spec/parcom_spec.cr


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require "./spec_helper"

require "../src/parcom.cr"

include Parcom

describe Tokens do
  describe ".from_string" do
    it "constructs a Tokens(Char) from a String" do
      tokens = Tokens.from_string("abcd")
      tokens.tokens.should eq("abcd".chars)
    end
  end

  describe "#initialize" do
    it "wraps an array with the contents of the given iterable" do
      set = Set{'a', 'b', 'c', 'd'}
      tokens = Tokens.new(set)
      tokens.tokens.should eq(set.to_a)

      arr = "abcd".chars
      tokens = Tokens.new(arr)
      tokens.tokens.should eq(arr)
    end
  end

  context do
    tokens_empty = Tokens.new([] of Char)
    tokens = Tokens.from_string("abcd")

    describe "#[]" do
      it "returns the token at the given index" do
        tokens[2].should eq('c')
        expect_raises(IndexError) { tokens_empty[2] }
      end

      it "returns a new Tokens similar to Array#[](Int, Int)" do
        tokens[1, 5].should eq(Tokens.new(['b', 'c', 'd']))
        expect_raises(IndexError) { tokens_empty[1, 5] }
      end

      it "returns a new Tokens similar to Array#[](Range)" do
        tokens[1..3].should eq(Tokens.new(['b', 'c', 'd']))
        expect_raises(IndexError) { tokens_empty[1..3] }
      end
    end

    describe "#[]?" do
      it "analogous to `Array#[]?`" do
        # we should only need to check the nil-returning cases
        tokens_empty[2]?.should be_nil
        tokens_empty[1, 5]?.should be_nil
        tokens_empty[1..3]?.should be_nil
      end
    end

    describe "#empty?" do
      it "exposes the `#empty?` method of the wrapped array" do
        tokens.empty?.should be_false
        tokens_empty.empty?.should be_true
      end
    end
  end
end

describe Result do
  describe "#map" do
    r = Result.new(Tokens.from_string("abcd"), 'x')
    r_expected = Result.new(Tokens.from_string("abcd"), 'x'.ord)

    it "accepts a proc" do
      f = ->(c : Char) { c.ord }
      r.map(f).should eq(r_expected)
    end

    it "accepts a block" do
      r.map { |c| c.ord }.should eq(r_expected)
    end
  end
end

pending Parser do
  describe "#assert" do
    p = Basic(Char, Char).any_token.assert { |c| c == 'a' }

    it "succeeds if the parser succeeds and if the predicate passes" do
      tokens = Tokens.from_string("abcd")
      result = p.parse(tokens)

      result.value.should eq(tokens[0])
      result.tokens.should eq(tokens[1..])
    end

    it "fails if the predicate fails" do
      tokens = Tokens.from_string("bbcd")
      expect_raises(ParserFail) { p.parse(tokens) }
    end
  end
end

describe Basic do
  describe "Basic.pure" do
    v = 'a'
    p = Basic(Char, Char).pure(v)
    tokens = Tokens.from_string("____")
    result = p.parse(tokens)

    it "returns a value of whatever it was initialized with" do
      result.value.should eq(v)
    end

    it "does not modify the input" do
      result.tokens.should eq(tokens)
    end
  end

  describe "Basic.flunk" do
    p = Basic(Char, Char).flunk
    it "always fails" do
      expect_raises(ParserFail) { p.parse(Tokens.from_string("arbitrary")) }
    end
  end

  describe "Basic.any_token" do
    p = Basic(Char, Nil).any_token

    it "parses the first token in the input stream" do
      tokens = Tokens.from_string("abcd")
      result = p.parse(tokens)

      result.value.should eq(tokens[0])
      result.tokens.should eq(tokens[1..])
    end

    it "fails if the input stream is empty" do
      tokens = Tokens.from_string("")
      expect_raises(ParserFail) { p.parse(tokens) }
    end
  end

  describe "Basic.eof" do
    p = Basic(Char, Nil).eof

    it "succeeds with nil if the input stream is empty" do
      tokens = Tokens.from_string("")
      result = p.parse(tokens)

      result.value.should be_nil
      result.tokens.empty?.should be_true
    end

    it "fails if the input stream is not empty" do
      tokens = Tokens.from_string("____")
      expect_raises(ParserFail) { p.parse(tokens) }
    end
  end

  # TODO: the type checker hates me
  describe "Basic.satisfy" do
    #p = Basic.satisfy(Char) { |c| c == 'a' }
    p = Basic(Char, Char).satisfy(->(c : Char) { c == 'a' })

    it "succeeds if the token passes the predicate" do
      tokens = Tokens.from_string("abcd")
      result = p.parse(tokens).as_a(Result(Char, Char))

      result.value.should eq(tokens[0])
      result.tokens.should eq(tokens[1..])
    end

    it "fails if the token fails the predicate" do
      tokens = Tokens.from_string("bbcd")
      expect_raises(ParserFail) { p.parse(tokens) }
    end
  end
end