Current section
Files
Jump to
Current section
Files
lib/style/pipes.ex
# Copyright 2024 Adobe. All rights reserved.
# Copyright 2025 SmartRent. All rights reserved.
# This file is licensed to you under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License. You may obtain a copy
# of the License at http://www.apache.org/licenses/LICENSE-2.0
# Unless required by applicable law or agreed to in writing, software distributed under
# the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR REPRESENTATIONS
# OF ANY KIND, either express or implied. See the License for the specific language
# governing permissions and limitations under the License.
defmodule Quokka.Style.Pipes do
@moduledoc """
Styles pipes! In particular, don't make pipe chains of only one pipe, and some persnickety pipe chain start stuff.
Rewrites for the following Credo rules:
* Credo.Check.Readability.BlockPipe
* Credo.Check.Readability.OneArityFunctionInPipe
* Credo.Check.Readability.PipeIntoAnonymousFunctions
* Credo.Check.Readability.SinglePipe
* Credo.Check.Refactor.FilterCount
* Credo.Check.Refactor.MapInto
* Credo.Check.Refactor.MapJoin
* Credo.Check.Refactor.PipeChainStart, excluded_functions: ["from"]
"""
@behaviour Quokka.Style
alias Quokka.Style
alias Quokka.Zipper
@collectable ~w(Map Keyword MapSet)a
@enum ~w(Enum Stream)a
# most of these values were lifted directly from credo's pipe_chain_start.ex
@literal ~w(__block__ __aliases__ unquote)a
@value_constructors ~w(% %{} .. ..// <<>> @ {} ^ & fn from)a
@kernel_ops ~w(++ -- && || in - * + / > < <= >= == and or != !== === <> ! not)a
@special_ops ~w(||| &&& <<< >>> <<~ ~>> <~ ~> <~>)a
@special_ops @literal ++ @value_constructors ++ @kernel_ops ++ @special_ops
def run({{:|>, _, _}, _} = zipper, ctx) do
case fix_pipe_start(zipper) do
{{:|>, _, _}, _} = zipper ->
case Zipper.traverse(zipper, fn {node, meta} -> {fix_pipe(node), meta} end) do
{{:|>, _, [{:|>, _, _}, _]}, _} = chain_zipper ->
{:cont, find_pipe_start(chain_zipper), ctx}
# don't un-pipe into unquotes, as some expressions are only valid as pipes
{{:|>, _, [_, {:unquote, _, [_]}]}, _} = single_pipe_unquote_zipper ->
{:cont, single_pipe_unquote_zipper, ctx}
{{:|>, _, [lhs, rhs]}, _} = single_pipe_zipper ->
if Quokka.Config.single_pipe_flag?() do
{_, meta, _} = lhs
# try to get everything on one line if we can
line = meta[:line]
{fun, meta, args} = rhs
args = args || []
# no way multi-headed fn fits on one line; everything else (?) is just a matter of line length
args =
if Enum.any?(args, &match?({:fn, _, [{:->, _, _}, {:->, _, _} | _]}, &1)) do
Style.shift_line(args, -1)
else
Style.set_line(args, line)
end
lhs = Style.set_line(lhs, line)
{_, meta, _} = Style.set_line({:ignore, meta, []}, line)
function_call_zipper = Zipper.replace(single_pipe_zipper, {fun, meta, [lhs | args]})
{:cont, function_call_zipper, ctx}
else
{:cont, single_pipe_zipper, ctx}
end
end
non_pipe ->
{:cont, non_pipe, ctx}
end
end
def run(zipper, ctx), do: {:cont, zipper, ctx}
defp fix_pipe_start({pipe, zmeta} = zipper) do
{{:|>, pipe_meta, [lhs, rhs]}, _} = start_zipper = find_pipe_start({pipe, nil})
if valid_pipe_start?(lhs) do
zipper
else
{lhs_rewrite, new_assignment} = extract_start(lhs)
{pipe, nil} =
start_zipper
|> Zipper.replace({:|>, pipe_meta, [lhs_rewrite, rhs]})
|> Zipper.top()
if new_assignment do
# It's important to note that with this branch, we're no longer
# focused on the pipe! We'll return to it in a future iteration of traverse_while
{pipe, zmeta}
|> Style.find_nearest_block()
|> Zipper.insert_left(new_assignment)
|> Zipper.left()
else
fix_pipe_start({pipe, zmeta})
end
end
end
defp find_pipe_start(zipper) do
Zipper.find(zipper, fn
{:|>, _, [{:|>, _, _}, _]} -> false
{:|>, _, _} -> true
end)
end
defp extract_start({fun, meta, [arg | args]} = lhs) do
line = meta[:line]
