</span><span style="color: #0000FF;">,{</span><span style="color: #008080;">iff</span><span style="color: #0000FF;">(</span><span style="color: #000000;">n2ichk</span><span style="color: #0000FF;">==</span><span style="color: #000000;">indent</span><span style="color: #0000FF;">?</span><span style="color: #008000;">"same"</span><span style="color: #0000FF;">:</span><span style="color: #008000;">"***ERROR***"</span><span style="color: #0000FF;">)})</span> |
|||
<!--</syntaxhighlight>--> |
|||
{{out}} |
{{out}} |
||
<pre> |
<pre> |
||
Line 590: | Line 1,461: | ||
You can also strictly enforce these structures, which is obviously useful for debugging.<br> |
You can also strictly enforce these structures, which is obviously useful for debugging.<br> |
||
Admittedly this is somewhat more tedious, but at the same time infinitely more flexible and powerful than a "plain old struct". |
Admittedly this is somewhat more tedious, but at the same time infinitely more flexible and powerful than a "plain old struct". |
||
<!--<syntaxhighlight lang="phix">--> |
|||
<lang Phix>type indent_struct(object o) |
|||
<span style="color: #008080;">type</span> <span style="color: #000000;">indent_struct</span><span style="color: #0000FF;">(</span><span style="color: #004080;">object</span> <span style="color: #000000;">o</span><span style="color: #0000FF;">)</span> |
|||
if sequence(o) then |
|||
<span style="color: #008080;">if</span> <span style="color: #004080;">sequence</span><span style="color: #0000FF;">(</span><span style="color: #000000;">o</span><span style="color: #0000FF;">)</span> <span style="color: #008080;">then</span> |
|||
for i=1 to length(o) do |
|||
<span style="color: #008080;">for</span> <span style="color: #000000;">i</span><span style="color: #0000FF;">=</span><span style="color: #000000;">1</span> <span style="color: #008080;">to</span> <span style="color: #7060A8;">length</span><span style="color: #0000FF;">(</span><span style="color: #000000;">o</span><span style="color: #0000FF;">)</span> <span style="color: #008080;">do</span> |
|||
object oi = o[i] |
|||
<span style="color: #004080;">object</span> <span style="color: #000000;">oi</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">o</span><span style="color: #0000FF;">[</span><span style="color: #000000;">i</span><span style="color: #0000FF;">]</span> |
|||
if not sequence(oi) |
|||
<span style="color: #008080;">if</span> <span style="color: #008080;">not</span> <span style="color: #004080;">sequence</span><span style="color: #0000FF;">(</span><span style="color: #000000;">oi</span><span style="color: #0000FF;">)</span> |
|||
or length(oi)!=2 |
|||
<span style="color: #008080;">or</span> <span style="color: #7060A8;">length</span><span style="color: #0000FF;">(</span><span style="color: #000000;">oi</span><span style="color: #0000FF;">)!=</span><span style="color: #000000;">2</span> |
|||
or not integer(oi[1]) |
|||
<span style="color: #008080;">or</span> <span style="color: #008080;">not</span> <span style="color: #004080;">integer</span><span style="color: #0000FF;">(</span><span style="color: #000000;">oi</span><span style="color: #0000FF;">[</span><span style="color: #000000;">1</span><span style="color: #0000FF;">])</span> |
|||
or not string(oi[2]) then |
|||
<span style="color: #008080;">or</span> <span style="color: #008080;">not</span> <span style="color: #004080;">string</span><span style="color: #0000FF;">(</span><span style="color: #000000;">oi</span><span style="color: #0000FF;">[</span><span style="color: #000000;">2</span><span style="color: #0000FF;">])</span> <span style="color: #008080;">then</span> |
|||
return false |
|||
<span style="color: #008080;">return</span> <span style="color: #004600;">false</span> |
|||
end if |
|||
<span style="color: #008080;">end</span> <span style="color: #008080;">if</span> |
|||
end for |
|||
<span style="color: #008080;">end</span> <span style="color: #008080;">for</span> |
|||
return true |
|||
<span style="color: #008080;">return</span> <span style="color: #004600;">true</span> |
|||
end if |
|||
<span style="color: #008080;">end</span> <span style="color: #008080;">if</span> |
|||
return false |
|||
<span style="color: #008080;">return</span> <span style="color: #004600;">false</span> |
|||
end type |
|||
<span style="color: #008080;">end</span> <span style="color: #008080;">type</span> |
|||
type nested_struct(object o) |
|||
<span style="color: #008080;">type</span> <span style="color: #000000;">nested_struct</span><span style="color: #0000FF;">(</span><span style="color: #004080;">object</span> <span style="color: #000000;">o</span><span style="color: #0000FF;">)</span> |
|||
if sequence(o) then |
|||
<span style="color: #008080;">if</span> <span style="color: #004080;">sequence</span><span style="color: #0000FF;">(</span><span style="color: #000000;">o</span><span style="color: #0000FF;">)</span> <span style="color: #008080;">then</span> |
|||
for i=1 to length(o) do |
|||
<span style="color: #008080;">for</span> <span style="color: #000000;">i</span><span style="color: #0000FF;">=</span><span style="color: #000000;">1</span> <span style="color: #008080;">to</span> <span style="color: #7060A8;">length</span><span style="color: #0000FF;">(</span><span style="color: #000000;">o</span><span style="color: #0000FF;">)</span> <span style="color: #008080;">do</span> |
|||
object oi = o[i] |
|||
<span style="color: #004080;">object</span> <span style="color: #000000;">oi</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">o</span><span style="color: #0000FF;">[</span><span style="color: #000000;">i</span><span style="color: #0000FF;">]</span> |
|||
if not sequence(oi) |
|||
<span style="color: #008080;">if</span> <span style="color: #008080;">not</span> <span style="color: #004080;">sequence</span><span style="color: #0000FF;">(</span><span style="color: #000000;">oi</span><span style="color: #0000FF;">)</span> |
|||
or length(oi)!=2 |
|||
<span style="color: #008080;">or</span> <span style="color: #7060A8;">length</span><span style="color: #0000FF;">(</span><span style="color: #000000;">oi</span><span style="color: #0000FF;">)!=</span><span style="color: #000000;">2</span> |
|||
or not string(oi[1]) |
|||
<span style="color: #008080;">or</span> <span style="color: #008080;">not</span> <span style="color: #004080;">string</span><span style="color: #0000FF;">(</span><span style="color: #000000;">oi</span><span style="color: #0000FF;">[</span><span style="color: #000000;">1</span><span style="color: #0000FF;">])</span> |
|||
or not nested_struct(oi[2]) then |
|||
<span style="color: #008080;">or</span> <span style="color: #008080;">not</span> <span style="color: #000000;">nested_struct</span><span style="color: #0000FF;">(</span><span style="color: #000000;">oi</span><span style="color: #0000FF;">[</span><span style="color: #000000;">2</span><span style="color: #0000FF;">])</span> <span style="color: #008080;">then</span> |
|||
return false |
|||
<span style="color: #008080;">return</span> <span style="color: #004600;">false</span> |
|||
end if |
|||
<span style="color: #008080;">end</span> <span style="color: #008080;">if</span> |
|||
end for |
|||
<span style="color: #008080;">end</span> <span style="color: #008080;">for</span> |
|||
return true |
|||
<span style="color: #008080;">return</span> <span style="color: #004600;">true</span> |
|||
end if |
|||
<span style="color: #008080;">end</span> <span style="color: #008080;">if</span> |
|||
return false |
|||
