4c38e2c9dd
They're not actually reader macros, since their arguments are parsed s-expressions, like a regular macro, not pre-parsed source text.
436 lines
13 KiB
Python
436 lines
13 KiB
Python
# Copyright (c) 2013 Paul Tagliamonte <paultag@debian.org>
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# Copyright (c) 2014 Nicolas Dandrimont <nicolas.dandrimont@crans.org>
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#
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# Permission is hereby granted, free of charge, to any person obtaining a
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# copy of this software and associated documentation files (the "Software"),
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# to deal in the Software without restriction, including without limitation
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# the rights to use, copy, modify, merge, publish, distribute, sublicense,
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# and/or sell copies of the Software, and to permit persons to whom the
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# Software is furnished to do so, subject to the following conditions:
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#
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# The above copyright notice and this permission notice shall be included in
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# all copies or substantial portions of the Software.
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#
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# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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# THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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# FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
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# DEALINGS IN THE SOFTWARE.
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from hy.models import (HyExpression, HyInteger, HyFloat, HyComplex, HySymbol,
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HyString, HyDict, HyList, HySet, HyCons)
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from hy.lex import LexException, PrematureEndOfInput, tokenize
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def test_lex_exception():
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""" Ensure tokenize throws a fit on a partial input """
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try:
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tokenize("(foo")
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assert True is False
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except PrematureEndOfInput:
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pass
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try:
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tokenize("{foo bar")
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assert True is False
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except PrematureEndOfInput:
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pass
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try:
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tokenize("(defn foo [bar]")
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assert True is False
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except PrematureEndOfInput:
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pass
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try:
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tokenize("(foo \"bar")
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assert True is False
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except PrematureEndOfInput:
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pass
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def test_unbalanced_exception():
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"""Ensure the tokenization fails on unbalanced expressions"""
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try:
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tokenize("(bar))")
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assert True is False
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except LexException:
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pass
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try:
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tokenize("(baz [quux]])")
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assert True is False
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except LexException:
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pass
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def test_lex_single_quote_err():
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"Ensure tokenizing \"' \" throws a LexException that can be stringified"
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# https://github.com/hylang/hy/issues/1252
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try:
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tokenize("' ")
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except LexException as e:
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assert "Could not identify the next token" in str(e)
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else:
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assert False
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def test_lex_expression_symbols():
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""" Make sure that expressions produce symbols """
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objs = tokenize("(foo bar)")
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assert objs == [HyExpression([HySymbol("foo"), HySymbol("bar")])]
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def test_lex_expression_strings():
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""" Test that expressions can produce strings """
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objs = tokenize("(foo \"bar\")")
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assert objs == [HyExpression([HySymbol("foo"), HyString("bar")])]
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def test_lex_expression_integer():
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""" Make sure expressions can produce integers """
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objs = tokenize("(foo 2)")
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assert objs == [HyExpression([HySymbol("foo"), HyInteger(2)])]
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def test_lex_symbols():
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""" Make sure that symbols are valid expressions"""
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objs = tokenize("foo ")
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assert objs == [HySymbol("foo")]
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def test_lex_strings():
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""" Make sure that strings are valid expressions"""
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objs = tokenize('"foo"')
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assert objs == [HyString("foo")]
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# Make sure backslash-escaped newlines work (see issue #831)
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objs = tokenize(r"""
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"a\
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bc"
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""")
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assert objs == [HyString("abc")]
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def test_lex_integers():
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""" Make sure that integers are valid expressions"""
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objs = tokenize("42 ")
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assert objs == [HyInteger(42)]
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def test_lex_fractions():
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""" Make sure that fractions are valid expressions"""
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objs = tokenize("1/2")
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assert objs == [HyExpression([HySymbol("fraction"), HyInteger(1),
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HyInteger(2)])]
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def test_lex_expression_float():
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""" Make sure expressions can produce floats """
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objs = tokenize("(foo 2.)")
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assert objs == [HyExpression([HySymbol("foo"), HyFloat(2.)])]