# is it a do-block macro style invocation?
# if so, store the block result in a var and start the pipe w/ that
if Enum.any?([arg | args], &match?([{{:__block__, _, [:do]}, _} | _], &1)) do
# `block [foo] do ... end |> ...`
# =======================>
# block_result =
# block [foo] do
# ...
# end
#
# block_result
# |> ...
var_name =
case fun do
# unless will be rewritten to `if` statements in the Blocks Style
:unless -> :if
fun when is_atom(fun) -> fun
{:., _, [{:__aliases__, _, _}, fun]} when is_atom(fun) -> fun
_ -> "block"
end
variable = {:"#{var_name}_result", [line: line], nil}
new_assignment = {:=, [line: line], [variable, lhs]}
{variable, new_assignment}
else
# looks like it's just a normal function, so lift the first arg up into a new pipe
# `foo(a, ...) |> ...` => `a |> foo(...) |> ...`
arg =
case arg do
# If the first arg is a syntax-sugared kwl, we need to manually desugar it to cover all scenarios
[{{:__block__, bm, _}, {:__block__, _, _}} | _] ->
if bm[:format] == :keyword do
{:__block__, [line: line, closing: [line: line]], [arg]}
else
arg
end
arg ->
arg
end
{{:|>, [line: line], [arg, {fun, meta, args}]}, nil}
end
end
# `pipe_chain(a, b, c)` generates the ast for `a |> b |> c`
# the intention is to make it a little easier to see what the fix_pipe functions are matching on =)
defmacrop pipe_chain(pm, a, b, c) do
quote do: {:|>, unquote(pm), [{:|>, _, [unquote(a), unquote(b)]}, unquote(c)]}
end
# a |> fun => a |> fun()
defp fix_pipe({:|>, m, [lhs, {fun, m2, nil}]}), do: {:|>, m, [lhs, {fun, m2, []}]}
# a |> then(&fun(&1, d)) |> c => a |> fun(d) |> c()
defp fix_pipe({:|>, m, [lhs, {:then, _, [{:&, _, [{fun, m2, [{:&, _, _} | args]}]}]}]} = pipe) do
rewrite = {fun, m2, args}
# if `&1` is referenced more than once, we have to continue using `then`
cond do
rewrite |> Zipper.zip() |> Zipper.any?(&match?({:&, _, _}, &1)) ->
pipe
fun in @special_ops ->
# we only rewrite unary/infix operators if they're in the Kernel namespace.
# everything else stays as-is in the `then/2` because we can't know what module they're from
if fun in @kernel_ops,
do: {:|>, m, [lhs, {{:., m2, [{:__aliases__, m2, [:Kernel]}, fun]}, m2, args}]},
else: pipe
true ->
{:|>, m, [lhs, rewrite]}
end
end
# a |> then(&fun/1) |> c => a |> fun() |> c()
# recurses to add the `()` to `fun` as it gets unwound
defp fix_pipe({:|>, m, [lhs, {:then, _, [{:&, _, [{:/, _, [{_, _, nil} = fun, {:__block__, _, [1]}]}]}]}]}),
do: fix_pipe({:|>, m, [lhs, fun]})
# Credo.Check.Readability.PipeIntoAnonymousFunctions
# rewrite anonymous function invocation to use `then/2`
# `a |> (& &1).() |> c()` => `a |> then(& &1) |> c()`
defp fix_pipe({:|>, m, [lhs, {{:., m2, [{anon_fun, _, _}] = fun}, _, []}]}) when anon_fun in [:&, :fn],
do: {:|>, m, [lhs, {:then, m2, fun}]}
# `lhs |> Enum.reverse() |> Enum.concat(enum)` => `lhs |> Enum.reverse(enum)`
defp fix_pipe(
pipe_chain(
pm,
lhs,
{{:., _, [{_, _, [:Enum]}, :reverse]} = reverse, meta, []},
{{:., _, [{_, _, [:Enum]}, :concat]}, _, [enum]}