<span style="color: #008080;">return</span> <span style="color: #004600;">false</span> |
|||
end type |
|||
<span style="color: #008080;">end</span> <span style="color: #008080;">type</span> |
|||
-- and as above except: |
|||
<span style="color: #000080;font-style:italic;">-- and as above except:</span> |
|||
function indent_to_nested(indent_struct indent, integer idx=1, level=1) |
|||
<span style="color: #008080;">function</span> <span style="color: #000000;">indent_to_nested</span><span style="color: #0000FF;">(</span><span style="color: #000000;">indent_struct</span> <span style="color: #000000;">indent</span><span style="color: #0000FF;">,</span> <span style="color: #004080;">integer</span> <span style="color: #000000;">idx</span><span style="color: #0000FF;">=</span><span style="color: #000000;">1</span><span style="color: #0000FF;">,</span> <span style="color: #000000;">level</span><span style="color: #0000FF;">=</span><span style="color: #000000;">1</span><span style="color: #0000FF;">)</span> |
|||
function nested_to_indent(nested_struct nested, integer level=1) |
|||
<span style="color: #008080;">function</span> <span style="color: #000000;">nested_to_indent</span><span style="color: #0000FF;">(</span><span style="color: #000000;">nested_struct</span> <span style="color: #000000;">nested</span><span style="color: #0000FF;">,</span> <span style="color: #004080;">integer</span> <span style="color: #000000;">level</span><span style="color: #0000FF;">=</span><span style="color: #000000;">1</span><span style="color: #0000FF;">)</span> |
|||
-- also make the output sequences better typed: |
|||
<span style="color: #000080;font-style:italic;">-- also make the output sequences better typed:</span> |
|||
indent_struct indent = text_to_indent(text) |
|||
<span style="color: #000000;">indent_struct</span> <span style="color: #000000;">indent</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">text_to_indent</span><span style="color: #0000FF;">(</span><span style="color: #000000;">text</span><span style="color: #0000FF;">)</span> |
|||
nested_struct nested = indent_to_nested(indent)[1] |
|||
<span style="color: #000000;">nested_struct</span> <span style="color: #000000;">nested</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">indent_to_nested</span><span style="color: #0000FF;">(</span><span style="color: #000000;">indent</span><span style="color: #0000FF;">)[</span><span style="color: #000000;">1</span><span style="color: #0000FF;">]</span> |
|||
indent_struct r2ichk = nested_to_indent(nested)</lang> |
|||
<span style="color: #000000;">indent_struct</span> <span style="color: #000000;">r2ichk</span> <span style="color: #0000FF;">=</span> <span style="color: #000000;">nested_to_indent</span><span style="color: #0000FF;">(</span><span style="color: #000000;">nested</span><span style="color: #0000FF;">)</span> |
|||
<!--</syntaxhighlight>--> |
|||
=={{header|Python}}== |
=={{header|Python}}== |
||
Just arranges the standard lists and tuples for the datastructures allowing pprint to show the different arrangement of storage. |
Just arranges the standard lists and tuples for the datastructures allowing pprint to show the different arrangement of storage. |
||
< |
<syntaxhighlight lang="python">from pprint import pprint as pp |
||
def to_indent(node, depth=0, flat=None): |
def to_indent(node, depth=0, flat=None): |
||
Line 674: | Line 1,547: | ||
if nest != as_nest: |
if nest != as_nest: |
||
print("Whoops round-trip issues")</ |
print("Whoops round-trip issues")</syntaxhighlight> |
||
{{out}} |
{{out}} |
||
Line 709: | Line 1,582: | ||
Code golf is a entertaining passtime, even if it isn't appropriate for this site. To a large extent, I agree with [[User:Hout|Hout]], I am not really on board with mocking anybody, especially espousing it as an official RosettaCode position. So, feel free to mark this incorrect. |
Code golf is a entertaining passtime, even if it isn't appropriate for this site. To a large extent, I agree with [[User:Hout|Hout]], I am not really on board with mocking anybody, especially espousing it as an official RosettaCode position. So, feel free to mark this incorrect. |
||
<lang |
<syntaxhighlight lang="raku" line>#`( |
||
Sort of vague as to what we are trying to accomplish here. If we are just |
Sort of vague as to what we are trying to accomplish here. If we are just |
||
trying to transform from one format to another, probably easiest to just |
trying to transform from one format to another, probably easiest to just |
||
Line 786: | Line 1,659: | ||
use YAML; |
use YAML; |
||
say "\nYAML:\n", $forest.&dump; |
say "\nYAML:\n", $forest.&dump; |
||
}</ |
}</syntaxhighlight> |
||
{{out}} |
{{out}} |
||
<pre>RosettaCode |
<pre>RosettaCode |
||
Line 892: | Line 1,765: | ||
{{libheader|Wren-dynamic}} |
{{libheader|Wren-dynamic}} |
||
{{libheader|Wren-fmt}} |
{{libheader|Wren-fmt}} |
||
< |
<syntaxhighlight lang="wren">import "./dynamic" for Struct |
||
import "/fmt" for Fmt |
import "./fmt" for Fmt |
||
var NNode = Struct.create("NNode", ["name", "children"]) |
var NNode = Struct.create("NNode", ["name", "children"]) |
||
Line 958: | Line 1,831: | ||
System.print(s2) |
System.print(s2) |
||
System.print("\nRound trip test satisfied? %(s1 == s2)")</ |
System.print("\nRound trip test satisfied? %(s1 == s2)")</syntaxhighlight> |
||
{{out}} |
{{out}} |
||
Line 999: | Line 1,872: | ||
=={{header|zkl}}== |
=={{header|zkl}}== |
||
< |
<syntaxhighlight lang="zkl">fcn nestToIndent(nestTree){ |
||
fcn(out,node,level){ |
fcn(out,node,level){ |
||
out.append(List(level,node[0])); // (n,name) or ("..",name) |
out.append(List(level,node[0])); // (n,name) or ("..",name) |
||
Line 1,047: | Line 1,920: | ||
return(nTree) |
return(nTree) |
||
} |
} |
||
fcn indentToString(indentTree){ indentTree.apply("concat"," ").concat("\n") }</ |
fcn indentToString(indentTree){ indentTree.apply("concat"," ").concat("\n") }</syntaxhighlight> |
||
< |
<syntaxhighlight lang="zkl">tree:=L("RosettaCode", |
||
L("rocks","code","comparison","wiki"), |
L("rocks","code","comparison","wiki"), |
||
L("mocks","golfing") ); |
L("mocks","golfing") ); |
||
Line 1,060: | Line 1,933: | ||
nestTree:=indentToNest(indentTree); |
nestTree:=indentToNest(indentTree); |
||
println("\nIndent to nested format:\n",nestTree); |
println("\nIndent to nested format:\n",nestTree); |
||
println("Is this tree the same as what we started with? ",nestTree==tree);</ |
println("Is this tree the same as what we started with? ",nestTree==tree);</syntaxhighlight> |
||
{{out}} |
{{out}} |
||
<pre> |
<pre> |
||
Line 1,088: | Line 1,961: | ||
</pre> |
</pre> |
||
I'm choosing to only allow one root per tree/forest so the Raku example is coded differently: |
I'm choosing to only allow one root per tree/forest so the Raku example is coded differently: |
||
< |
<syntaxhighlight lang="zkl">rakutrees:=L( |
||
L("RosettaCode", |
L("RosettaCode", |
||
L("encourages", |
L("encourages", |
||
Line 1,104: | Line 1,977: | ||
iTrees := rakutrees.apply(nestToIndent); |
iTrees := rakutrees.apply(nestToIndent); |
||
println(iTrees.apply(indentToString).concat("\n")); |
println(iTrees.apply(indentToString).concat("\n")); |
||
(iTrees.apply(indentToNest)==rakutrees).println();</ |
(iTrees.apply(indentToNest)==rakutrees).println();</syntaxhighlight> |
||
{{out}} |
{{out}} |
||
<pre style="height:40ex"> |
<pre style="height:40ex"> |
Revision as of 18:12, 12 May 2024
You are encouraged to solve this task according to the task description, using any language you may know.