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objs = tokenize("(foo -0.5)")
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assert objs == [HyExpression([HySymbol("foo"), HyFloat(-0.5)])]
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objs = tokenize("(foo 1.e7)")
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assert objs == [HyExpression([HySymbol("foo"), HyFloat(1.e7)])]
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def test_lex_expression_complex():
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""" Make sure expressions can produce complex """
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objs = tokenize("(foo 2.j)")
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assert objs == [HyExpression([HySymbol("foo"), HyComplex(2.j)])]
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objs = tokenize("(foo -0.5j)")
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assert objs == [HyExpression([HySymbol("foo"), HyComplex(-0.5j)])]
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objs = tokenize("(foo 1.e7j)")
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assert objs == [HyExpression([HySymbol("foo"), HyComplex(1.e7j)])]
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objs = tokenize("(foo j)")
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assert objs == [HyExpression([HySymbol("foo"), HySymbol("j")])]
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def test_lex_digit_separators():
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assert tokenize("1_000_000") == [HyInteger(1000000)]
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assert tokenize("1,000,000") == [HyInteger(1000000)]
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assert tokenize("1,000_000") == [HyInteger(1000000)]
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assert tokenize("1_000,000") == [HyInteger(1000000)]
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assert tokenize("0x_af") == [HyInteger(0xaf)]
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assert tokenize("0x,af") == [HyInteger(0xaf)]
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assert tokenize("0b_010") == [HyInteger(0b010)]
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assert tokenize("0b,010") == [HyInteger(0b010)]
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assert tokenize("0o_373") == [HyInteger(0o373)]
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assert tokenize("0o,373") == [HyInteger(0o373)]
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assert tokenize('1_2.3,4') == [HyFloat(12.34)]
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assert tokenize('1_2e3,4') == [HyFloat(12e34)]
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assert (tokenize("1,2/3_4") ==
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[HyExpression([HySymbol("fraction"),
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HyInteger(12), HyInteger(34)])])
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assert tokenize("1,0_00j") == [HyComplex(1000j)]
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assert tokenize(",,,,___,__1__,,__,,2__,,,__") == [HyInteger(12)]
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assert (tokenize(",,,,___,__1__,,__,,2__,q,__") ==
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[HySymbol(",,,,___,__1__,,__,,2__,q,__")])
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def test_lex_line_counting():
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""" Make sure we can count lines / columns """
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entry = tokenize("(foo (one two))")[0]
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assert entry.start_line == 1
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assert entry.start_column == 1
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assert entry.end_line == 1
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assert entry.end_column == 15
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entry = entry[1]
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assert entry.start_line == 1
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assert entry.start_column == 6
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assert entry.end_line == 1
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assert entry.end_column == 14
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def test_lex_line_counting_multi():
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""" Make sure we can do multi-line tokenization """
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entries = tokenize("""
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(foo (one two))
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(foo bar)
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""")
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entry = entries[0]
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assert entry.start_line == 2
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assert entry.start_column == 1
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assert entry.end_line == 2
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assert entry.end_column == 15
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entry = entries[1]
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assert entry.start_line == 3
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assert entry.start_column == 1
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assert entry.end_line == 3
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assert entry.end_column == 9
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def test_lex_line_counting_multi_inner():
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""" Make sure we can do multi-line tokenization (inner) """
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entry = tokenize("""(foo
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bar)""")[0]
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inner = entry[0]
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assert inner.start_line == 1
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assert inner.start_column == 2
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inner = entry[1]
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assert inner.start_line == 2
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assert inner.start_column == 5
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def test_dicts():
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""" Ensure that we can tokenize a dict. """
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objs = tokenize("{foo bar bar baz}")
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assert objs == [HyDict(["foo", "bar", "bar", "baz"])]
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objs = tokenize("(bar {foo bar bar baz})")
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assert objs == [HyExpression([HySymbol("bar"),
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HyDict(["foo", "bar",
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"bar", "baz"])])]
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objs = tokenize("{(foo bar) (baz quux)}")
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assert objs == [HyDict([
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HyExpression([HySymbol("foo"), HySymbol("bar")]),
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HyExpression([HySymbol("baz"), HySymbol("quux")])
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])]
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def test_sets():
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""" Ensure that we can tokenize a set. """
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objs = tokenize("#{1 2}")
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assert objs == [HySet([HyInteger(1), HyInteger(2)])]
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objs = tokenize("(bar #{foo bar baz})")
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assert objs == [HyExpression([HySymbol("bar"),
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HySet(["foo", "bar", "baz"])])]
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objs = tokenize("#{(foo bar) (baz quux)}")
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assert objs == [HySet([
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HyExpression([HySymbol("foo"), HySymbol("bar")]),
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HyExpression([HySymbol("baz"), HySymbol("quux")])
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])]
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# Duplicate items in a literal set should be okay (and should
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# be preserved).