)
) do
{:|>, pm, [lhs, {reverse, [line: meta[:line]], [enum]}]}
end
# `lhs |> Enum.reverse() |> Kernel.++(enum)` => `lhs |> Enum.reverse(enum)`
defp fix_pipe(
pipe_chain(
pm,
lhs,
{{:., _, [{_, _, [:Enum]}, :reverse]} = reverse, meta, []},
{{:., _, [{_, _, [:Kernel]}, :++]}, _, [enum]}
)
) do
{:|>, pm, [lhs, {reverse, [line: meta[:line]], [enum]}]}
end
# `lhs |> Enum.filter(filterer) |> Enum.count()` => `lhs |> Enum.count(count)`
defp fix_pipe(
pipe_chain(
pm,
lhs,
{{:., _, [{_, _, [mod]}, :filter]}, meta, [filterer]},
{{:., _, [{_, _, [:Enum]}, :count]} = count, _, []}
)
)
when mod in @enum do
{:|>, pm, [lhs, {count, [line: meta[:line]], [filterer]}]}
end
# `lhs |> Stream.map(fun) |> Stream.run()` => `lhs |> Enum.each(fun)`
# `lhs |> Stream.each(fun) |> Stream.run()` => `lhs |> Enum.each(fun)`
defp fix_pipe(
pipe_chain(
pm,
lhs,
{{:., dm, [{a, am, [:Stream]}, map_or_each]}, fm, fa},
{{:., _, [{_, _, [:Stream]}, :run]}, _, []}
)
)
when map_or_each in [:map, :each] do
{:|>, pm, [lhs, {{:., dm, [{a, am, [:Enum]}, :each]}, fm, fa}]}
end
# `lhs |> Enum.map(mapper) |> Enum.join(joiner)` => `lhs |> Enum.map_join(joiner, mapper)`
defp fix_pipe(
pipe_chain(
pm,
lhs,
{{:., dm, [{_, _, [mod]}, :map]}, em, map_args},
{{:., _, [{_, _, [:Enum]} = enum, :join]}, _, join_args}
)
)
when mod in @enum do
rhs = Style.set_line({{:., dm, [enum, :map_join]}, em, join_args ++ map_args}, dm[:line])
{:|>, pm, [lhs, rhs]}
end
# `lhs |> Enum.map(mapper) |> Enum.into(empty_map)` => `lhs |> Map.new(mapper)`
# or
# `lhs |> Enum.map(mapper) |> Enum.into(collectable)` => `lhs |> Enum.into(collectable, mapper)
defp fix_pipe(
pipe_chain(
pm,
lhs,
{{:., dm, [{_, _, [mod]}, :map]}, _, [mapper]},
{{:., _, [{_, _, [:Enum]}, :into]} = into, _, [collectable]}
)
)
when mod in @enum do
rhs =
case collectable do
{{:., _, [{_, _, [mod]}, :new]}, _, []} when mod in @collectable ->
{{:., dm, [{:__aliases__, dm, [mod]}, :new]}, dm, [mapper]}
{:%{}, _, []} ->
{{:., dm, [{:__aliases__, dm, [:Map]}, :new]}, dm, [mapper]}
_ ->
{into, dm, [collectable, mapper]}
end
Style.set_line({:|>, pm, [lhs, rhs]}, dm[:line])
end
# `lhs |> Enum.map(mapper) |> Map.new()` => `lhs |> Map.new(mapper)`
defp fix_pipe(
pipe_chain(
pm,
lhs,
{{:., _, [{_, _, [enum]}, :map]}, _, [mapper]},
{{:., _, [{_, _, [mod]}, :new]} = new, nm, []}
)
)
when mod in @collectable and enum in @enum do
Style.set_line({:|>, pm, [lhs, {new, nm, [mapper]}]}, nm[:line])
end
defp fix_pipe(node), do: node
defp valid_pipe_start?({op, _, _}) when op in @special_ops, do: true
# 0-arity Module.function_call()
defp valid_pipe_start?({{:., _, _}, _, []}), do: true
# Exempt ecto's `from`
defp valid_pipe_start?({{:., _, [{_, _, [:Query]}, :from]}, _, _}), do: true
defp valid_pipe_start?({{:., _, [{_, _, [:Ecto, :Query]}, :from]}, _, _}), do: true
# map[:foo]
defp valid_pipe_start?({{:., _, [Access, :get]}, _, _}), do: true
# 'char#{list} interpolation'
defp valid_pipe_start?({{:., _, [List, :to_charlist]}, _, _}), do: true
