def identify_consumers(func, env):
"""
Identify consumers of generators, that is find the loops that iterate
over a generator.
"""
generator_objects = find_generators(func, env)
#print("generators", generator_objects)
if not generator_objects:
# We can stop now
return
loop_forest = loop_detection.find_natural_loops(func)
loops = loop_detection.flatloops(loop_forest)
heads = dict((loop.head, loop) for loop in loops)
expect_call = partial(expect_single_call, func, env)
#print("loops", loops, "heads", heads)
for generator_obj in generator_objects:
# Check for a nesting of next(iter(my_generator()))
iter = expect_call(generator_obj, builtins.iter)
next = expect_call(iter, builtins.next)
if iter and next and next.block in heads:
loop = heads[next.block]
yield Consumer(generator_obj, iter, next, loop)
def identify_consumers(func, env):
"""
Identify consumers of generators, that is find the loops that iterate
over a generator.
"""
generator_objects = find_generators(func, env)
#print("generators", generator_objects)
if not generator_objects:
# We can stop now
return
loop_forest = loop_detection.find_natural_loops(func)
loops = loop_detection.flatloops(loop_forest)
heads = dict((loop.head, loop) for loop in loops)
expect_call = partial(expect_single_call, func, env)
#print("loops", loops, "heads", heads)
for generator_obj in generator_objects:
# Check for a nesting of next(iter(my_generator()))
iter = expect_call(generator_obj, builtins.iter)
next = expect_call(iter, builtins.next)
if iter and next and next.block in heads:
loop = heads[next.block]
yield Consumer(generator_obj, iter, next, loop)
def test_unnested(self):
loops = loop_detection.find_natural_loops(self.f)
assert len(loops) == 2
assert len(loops[0].children) == 0
assert len(loops[1].children) == 0
assert len(loops[0].blocks) >= 4
assert len(loops[1].blocks) >= 2
def assert_inlinable(func, call, callee, uses):
"""
Verify that a function call can be inlined.
We can inline generators if they are consumed in a single loop:
- iter(g) must be in a loop header
- next(g) must be in the loop body
:return: None if inlineable, or an exception with a message
"""
if not isinstance(callee, Function):
return CompileError("Cannot inline external function: %s" % (callee,))
yields = findallops(callee, 'yield')
if yields:
for use in uses[call]:
if use.opcode not in ('iter', 'next'):
return CompileError(
"Cannot inline generator with use %s" % (use,))
if len(uses[call]) != 2:
return CompileError("Can only")
loops = loop_detection.find_natural_loops(func)
def test_nested(self):
loops = loop_detection.find_natural_loops(self.f)
for i in range(3):
loop, = loops
loops = loop.children
