def scan_va_list_tag(syntax_tree):
'''Scan use of __va_list_tag.'''
try:
postorder = lambda tree: _scan_tree(tree, syntax_tree)
traverse_postorder(syntax_tree, postorder)
except StopIteration:
pass
def scan_required_nodes(syntax_tree, check_required):
"""Breadth-first scan for required symbols."""
def _scan_required(tree):
"""Mark nodes as required."""
if not check_required(tree):
return
tree.annotate(annotations.REQUIRED, True)
_scan_type_definition(tree.type, todo, visited)
if tree.is_field_decl():
_scan_type_definition(tree.semantic_parent.type, todo, visited)
elif tree.kind == CursorKind.FUNCTION_DECL:
if not tree.type.is_function_variadic() and tree.get_num_arguments() > 0:
for arg in tree.get_arguments():
_scan_type_definition(arg.type, todo, visited)
if tree.result_type.kind != TypeKind.VOID:
_scan_type_definition(tree.result_type, todo, visited)
visited = set()
todo = []
traverse_postorder(syntax_tree, _scan_required)
call_scan_type_definition = lambda tree: _scan_type_definition(tree.type, todo, visited)
while todo:
# Trick is to copy todo and then empty it without creating a new list.
trees = list(todo)
todo[:] = []
for tree in trees:
tree.annotate(annotations.REQUIRED, True)
traverse_postorder(tree, call_scan_type_definition)
def scan_va_list_tag(syntax_tree):
'''Scan use of __va_list_tag.'''
try:
postorder = lambda tree: _scan_tree(tree, syntax_tree)
traverse_postorder(syntax_tree, postorder)
except StopIteration:
pass
def scan_required_nodes(syntax_tree, check_required):
'''Breadth-first scan for required symbols.'''
def _scan_required(tree):
'''Mark nodes as required.'''
if not check_required(tree):
return
tree.annotate(annotations.REQUIRED, True)
_scan_type_definition(tree.type, todo, visited)
if tree.is_field_decl():
_scan_type_definition(tree.semantic_parent.type, todo, visited)
elif tree.kind == CursorKind.FUNCTION_DECL:
if (not tree.type.is_function_variadic()
and tree.get_num_arguments() > 0):
for arg in tree.get_arguments():
_scan_type_definition(arg.type, todo, visited)
if tree.result_type.kind != TypeKind.VOID:
_scan_type_definition(tree.result_type, todo, visited)
visited = set()
todo = []
traverse_postorder(syntax_tree, _scan_required)
call_scan_type_definition = lambda tree: \
_scan_type_definition(tree.type, todo, visited)
while todo:
# Trick is to copy todo and then empty it without creating a new list.
trees = list(todo)
todo[:] = []
for tree in trees:
tree.annotate(annotations.REQUIRED, True)
traverse_postorder(tree, call_scan_type_definition)
def scan_anonymous_pod(syntax_tree):
"""Scan anonymous PODs."""
traverse_postorder(syntax_tree, _scan_tree)
def scan_and_rename(syntax_tree, rename):
'''Scan syntax tree and rename nodes.'''
traverse_postorder(syntax_tree, rename)
def scan_forward_decl(syntax_tree):
'''Scan syntax tree for forward declarations.'''
has_seen = set()
traverse_postorder(syntax_tree, lambda tree: _scan_tree(tree, has_seen))
def custom_pass(syntax_tree, func):
'''Run a custom pass over the tree.'''
from cbind.passes.util import traverse_postorder
traverse_postorder(syntax_tree, func)
def scan_anonymous_pod(syntax_tree):
'''Scan anonymous PODs.'''
traverse_postorder(syntax_tree, _scan_tree)