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Boxiang Sun
Pyston
Commits
43122b30
Commit
43122b30
authored
Feb 17, 2016
by
Kevin Modzelewski
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Plain Diff
wip: trying to deal with loops. I think this needs to be a fixed-point analysis though
parent
57c7cf6d
Changes
1
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1 changed file
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97 additions
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28 deletions
+97
-28
src/codegen/irgen/refcounts.cpp
src/codegen/irgen/refcounts.cpp
+97
-28
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src/codegen/irgen/refcounts.cpp
View file @
43122b30
...
@@ -140,6 +140,94 @@ void addDecrefs(llvm::Value* v, int num_refs, llvm::Instruction* decref_pt) {
...
@@ -140,6 +140,94 @@ void addDecrefs(llvm::Value* v, int num_refs, llvm::Instruction* decref_pt) {
builder
.
SetInsertPoint
(
continue_block
);
builder
.
SetInsertPoint
(
continue_block
);
}
}
static
std
::
vector
<
llvm
::
BasicBlock
*>
computeTraversalOrder
(
llvm
::
Function
*
f
)
{
std
::
vector
<
llvm
::
BasicBlock
*>
ordering
;
llvm
::
DenseSet
<
llvm
::
BasicBlock
*>
added
;
llvm
::
DenseMap
<
llvm
::
BasicBlock
*
,
int
>
num_successors_added
;
for
(
auto
&&
BB
:
*
f
)
{
if
(
llvm
::
succ_begin
(
&
BB
)
==
llvm
::
succ_end
(
&
BB
))
{
llvm
::
outs
()
<<
"Adding "
<<
BB
.
getName
()
<<
" since it is an exit node.
\n
"
;
ordering
.
push_back
(
&
BB
);
added
.
insert
(
&
BB
);
}
}
int
check_predecessors_idx
=
0
;
int
num_bb
=
f
->
size
();
while
(
ordering
.
size
()
<
num_bb
)
{
if
(
check_predecessors_idx
<
ordering
.
size
())
{
// Case 1: look for any blocks whose successors have already been traversed.
llvm
::
BasicBlock
*
bb
=
ordering
[
check_predecessors_idx
];
check_predecessors_idx
++
;
for
(
auto
&&
PBB
:
llvm
::
iterator_range
<
llvm
::
pred_iterator
>
(
llvm
::
pred_begin
(
bb
),
llvm
::
pred_end
(
bb
)))
{
if
(
added
.
count
(
PBB
))
continue
;
num_successors_added
[
PBB
]
++
;
int
num_successors
=
std
::
distance
(
llvm
::
succ_begin
(
PBB
),
llvm
::
succ_end
(
PBB
));
if
(
num_successors_added
[
PBB
]
==
num_successors
)
{
ordering
.
push_back
(
PBB
);
added
.
insert
(
PBB
);
llvm
::
outs
()
<<
"Adding "
<<
PBB
->
getName
()
<<
" since it has all of its successors added.
\n
"
;
}
}
}
else
{
// Case 2: we hit a cycle. Try to pick a good node to add.
// The heuristic here is just to make sure to pick one in 0-successor component of the SCC
std
::
vector
<
std
::
pair
<
llvm
::
BasicBlock
*
,
int
>>
num_successors
;
for
(
auto
&&
p
:
num_successors_added
)
{
if
(
added
.
count
(
p
.
first
))
continue
;
num_successors
.
push_back
(
p
);
}
std
::
sort
(
num_successors
.
begin
(),
num_successors
.
end
(),
[](
const
std
::
pair
<
llvm
::
BasicBlock
*
,
int
>&
p1
,
const
std
::
pair
<
llvm
::
BasicBlock
*
,
int
>&
p2
)
{
return
p1
.
second
>
p2
.
second
;
});
std
::
deque
<
llvm
::
BasicBlock
*>
visit_queue
;
llvm
::
DenseSet
<
llvm
::
BasicBlock
*>
visited
;
llvm
::
BasicBlock
*
best
=
NULL
;
for
(
auto
&&
p
:
num_successors
)
{
if
(
visited
.
count
(
p
.
first
))
continue
;
best
=
p
.
first
;
visit_queue
.
push_back
(
p
.
first
);
visited
.
insert
(
p
.
first
);
while
(
visit_queue
.
size
())
{
llvm
::
BasicBlock
*
bb
=
visit_queue
.
front
();
visit_queue
.
pop_front
();
for
(
auto
&&
SBB
:
llvm
::
successors
(
bb
))
{
if
(
!
visited
.
count
(
SBB
))
{
visited
.
insert
(
SBB
);
visit_queue
.
push_back
(
SBB
);
}
}
}
}
assert
(
best
);
ordering
.
push_back
(
best
);
added
.
insert
(
best
);
llvm
::
outs
()
<<
"Adding "
<<
best
->
getName
()
<<
" since it is the best provisional node.
\n
"
;
}
}
assert
(
ordering
.
size
()
==
num_bb
);
assert
(
added
.
size
()
==
num_bb
);
return
ordering
;
}
void
RefcountTracker
::
addRefcounts
(
IRGenState
*
irstate
)
{
void
RefcountTracker
::
addRefcounts
(
IRGenState
*
irstate
)
{
llvm
::
Function
*
f
=
irstate
->
getLLVMFunction
();
llvm
::
Function
*
f
=
irstate
->
getLLVMFunction
();
RefcountTracker
*
rt
=
irstate
->
getRefcounts
();
RefcountTracker
*
rt
=
irstate
->
getRefcounts
();
...