The following shows a tree of data with nesting denoted by visual levels of indentation:
RosettaCode rocks code comparison wiki mocks trolling
A common datastructure for trees is to define node structures having a name and a, (possibly empty), list of child nodes. The nesting of nodes captures the indentation of the tree. Lets call this the nest form.
# E.g. if child nodes are surrounded by brackets # and separated by commas then: RosettaCode(rocks(code, ...), ...) # But only an _example_
Another datastructure for trees is to construct from the root an ordered list of the nodes level of indentation and the name of that node. The indentation for the root node is zero; node 'rocks is indented by one level from the left, and so on. Lets call this the indent form.
0 RosettaCode 1 rocks 2 code ...
- Task
- Create/use a nest datastructure format and textual representation for arbitrary trees.
- Create/use an indent datastructure format and textual representation for arbitrary trees.
- Create methods/classes/proceedures/routines etc to:
- Change from a nest tree datastructure to an indent one.
- Change from an indent tree datastructure to a nest one
- Use the above to encode the example at the start into the nest format, and show it.
- transform the initial nest format to indent format and show it.
- transform the indent format to final nest format and show it.
- Compare initial and final nest formats which should be the same.
- Note
- It's all about showing aspects of the contrasting datastructures as they hold the tree.
- Comparing nested datastructures is secondary - saving formatted output as a string then a string compare would suffice for this task, if its easier.
Show all output on this page.
11l
T NNode
String value
[NNode] children
F (value)
.value = value
F add(node)
.children.append(node)
F.const to_str(depth) -> String
V result = (‘ ’ * depth)‘’(.value)"\n"
L(child) .children
result ‘’= child.to_str(depth + 1)
R result
F String()
R .to_str(0)
T INode
String value
Int level
F (value, level)
.value = value
.level = level
F to_indented(node)
[INode] result
F add_node(NNode node, Int level) -> Void
@result.append(INode(node.value, level))
L(child) node.children
@add_node(child, level + 1)
add_node(node, 0)
R result
F to_nested(tree)
[NNode] stack
V nnode = NNode(tree[0].value)
L(i) 1 .< tree.len
V inode = tree[i]
I inode.level > stack.len
stack.append(nnode)
E I inode.level == stack.len
stack.last.children.append(nnode)
E
L inode.level < stack.len
stack.last.children.append(nnode)
nnode = stack.pop()
stack.last.children.append(nnode)
nnode = NNode(inode.value)
L stack.len > 0
stack.last.children.append(nnode)
nnode = stack.pop()
R nnode
print(‘Displaying tree built using nested structure:’)
V nestedTree = NNode(‘RosettaCode’)
V rocks = NNode(‘rocks’)
rocks.add(NNode(‘code’))
rocks.add(NNode(‘comparison’))
rocks.add(NNode(‘wiki’))
V mocks = NNode(‘mocks’)
mocks.add(NNode(‘trolling’))
nestedTree.add(rocks)
nestedTree.add(mocks)
print(nestedTree)
print(‘Displaying tree converted to indented structure:’)
V indentedTree = to_indented(nestedTree)
L(node) indentedTree
print((node.level)‘ ’(node.value))
print()
print(‘Displaying tree converted back to nested structure:’)
print(to_nested(indentedTree))
print(‘Are they equal? ’(I String(nestedTree) == String(to_nested(indentedTree)) {‘yes’} E ‘no’))
- Output:
Displaying tree built using nested structure: RosettaCode rocks code comparison wiki mocks trolling Displaying tree converted to indented structure: 0 RosettaCode 1 rocks 2 code 2 comparison 2 wiki 1 mocks 2 trolling Displaying tree converted back to nested structure: RosettaCode rocks code comparison wiki mocks trolling Are they equal? yes
C++
#include <iomanip>
#include <iostream>
#include <list>
#include <string>
#include <vector>
#include <utility>
#include <vector>
class nest_tree;
bool operator==(const nest_tree&, const nest_tree&);
class nest_tree {
public:
explicit nest_tree(const std::string& name) : name_(name) {}
nest_tree& add_child(const std::string& name) {
children_.emplace_back(name);
return children_.back();
}
void print(std::ostream& out) const {
print(out, 0);
}
const std::string& name() const {
return name_;
}
const std::list<nest_tree>& children() const {
return children_;
}
bool equals(const nest_tree& n) const {
return name_ == n.name_ && children_ == n.children_;
}
private:
void print(std::ostream& out, int level) const {
std::string indent(level * 4, ' ');
out << indent << name_ << '\n';
for (const nest_tree& child : children_)
child.print(out, level + 1);
}
std::string name_;
std::list<nest_tree> children_;
};
bool operator==(const nest_tree& a, const nest_tree& b) {
return a.equals(b);
}
class indent_tree {
public:
explicit indent_tree(const nest_tree& n) {
items_.emplace_back(0, n.name());
from_nest(n, 0);
}
void print(std::ostream& out) const {
for (const auto& item : items_)
std::cout << item.first << ' ' << item.second << '\n';
}
nest_tree to_nest() const {
nest_tree n(items_[0].second);
to_nest_(n, 1, 0);
return n;
}
private:
void from_nest(const nest_tree& n, int level) {
for (const nest_tree& child : n.children()) {
items_.emplace_back(level + 1, child.name());
from_nest(child, level + 1);
}
}
size_t to_nest_(nest_tree& n, size_t pos, int level) const {
while (pos < items_.size() && items_[pos].first == level + 1) {
nest_tree& child = n.add_child(items_[pos].second);
pos = to_nest_(child, pos + 1, level + 1);
}
return pos;
}
std::vector<std::pair<int, std::string>> items_;
};
int main() {
nest_tree n("RosettaCode");
auto& child1 = n.add_child("rocks");
auto& child2 = n.add_child("mocks");
child1.add_child("code");
child1.add_child("comparison");
child1.add_child("wiki");
child2.add_child("trolling");
std::cout << "Initial nest format:\n";
n.print(std::cout);
indent_tree i(n);
std::cout << "\nIndent format:\n";
i.print(std::cout);
nest_tree n2(i.to_nest());
std::cout << "\nFinal nest format:\n";
n2.print(std::cout);
