Documentation, test and readability improvements.
* Split out different concerns of LexLuthor into different modules. * Add `inch` and documentation. * Add `credo` and fix warnings.
This commit is contained in:
parent
51c691d8d3
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1b964adac3
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@ -1,11 +1,33 @@
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defmodule LexLuthor do
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defmodule State do
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defstruct pos: 0, line: 1, column: 0, states: [nil], tokens: []
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end
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alias LexLuthor.Runner
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defmodule Token do
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defstruct pos: 0, line: 1, column: 0, name: nil, value: nil
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end
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@moduledoc """
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LexLuthor is a Lexer in Elixir (say that 10 times fast) which uses macros to generate a reusable lexers. Good times.
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LexLuthor is a state based lexer, meaning that it keeps a state stack which you can push states on and pop states off the stack, which are used to filter the applicable rules for a given state. For example:
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iex> defmodule StringLexer do
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...> use LexLuthor
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...> defrule ~r/^'/, fn(_) -> :STRING end
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...> defrule ~r/^[^']+/, :STRING, fn(e) -> { :string, e } end
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...> defrule ~r/^'/, :STRING, fn(_) -> nil end
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...> end
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...> StringLexer.lex("'foo'")
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{:ok, [%LexLuthor.Token{column: 1, line: 1, name: :string, pos: 1, value: "foo"}]}
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Rules are defined by a regular expression, an optional state (as an atom) and an action in the form of an anonymous function.
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When passed the string `'foo'`, the lexer starts in the `:default` state, so it filters for rules in the default state (the first rule, as it doesn't specify a state), then it filters the available rules by the longest matching regular expression. In this case, since we have only one rule (which happens to match) it's automatically the longest match.
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Once the longest match is found, then it's action is executed and the return value matched:
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- If the return value is a single atom then that atom is assumed to be a state and push onto the top of the state stack.
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- If the return value is a two element tuple then the first element is expected to be an atom (the token name) and the second element a value for this token.
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- If the return value is `nil` then the top state is popped off the state stack.
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If lexing succeeds then you will receive an `:ok` tuple with the second value being a list of `LexLuthor.Token` structs.
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If lexing fails then you will receive an `:error` tuple which a reason and position.
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"""
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defmacro __using__(_opts) do
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quote do
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@ -19,20 +41,28 @@ defmodule LexLuthor do
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defmacro __before_compile__(_env) do
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quote do
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def lex string do
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LexLuthor.lex __MODULE__, @rules, string
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Runner.lex __MODULE__, @rules, string
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end
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end
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end
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defmacro defrule(regex, state, block) do
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@doc """
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Define a lexing rule for a specific state.
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- `regex` a regular expression for matching against the input string.
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- `state` the lexer state in which this rule applies.
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- `action` the function to execute when this rule is applied.
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"""
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@spec defrule(Regex.t, atom, (String.t -> atom | nil | {atom, any})) :: {:ok, non_neg_integer}
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defmacro defrule(regex, state, action) do
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quote do
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@action_counter(@action_counter + 1)
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action_name = "_action_#{@action_counter}" |> String.to_atom
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block = unquote(Macro.escape(block))
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action = unquote(Macro.escape(action))
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defaction = quote do
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def unquote(Macro.escape(action_name))(e) do
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unquote(block).(e)
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unquote(action).(e)
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end
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end
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Module.eval_quoted __MODULE__, defaction
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end
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end
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defmacro defrule(regex, block) do
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@doc """
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Define a lexing rule applicable to the default state.
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- `regex` a regular expression for matching against the input string.
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- `action` the function to execute when this rule is applied.
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"""
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defmacro defrule(regex, action) do
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quote do
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defrule unquote(regex), :default, unquote(block)
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end
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end
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def lex module, rules, string do
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do_lex module, rules, string, %State{}
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end
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defp do_lex module, rules, string, lexer do
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[ current_state | _rest ] = lexer.states
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# Find the longest matching rule. This could
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# probably be made a whole lot less enumeratey.
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matches = rules_for_state(rules, current_state)
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|> matching_rules(string)
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|> apply_matches(string)
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|> longest_match_first
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process_matches module, rules, matches, string, lexer, Enum.count(matches)
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end
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defp process_matches(_, _, _, string, _, count) when count == 0 do
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{ :error, "String not in language: #{inspect string}"}
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end
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defp process_matches(module, rules, matches, string, lexer, count) when count > 0 do
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match = Enum.at matches, 0
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# Execute the matches' action.
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{len, value, fun} = match
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result = apply(module, fun, [value])
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lexer = process_result result, lexer
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case lexer do
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{ :error, _ } ->
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lexer
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_ ->
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fragment = String.slice string, 0, len
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line = lexer.line + line_number_incrementor fragment
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column = column_number lexer, fragment
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lexer = Map.merge lexer, %{pos: lexer.pos + len, line: line, column: column}
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# Are we at the end of the string?
