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I have a problem with transforming parsed JSON-like string, which contains nested arrays, to structured object. I am using parslet to do this.

I created parser and transformer, presented below. But I can't handle nested arrays situation.

require 'parslet'
class JSONLikeDataParser < Parslet::Parser
  rule(:l_map_paren) {str('{')}
  rule(:r_map_paren) {str('}')}
  rule(:l_list_paren) {str('[')}
  rule(:r_list_paren) {str(']')}
  rule(:map_entry_delimiter) {str(':')}
  rule(:val_delimiter) {str(',')}
  rule(:quote) {str('"')}

  rule(:simple_val) {match('[^",:\.\{\}\[\]]').repeat(1)}
  rule(:quoted_val) {quote >> (quote.absnt? >> any).repeat(0) >> quote}


  rule(:map) {l_map_paren >> map_entries.maybe.as(:map) >> r_map_paren}
  rule(:map_entries) {map_entry >> (val_delimiter >> map_entry).repeat}
  rule(:map_entry) {map_key >> map_entry_delimiter >> object}
  rule(:map_key) {(match('[A-Za-z_]').repeat(1) >> match('[A-Za-z0-9_]').repeat).as(:key)}

  rule(:list) {l_list_paren >> list_values.maybe.as(:list) >> r_list_paren}
  rule(:list_values) {object >> (val_delimiter >> object).repeat}

  rule(:object) {map | (simple_val | quoted_val).as(:value) | list }

  root(:object)
end

#TODO doesn't handle properly nested array: [[[1,2],[3]]]
class JSONLikeDataTransform < Parslet::Transform
  rule(map: subtree(:s)) do
    ret = {}
    if (s.is_a?(Hash))
      ret[s[:key]] = s[:value]
    else
      s.each do |h|
        ret.merge!(h)
      end
    end
    OpenStruct.new(ret)
  end
  rule(key: simple(:k), value: simple(:v)) {{k.str => v.str}}
  rule(key: simple(:k), list: simple(:v)) {{k.str => [v]}}
  rule(key: simple(:k), list: sequence(:v)) {{k.str => v}}

  rule(map: simple(:s)) {s ? OpenStruct.new(s) : OpenStruct.new}

  rule(list: subtree(:s)) {[s]}
  rule(list: sequence(:s)) {s}
  rule(list: simple(:s)) {s ? [s] : []}

  rule(value: subtree(:s)) {s}
  rule(value: sequence(:s)) {s}
  rule(value: simple(:s)) {s.str}
end

puts JSONLikeDataTransform.new.apply(JSONLikeDataParser.new.parse("[[[1],[2,3]]]")).inspect

Problematic string is "[[[1],[2,3]]]". I expect to receive properly nested structure. But what I get is "[[[[1],[2,3]]]]" one bracket too much.

  • There is zero chance somebody will get through this wall of code; could you please provide MCVE to recognize and reproduce the issue on our side? – Aleksei Matiushkin Jun 25 at 9:26
  • GobbleUp not defined. – Nigel Thorne Jun 25 at 9:58
  • I'll assume the GobbleUp rule can be replaced with " rule(:quoted_val) {quote >> (quote.absnt? >> any).repeat(0) >> quote}" – Nigel Thorne Jun 25 at 10:05
  • @AlekseiMatiushkin I believe this is MCVE. If someone knows the concept of parslet, then it is clear to him that what I included is Parser - first stage, and Transformation - second stage rules. Parsing works properly, but I had to attach it, as without it Transformations code would be incomprehensible. – Mateusz Fryc Jun 25 at 10:19
  • @NigelThorne - yeap GobbleUp works as you expect, this is strange it is not included in parslet gem, I can see it in github in accelerator section, but indeed it is not present in downloaded gem. I will change it to slower counterpart. – Mateusz Fryc Jun 25 at 10:20
1

Thanks everyone for sharing especially, @NigelThorne whose answer in other thread lead me to actual solution of this problem. I Introduced some additional classes like Map/Value/Arr so I am able to recognize whether particular array is created by Transform framework, or it is a result of list matching.

