# Copyright (c) 2013 Paul Tagliamonte # Copyright (c) 2013 Julien Danjou # # Permission is hereby granted, free of charge, to any person obtaining a # copy of this software and associated documentation files (the "Software"), # to deal in the Software without restriction, including without limitation # the rights to use, copy, modify, merge, publish, distribute, sublicense, # and/or sell copies of the Software, and to permit persons to whom the # Software is furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included in # all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL # THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING # FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER # DEALINGS IN THE SOFTWARE. from __future__ import unicode_literals from hy import HyString from hy.compiler import hy_compile, HyCompileError from hy.lex import tokenize import ast import sys def _ast_spotcheck(arg, root, secondary): if "." in arg: local, full = arg.split(".", 1) return _ast_spotcheck(full, getattr(root, local), getattr(secondary, local)) assert getattr(root, arg) == getattr(secondary, arg) def cant_compile(expr): expr = tokenize(expr) try: hy_compile(expr) assert False except HyCompileError: pass def test_ast_bad_type(): "Make sure AST breakage can happen" try: hy_compile("foo") assert True is False except HyCompileError: pass def test_ast_bad_if(): "Make sure AST can't compile invalid if" cant_compile("(if)") cant_compile("(if foobar)") cant_compile("(if 1 2 3 4 5)") def test_ast_valid_if(): "Make sure AST can't compile invalid if" hy_compile(tokenize("(if foo bar)")) def test_ast_valid_unary_op(): "Make sure AST can compile valid unary operator" hy_compile(tokenize("(not 2)")) hy_compile(tokenize("(~ 1)")) def test_ast_invalid_unary_op(): "Make sure AST can't compile invalid unary operator" cant_compile("(not 2 3 4)") cant_compile("(not)") cant_compile("(not 2 3 4)") cant_compile("(~ 2 2 3 4)") cant_compile("(~)") def test_ast_bad_while(): "Make sure AST can't compile invalid while" cant_compile("(while)") cant_compile("(while (true))") def test_ast_good_do(): "Make sure AST can compile valid do" hy_compile(tokenize("(do)")) hy_compile(tokenize("(do 1)")) def test_ast_good_throw(): "Make sure AST can compile valid throw" hy_compile(tokenize("(throw)")) hy_compile(tokenize("(throw 1)")) def test_ast_bad_throw(): "Make sure AST can't compile invalid throw" cant_compile("(raise 1 2 3)") def test_ast_good_raise(): "Make sure AST can compile valid raise" hy_compile(tokenize("(raise)")) hy_compile(tokenize("(raise 1)")) def test_ast_bad_raise(): "Make sure AST can't compile invalid raise" cant_compile("(raise 1 2 3)") def test_ast_good_try(): "Make sure AST can compile valid try" hy_compile(tokenize("(try)")) hy_compile(tokenize("(try 1)")) hy_compile(tokenize("(try 1 (except) (else 1))")) hy_compile(tokenize("(try 1 (else 1) (except))")) hy_compile(tokenize("(try 1 (finally 1) (except))")) hy_compile(tokenize("(try 1 (finally 1))")) hy_compile(tokenize("(try 1 (except) (finally 1))")) hy_compile(tokenize("(try 1 (except) (finally 1) (else 1))")) hy_compile(tokenize("(try 1 (except) (else 1) (finally 1))")) def test_ast_bad_try(): "Make sure AST can't compile invalid try" cant_compile("(try 1 bla)") cant_compile("(try 1 bla bla)") cant_compile("(try (do) (else 1) (else 2))") cant_compile("(try 1 (else 1))") def test_ast_good_catch(): "Make sure AST can compile valid catch" hy_compile(tokenize("(catch)")) hy_compile(tokenize("(catch [])")) hy_compile(tokenize("(catch [Foobar])")) hy_compile(tokenize("(catch [[]])")) hy_compile(tokenize("(catch [x FooBar])")) hy_compile(tokenize("(catch [x [FooBar BarFoo]])")) hy_compile(tokenize("(catch [x [FooBar BarFoo]])")) def test_ast_bad_catch(): "Make sure AST can't compile invalid catch" cant_compile("(catch 1)") cant_compile("(catch \"A\")") cant_compile("(catch [1 3])") cant_compile("(catch [x [FooBar] BarBar])") def test_ast_good_except(): "Make sure AST can compile valid except" hy_compile(tokenize("(except)")) hy_compile(tokenize("(except [])")) hy_compile(tokenize("(except [Foobar])")) hy_compile(tokenize("(except [[]])")) hy_compile(tokenize("(except [x FooBar])")) hy_compile(tokenize("(except [x [FooBar BarFoo]])")) hy_compile(tokenize("(except [x [FooBar BarFoo]])")) def test_ast_bad_except(): "Make sure AST can't compile invalid except" cant_compile("(except 1)") cant_compile("(except [1 3])") cant_compile("(except [x [FooBar] BarBar])") def test_ast_good_assert(): "Make sure AST can compile valid assert" hy_compile(tokenize("(assert 1)")) def test_ast_bad_assert(): "Make sure AST can't compile invalid assert" cant_compile("(assert)") cant_compile("(assert 1 2)") def test_ast_good_lambda(): "Make sure AST can compile valid lambda" hy_compile(tokenize("(lambda [] 1)")) def test_ast_bad_lambda(): "Make sure AST can't compile invalid lambda" cant_compile("(lambda)") cant_compile("(lambda [])") def test_ast_good_yield(): "Make sure AST can compile valid yield" hy_compile(tokenize("(yield 1)")) def test_ast_bad_yield(): "Make sure AST can't compile invalid yield" cant_compile("(yield 1 2)") def test_ast_good_import_from(): "Make sure AST can compile valid import-from" hy_compile(tokenize("(import-from x y)")) def test_ast_bad_import_from(): "Make sure AST can't compile invalid import-from" cant_compile("(import-from)") def test_ast_good_get(): "Make sure AST can compile valid get" hy_compile(tokenize("(get x y)")) def test_ast_bad_get(): "Make sure AST can't compile invalid get" cant_compile("(get)") cant_compile("(get 1)") cant_compile("(get 1 2 3)") def test_ast_good_slice(): "Make sure AST can compile valid slice" hy_compile(tokenize("(slice x)")) hy_compile(tokenize("(slice x y)")) hy_compile(tokenize("(slice x y z)")) def test_ast_bad_slice(): "Make sure AST can't compile invalid slice" cant_compile("(slice)") cant_compile("(slice 1 2 3 4)") def test_ast_good_assoc(): "Make sure AST can compile valid assoc" hy_compile(tokenize("(assoc x y z)")) def test_ast_bad_assoc(): "Make sure AST can't compile invalid assoc" cant_compile("(assoc)") cant_compile("(assoc 1)") cant_compile("(assoc 1 2)") cant_compile("(assoc 1 2 3 4)") def test_ast_bad_with(): "Make sure AST can't compile invalid with" cant_compile("(with)") cant_compile("(with [])") cant_compile("(with [] (pass))") def test_ast_valid_while(): "Make sure AST can't compile invalid while" hy_compile(tokenize("(while foo bar)")) def test_ast_valid_foreach(): "Make sure AST can compile valid foreach" hy_compile(tokenize("(foreach [a 2])")) def test_ast_invalid_foreach(): "Make sure AST can't compile invalid foreach" cant_compile("(foreach [a 1] (else 1 2))") def test_ast_expression_basics(): """ Ensure basic AST expression conversion works. """ code = hy_compile(tokenize("(foo bar)")).body[0] tree = ast.Expr(value=ast.Call( func=ast.Name( id="foo", ctx=ast.Load(), ), args=[ ast.Name(id="bar", ctx=ast.Load()) ], keywords=[], starargs=None, kwargs=None, )) _ast_spotcheck("value.func.id", code, tree) def test_ast_anon_fns_basics(): """ Ensure anon fns work. """ code = hy_compile(tokenize("(fn (x) (* x x))")).body[0] assert type(code) == ast.FunctionDef def test_ast_non_decoratable(): """ Ensure decorating garbage breaks """ cant_compile("(decorate-with (foo) (* x x))") def test_ast_non_kwapplyable(): """ Ensure kwapply breaks """ code = tokenize("(kwapply foo bar)") code[0][2] = None try: hy_compile(code) assert True is False except HyCompileError: pass def test_ast_print(): code = hy_compile(tokenize("(print \"foo\")")).body[0] if sys.version_info[0] >= 3: assert type(code.value) == ast.Call return assert type(code) == ast.Print def test_ast_tuple(): """ Ensure tuples work. """ code = hy_compile(tokenize("(, 1 2 3)")).body[0].value assert type(code) == ast.Tuple def test_ast_unicode_strings(): """Ensure we handle unicode strings correctly""" def _compile_string(s): hy_s = HyString(s) hy_s.start_line = hy_s.end_line = 0 hy_s.start_column = hy_s.end_column = 0 code = hy_compile([hy_s]) # code == ast.Module(body=[ast.Expr(value=ast.Str(s=xxx))]) return code.body[0].value.s assert _compile_string("test") == "test" assert _compile_string("\u03b1\u03b2") == "\u03b1\u03b2" assert _compile_string("\xc3\xa9") == "\xc3\xa9"