std::cout << "\nAre initial and final nest formats equal? "
<< std::boolalpha << n.equals(n2) << '\n';
return 0;
}
- Output:
Initial nest format: RosettaCode rocks code comparison wiki mocks trolling Indent format: 0 RosettaCode 1 rocks 2 code 2 comparison 2 wiki 1 mocks 2 trolling Final nest format: RosettaCode rocks code comparison wiki mocks trolling Are initial and final nest formats equal? true
Go
package main
import (
"fmt"
"io"
"os"
"strings"
)
type nNode struct {
name string
children []nNode
}
type iNode struct {
level int
name string
}
func printNest(n nNode, level int, w io.Writer) {
if level == 0 {
fmt.Fprintln(w, "\n==Nest form==\n")
}
fmt.Fprintf(w, "%s%s\n", strings.Repeat(" ", level), n.name)
for _, c := range n.children {
fmt.Fprintf(w, "%s", strings.Repeat(" ", level+1))
printNest(c, level+1, w)
}
}
func toNest(iNodes []iNode, start, level int, n *nNode) {
if level == 0 {
n.name = iNodes[0].name
}
for i := start + 1; i < len(iNodes); i++ {
if iNodes[i].level == level+1 {
c := nNode{iNodes[i].name, nil}
toNest(iNodes, i, level+1, &c)
n.children = append(n.children, c)
} else if iNodes[i].level <= level {
return
}
}
}
func printIndent(iNodes []iNode, w io.Writer) {
fmt.Fprintln(w, "\n==Indent form==\n")
for _, n := range iNodes {
fmt.Fprintf(w, "%d %s\n", n.level, n.name)
}
}
func toIndent(n nNode, level int, iNodes *[]iNode) {
*iNodes = append(*iNodes, iNode{level, n.name})
for _, c := range n.children {
toIndent(c, level+1, iNodes)
}
}
func main() {
n1 := nNode{"RosettaCode", nil}
n2 := nNode{"rocks", []nNode{{"code", nil}, {"comparison", nil}, {"wiki", nil}}}
n3 := nNode{"mocks", []nNode{{"trolling", nil}}}
n1.children = append(n1.children, n2, n3)
var sb strings.Builder
printNest(n1, 0, &sb)
s1 := sb.String()
fmt.Print(s1)
var iNodes []iNode
toIndent(n1, 0, &iNodes)
printIndent(iNodes, os.Stdout)
var n nNode
toNest(iNodes, 0, 0, &n)
sb.Reset()
printNest(n, 0, &sb)
s2 := sb.String()
fmt.Print(s2)
fmt.Println("\nRound trip test satisfied? ", s1 == s2)
}
- Output:
==Nest form== RosettaCode rocks code comparison wiki mocks trolling ==Indent form== 0 RosettaCode 1 rocks 2 code 2 comparison 2 wiki 1 mocks 2 trolling ==Nest form== RosettaCode rocks code comparison wiki mocks trolling Round trip test satisfied? true
Haskell
The task is all about the isomorphism between different representations of a nested list structure. Therefore the solution is given in terms of the isomorphisms.
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE UndecidableSuperClasses #-}
{-# LANGUAGE TypeApplications #-}
import Data.List (span)
-- A nested tree structure.
-- Using `Maybe` allows encoding several zero-level items
-- or irregular lists (see test example)
data Nest a = Nest (Maybe a) [Nest a]
deriving Eq
instance Show a => Show (Nest a) where
show (Nest (Just a) []) = show a
show (Nest (Just a) s) = show a ++ show s
show (Nest Nothing []) = "\"\""
show (Nest Nothing s) = "\"\"" ++ show s
-- An indented tree structure.
type Indent a = [(Int, a)]
-- class for isomorphic types
class Iso b a => Iso a b where
from :: a -> b
-- A bijection from nested form to indent form
instance Iso (Nest a) (Indent a) where
from = go (-1)
where
go n (Nest a t) =
case a of
Just a -> (n, a) : foldMap (go (n + 1)) t
Nothing -> foldMap (go (n + 1)) t
-- A bijection from indent form to nested form
instance Iso (Indent a) (Nest a) where
from = revNest . foldl add (Nest Nothing [])
where
add t (d,x) = go 0 t
where
go n (Nest a s) =
case compare n d of
EQ -> Nest a $ Nest (Just x) [] : s
LT -> case s of
h:t -> Nest a $ go (n+1) h : t
[] -> go n $ Nest a [Nest Nothing []]
GT -> go (n-1) $ Nest Nothing [Nest a s]
revNest (Nest a s) = Nest a (reverse $ revNest <$> s)
-- A bijection from indent form to a string
instance Iso (Indent String) String where
from = unlines . map process
where
process (d, s) = replicate (4*d) ' ' ++ s
-- A bijection from a string to indent form
instance Iso String (Indent String) where
from = map process . lines
where
process s = let (i, a) = span (== ' ') s
in (length i `div` 4, a)
-- A bijection from nest form to a string via indent form
instance Iso (Nest String) String where
from = from @(Indent String) . from
-- A bijection from a string to nest form via indent form
instance Iso String (Nest String) where
from = from @(Indent String) . from
Testing:
test = unlines
[ "RosettaCode"
, " rocks"
, " code"
, " comparison"
, " wiki"
, " mocks"
, " trolling"
, "Some lists"
, " may"
, " be"
, " irregular" ]
itest :: Indent String
itest = from test
ttest :: Nest String
ttest = from test
λ> mapM_ print itest (0,"RosettaCode") (1,"rocks") (2,"code") (2,"comparison") (2,"wiki") (1,"mocks") (2,"trolling") (0,"Some lists") (3,"may") (2,"be") (1,"irregular") λ> ttest ""["RosettaCode"["rocks"["code","comparison","wiki"],"mocks"["trolling"]], "Some lists"[""[""["may"],"be"],"irregular"]] λ> putStr $ from (from test :: Indent String) RosettaCode rocks code comparison wiki mocks trolling Some lists may be irregular λ> putStr $ from (from test :: Nest String) RosettaCode rocks code comparison wiki mocks trolling Some lists may be irregular λ> test == from (from test :: Nest String) True λ> test == from (from test :: Indent String) True λ> itest == from (from itest :: String) True λ> itest == from (from itest :: Nest String) True λ> ttest == from (from ttest :: String) True λ> ttest == from (from ttest :: Indent String) True
And less satisfyingly and instructively – just relying a little passively on the existing Data.Tree,
we might also write something like:
import Data.Bifunctor (bimap, first)
import Data.Char (isSpace)
import Data.List (find)
import Data.Tree (Forest, Tree (..), drawTree)
-------- MAPPINGS BETWEEN INDENTED LINES AND TREES -------
forestFromNestLevels :: [(Int, String)] -> Forest String
forestFromNestLevels = go
where
go [] = []
go ((n, v) : xs) =
uncurry (:) $
bimap (Node v . go) go (span ((n <) . fst) xs)
indentLevelsFromLines :: [String] -> [(Int, String)]