Below is a working code and some tests for future reference.

require 'parslet'
require 'parslet/convenience'
require 'ostruct'


module JSONLikeDataModule
  module Parsing

    class GobbleUp < Parslet::Atoms::Base
      def initialize absent, min_chars = 0
        @absent = absent
        @min_chars = min_chars
      end

      def try(source, context, consume_all)
        excluding_length = source.chars_until(@absent)

        if excluding_length >= @min_chars
          return succ(source.consume(excluding_length))
        else
          return context.err(self, source, "No such string in input: #{@absent.inspect}.")
        end
      end

      def to_s_inner(prec)
        "until('#{@absent}')"
      end
    end

    class JSONLikeDataParser < Parslet::Parser
      rule(:l_map_paren) {str('{')}
      rule(:r_map_paren) {str('}')}
      rule(:l_list_paren) {str('[')}
      rule(:r_list_paren) {str(']')}
      rule(:map_entry_delimiter) {str(':')}
      rule(:val_delimiter) {str(',')}
      rule(:quote) {str('"')}

      rule(:simple_val) {match('[^",:\.\{\}\[\]]').repeat(1)}
      rule(:quoted_val) {quote >> GobbleUp.new('"').as(:value) >> quote}


      rule(:map) {l_map_paren >> map_entries.maybe.as(:map) >> r_map_paren}
      rule(:map_entries) {map_entry >> (val_delimiter >> map_entry).repeat}
      rule(:map_entry) {map_key >> map_entry_delimiter >> object}
      rule(:map_key) {(match('[A-Za-z_]').repeat(1) >> match('[A-Za-z0-9_]').repeat).as(:key)}

      rule(:list) {l_list_paren >> list_values.maybe.as(:list) >> r_list_paren}
      rule(:list_values) {object >> (val_delimiter >> object).repeat}

      rule(:object) {map.as(:value) | simple_val.as(:value) | quoted_val | list.as(:value)}

      root(:object)
    end

    class JSONLikeDataTransform < Parslet::Transform
      rule(key: simple(:key), value: simple(:value)) {{builder.value(key) => builder.value(value)}}

      rule(map: subtree(:s)) do
        ret = {}
        next builder.map(ret) unless s

        to_transform = s
        if to_transform.is_a?(Hash)
          to_transform = [to_transform]
        end

        to_transform.each do |h|
          ret.merge!(h)
        end
        builder.map(ret)
      end

      rule(list: simple(:list)) {builder.list(list)}
      rule(list: sequence(:list)) {builder.list(list)}
      rule(list: subtree(:list)) {builder.list(list)}

      rule(value: simple(:value)) {builder.value(value)}
      rule(value: sequence(:value)) {value.map {|val| builder.value(val)}}
      rule(value: subtree(:value)) {builder.value(value)}

    end



    class Builder
      def map(h)
        Map.new(h)
      end

      def list(l)
        Arr.new(l)
      end

      def value(v)
        Value.new(v)
      end

      class Arr
        def initialize(val)
          @val = val
        end

        def val
          return [] unless @val
          return @val.map(&:val) if @val.is_a?(Array)
          return [@val.val]
        end
      end

      class Map
        def initialize(val)
          @val = val
        end

        def val
          return OpenStruct.new unless @val
          @val.inject(OpenStruct.new) do |ostruct, (k,v)|
            ostruct[k.val] = v.val
            ostruct
          end
        end
      end

      class Value
        def initialize(val)
          @val = val
        end

        def val
          @val.respond_to?(:str) ? @val.str : @val.val
        end
      end
    end
  end
end

module JSONLikeDataModule
  class JSONLikeDataFactory
    @@flag_data_parser ||= Parsing::JSONLikeDataParser.new
    @@flag_data_transform ||= Parsing::JSONLikeDataTransform.new

    class << self
      private :new

      def create(flag_data_str)
        parsed_tree = @@flag_data_parser.parse_with_debug(flag_data_str)
        ret = @@flag_data_transform.apply(parsed_tree, :builder => Parsing::Builder.new)
        ret.val
      end
    end
  end
end

Tests

require 'minitest/autorun'
class JSONLikeFactoryTest < Minitest::Test
  include JSONLikeDataModule
  describe "JSONLikeDataFactory" do

    subject do
      JSONLikeDataFactory
    end

    it "should create string val" do
      subject.create('_S').must_equal "_S"
    end

    it "should create empty array" do
      subject.create('[]').must_equal []
    end

    it "should create empty nested array" do
      subject.create('[[[]]]').must_equal [[[]]]
    end

    it "should create not empty nested array" do
      subject.create('[[[1],[2,3]]]').must_equal [[['1'],['2','3']]]
    end

    it "should create empty OpenStruct" do
      subject.create('{}').must_equal OpenStruct.new
    end

    it "should create filled 1level OpenStruct" do
      subject.create('{key1:val,key2:"val"}').must_equal OpenStruct.new(key1: "val", key2: "val")
    end

    it "should create filled 2levels OpenStruct" do
      subject.create('{key1:val,key2:"val",key3:{},key4:{key1:val},key5:[1,2],key6:[[1,2,3],{},1,{key1:"[]{}:,."}]}').must_equal o(key1: "val", key2: "val", key3: o, key4: o(key1: "val"), key5: %w(1 2), key6: [%w(1 2 3), o, '1', o(key1: '[]{}:,.')])
    end

    def o(h= {})
      OpenStruct.new(h)
    end
  end
end

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