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if String.length(string) == len do
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{ :ok, Enum.reverse lexer.tokens }
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else
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{ _ , new_string } = String.split_at string, len
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do_lex module, rules, new_string, lexer
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defrule unquote(regex), :default, unquote(action)
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end
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end
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end
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defp column_number lexer, match do
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case Regex.match? ~r/[\r\n]/, match do
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true ->
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len = match |> split_on_newlines |> List.last |> String.length
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case len do
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0 -> 1
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_ -> len
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end
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false ->
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lexer.column + String.length match
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end
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end
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defp line_number_incrementor match do
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(match |> split_on_newlines |> Enum.count) - 1
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end
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def split_on_newlines string do
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string |> String.split(~r{(\r|\n|\r\n)})
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end
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defp process_result(result, lexer) when is_nil(result) do
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pop_state lexer
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end
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defp process_result(result, lexer) when is_atom(result) do
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push_state lexer, result
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end
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defp process_result(result, lexer) when is_tuple(result) do
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push_token lexer, result
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end
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defp process_result result, _ do
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{ :error, "Invalid result from action: #{inspect result}"}
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end
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defp push_token lexer, token do
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{ tname, tvalue } = token
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token = %Token{ pos: lexer.pos, line: lexer.line, column: lexer.column, name: tname, value: tvalue }
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Map.merge lexer, %{tokens: [token | lexer.tokens ]}
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end
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defp push_state lexer, state do
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Map.merge lexer, %{states: [state | lexer.states ]}
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end
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defp pop_state lexer do
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[ _ | states ] = lexer.states
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Map.merge lexer, %{states: states}
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end
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defp rules_for_state rules, state do
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Enum.filter rules, fn({rule_state,_,_})->
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state = if is_nil(state) do
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:default
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else
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state
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end
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state == rule_state
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end
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end
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defp matching_rules rules, string do
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Enum.filter rules, fn({_,regex,_})->
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Regex.match?(regex, string)
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end
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end
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defp apply_matches rules, string do
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Enum.map rules, fn({_,regex,fun})->
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[match] = Regex.run(regex,string, capture: :first)
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{ String.length(match), match, fun }
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end
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end
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defp longest_match_first matches do
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Enum.sort_by matches, fn({len,_,_})-> len end, &>=/2
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end
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end
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156
lib/lex_luthor/runner.ex
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156
lib/lex_luthor/runner.ex
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defmodule LexLuthor.Runner do
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alias LexLuthor.{State, Token}
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@moduledoc """
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This module runs a Lexer module against an input string.
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You don't use it directly as `YourModule.lex/1` is defined on
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your module when you `use LexLuthor`.
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"""
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@doc """
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Process a string against a given Lexer module and rules.
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- `module` the module in which the lexer is defined.
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- `rules` an array of rules to apply to the input string.
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- `string` the input string to be lexed.
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"""
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@spec lex(atom, [{atom, Regex.t, String.t}], String.t) :: {:ok, non_neg_integer}
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def lex module, rules, string do
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do_lex module, rules, string, %State{}
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end
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defp do_lex module, rules, string, lexer do
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[current_state | _rest] = lexer.states
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# Find the longest matching rule. This could
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# probably be made a whole lot less enumeratey.
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matches = rules
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|> rules_for_state(current_state)
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|> matching_rules(string)
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|> apply_matches(string)
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|> longest_match_first
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process_matches module, rules, matches, string, lexer, Enum.count(matches)
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end
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defp process_matches(_, _, _, string, _, count) when count == 0 do
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{:error, "String not in language: #{inspect string}"}
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end
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defp process_matches(module, rules, matches, string, lexer, count) when count > 0 do
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match = Enum.at matches, 0
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# Execute the matches' action.
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{len, value, fun} = match
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result = apply(module, fun, [value])
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lexer = process_result result, lexer
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case lexer do
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{ :error, _ } ->
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lexer
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_ ->
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fragment = String.slice string, 0, len
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line = lexer.line + line_number_incrementor fragment
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column = column_number lexer, fragment
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lexer = Map.merge(lexer, %{pos: lexer.pos + len,
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line: line,
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column: column})
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# Are we at the end of the string?