@@ -227,27 +315,23 @@ void RefcountTracker::addRefcounts(IRGenState* irstate) {
...
@@ -227,27 +315,23 @@ void RefcountTracker::addRefcounts(IRGenState* irstate) {
ASSERT
(
num_untracked
==
0
,
""
);
ASSERT
(
num_untracked
==
0
,
""
);
#endif
#endif
std
::
deque
<
llvm
::
BasicBlock
*>
block_queue
;
std
::
vector
<
llvm
::
BasicBlock
*>
block_queue
=
computeTraversalOrder
(
f
);
struct
RefState
{
struct
RefState
{
llvm
::
DenseMap
<
llvm
::
Value
*
,
int
>
refs
;
llvm
::
DenseMap
<
llvm
::
Value
*
,
int
>
refs
;
bool
is_provisional
=
false
;
llvm
::
SmallVector
<
llvm
::
Value
*
,
4
>
provisionally_dead
;
//llvm::Instruction*
//llvm::Instruction*
};
};
llvm
::
DenseMap
<
llvm
::
BasicBlock
*
,
RefState
>
states
;
llvm
::
DenseMap
<
llvm
::
BasicBlock
*
,
RefState
>
states
;
for
(
auto
&&
BB
:
*
f
)
{
if
(
llvm
::
succ_begin
(
&
BB
)
==
llvm
::
succ_end
(
&
BB
))
{
block_queue
.
push_back
(
&
BB
);
}
}
// Don't actually insert any decrefs initially, since they require changing the control flow of the
// Don't actually insert any decrefs initially, since they require changing the control flow of the
// function. Instead just make a note of them and we will add them all at the end.
// function. Instead just make a note of them and we will add them all at the end.
// This is a list of <val to decref, num_decrefs, instruction to insert before> pairs.
// This is a list of <val to decref, num_decrefs, instruction to insert before> pairs.
std
::
vector
<
std
::
tuple
<
llvm
::
Value
*
,
int
,
llvm
::
Instruction
*>>
pending_decrefs
;
std
::
vector
<
std
::
tuple
<
llvm
::
Value
*
,
int
,
llvm
::
Instruction
*>>
pending_decrefs
;
while
(
!
block_queue
.
empty
())
{
for
(
auto
&&
bb
:
block_queue
)
{
llvm
::
BasicBlock
&
BB
=
*
block_queue
.
front
();
llvm
::
BasicBlock
&
BB
=
*
bb
;
block_queue
.
pop_front
();
#if 0
#if 0
llvm::Instruction* term_inst = BB.getTerminator();
llvm::Instruction* term_inst = BB.getTerminator();
...
@@ -265,6 +349,8 @@ void RefcountTracker::addRefcounts(IRGenState* irstate) {
...
@@ -265,6 +349,8 @@ void RefcountTracker::addRefcounts(IRGenState* irstate) {
// Compute the incoming refstate based on the refstate of any successor nodes
// Compute the incoming refstate based on the refstate of any successor nodes
llvm
::
SmallVector
<
llvm
::
BasicBlock
*
,
4
>
successors
;
llvm
::
SmallVector
<
llvm
::
BasicBlock
*
,
4
>
successors
;
for
(
auto
SBB
:
llvm
::
successors
(
&
BB
))
{
}
successors
.
insert
(
successors
.
end
(),
llvm
::
succ_begin
(
&
BB
),
llvm
::
succ_end
(
&
BB
));
successors
.
insert
(
successors
.
end
(),
llvm
::
succ_begin
(
&
BB
),
llvm
::
succ_end
(
&
BB
));
if
(
successors
.
size
())
{
if
(
successors
.
size
())
{
llvm
::
DenseSet
<
llvm
::
Value
*>
tracked_values
;
llvm
::
DenseSet
<
llvm
::
Value
*>
tracked_values
;
...
@@ -430,26 +516,9 @@ void RefcountTracker::addRefcounts(IRGenState* irstate) {
...
@@ -430,26 +516,9 @@ void RefcountTracker::addRefcounts(IRGenState* irstate) {
}
}
state
.
refs
.
clear
();
state
.
refs
.
clear
();
}
}
// Look for any new blocks that are ready to be processed:
for
(
auto
&&
PBB
:
llvm
::
iterator_range
<
llvm
::
pred_iterator
>
(
llvm
::
pred_begin
(
&
BB
),
llvm
::
pred_end
(
&
BB
)))
{
bool
all_succ_done
=
true
;
for
(
auto
&&
SBB
:
llvm
::
iterator_range
<
llvm
::
succ_iterator
>
(
llvm
::
succ_begin
(
PBB
),
llvm
::
succ_end
(
PBB
)))
{
if
(
!
states
.
count
(
SBB
))
{
all_succ_done
=
false
;
break
;
}
}
if
(
all_succ_done
)
{
llvm
::
outs
()
<<
PBB
->
getName
()
<<
" is now ready to be processed
\n
"
;
block_queue
.
push_back
(
PBB
);
}
}
}
}
// TODO need to do something about loops
ASSERT
(
states
.
size
()
==
f
->
size
(),
"We didn't process all nodes..."
);
ASSERT
(
states
.
size
()
==
f
->
size
(),
"We didn't process all nodes... backedges??"
);
// Add any decrefs that we put off earlier:
// Add any decrefs that we put off earlier:
for
(
auto
&
p
:
pending_decrefs
)
{
for
(
auto
&
p
:
pending_decrefs
)
{
...
...
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