def expect_result(text, result):
s = Statement(text, worksheet)
s.compile()
s.execute()
if s.error_message != None :
raise Exception(s.error_message)
if isinstance(result, basestring):
assert_equals(s.results[0], result)
else:
assert_equals(s.results, result)
pass
pass
def expect_result(text, result):
s = Statement(text, worksheet)
s.compile()
s.execute()
if s.error_message != None:
raise Exception(s.error_message)
if isinstance(result, basestring):
assert_equals(s.results[0], result)
else:
assert_equals(s.results, result)
pass
pass
def test_statement_0():
from test_utils import assert_equals, adjust_environment
adjust_environment()
from reinteract.statement import Statement
from reinteract.notebook import Notebook
nb = Notebook()
from reinteract.worksheet import Worksheet
worksheet = Worksheet(nb)
def expect_result(text, result):
s = Statement(text, worksheet)
s.compile()
s.execute()
if s.error_message != None :
raise Exception(s.error_message)
if isinstance(result, basestring):
assert_equals(s.results[0], result)
else:
assert_equals(s.results, result)
pass
pass
# A bare expression should give the repr of the expression
expect_result("'a'", repr('a'))
expect_result("1,2", repr((1,2)))
# Print, on the other hand, gives the string form of the expression, with
# one result object per output line
expect_result("print 'a'", 'a')
expect_result("print 'a', 'b'", ['a b'])
expect_result("print 'a\\nb'", ['a','b'])
# Test that we copy a variable before mutating it (when we can detect
# the mutation)
s1 = Statement("b = [0]", worksheet)
s1.compile()
s1.execute()
s2 = Statement("b[0] = 1", worksheet, parent=s1)
s2.compile()
s2.execute()
s3 = Statement("b[0]", worksheet, parent=s2)
s3.compile()
s3.execute()
assert_equals(s3.results[0], "1")
s2a = Statement("b[0]", worksheet, parent=s1)
s2a.compile()
s2a.execute()
assert_equals(s2a.results[0], "0")
# Test __reinteract_wrappers with an unrealistic example
s1 = Statement("__reinteract_wrappers = [ lambda x: 2 ]", worksheet)
s1.compile()
s1.execute()
s2 = Statement("1", worksheet, parent=s1)
s2.compile()
s2.execute()
assert_equals(s2.results[0], "2")
# Tests of catching errors
s1 = Statement("b = ", worksheet)
assert_equals(s1.compile(), False)
assert s1.error_message is not None
s1 = Statement("b", worksheet)
assert_equals(s1.compile(), True)
assert_equals(s1.execute(), False)
assert s1.error_message is not None
# Tests of 'from __future__ import...'
s1 = Statement("from __future__ import division", worksheet)
s1.compile()
assert_equals(s1.future_features, ['division'])
s2 = Statement("from __future__ import with_statement", worksheet, parent=s1)
s2.compile()
assert_equals(s2.future_features, ['division', 'with_statement'])
s1 = Statement("import __future__", worksheet) # just a normal import
assert_equals(s1.future_features, None)
# Advanced use of "context manager" protocol
expect_result('from reinteract.statement import Statement; Statement.get_current() != None', repr(True))
#--------------------------------------------------------------------------------------
pass
def test_statement_0():
from test_utils import assert_equals, adjust_environment
adjust_environment()
from reinteract.statement import Statement
from reinteract.notebook import Notebook
nb = Notebook()
from reinteract.worksheet import Worksheet
worksheet = Worksheet(nb)
def expect_result(text, result):
s = Statement(text, worksheet)
s.compile()
s.execute()
if s.error_message != None:
raise Exception(s.error_message)
if isinstance(result, basestring):
assert_equals(s.results[0], result)
else:
assert_equals(s.results, result)
pass
pass
# A bare expression should give the repr of the expression
expect_result("'a'", repr('a'))
expect_result("1,2", repr((1, 2)))
# Print, on the other hand, gives the string form of the expression, with
# one result object per output line
expect_result("print 'a'", 'a')
expect_result("print 'a', 'b'", ['a b'])
expect_result("print 'a\\nb'", ['a', 'b'])
# Test that we copy a variable before mutating it (when we can detect
# the mutation)
s1 = Statement("b = [0]", worksheet)
s1.compile()
s1.execute()
s2 = Statement("b[0] = 1", worksheet, parent=s1)
s2.compile()
s2.execute()
s3 = Statement("b[0]", worksheet, parent=s2)
s3.compile()
s3.execute()
assert_equals(s3.results[0], "1")
s2a = Statement("b[0]", worksheet, parent=s1)
s2a.compile()
s2a.execute()
assert_equals(s2a.results[0], "0")
# Test __reinteract_wrappers with an unrealistic example
s1 = Statement("__reinteract_wrappers = [ lambda x: 2 ]", worksheet)
s1.compile()
s1.execute()
s2 = Statement("1", worksheet, parent=s1)
s2.compile()
s2.execute()
assert_equals(s2.results[0], "2")
# Tests of catching errors
s1 = Statement("b = ", worksheet)
assert_equals(s1.compile(), False)
assert s1.error_message is not None
s1 = Statement("b", worksheet)
assert_equals(s1.compile(), True)
assert_equals(s1.execute(), False)
assert s1.error_message is not None
# Tests of 'from __future__ import...'
s1 = Statement("from __future__ import division", worksheet)
s1.compile()
assert_equals(s1.future_features, ['division'])
s2 = Statement("from __future__ import with_statement",
worksheet,
parent=s1)
s2.compile()
assert_equals(s2.future_features, ['division', 'with_statement'])
s1 = Statement("import __future__", worksheet) # just a normal import
assert_equals(s1.future_features, None)
# Advanced use of "context manager" protocol
expect_result(
'from reinteract.statement import Statement; Statement.get_current() != None',
repr(True))
#--------------------------------------------------------------------------------------
pass