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if String.length(string) == len do
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{ :ok, Enum.reverse lexer.tokens }
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else
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{ _ , new_string } = String.split_at string, len
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do_lex module, rules, new_string, lexer
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end
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end
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end
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defp column_number lexer, match do
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case Regex.match? ~r/[\r\n]/, match do
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true ->
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len = match |> split_on_newlines |> List.last |> String.length
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case len do
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0 -> 1
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_ -> len
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end
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false ->
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lexer.column + String.length match
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end
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end
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defp line_number_incrementor match do
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(match |> split_on_newlines |> Enum.count) - 1
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end
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defp split_on_newlines string do
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string |> String.split(~r{(\r|\n|\r\n)})
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end
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defp process_result(result, lexer) when is_nil(result) do
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pop_state lexer
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end
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defp process_result(result, lexer) when is_atom(result) do
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push_state lexer, result
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end
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defp process_result(result, lexer) when is_tuple(result) do
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push_token lexer, result
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end
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defp process_result result, _ do
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{:error, "Invalid result from action: #{inspect result}"}
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end
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defp push_token lexer, token do
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{tname, tvalue} = token
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token = %Token{pos: lexer.pos,
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line: lexer.line,
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column: lexer.column,
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name: tname,
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value: tvalue}
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Map.merge lexer, %{tokens: [token | lexer.tokens ]}
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end
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defp push_state lexer, state do
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Map.merge lexer, %{states: [state | lexer.states ]}
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end
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defp pop_state lexer do
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[ _ | states ] = lexer.states
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Map.merge lexer, %{states: states}
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end
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defp rules_for_state rules, state do
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Enum.filter rules, fn({rule_state,_,_}) ->
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state = if is_nil(state) do
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:default
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else
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state
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end
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state == rule_state
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end
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end
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defp matching_rules rules, string do
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Enum.filter rules, fn({_,regex,_}) ->
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Regex.match?(regex, string)
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end
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end
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defp apply_matches rules, string do
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Enum.map rules, fn({_,regex,fun}) ->
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[match] = Regex.run(regex,string, capture: :first)
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{ String.length(match), match, fun }
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end
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end
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defp longest_match_first matches do
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Enum.sort_by matches, fn({len,_,_}) -> len end, &>=/2
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end
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end
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5
lib/lex_luthor/state.ex
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5
lib/lex_luthor/state.ex
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defmodule LexLuthor.State do
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defstruct pos: 0, line: 1, column: 0, states: [nil], tokens: []
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@moduledoc false
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end
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8
lib/lex_luthor/token.ex
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8
lib/lex_luthor/token.ex
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defmodule LexLuthor.Token do
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defstruct pos: 0, line: 1, column: 0, name: nil, value: nil
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@moduledoc """
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Defines an individual token in the lexer output, along with handy stuff like
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the line and column numbers.
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"""
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end
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3
mix.exs
3
mix.exs
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@ -35,7 +35,8 @@ defmodule LexLuthor.Mixfile do
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defp deps do
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[
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{:ex_doc, ">= 0.0.0", only: :dev},
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{:inch_ex, only: :docs}
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{:inch_ex, only: :docs},
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{:credo, only: ~w(dev test)a}
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]
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end
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end
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4
mix.lock
4
mix.lock
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@ -1,4 +1,6 @@
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%{"earmark": {:hex, :earmark, "1.0.1", "2c2cd903bfdc3de3f189bd9a8d4569a075b88a8981ded9a0d95672f6e2b63141", [:mix], []},
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%{"bunt": {:hex, :bunt, "0.2.0", "951c6e801e8b1d2cbe58ebbd3e616a869061ddadcc4863d0a2182541acae9a38", [:mix], []},
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"credo": {:hex, :credo, "0.7.3", "9827ab04002186af1aec014a811839a06f72aaae6cd5eed3919b248c8767dbf3", [:mix], [{:bunt, "~> 0.2.0", [hex: :bunt, optional: false]}]},
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"earmark": {:hex, :earmark, "1.0.1", "2c2cd903bfdc3de3f189bd9a8d4569a075b88a8981ded9a0d95672f6e2b63141", [:mix], []},
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"ex_doc": {:hex, :ex_doc, "0.13.0", "aa2f8fe4c6136a2f7cfc0a7e06805f82530e91df00e2bff4b4362002b43ada65", [:mix], [{:earmark, "~> 1.0", [hex: :earmark, optional: false]}]},
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"inch_ex": {:hex, :inch_ex, "0.5.6", "418357418a553baa6d04eccd1b44171936817db61f4c0840112b420b8e378e67", [:mix], [{:poison, "~> 1.5 or ~> 2.0 or ~> 3.0", [hex: :poison, optional: false]}]},
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"poison": {:hex, :poison, "3.1.0", "d9eb636610e096f86f25d9a46f35a9facac35609a7591b3be3326e99a0484665", [:mix], []}}
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4
test/lex_luthor_test.exs
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4
test/lex_luthor_test.exs
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defmodule LexLuthorTest do
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use ExUnit.Case
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doctest LexLuthor
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end
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