indentLevelsFromLines xs =
let pairs = first length . span isSpace <$> xs
indentUnit = maybe 1 fst (find ((0 <) . fst) pairs)
in first (`div` indentUnit) <$> pairs
outlineFromForest ::
(String -> String -> String) ->
String ->
Forest String ->
String
outlineFromForest showRoot tabString forest =
let go indent node =
showRoot indent (rootLabel node) :
(subForest node >>= go ((<>) tabString indent))
in unlines $ forest >>= go ""
-------------------------- TESTS -------------------------
main :: IO ()
main = do
putStrLn "Tree representation parsed directly:\n"
putStrLn $ drawTree $ Node "" nativeForest
let levelPairs = indentLevelsFromLines test
putStrLn "\n[(Level, Text)] list from lines:\n"
mapM_ print levelPairs
putStrLn "\n\nTrees from indented text:\n"
let trees = forestFromNestLevels levelPairs
putStrLn $ drawTree $ Node "" trees
putStrLn "Indented text from trees:\n"
putStrLn $ outlineFromForest (<>) " " trees
test :: [String]
test =
[ "RosettaCode",
" rocks",
" code",
" comparison",
" wiki",
" mocks",
" trolling",
"Some lists",
" may",
" be",
" irregular"
]
nativeForest :: Forest String
nativeForest =
[ Node
"RosettaCode"
[ Node
"rocks"
[ Node "code" [],
Node "comparison" [],
Node "wiki" []
],
Node
"mocks"
[Node "trolling" []]
],
Node
"Some lists"
[ Node "may" [],
Node "be" [],
Node "irregular" []
]
]
- Output:
Tree representation parsed directly: | +- RosettaCode | | | +- rocks | | | | | +- code | | | | | +- comparison | | | | | `- wiki | | | `- mocks | | | `- trolling | `- Some lists | +- may | +- be | `- irregular [(Level, Text)] list from lines: (0,"RosettaCode") (1,"rocks") (2,"code") (2,"comparison") (2,"wiki") (1,"mocks") (2,"trolling") (0,"Some lists") (3,"may") (2,"be") (1,"irregular") Trees from indented text: | +- RosettaCode | | | +- rocks | | | | | +- code | | | | | +- comparison | | | | | `- wiki | | | `- mocks | | | `- trolling | `- Some lists | +- may | +- be | `- irregular Indented text from trees: RosettaCode rocks code comparison wiki mocks trolling Some lists may be irregular
Java
public class TreeDatastructures {
public static void main(String[] args) {
String initialNested = """
Rosetta Code
....rocks
........code
........comparison
........wiki
....mocks
........trolling
""";
System.out.println(initialNested);
String indented = nestedToIndented(initialNested);
System.out.println(indented);
String finalNested = indentedToNested(indented);
System.out.println(finalNested);
final boolean equal = ( initialNested.compareTo(finalNested) == 0 );
System.out.println("initialNested = finalNested ? " + equal);
}
private static String nestedToIndented(String nested) {
StringBuilder result = new StringBuilder();
for ( String line : nested.split(LINE_END) ) {
int index = 0;
while ( line.charAt(index) == '.' ) {
index += 1;
}
result.append(String.valueOf(index / 4) + " " + line.substring(index) + LINE_END);
}
return result.toString();
}
private static String indentedToNested(String indented) {
StringBuilder result = new StringBuilder();
for ( String line : indented.split(LINE_END) ) {
final int index = line.indexOf(' ');
final int level = Integer.valueOf(line.substring(0, index));
for ( int i = 0; i < level; i++ ) {
result.append("....");
}
result.append(line.substring(index + 1) + LINE_END);
}
return result.toString();
}
private static final String LINE_END = "\n";
}
- Output:
Rosetta Code ....rocks ........code ........comparison ........wiki ....mocks ........trolling 0 Rosetta Code 1 rocks 2 code 2 comparison 2 wiki 1 mocks 2 trolling Rosetta Code ....rocks ........code ........comparison ........wiki ....mocks ........trolling initialNested = finalNested ? true
jq
Adapted from Wren
Also works with gojq, the Go implementation of jq
# node of a nested representation
def NNode($name; $children): {$name, $children};
# node of an indented representation:
def INode($level; $name): {$level, $name};
# Output: string representation of an NNode structure
def printNest:
. as $nested
# input: string so far
| def printNest($n; $level):
if ($level == 0) then "\n==Nest form==\n\n" else . end
| reduce ($n.children[], null) as $c ( . + "\((" " * $level) // "")\($n.name)\n";
if $c == null then .
else . + (" " * ($level + 1)) | printNest($c; $level + 1)
end );
printNest($nested; 0);
# input: an INode structure
# output: the corresponding NNode structure
def toNest:
. as $in
| def toNest($iNodes; start; level):
{ i: (start + 1),
n: (if (level == 0) then .name = $iNodes[0].name else . end)
}
| until ( (.i >= ($iNodes|length)) or .done;
if ($iNodes[.i].level == level + 1)
then .i as $i
| (NNode($iNodes[$i].name; []) | toNest($iNodes; $i; level+1)) as $c
| .n.children += [$c]
else if ($iNodes[.i].level <= level) then .done = true else . end
end
| .i += 1 )
| .n ;
NNode(""; []) | toNest($in; 0; 0);
# Output: string representation of an INode structure
def printIndent:
"\n==Indent form==\n\n"
+ reduce .[] as $n ("";
. + "\($n.level) \($n.name)\n") ;
# output: representation using INode
def toIndent:
def toIndent($n; level):
. + [INode(level; $n.name)]
+ reduce $n.children[] as $c ([];
toIndent($c; level+1) );
. as $in
| [] | toIndent($in; 0);
### Example
def n: NNode(""; []);
def n1: NNode("RosettaCode"; []);
def n2: NNode("rocks"; [NNode("code"; []), NNode("comparison"; []), NNode("wiki"; [])] );
def n3: NNode("mocks"; [NNode("trolling"; [])]);
def n123:
n1
| .children += [n2]
| .children += [n3];
### The task
def nested:
n123
| printNest ;
def indented:
n123
| toIndent
| printIndent;
def roundtrip:
n123
| toIndent
| toNest
| printNest;
def task:
nested as $nested
| roundtrip as $roundtrip
| $nested, indented, $roundtrip,
"\nRound trip test satisfied? \($nested == $roundtrip)" ;
task
- Output:
As for Wren.
Julia
const nesttext = """
RosettaCode
rocks
code
comparison
wiki
mocks
trolling
"""
function nesttoindent(txt)
ret = ""
windent = gcd(length.([x.match for x in eachmatch(r"\s+", txt)]) .- 1)
for lin in split(txt, "\n")
ret *= isempty(lin) ? "\n" : isspace(lin[1]) ?
