ok
Direktori : /proc/thread-self/root/proc/self/root/proc/self/root/opt/alt/ruby18/lib64/ruby/1.8/ |
Current File : //proc/thread-self/root/proc/self/root/proc/self/root/opt/alt/ruby18/lib64/ruby/1.8/prettyprint.rb |
# $Id$ # This class implements a pretty printing algorithm. It finds line breaks and # nice indentations for grouped structure. # # By default, the class assumes that primitive elements are strings and each # byte in the strings have single column in width. But it can be used for # other situations by giving suitable arguments for some methods: # * newline object and space generation block for PrettyPrint.new # * optional width argument for PrettyPrint#text # * PrettyPrint#breakable # # There are several candidate uses: # * text formatting using proportional fonts # * multibyte characters which has columns different to number of bytes # * non-string formatting # # == Bugs # * Box based formatting? # * Other (better) model/algorithm? # # == References # Christian Lindig, Strictly Pretty, March 2000, # http://www.st.cs.uni-sb.de/~lindig/papers/#pretty # # Philip Wadler, A prettier printer, March 1998, # http://homepages.inf.ed.ac.uk/wadler/topics/language-design.html#prettier # # == Author # Tanaka Akira <akr@m17n.org> # class PrettyPrint # This is a convenience method which is same as follows: # # begin # q = PrettyPrint.new(output, maxwidth, newline, &genspace) # ... # q.flush # output # end # def PrettyPrint.format(output='', maxwidth=79, newline="\n", genspace=lambda {|n| ' ' * n}) q = PrettyPrint.new(output, maxwidth, newline, &genspace) yield q q.flush output end # This is similar to PrettyPrint::format but the result has no breaks. # # +maxwidth+, +newline+ and +genspace+ are ignored. # # The invocation of +breakable+ in the block doesn't break a line and is # treated as just an invocation of +text+. # def PrettyPrint.singleline_format(output='', maxwidth=nil, newline=nil, genspace=nil) q = SingleLine.new(output) yield q output end # Creates a buffer for pretty printing. # # +output+ is an output target. If it is not specified, '' is assumed. It # should have a << method which accepts the first argument +obj+ of # PrettyPrint#text, the first argument +sep+ of PrettyPrint#breakable, the # first argument +newline+ of PrettyPrint.new, and the result of a given # block for PrettyPrint.new. # # +maxwidth+ specifies maximum line length. If it is not specified, 79 is # assumed. However actual outputs may overflow +maxwidth+ if long # non-breakable texts are provided. # # +newline+ is used for line breaks. "\n" is used if it is not specified. # # The block is used to generate spaces. {|width| ' ' * width} is used if it # is not given. # def initialize(output='', maxwidth=79, newline="\n", &genspace) @output = output @maxwidth = maxwidth @newline = newline @genspace = genspace || lambda {|n| ' ' * n} @output_width = 0 @buffer_width = 0 @buffer = [] root_group = Group.new(0) @group_stack = [root_group] @group_queue = GroupQueue.new(root_group) @indent = 0 end attr_reader :output, :maxwidth, :newline, :genspace attr_reader :indent, :group_queue def current_group @group_stack.last end # first? is a predicate to test the call is a first call to first? with # current group. # # It is useful to format comma separated values as: # # q.group(1, '[', ']') { # xxx.each {|yyy| # unless q.first? # q.text ',' # q.breakable # end # ... pretty printing yyy ... # } # } # # first? is obsoleted in 1.8.2. # def first? warn "PrettyPrint#first? is obsoleted at 1.8.2." current_group.first? end def break_outmost_groups while @maxwidth < @output_width + @buffer_width return unless group = @group_queue.deq until group.breakables.empty? data = @buffer.shift @output_width = data.output(@output, @output_width) @buffer_width -= data.width end while !