tree-sitter-elixir/test/corpus/integration/function_definition.txt

393 lines
6.2 KiB
Plaintext

=====================================
def / no arguments
=====================================
def fun() do
end
---
(source
(call
(identifier)
(arguments
(call
(identifier)
(arguments)))
(do_block)))
=====================================
def / no arguments without parentheses
=====================================
def fun do
end
---
(source
(call
(identifier)
(arguments
(identifier))
(do_block)))
=====================================
def / one argument
=====================================
def fun(x) do
x
end
---
(source
(call
(identifier)
(arguments
(call
(identifier)
(arguments
(identifier))))
(do_block
(identifier))))
=====================================
def / one argument without parentheses
=====================================
def fun x do
x
end
---
(source
(call
(identifier)
(arguments
(call
(identifier)
(arguments
(identifier))))
(do_block
(identifier))))
=====================================
def / many arguments
=====================================
def fun(x, y) do
x + y
end
---
(source
(call
(identifier)
(arguments
(call
(identifier)
(arguments
(identifier)
(identifier))))
(do_block
(binary_operator
(identifier)
(identifier)))))
=====================================
def / many arguments without parentheses
=====================================
def fun x, y do
x + y
end
---
(source
(call
(identifier)
(arguments
(call
(identifier)
(arguments
(identifier)
(identifier))))
(do_block
(binary_operator
(identifier)
(identifier)))))
=====================================
def / default arguments
=====================================
def fun x, y \\ 1 do
x + y
end
def fun(x, y \\ 1) do
x + y
end
---
(source
(call
(identifier)
(arguments
(call
(identifier)
(arguments
(identifier)
(binary_operator
(identifier)
(integer)))))
(do_block
(binary_operator
(identifier)
(identifier))))
(call
(identifier)
(arguments
(call
(identifier)
(arguments
(identifier)
(binary_operator
(identifier)
(integer)))))
(do_block
(binary_operator
(identifier)
(identifier)))))
=====================================
def / keyword do block
=====================================
def fun(), do: 1
def fun(x), do: x
---
(source
(call
(identifier)
(arguments
(call
(identifier)
(arguments))
(keywords
(pair
(keyword)
(integer)))))
(call
(identifier)
(arguments
(call
(identifier)
(arguments
(identifier)))
(keywords
(pair
(keyword)
(identifier))))))
=====================================
def / pattern matching
=====================================
def fun([{x, y} | tail]) do
x + y
end
---
(source
(call
(identifier)
(arguments
(call
(identifier)
(arguments
(list
(binary_operator
(tuple
(identifier)
(identifier))
(identifier))))))
(do_block
(binary_operator
(identifier)
(identifier)))))
=====================================
def / with guard
=====================================
def fun(x) when x == 1 do
x
end
---
(source
(call
(identifier)
(arguments
(binary_operator
(call
(identifier)
(arguments
(identifier)))
(binary_operator
(identifier)
(integer))))
(do_block
(identifier))))
=====================================
def / with guard / multiple guards
=====================================
def fun(x) when x > 10 when x < 5 do
x
end
---
(source
(call
(identifier)
(arguments
(binary_operator
(call
(identifier)
(arguments
(identifier)))
(binary_operator
(binary_operator
(identifier)
(integer))
(binary_operator
(identifier)
(integer)))))
(do_block
(identifier))))
=====================================
defp
=====================================
defp fun(x) do
x
end
---
(source
(call
(identifier)
(arguments
(call
(identifier)
(arguments
(identifier))))
(do_block
(identifier))))
=====================================
defmacro
=====================================
defmacro fun(x) do
quote do
[unquote(x)]
end
end
---
(source
(call
(identifier)
(arguments
(call
(identifier)
(arguments
(identifier))))
(do_block
(call
(identifier)
(do_block
(list
(call
(identifier)
(arguments
(identifier)))))))))
=====================================
defguard
=====================================
defguard is_even(term) when is_integer(term) and rem(term, 2) == 0
---
(source
(call
(identifier)
(arguments
(binary_operator
(call
(identifier)
(arguments
(identifier)))
(binary_operator
(call
(identifier)
(arguments
(identifier)))
(binary_operator
(call
(identifier)
(arguments
(identifier)
(integer)))
(integer)))))))
=====================================
def in macro
=====================================
def unquote(name)(unquote_splicing(args)) do
unquote(compiled)
end
---
(source
(call
(identifier)
(arguments
(call
(call
(identifier)
(arguments
(identifier)))
(arguments
(call
(identifier)
(arguments
(identifier))))))
(do_block
(call
(identifier)
(arguments
(identifier))))))