replace(lin, r"\s+" => (s) -> "$(length(s)÷windent) ") * "\n" :
"0 " * lin * "\n"
end
return ret, " "^windent
end
function indenttonest(txt, indenttext)
ret = ""
for lin in filter(x -> length(x) > 1, split(txt, "\n"))
(num, name) = split(lin, r"\s+", limit=2)
indentnum = parse(Int, num)
ret *= indentnum == 0 ? name * "\n" : indenttext^indentnum * name * "\n"
end
return ret
end
indenttext, itext = nesttoindent(nesttext)
restorednesttext = indenttonest(indenttext, itext)
println("Original:\n", nesttext, "\n")
println("Indent form:\n", indenttext, "\n")
println("Back to nest form:\n", restorednesttext, "\n")
println("original == restored: ", strip(nesttext) == strip(restorednesttext))
- Output:
Original: RosettaCode rocks code comparison wiki mocks trolling Indent form: 0 RosettaCode 1 rocks 2 code 2 comparison 2 wiki 1 mocks 2 trolling Back to nest form: RosettaCode rocks code comparison wiki mocks trolling original == restored: true
Nim
import strformat, strutils
####################################################################################################
# Nested representation of trees.
# The tree is simply the first node.
type
NNode*[T] = ref object
value*: T
children*: seq[NNode[T]]
proc newNNode*[T](value: T; children: varargs[NNode[T]]): NNode[T] =
## Create a node.
NNode[T](value: value, children: @children)
proc add*[T](node: NNode[T]; children: varargs[NNode[T]]) =
## Add a list of chlidren to a node.
node.children.add children
proc `$`*[T](node: NNode[T]; depth = 0): string =
## Return a string representation of a tree/node.
result = repeat(' ', 2 * depth) & $node.value & '\n'
for child in node.children:
result.add `$`(child, depth + 1)
####################################################################################################
# Indented representation of trees.
# The tree is described as the list of the nodes.
type
INode*[T] = object
value*: T
level*: Natural
ITree*[T] = seq[INode[T]]
proc initINode*[T](value: T; level: Natural): INode[T] =
## Return a new node.
INode[T](value: value, level: level)
proc initItree*[T](value: T): ITree[T] =
## Return a new tree initialized with the first node (root node).
result = @[initINode(value, 0)]
proc add*[T](tree: var ITree[T]; nodes: varargs[INode[T]]) =
## Add a list of nodes to the tree.
for node in nodes:
if node.level - tree[^1].level > 1:
raise newException(ValueError, &"wrong level {node.level} in node {node.value}.")
tree.add node
proc `$`*[T](tree: ITree[T]): string =
## Return a string representation of a tree.
for node in tree:
result.add $node.level & ' ' & $node.value & '\n'
####################################################################################################
# Conversion between nested form and indented form.
proc toIndented*[T](node: NNode[T]): Itree[T] =
## Convert a tree in nested form to a tree in indented form.
proc addNode[T](tree: var Itree[T]; node: NNode[T]; level: Natural) =
## Add a node to the tree at the given level.
tree.add initINode(node.value, level)
for child in node.children:
tree.addNode(child, level + 1)
result.addNode(node, 0)
proc toNested*[T](tree: Itree[T]): NNode[T] =
## Convert a tree in indented form to a tree in nested form.
var stack: seq[NNode[T]] # Note that stack.len is equal to the current level.
var nnode = newNNode(tree[0].value) # Root.
for i in 1..tree.high:
let inode = tree[i]
if inode.level > stack.len:
# Child.
stack.add nnode
elif inode.level == stack.len:
# Sibling.
stack[^1].children.add nnode
else:
# Branch terminated.
while inode.level < stack.len:
stack[^1].children.add nnode
nnode = stack.pop()
stack[^1].children.add nnode
nnode = newNNode(inode.value)
# Empty the stack.
while stack.len > 0:
stack[^1].children.add nnode
nnode = stack.pop()
result = nnode
#———————————————————————————————————————————————————————————————————————————————————————————————————
when isMainModule:
echo "Displaying tree built using nested structure:"
let nestedTree = newNNode("RosettaCode")
let rocks = newNNode("rocks")
rocks.add newNNode("code"), newNNode("comparison"), newNNode("wiki")
let mocks = newNNode("mocks", newNNode("trolling"))
nestedTree.add rocks, mocks
echo nestedTree
echo "Displaying tree converted to indented structure:"
let indentedTree = nestedTree.toIndented
echo indentedTree
echo "Displaying tree converted back to nested structure:"
echo indentedTree.toNested
echo "Are they equal? ", if $nestedTree == $indentedTree.toNested: "yes" else: "no"
- Output:
Displaying tree built using nested structure: RosettaCode rocks code comparison wiki mocks trolling Displaying tree converted to indented structure: 0 RosettaCode 1 rocks 2 code 2 comparison 2 wiki 1 mocks 2 trolling Displaying tree converted back to nested structure: RosettaCode rocks code comparison wiki mocks trolling Are they equal? yes
PascalABC.NET
{$zerobasedstrings}
function NestedToIndented(nested: string): string;
begin
var lst := new List<string>;
foreach var line in Regex.Split(nested,NewLine) do
begin
var ind := Regex.Match(line,'[^\.]').Index;
lst.Add($'{ind div 4} {line[ind:]}');
end;
Result := lst.JoinToString(NewLine);
end;
function IndentedToNested(indented: string): string;
begin
var lst := new List<string>;
foreach var line in Regex.Split(indented,NewLine) do
begin
var ind := line.IndexOf(' ');
var level := line[:ind].ToInteger;
lst.Add((level*4) * '.' + line[ind+1:]);
end;
Result := lst.JoinToString(NewLine);
end;
begin
var initialNested := '''
Rosetta Code
....rocks
........code
........comparison
........wiki
....mocks
........trolling
''';
Writeln(initialNested,NewLine);
var indented := NestedToIndented(initialNested);
Writeln(indented,NewLine);
var nested := IndentedToNested(indented);
Writeln(nested,NewLine);
Writeln($'Initial = Restored: {initialNested = nested}');
end.
- Output:
Rosetta Code ....rocks ........code ........comparison ........wiki ....mocks ........trolling 0 Rosetta Code 1 rocks 2 code 2 comparison 2 wiki 1 mocks 2 trolling Rosetta Code ....rocks ........code ........comparison ........wiki ....mocks ........trolling Initial = Restored: True
Perl
use strict;
use warnings;
use feature 'say';
use JSON;
use Data::Printer;
my $trees = <<~END;
RosettaCode
encourages
code
diversity
comparison
discourages
golfing
trolling
emphasising execution speed
code-golf.io
encourages
golfing
discourages
comparison
END
my $level = ' ';
sub nested_to_indent { shift =~ s#^($level*)# ($1 ? length($1)/length $level : 0) . ' ' #egmr }
sub indent_to_nested { shift =~ s#^(\d+)\s*# $level x $1 #egmr }
say my $indent = nested_to_indent $trees;
my $nest = indent_to_nested $indent;
use Test::More;
is($trees, $nest, 'Round-trip');
done_testing();
# Import outline paragraph into native data structure
sub import {
my($trees) = @_;
my $level = ' ';
my $forest;
my $last = -999;
for my $branch (split /\n/, $trees) {
$branch =~ m/(($level*))*/;
my $this = $1 ? length($1)/length($level) : 0;
$forest .= do {
if ($this gt $last) { '[' . trim_and_quote($branch) }
elsif ($this lt $last) { ']'x($last-$this).',' . trim_and_quote($branch) }
else { trim_and_quote($branch) }
};
$last = $this;
}
sub trim_and_quote { shift =~ s/^\s*(.*\S)\s*$/"$1",/r }
eval $forest . ']' x (1+$last);
}
my $forest = import $trees;
say "Native data structure:\n" . np $forest;
say "\nJSON:\n" . encode_json($forest);
- Output:
RosettaCode 1 encourages 2 code 3 diversity 3 comparison 1 discourages 2 golfing 2 trolling 2 emphasising execution speed code-golf.io 1 encourages 2 golfing 1 discourages 2 comparison ok 1 - Round-trip 1..1 Native data structure: \ [ [0] "RosettaCode", [1] [ [0] "encourages", [1] [ [0] "code", [1] [ [0] "diversity", [1] "comparison" ] ], [2] "discourages", [3] [ [0] "golfing", [1] "trolling", [2] "emphasising execution speed" ] ], [2] "code-golf.io", [3] [ [0] "encourages", [1] [ [0] "golfing" ], [2] "discourages", [3] [ [0] "comparison" ] ] ] JSON: ["RosettaCode",["encourages",["code",["diversity","comparison"]],"discourages",["golfing","trolling","emphasising execution speed"]],"code-golf.io",["encourages",["golfing"],"discourages",["comparison"]]]
Phix
The standard Phix sequence is perfect for handling all of these kinds of structures.
