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# frozen_string_literal: true
module SyntaxSuggest
# Find mis-matched syntax based on lexical count
#
# Used for detecting missing pairs of elements
# each keyword needs an end, each '{' needs a '}'
# etc.
#
# Example:
#
# left_right = LeftRightLexCount.new
# left_right.count_kw
# left_right.missing.first
# # => "end"
#
# left_right = LeftRightLexCount.new
# source = "{ a: b, c: d" # Note missing '}'
# LexAll.new(source: source).each do |lex|
# left_right.count_lex(lex)
# end
# left_right.missing.first
# # => "}"
class LeftRightLexCount
def initialize
@kw_count = 0
@end_count = 0
@count_for_char = {
"{" => 0,
"}" => 0,
"[" => 0,
"]" => 0,
"(" => 0,
")" => 0,
"|" => 0
}
end
def count_kw
@kw_count += 1
end
def count_end
@end_count += 1
end
# Count source code characters
#
# Example:
#
# left_right = LeftRightLexCount.new
# left_right.count_lex(LexValue.new(1, :on_lbrace, "{", Ripper::EXPR_BEG))
# left_right.count_for_char("{")
# # => 1
# left_right.count_for_char("}")
# # => 0
def count_lex(lex)
case lex.type
when :on_tstring_content
# ^^^
# Means it's a string or a symbol `"{"` rather than being
# part of a data structure (like a hash) `{ a: b }`
# ignore it.
when :on_words_beg, :on_symbos_beg, :on_qwords_beg,
:on_qsymbols_beg, :on_regexp_beg, :on_tstring_beg
# ^^^
# Handle shorthand syntaxes like `%Q{ i am a string }`
#
# The start token will be the full thing `%Q{` but we
# need to count it as if it's a `{`. Any token
# can be used
char = lex.token[-1]
@count_for_char[char] += 1 if @count_for_char.key?(char)
when :on_embexpr_beg
# ^^^
# Embedded string expressions like `"#{foo} <-embed"`
# are parsed with chars:
#
# `#{` as :on_embexpr_beg
# `}` as :on_embexpr_end
#
# We cannot ignore both :on_emb_expr_beg and :on_embexpr_end
# because sometimes the lexer thinks something is an embed
# string end, when it is not like `lol = }` (no clue why).
#
# When we see `#{` count it as a `{` or we will
# have a mis-match count.
#
case lex.token
when "\#{"
@count_for_char["{"] += 1
end
else
@end_count += 1 if lex.is_end?
@kw_count += 1 if lex.is_kw?
@count_for_char[lex.token] += 1 if @count_for_char.key?(lex.token)
end
end
def count_for_char(char)
@count_for_char[char]
end
# Returns an array of missing syntax characters
# or `"end"` or `"keyword"`
#
# left_right.missing
# # => ["}"]
def missing
out = missing_pairs
out << missing_pipe
out << missing_keyword_end
out.compact!
out
end
PAIRS = {
"{" => "}",
"[" => "]",
"(" => ")"
}.freeze
# Opening characters like `{` need closing characters # like `}`.
#
# When a mis-match count is detected, suggest the
# missing member.
#
# For example if there are 3 `}` and only two `{`
# return `"{"`
private def missing_pairs
PAIRS.map do |(left, right)|
case @count_for_char[left] <=> @count_for_char[right]
when 1
right
when 0
nil
when -1
left
end
end
end
# Keywords need ends and ends need keywords
#
# If we have more keywords, there's a missing `end`
# if we have more `end`-s, there's a missing keyword
private def missing_keyword_end
case @kw_count <=> @end_count
when 1
"end"
when 0
nil
when -1
"keyword"
end
end
# Pipes come in pairs.
# If there's an odd number of pipes then we
# are missing one
private def missing_pipe
if @count_for_char["|"].odd?
"|"
end
end
end
end