@buffer.empty? && Text === @buffer.first text = @buffer.shift @output_width = text.output(@output, @output_width) @buffer_width -= text.width end end end # This adds +obj+ as a text of +width+ columns in width. # # If +width+ is not specified, obj.length is used. # def text(obj, width=obj.length) if @buffer.empty? @output << obj @output_width += width else text = @buffer.last unless Text === text text = Text.new @buffer << text end text.add(obj, width) @buffer_width += width break_outmost_groups end end def fill_breakable(sep=' ', width=sep.length) group { breakable sep, width } end # This tells "you can break a line here if necessary", and a +width+\-column # text +sep+ is inserted if a line is not broken at the point. # # If +sep+ is not specified, " " is used. # # If +width+ is not specified, +sep.length+ is used. You will have to # specify this when +sep+ is a multibyte character, for example. # def breakable(sep=' ', width=sep.length) group = @group_stack.last if group.break? flush @output << @newline @output << @genspace.call(@indent) @output_width = @indent @buffer_width = 0 else @buffer << Breakable.new(sep, width, self) @buffer_width += width break_outmost_groups end end # Groups line break hints added in the block. The line break hints are all # to be used or not. # # If +indent+ is specified, the method call is regarded as nested by # nest(indent) { ... }. # # If +open_obj+ is specified, <tt>text open_obj, open_width</tt> is called # before grouping. If +close_obj+ is specified, <tt>text close_obj, # close_width</tt> is called after grouping. # def group(indent=0, open_obj='', close_obj='', open_width=open_obj.length, close_width=close_obj.length) text open_obj, open_width group_sub { nest(indent) { yield } } text close_obj, close_width end def group_sub group = Group.new(@group_stack.last.depth + 1) @group_stack.push group @group_queue.enq group begin yield ensure @group_stack.pop if group.breakables.empty? @group_queue.delete group end end end # Increases left margin after newline with +indent+ for line breaks added in # the block. # def nest(indent) @indent += indent begin yield ensure @indent -= indent end end # outputs buffered data. # def flush @buffer.each {|data| @output_width = data.output(@output, @output_width) } @buffer.clear @buffer_width = 0 end class Text def initialize @objs = [] @width = 0 end attr_reader :width def output(out, output_width) @objs.each {|obj| out << obj} output_width + @width end def add(obj, width) @objs << obj @width += width end end class Breakable def initialize(sep, width, q) @obj = sep @width = width @pp = q @indent = q.indent @group = q.current_group @group.breakables.push self end attr_reader :obj, :width, :indent def output(out, output_width) @group.breakables.shift if @group.break? out << @pp.newline out << @pp.genspace.call(@indent) @indent else @pp.group_queue.delete @group if @group.breakables.empty? out << @obj output_width + @width end end end class Group def initialize(depth) @depth = depth @breakables = [] @break = false end attr_reader :depth, :breakables def break @break = true end def break? @break end def first? if defined? @first false else @first = false true end end end class GroupQueue def initialize(*groups) @queue = [] groups.each {|g| enq g} end def enq(group) depth = group.depth @queue << [] until depth < @queue.length @queue[depth] << group end def deq @queue.each {|gs| (gs.length-1).downto(0) {|i| unless gs[i].breakables.empty? group = gs.slice!