function text_to_indent(string plain_text) sequence lines = split(plain_text,"\n",no_empty:=true), parents = {} for i=1 to length(lines) do string line = trim_tail(lines[i]), text = trim_head(line) integer indent = length(line)-length(text) -- remove any completed parents while length(parents) and indent<=parents[$] do parents = parents[1..$-1] end while -- append potential new parent parents &= indent integer depth = length(parents) lines[i] = {depth,text} end for return lines end function function indent_to_nested(sequence indent, integer idx=1, level=1) sequence res = {} while idx<=length(indent) do {integer lvl, string text} = indent[idx] if lvl<level then exit end if {sequence children,idx} = indent_to_nested(indent,idx+1,level+1) res = append(res,{text,children}) end while return {res,idx} end function function nested_to_indent(sequence nested, integer level=1) sequence res = {} for i=1 to length(nested) do {string text, sequence children} = nested[i] res = append(res,{level,text}) res &= nested_to_indent(children,level+1) end for return res end function constant text = """ RosettaCode encourages code diversity comparison discourages emphasising execution speed code-golf.io encourages golfing discourages comparison""" sequence indent = text_to_indent(text), nested = indent_to_nested(indent)[1], n2ichk = nested_to_indent(nested) puts(1,"Indent form:\n") pp(indent,{pp_Nest,1}) puts(1,"\nNested form:\n") pp(nested,{pp_Nest,8}) printf(1,"\nNested to indent:%s\n",{iff(n2ichk==indent?"same":"***ERROR***")})
- Output:
Indent form: {{1, `RosettaCode`}, {2, `encourages`}, {3, `code`}, {4, `diversity`}, {4, `comparison`}, {2, `discourages`}, {3, `emphasising execution speed`}, {1, `code-golf.io`}, {2, `encourages`}, {3, `golfing`}, {2, `discourages`}, {3, `comparison`}} Nested form: {{`RosettaCode`, {{`encourages`, {{`code`, {{`diversity`, {}}, {`comparison`, {}}}}}}, {`discourages`, {{`emphasising execution speed`, {}}}}}}, {`code-golf.io`, {{`encourages`, {{`golfing`, {}}}}, {`discourages`, {{`comparison`, {}}}}}}} Nested to indent:same
You can also strictly enforce these structures, which is obviously useful for debugging.
Admittedly this is somewhat more tedious, but at the same time infinitely more flexible and powerful than a "plain old struct".
type indent_struct(object o) if sequence(o) then for i=1 to length(o) do object oi = o[i] if not sequence(oi) or length(oi)!=2 or not integer(oi[1]) or not string(oi[2]) then return false end if end for return true end if return false end type type nested_struct(object o) if sequence(o) then for i=1 to length(o) do object oi = o[i] if not sequence(oi) or length(oi)!=2 or not string(oi[1]) or not nested_struct(oi[2]) then return false end if end for return true end if return false end type -- and as above except: function indent_to_nested(indent_struct indent, integer idx=1, level=1) function nested_to_indent(nested_struct nested, integer level=1) -- also make the output sequences better typed: indent_struct indent = text_to_indent(text) nested_struct nested = indent_to_nested(indent)[1] indent_struct r2ichk = nested_to_indent(nested)
Python
Just arranges the standard lists and tuples for the datastructures allowing pprint to show the different arrangement of storage.
from pprint import pprint as pp
def to_indent(node, depth=0, flat=None):
if flat is None:
flat = []
if node:
flat.append((depth, node[0]))
for child in node[1]:
to_indent(child, depth + 1, flat)
return flat
def to_nest(lst, depth=0, level=None):
if level is None:
level = []
while lst:
d, name = lst[0]
if d == depth:
children = []
level.append((name, children))
lst.pop(0)
elif d > depth: # down
to_nest(lst, d, children)
elif d < depth: # up
return
return level[0] if level else None
if __name__ == '__main__':
print('Start Nest format:')
nest = ('RosettaCode', [('rocks', [('code', []), ('comparison', []), ('wiki', [])]),
('mocks', [('trolling', [])])])
pp(nest, width=25)
print('\n... To Indent format:')
as_ind = to_indent(nest)
pp(as_ind, width=25)
print('\n... To Nest format:')
as_nest = to_nest(as_ind)
pp(as_nest, width=25)
if nest != as_nest:
print("Whoops round-trip issues")
- Output:
Start Nest format: ('RosettaCode', [('rocks', [('code', []), ('comparison', []), ('wiki', [])]), ('mocks', [('trolling', [])])]) ... To Indent format: [(0, 'RosettaCode'), (1, 'rocks'), (2, 'code'), (2, 'comparison'), (2, 'wiki'), (1, 'mocks'), (2, 'trolling')] ... To Nest format: ('RosettaCode', [('rocks', [('code', []), ('comparison', []), ('wiki', [])]), ('mocks', [('trolling', [])])])
Raku
(formerly Perl 6)
Code golf is a entertaining passtime, even if it isn't appropriate for this site. To a large extent, I agree with Hout, I am not really on board with mocking anybody, especially espousing it as an official RosettaCode position. So, feel free to mark this incorrect.
#`(
Sort of vague as to what we are trying to accomplish here. If we are just
trying to transform from one format to another, probably easiest to just
perform string manipulations.
)
my $level = ' ';
my $trees = q:to/END/;
RosettaCode
encourages
code
diversity
comparison
discourages
golfing
trolling
emphasising execution speed
code-golf.io
encourages
golfing
discourages
comparison
END
sub nested-to-indent { $^str.subst: / ^^ ($($level))* /, -> $/ { "{+$0} " }, :g }
sub indent-to-nested { $^str.subst: / ^^ (\d+) \s* /, -> $/ { "{$level x +$0}" }, :g }
say $trees;
say my $indent = $trees.&nested-to-indent;
say my $nest = $indent.&indent-to-nested;
use Test;
is($trees, $nest, 'Round-trip equals original');
#`(
If, on the other hand, we want perform more complex transformations; better to
load it into a native data structure which will then allow us to manipulate it
however we like.
