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compiler.analyses.domination: fix PostDominatorTree.

This commit is contained in:
whitequark 2015-11-09 12:49:27 +03:00
parent 19fae9181c
commit 9670939ca6
2 changed files with 107 additions and 74 deletions
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128
artiq/compiler/analyses/domination.py
View File

@ -10,63 +10,21 @@ class GenericDominatorTree:
self._assign_names()
self._compute()
def _start_blocks(self):
"""
Returns a starting collection of basic blocks (entry block
for dominator tree and exit blocks for postdominator tree).
"""
def _traverse_in_postorder(self):
raise NotImplementedError
def _next_blocks(self, block):
"""
Returns the collection of blocks to be traversed after `block`
(successors for dominator tree and predecessors for postdominator
tree).
"""
raise NotImplementedError
def _prev_blocks(self, block):
"""
Returns the collection of blocks to be traversed before `block`
(predecessors for dominator tree and successors for postdominator
tree).
"""
def _prev_block_names(self, block):
raise NotImplementedError
def _assign_names(self):
"""Assigns names to basic blocks in postorder."""
visited = set()
postorder = []
postorder = self._traverse_in_postorder()
def visit(block):
visited.add(block)
for next_block in self._next_blocks(block):
if next_block not in visited:
visit(next_block)
postorder.append(block)
for block in self._start_blocks():
visit(block)
self._last_name = len(postorder)
self._start_name = len(postorder) - 1
self._block_of_name = postorder
self._name_of_block = {}
for block_name, block in enumerate(postorder):
# print("name", block_name + 1, block.name)
self._name_of_block[block] = block_name
def _start_block_names(self):
for block in self._start_blocks():
yield self._name_of_block[block]
def _next_block_names(self, block_name):
for block in self._next_blocks(self._block_of_name[block_name]):
yield self._name_of_block[block]
def _prev_block_names(self, block_name):
for block in self._prev_blocks(self._block_of_name[block_name]):
yield self._name_of_block[block]
def _intersect(self, block_name_1, block_name_2):
finger_1, finger_2 = block_name_1, block_name_2
while finger_1 != finger_2:
@ -79,23 +37,23 @@ class GenericDominatorTree:
def _compute(self):
self._doms = {}
for block_name in range(self._last_name):
self._doms[block_name] = None
# Start block dominates itself.
self._doms[self._start_name] = self._start_name
start_block_names = set()
for block_name in self._start_block_names():
self._doms[block_name] = block_name
start_block_names.add(block_name)
# We don't yet know what blocks dominate all other blocks.
for block_name in range(self._start_name):
self._doms[block_name] = None
changed = True
while changed:
# print("doms", {k+1: self._doms[k]+1 if self._doms[k] is not None else None for k in self._doms})
changed = False
for block_name in reversed(range(self._last_name)):
if block_name in start_block_names:
continue
# For all blocks except start block, in reverse postorder...
for block_name in reversed(range(self._start_name)):
# Select a new immediate dominator from the blocks we have
# already processed, and remember all others.
# We've already processed at least one previous block because
# of the graph traverse order.
new_idom, prev_block_names = None, []
for prev_block_name in self._prev_block_names(block_name):
if new_idom is None and self._doms[prev_block_name] is not None:
@ -103,12 +61,10 @@ class GenericDominatorTree:
else:
prev_block_names.append(prev_block_name)
# print("block_name", block_name + 1, "new_idom", new_idom + 1)
# Find a common previous block
for prev_block_name in prev_block_names:
# print("prev_block_name", prev_block_name + 1)
if self._doms[prev_block_name] is not None:
new_idom = self._intersect(prev_block_name, new_idom)
# print("new_idom+", new_idom + 1)
if self._doms[block_name] != new_idom:
self._doms[block_name] = new_idom
@ -130,26 +86,52 @@ class DominatorTree(GenericDominatorTree):
self.function = function
super().__init__()
def _start_blocks(self):
return [self.function.entry()]
def _traverse_in_postorder(self):
postorder = []
def _next_blocks(self, block):
return block.successors()
visited = set()
def visit(block):
visited.add(block)
for next_block in block.successors():
if next_block not in visited:
visit(next_block)
postorder.append(block)
def _prev_blocks(self, block):
return block.predecessors()
visit(self.function.entry())
return postorder
def _prev_block_names(self, block_name):
for block in self._block_of_name[block_name].predecessors():
yield self._name_of_block[block]
class PostDominatorTree(GenericDominatorTree):
def __init__(self, function):
self.function = function
super().__init__()
def _start_blocks(self):
return [block for block in self.function.basic_blocks
if none(block.successors())]
def _traverse_in_postorder(self):
postorder = []
def _next_blocks(self, block):
return block.predecessors()
visited = set()
def visit(block):
visited.add(block)
for next_block in block.predecessors():
if next_block not in visited:
visit(next_block)
postorder.append(block)
def _prev_blocks(self, block):
return block.successors()
for block in self.function.basic_blocks:
if not any(block.successors()):
visit(block)
postorder.append(None) # virtual exit block
return postorder
def _prev_block_names(self, block_name):
succ_blocks = self._block_of_name[block_name].successors()
if len(succ_blocks) > 0:
for block in succ_blocks:
yield self._name_of_block[block]
else:
yield self._start_name

53
artiq/test/compiler/domination.py
View File

@ -44,7 +44,8 @@ def dom(function, domtree):
def idom(function, domtree):
idom = {}
for block in function.basic_blocks:
idom[block.name] = domtree.immediate_dominator(block).name
idom_block = domtree.immediate_dominator(block)
idom[block.name] = idom_block.name if idom_block else None
return idom
class TestDominatorTree(unittest.TestCase):
@ -113,3 +114,53 @@ class TestDominatorTree(unittest.TestCase):
self.assertEqual({
1: 6, 2: 6, 3: 6, 4: 6, 5: 6, 6: 6
}, idom(func, domtree))
class TestPostDominatorTree(unittest.TestCase):
def test_linear(self):
func = makefn('A', {
'A': ['B'],
'B': ['C'],
'C': []
})
domtree = PostDominatorTree(func)
self.assertEqual({
'A': 'B', 'B': 'C', 'C': None
}, idom(func, domtree))
def test_diamond(self):
func = makefn('A', {
'A': ['B', 'D'],
'B': ['C'],
'C': ['E'],
'D': ['E'],
'E': []
})
domtree = PostDominatorTree(func)
self.assertEqual({
'E': None, 'D': 'E', 'C': 'E', 'B': 'C', 'A': 'E'
}, idom(func, domtree))
def test_multi_exit(self):
func = makefn('A', {
'A': ['B', 'C'],
'B': [],
'C': []
})
domtree = PostDominatorTree(func)
self.assertEqual({
'A': None, 'B': None, 'C': None
}, idom(func, domtree))
def test_multi_exit_diamond(self):
func = makefn('A', {
'A': ['B', 'C'],
'B': ['D'],
'C': ['D'],
'D': ['E', 'F'],
'E': [],
'F': []
})
domtree = PostDominatorTree(func)
self.assertEqual({
'A': 'D', 'B': 'D', 'C': 'D', 'D': None, 'E': None, 'F': None
}, idom(func, domtree))