(i, 1).first group.break return group end } gs.each {|group| group.break} gs.clear } return nil end def delete(group) @queue[group.depth].delete(group) end end class SingleLine def initialize(output, maxwidth=nil, newline=nil) @output = output @first = [true] end def text(obj, width=nil) @output << obj end def breakable(sep=' ', width=nil) @output << sep end def nest(indent) yield end def group(indent=nil, open_obj='', close_obj='', open_width=nil, close_width=nil) @first.push true @output << open_obj yield @output << close_obj @first.pop end def flush end def first? result = @first[-1] @first[-1] = false result end end end if __FILE__ == $0 require 'test/unit' class WadlerExample < Test::Unit::TestCase # :nodoc: def setup @tree = Tree.new("aaaa", Tree.new("bbbbb", Tree.new("ccc"), Tree.new("dd")), Tree.new("eee"), Tree.new("ffff", Tree.new("gg"), Tree.new("hhh"), Tree.new("ii"))) end def hello(width) PrettyPrint.format('', width) {|hello| hello.group { hello.group { hello.group { hello.group { hello.text 'hello' hello.breakable; hello.text 'a' } hello.breakable; hello.text 'b' } hello.breakable; hello.text 'c' } hello.breakable; hello.text 'd' } } end def test_hello_00_06 expected = <<'End'.chomp hello a b c d End assert_equal(expected, hello(0)) assert_equal(expected, hello(6)) end def test_hello_07_08 expected = <<'End'.chomp hello a b c d End assert_equal(expected, hello(7)) assert_equal(expected, hello(8)) end def test_hello_09_10 expected = <<'End'.chomp hello a b c d End out = hello(9); assert_equal(expected, out) out = hello(10); assert_equal(expected, out) end def test_hello_11_12 expected = <<'End'.chomp hello a b c d End assert_equal(expected, hello(11)) assert_equal(expected, hello(12)) end def test_hello_13 expected = <<'End'.chomp hello a b c d End assert_equal(expected, hello(13)) end def tree(width) PrettyPrint.format('', width) {|q| @tree.show(q)} end def test_tree_00_19 expected = <<'End'.chomp aaaa[bbbbb[ccc, dd], eee, ffff[gg, hhh, ii]] End assert_equal(expected, tree(0)) assert_equal(expected, tree(19)) end def test_tree_20_22 expected = <<'End'.chomp aaaa[bbbbb[ccc, dd], eee, ffff[gg, hhh, ii]] End assert_equal(expected, tree(20)) assert_equal(expected, tree(22)) end def test_tree_23_43 expected = <<'End'.chomp aaaa[bbbbb[ccc, dd], eee, ffff[gg, hhh, ii]] End assert_equal(expected, tree(23)) assert_equal(expected, tree(43)) end def test_tree_44 assert_equal(<<'End'.chomp, tree(44)) aaaa[bbbbb[ccc, dd], eee, ffff[gg, hhh, ii]] End end def tree_alt(width) PrettyPrint.format('', width) {|q| @tree.altshow(q)} end def test_tree_alt_00_18 expected = <<'End'.chomp aaaa[ bbbbb[ ccc, dd ], eee, ffff[ gg, hhh, ii ] ] End assert_equal(expected, tree_alt(0)) assert_equal(expected, tree_alt(18)) end def test_tree_alt_19_20 expected = <<'End'.chomp aaaa[ bbbbb[ ccc, dd ], eee, ffff[ gg, hhh, ii ] ] End assert_equal(expected, tree_alt(19)) assert_equal(expected, tree_alt(20)) end def test_tree_alt_20_49 expected = <<'End'.chomp aaaa[ bbbbb[ ccc, dd ], eee, ffff[ gg, hhh, ii ] ] End assert_equal(expected, tree_alt(21)) assert_equal(expected, tree_alt(49)) end def test_tree_alt_50 expected = <<'End'.chomp aaaa[ bbbbb[ ccc, dd ], eee, ffff[ gg, hhh, ii ] ] End assert_equal(expected, tree_alt(50)) end class Tree # :nodoc: def initialize(string, *children) @string = string @children = children end def show(q) q.group { q.text @string q.nest(@string.length) { unless @children.empty? q.text '[' q.nest(1) { first = true @children.each {|t| if first first = false else q.text ',' q.breakable end t.show(q) } } q.text ']' end } } end def altshow(q) q.group { q.text @string unless @children.empty? q.text '[' q.nest(2) { q.breakable first = true @children.each {|t| if first first = false else q.text ',' q.breakable end t.altshow(q) } } q.breakable q.text ']' end } end end end class StrictPrettyExample < Test::Unit::TestCase # :nodoc: def prog(width) PrettyPrint.format('', width) {|q| q.group { q.group {q.nest(2) { q.text "if"; q.breakable; q.group { q.nest(2) { q.group {q.text "a"; q.breakable; q.text "=="} q.breakable; q.text "b"}}}} q.breakable q.group {q.nest(2) { q.text "then"; q.breakable; q.group { q.nest(2) { q.group {q.text "a"; q.breakable; q.text "<<"} q.breakable; q.text "2"}}}} q.breakable q.group {q.nest(2) { q.text "else"; q.breakable; q.group { q.nest(2) { q.group {q.text "a"; q.breakable; q.text "+"} q.breakable; q.text "b"}}}}} } end def test_00_04 expected = <<'End'.chomp if a == b then a << 2 else a + b End assert_equal(expected, prog(0)) assert_equal(expected, prog(4)) end def test_05 expected = <<'End'.chomp if a == b then a << 2 else a + b End assert_equal(expected, prog(5)) end def test_06 expected = <<'End'.chomp if a == b then a << 2 else a + b End assert_equal(expected, prog(6)) end def test_07 expected = <<'End'.chomp if a == b then a << 2 else a + b End assert_equal(expected, prog(7)) end def test_08 expected = <<'End'.chomp if a == b then a << 2 else a + b End assert_equal(expected, prog(8)) end def test_09 expected = <<'End'.chomp if a == b then a << 2 else a + b End assert_equal(expected, prog(9)) end def test_10 expected = <<'End'.chomp if a == b then a << 2 else a + b End assert_equal(expected, prog(10)) end def test_11_31 expected = <<'End'.chomp if a == b then a << 2 else a + b End assert_equal(expected, prog(11)) assert_equal(expected, prog(15)) assert_equal(expected, prog(31)) end def test_32 expected = <<'End'.chomp if a == b then a << 2 else a + b End assert_equal(expected, prog(32)) end end class TailGroup < Test::Unit::TestCase # :nodoc: def test_1 out = PrettyPrint.format('', 10) {|q| q.group { q.group { q.text "abc" q.breakable q.text "def" } q.group { q.text "ghi" q.breakable q.text "jkl" } } } assert_equal("abc defghi\njkl", out) end end class NonString < Test::Unit::TestCase # :nodoc: def format(width) PrettyPrint.format([], width, 'newline', lambda {|n| "#{n} spaces"}) {|q| q.text(3, 3) q.breakable(1, 1) q.text(3, 3) } end def test_6 assert_equal([3, "newline", "0 spaces", 3], format(6)) end def test_7 assert_equal([3, 1, 3], format(7)) end end class Fill < Test::Unit::TestCase # :nodoc: def format(width) PrettyPrint.format('', width) {|q| q.group { q.text 'abc' q.fill_breakable q.text 'def' q.fill_breakable q.text 'ghi' q.fill_breakable q.text 'jkl' q.fill_breakable q.text 'mno' q.fill_breakable q.text 'pqr' q.fill_breakable q.text 'stu' } } end def test_00_06 expected = <<'End'.chomp abc def ghi jkl mno pqr stu End assert_equal(expected, format(0)) assert_equal(expected, format(6)) end def test_07_10 expected = <<'End'.chomp abc def ghi jkl mno pqr stu End assert_equal(expected, format(7)) assert_equal(expected, format(10)) end def test_11_14 expected = <<'End'.chomp abc def ghi jkl mno pqr stu End assert_equal(expected, format(11)) assert_equal(expected, format(14)) end def test_15_18 expected = <<'End'.chomp abc def ghi jkl mno pqr stu End assert_equal(expected, format(15)) assert_equal(expected, format(18)) end def test_19_22 expected = <<'End'.chomp abc def ghi jkl mno pqr stu End assert_equal(expected, format(19)) assert_equal(expected, format(22)) end def test_23_26 expected = <<'End'.chomp abc def ghi jkl mno pqr stu End assert_equal(expected, format(23)) assert_equal(expected, format(26)) end def test_27 expected = <<'End'.chomp abc def ghi jkl mno pqr stu End assert_equal(expected, format(27)) end end end