)
# Import outline paragraph into native data structure
sub import (Str $trees, $level = ' ') {
my $forest;
my $last = -Inf;
for $trees.lines -> $branch {
$branch ~~ / ($($level))* /;
my $this = +$0;
$forest ~= do {
given $this cmp $last {
when More { "\['{esc $branch.trim}', " }
when Same { "'{esc $branch.trim}', " }
when Less { "{']' x $last - $this}, '{esc $branch.trim}', " }
}
}
$last = $this;
}
sub esc { $^s.subst( /(<['\\]>)/, -> $/ { "\\$0" }, :g) }
$forest ~= ']' x 1 + $last;
$forest.EVAL;
}
my $forest = import $trees;
say "\nNative data structure:\n", $forest.raku;
{
use JSON::Fast;
say "\nJSON:\n", $forest.&to-json;
}
{
use YAML;
say "\nYAML:\n", $forest.&dump;
}
- Output:
RosettaCode encourages code diversity comparison discourages golfing trolling emphasising execution speed code-golf.io encourages golfing discourages comparison 0 RosettaCode 1 encourages 2 code 3 diversity 3 comparison 1 discourages 2 golfing 2 trolling 2 emphasising execution speed 0 code-golf.io 1 encourages 2 golfing 1 discourages 2 comparison RosettaCode encourages code diversity comparison discourages golfing trolling emphasising execution speed code-golf.io encourages golfing discourages comparison ok 1 - Round-trip equals original Native data structure: $["RosettaCode", ["encourages", ["code", ["diversity", "comparison"]], "discourages", ["golfing", "trolling", "emphasising execution speed"]], "code-golf.io", ["encourages", ["golfing"], "discourages", ["comparison"]]] JSON: [ "RosettaCode", [ "encourages", [ "code", [ "diversity", "comparison" ] ], "discourages", [ "golfing", "trolling", "emphasising execution speed" ] ], "code-golf.io", [ "encourages", [ "golfing" ], "discourages", [ "comparison" ] ] ] YAML: --- - RosettaCode - - encourages - - code - - diversity - comparison - discourages - - golfing - trolling - emphasising execution speed - code-golf.io - - encourages - - golfing - discourages - - comparison ...
Wren
import "./dynamic" for Struct
import "./fmt" for Fmt
var NNode = Struct.create("NNode", ["name", "children"])
var INode = Struct.create("INode", ["level", "name"])
var sw = ""
var printNest // recursive
printNest = Fn.new { |n, level|
if (level == 0) sw = sw + "\n==Nest form==\n\n"
sw = sw + Fmt.swrite("$0s$s\n", " " * level, n.name)
for (c in n.children) {
sw = sw + (" " * (level + 1))
printNest.call(c, level+1)
}
}
var toNest // recursive
toNest = Fn.new { |iNodes, start, level, n|
if (level == 0) n.name = iNodes[0].name
var i = start + 1
while (i < iNodes.count) {
if (iNodes[i].level == level + 1) {
var c = NNode.new(iNodes[i].name, [])
toNest.call(iNodes, i, level+1, c)
n.children.add(c)
} else if (iNodes[i].level <= level) return
i = i + 1
}
}
var printIndent = Fn.new { |iNodes|
sw = sw + "\n==Indent form==\n\n"
for (n in iNodes) sw = sw + Fmt.swrite("$d $s\n", n.level, n.name)
}
var toIndent // recursive
toIndent = Fn.new { |n, level, iNodes|
iNodes.add(INode.new(level, n.name))
for (c in n.children) toIndent.call(c, level+1, iNodes)
}
var n1 = NNode.new("RosettaCode", [])
var n2 = NNode.new("rocks", [NNode.new("code", []), NNode.new("comparison", []), NNode.new("wiki", [])])
var n3 = NNode.new("mocks", [NNode.new("trolling", [])])
n1.children.add(n2)
n1.children.add(n3)
printNest.call(n1, 0)
var s1 = sw
System.print(s1)
var iNodes = []
toIndent.call(n1, 0, iNodes)
sw = ""
printIndent.call(iNodes)
System.print(sw)
var n = NNode.new("", [])
toNest.call(iNodes, 0, 0, n)
sw = ""
printNest.call(n, 0)
var s2 = sw
System.print(s2)
System.print("\nRound trip test satisfied? %(s1 == s2)")
- Output:
==Nest form== RosettaCode rocks code comparison wiki mocks trolling ==Indent form== 0 RosettaCode 1 rocks 2 code 2 comparison 2 wiki 1 mocks 2 trolling ==Nest form== RosettaCode rocks code comparison wiki mocks trolling Round trip test satisfied? true
zkl
fcn nestToIndent(nestTree){
fcn(out,node,level){
out.append(List(level,node[0])); // (n,name) or ("..",name)
if(node.len()>1){ // (name children), (name, (tree))
level+=1;
foreach child in (node[1,*]){
if(String.isType(child)) out.append(List(level,child));
else self.fcn(out,child,level)
}
}
out
}(List(),nestTree,0)
}
fcn nestToString(nestTree,dot="."){
fcn(out,dot,node,level){
out.writeln(dot*level,node[0]); // (name)
if(node.len()>1){ // (name children), (name, (tree))
level+=1;
foreach child in (node[1,*]){
if(String.isType(child)) out.writeln(dot*level,child);
else self.fcn(out,dot,child,level)
}
}
out
}(Data(),dot,nestTree,0).text
}
fcn indentToNest(iTree,depth=0,nTree=List()){
while(iTree){ // (n,name)
d, name := iTree[0];
if(d==depth){
nTree.append(name);
iTree.pop(0);
}
else if(d>depth){ // assume can't skip levels down
if(nTree.len()>1 and not List.isType((nm:=nTree[-1]))){
nTree[-1]=(children:=List(nm));
indentToNest(iTree,d,children);
}else{
nTree.append(children:=List(name));
iTree.pop(0);
indentToNest(iTree,d+1,children);
}
}
else break; // d<depth
}
return(nTree)
}
fcn indentToString(indentTree){ indentTree.apply("concat"," ").concat("\n") }
tree:=L("RosettaCode",
L("rocks","code","comparison","wiki"),
L("mocks","golfing") );
println("Nest tree internal format:\n",tree.toString(*,*));
println("Formated:\n",nestToString(tree));
indentTree:=nestToIndent(tree);
println("To indent format:\n",indentToString(indentTree));
nestTree:=indentToNest(indentTree);
println("\nIndent to nested format:\n",nestTree);
println("Is this tree the same as what we started with? ",nestTree==tree);
- Output:
Nest tree internal format: L("RosettaCode",L("rocks","code","comparison","wiki"),L("mocks","golfing")) Formated: RosettaCode .rocks ..code ..comparison ..wiki .mocks ..golfing To indent format: 0 RosettaCode 1 rocks 2 code 2 comparison 2 wiki 1 mocks 2 golfing Indent to nested format: L("RosettaCode",L("rocks","code","comparison","wiki"),L("mocks","golfing")) Is this tree the same as what we started with? True
I'm choosing to only allow one root per tree/forest so the Raku example is coded differently:
rakutrees:=L(
L("RosettaCode",
L("encourages",
L("code",
"diversity","comparison")),
L("discourages",
"golfing","trolling","emphasising execution speed"),
),
L("code-golf.io",
L("encourages","golfing"),
L("discourages","comparison"),
)
);
println(rakutrees.apply(nestToString).concat());
iTrees := rakutrees.apply(nestToIndent);
println(iTrees.apply(indentToString).concat("\n"));
(iTrees.apply(indentToNest)==rakutrees).println();
- Output:
RosettaCode encourages code diversity comparison discourages golfing trolling emphasising execution speed code-golf.io encourages golfing discourages comparison 0 RosettaCode 1 encourages 2 code 3 diversity 3 comparison 1 discourages 2 golfing 2 trolling 2 emphasising execution speed 0 code-golf.io 1 encourages 2 golfing 1 discourages 2 comparison True