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objs = tokenize("#{1 2 1 1 2 1}")
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assert objs == [HySet([HyInteger(n) for n in [1, 2, 1, 1, 2, 1]])]
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assert len(objs[0]) == 6
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# https://github.com/hylang/hy/issues/1120
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objs = tokenize("#{a 1}")
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assert objs == [HySet([HySymbol("a"), HyInteger(1)])]
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def test_nospace():
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""" Ensure we can tokenize without spaces if we have to """
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entry = tokenize("(foo(one two))")[0]
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assert entry.start_line == 1
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assert entry.start_column == 1
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assert entry.end_line == 1
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assert entry.end_column == 14
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entry = entry[1]
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assert entry.start_line == 1
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assert entry.start_column == 5
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assert entry.end_line == 1
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assert entry.end_column == 13
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def test_escapes():
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""" Ensure we can escape things """
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entry = tokenize("(foo \"foo\\n\")")[0]
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assert entry[1] == "foo\n"
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entry = tokenize("(foo \"foo\\s\")")[0]
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assert entry[1] == "foo\\s"
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def test_unicode_escapes():
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"""Ensure unicode escapes are handled correctly"""
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s = r'"a\xac\u1234\u20ac\U00008000"'
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assert len(s) == 29
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entry = tokenize(s)[0]
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assert len(entry) == 5
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assert [ord(x) for x in entry] == [97, 172, 4660, 8364, 32768]
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def test_hashbang():
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""" Ensure we can escape things """
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entry = tokenize("#!this is a comment\n")
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assert entry == []
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def test_complex():
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"""Ensure we tokenize complex numbers properly"""
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# This is a regression test for #143
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entry = tokenize("(1j)")[0][0]
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assert entry == HyComplex("1.0j")
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entry = tokenize("(j)")[0][0]
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assert entry == HySymbol("j")
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def test_sharp_macro():
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"""Ensure sharp macros are handled properly"""
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entry = tokenize("#^()")
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assert entry[0][0] == HySymbol("dispatch_sharp_macro")
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assert entry[0][1] == HyString("^")
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assert len(entry[0]) == 3
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def test_lex_comment_382():
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"""Ensure that we can tokenize sources with a comment at the end"""
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entry = tokenize("foo ;bar\n;baz")
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assert entry == [HySymbol("foo")]
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def test_lex_mangling_star():
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"""Ensure that mangling starred identifiers works according to plan"""
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entry = tokenize("*foo*")
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assert entry == [HySymbol("FOO")]
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entry = tokenize("*")
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assert entry == [HySymbol("*")]
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entry = tokenize("*foo")
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assert entry == [HySymbol("*foo")]
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def test_lex_mangling_hyphen():
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"""Ensure that hyphens get translated to underscores during mangling"""
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entry = tokenize("foo-bar")
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assert entry == [HySymbol("foo_bar")]
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entry = tokenize("-")
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assert entry == [HySymbol("-")]
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def test_lex_mangling_qmark():
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"""Ensure that identifiers ending with a question mark get mangled ok"""
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entry = tokenize("foo?")
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assert entry == [HySymbol("is_foo")]
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entry = tokenize("?")
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assert entry == [HySymbol("?")]
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entry = tokenize("im?foo")
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assert entry == [HySymbol("im?foo")]
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entry = tokenize(".foo?")
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assert entry == [HySymbol(".is_foo")]
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entry = tokenize("foo.bar?")
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assert entry == [HySymbol("foo.is_bar")]
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entry = tokenize("foo?.bar")
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assert entry == [HySymbol("is_foo.bar")]
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entry = tokenize(".foo?.bar.baz?")
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assert entry == [HySymbol(".is_foo.bar.is_baz")]
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def test_lex_mangling_bang():
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"""Ensure that identifiers ending with a bang get mangled ok"""
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entry = tokenize("foo!")
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assert entry == [HySymbol("foo_bang")]
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entry = tokenize("!")
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assert entry == [HySymbol("!")]
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entry = tokenize("im!foo")
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assert entry == [HySymbol("im!foo")]
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entry = tokenize(".foo!")
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assert entry == [HySymbol(".foo_bang")]
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entry = tokenize("foo.bar!")
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assert entry == [HySymbol("foo.bar_bang")]
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entry = tokenize("foo!.bar")
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assert entry == [HySymbol("foo_bang.bar")]
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entry = tokenize(".foo!.bar.baz!")
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assert entry == [HySymbol(".foo_bang.bar.baz_bang")]
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def test_unmangle():
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import sys
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f = sys.modules["hy.lex.parser"].hy_symbol_unmangle
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assert f("FOO") == "*foo*"
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assert f("<") == "<"
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assert f("FOOa") == "FOOa"
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assert f("foo_bar") == "foo-bar"
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assert f("_") == "_"
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assert f("is_foo") == "foo?"
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assert f("is_") == "is-"
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assert f("foo_bang") == "foo!"
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assert f("_bang") == "-bang"
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def test_simple_cons():
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"""Check that cons gets tokenized correctly"""
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entry = tokenize("(a . b)")[0]
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assert entry == HyCons(HySymbol("a"), HySymbol("b"))
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def test_dotted_list():
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"""Check that dotted lists get tokenized correctly"""
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entry = tokenize("(a b c . (d . e))")[0]
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assert entry == HyCons(HySymbol("a"),
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HyCons(HySymbol("b"),
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HyCons(HySymbol("c"),
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HyCons(HySymbol("d"),
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HySymbol("e")))))
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def test_cons_list():
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"""Check that cons of something and a list gets tokenized as a list"""
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entry = tokenize("(a . [])")[0]
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assert entry == HyList([HySymbol("a")])
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assert type(entry) == HyList
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entry = tokenize("(a . ())")[0]
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assert entry == HyExpression([HySymbol("a")])
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assert type(entry) == HyExpression
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entry = tokenize("(a b . {})")[0]
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assert entry == HyDict([HySymbol("a"), HySymbol("b")])
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assert type(entry) == HyDict
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