# n-arity Module.function_call(...args)
defp valid_pipe_start?({{:., _, [{_, _, [mod]}, fun]}, _, arguments}) do
not Quokka.Config.refactor_pipe_chain_starts?() or
first_arg_excluded_type?(arguments) or
"#{mod}.#{fun}" in Quokka.Config.pipe_chain_start_excluded_functions()
end
# variable
defp valid_pipe_start?({variable, _, nil}) when is_atom(variable), do: true
# 0-arity function_call()
defp valid_pipe_start?({fun, _, []}) when is_atom(fun), do: true
defp valid_pipe_start?({fun, _, _args}) when fun in [:case, :cond, :if, :quote, :unless, :with, :for] do
not Quokka.Config.block_pipe_flag?() or fun in Quokka.Config.block_pipe_exclude()
end
# function_call(with, args) or sigils. sigils are allowed, function w/ args is not
defp valid_pipe_start?({fun, meta, args}) when is_atom(fun) do
not Quokka.Config.refactor_pipe_chain_starts?() or first_arg_excluded_type?(args) or
(custom_macro?(meta) and (not Quokka.Config.block_pipe_flag?() or fun in Quokka.Config.block_pipe_exclude())) or
"#{fun}" in Quokka.Config.pipe_chain_start_excluded_functions() or
String.match?("#{fun}", ~r/^sigil_[a-zA-Z]$/)
end
defp valid_pipe_start?(_), do: true
defp custom_macro?(meta), do: Keyword.has_key?(meta, :do)
defp first_arg_excluded_type?([{:%{}, _, _} | _]),
do: :map in Quokka.Config.pipe_chain_start_excluded_argument_types()
defp first_arg_excluded_type?([{:{}, _, _} | _]),
do: :tuple in Quokka.Config.pipe_chain_start_excluded_argument_types()
defp first_arg_excluded_type?([{:sigil_r, _, _} | _]),
do: :regex in Quokka.Config.pipe_chain_start_excluded_argument_types()
defp first_arg_excluded_type?([{:sigil_R, _, _} | _]),
do: :regex in Quokka.Config.pipe_chain_start_excluded_argument_types()
defp first_arg_excluded_type?([{:<<>>, _, _} | _]),
do: :bitstring in Quokka.Config.pipe_chain_start_excluded_argument_types()
defp first_arg_excluded_type?([{:&, _, _} | _]),
do: :fn in Quokka.Config.pipe_chain_start_excluded_argument_types()
defp first_arg_excluded_type?([{:fn, _, _} | _]),
do: :fn in Quokka.Config.pipe_chain_start_excluded_argument_types()
defp first_arg_excluded_type?([{_, _, [arg1 | _]} | _]) do
case arg1 do
[{{:__block__, [format: :keyword, line: _], _}, _} | _] ->
:keyword in Quokka.Config.pipe_chain_start_excluded_argument_types() or :list in Quokka.Config.pipe_chain_start_excluded_argument_types()
_ ->
get_type(arg1) in Quokka.Config.pipe_chain_start_excluded_argument_types()
end
end
defp first_arg_excluded_type?([[{{:__block__, [format: :keyword, line: _], _}, _} | _] | _]),
do: :keyword in Quokka.Config.pipe_chain_start_excluded_argument_types() or :list in Quokka.Config.pipe_chain_start_excluded_argument_types()
# Bare variables are not excluded
defp first_arg_excluded_type?(_), do: false
defp get_type(variable) do
cond do
is_boolean(variable) -> :boolean
is_atom(variable) -> :atom
is_binary(variable) -> :binary
is_list(variable) -> :list
is_map(variable) -> :map
is_number(variable) -> :number
true -> :unknown
end
end
end