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wenyuanbo
tic
Commits
8e04361c
Commit
8e04361c
authored
Nov 18, 2016
by
tqchen
Browse files
Options
Browse Files
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Plain Diff
Refactor IR Pass
parent
ff6b8d82
Show whitespace changes
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Showing
12 changed files
with
203 additions
and
153 deletions
+203
-153
HalideIR
+1
-1
include/tvm/expr.h
+1
-0
include/tvm/ir_mutator.h
+6
-13
include/tvm/ir_pass.h
+26
-0
include/tvm/ir_visitor.h
+1
-1
include/tvm/tensor.h
+7
-1
src/pass/ir_mutator.cc
+41
-67
src/pass/ir_pass.cc
+39
-0
src/pass/ir_visitor.cc
+48
-48
tests/cpp/ir_mutator_test.cc
+3
-22
tests/cpp/ir_pass_test.cc
+29
-0
tests/cpp/ir_visitor_test.cc
+1
-0
No files found.
HalideIR
@
4becbde6
Subproject commit
89b7939957d66a37dd6083ad6b09a5644e73fd8b
Subproject commit
4becbde67c8aa565941b02648cea90f50211f8dc
include/tvm/expr.h
View file @
8e04361c
...
...
@@ -27,6 +27,7 @@ using Halide::abs;
using
Halide
::
select
;
using
Halide
::
Expr
;
using
Halide
::
IR
::
FunctionBaseNode
;
using
Halide
::
Internal
::
Stmt
;
class
Var
:
public
Halide
::
VarExpr
{
...
...
include/tvm/ir_mutator.h
View file @
8e04361c
...
...
@@ -29,7 +29,7 @@ class IRMutator {
* \brief mutate expression
* \return the mutated expr
*/
virtual
Expr
m
utate
(
Expr
expr
)
{
virtual
Expr
M
utate
(
Expr
expr
)
{
static
const
FMutateExpr
&
f
=
vtable_expr
();
return
f
(
expr
,
expr
,
this
);
}
...
...
@@ -37,7 +37,7 @@ class IRMutator {
* \brief mutate expression
* \return the mutated stmt
*/
virtual
Stmt
m
utate
(
Stmt
stmt
)
{
virtual
Stmt
M
utate
(
Stmt
stmt
)
{
static
const
FMutateStmt
&
f
=
vtable_stmt
();
return
f
(
stmt
,
stmt
,
this
);
}
...
...
@@ -58,28 +58,21 @@ class IRMutator {
*/
class
IRMutatorExample
:
public
IRMutator
{
public
:
Expr
m
utate
(
Expr
expr
)
final
{
Expr
M
utate
(
Expr
expr
)
final
{
static
const
FMutateExpr
&
f
=
IRMutatorExample
::
vtable_expr
();
return
(
f
.
can_dispatch
(
expr
)
?
f
(
expr
,
expr
,
this
)
:
IRMutator
::
m
utate
(
expr
));
f
(
expr
,
expr
,
this
)
:
IRMutator
::
M
utate
(
expr
));
}
Stmt
m
utate
(
Stmt
stmt
)
final
{
Stmt
M
utate
(
Stmt
stmt
)
final
{
static
const
FMutateStmt
&
f
=
IRMutatorExample
::
vtable_stmt
();
return
(
f
.
can_dispatch
(
stmt
)
?
f
(
stmt
,
stmt
,
this
)
:
IRMutator
::
m
utate
(
stmt
));
f
(
stmt
,
stmt
,
this
)
:
IRMutator
::
M
utate
(
stmt
));
}
// to be implemented by child class
static
FMutateExpr
&
vtable_expr
();
// NOLINT(*)
static
FMutateStmt
&
vtable_stmt
();
// NOLINT(*)
};
/*!
* \brief Substitute occurance of IRNode to be expr
* \param replacements The replacement rule of substitution
* \param expr The expression to be substituted.
*/
Expr
Substitute
(
const
std
::
unordered_map
<
const
IRNode
*
,
Expr
>&
replacements
,
Expr
expr
);
}
// namespace ir
}
// namespace tvm
#endif // TVM_IR_MUTATOR_H_
include/tvm/ir_pass.h
0 → 100644
View file @
8e04361c
/*!
* Copyright (c) 2016 by Contributors
* \file ir_pass.h
* \brief Collection of IR pass functions and visit functions
*/
#ifndef TVM_IR_PASS_H_
#define TVM_IR_PASS_H_
#include <tvm/ir_node.h>
#include <unordered_map>
#include "./expr.h"
namespace
tvm
{
namespace
ir
{
/*!
* \brief Substitute occurance of IRNode in expr
* \param replacements The replacement rule of substitution
* \param expr The expression to be substituted.
*/
Expr
Substitute
(
const
std
::
unordered_map
<
const
IRNode
*
,
Expr
>&
replacements
,
Expr
expr
);
}
// namespace ir
}
// namespace tvm
#endif // TVM_IR_PASS_H_
include/tvm/ir_visitor.h
View file @
8e04361c
...
...
@@ -24,7 +24,7 @@ class IRVisitor {
/*!
* \brief recursively visit an IR node
*/
virtual
void
v
isit
(
const
IRNodeRef
&
node
)
{
virtual
void
V
isit
(
const
IRNodeRef
&
node
)
{
static
const
FVisit
&
f
=
vtable
();
if
(
node
.
defined
())
f
(
node
,
this
);
}
...
...
include/tvm/tensor.h
View file @
8e04361c
...
...
@@ -101,7 +101,7 @@ class Tensor : public FunctionRef {
};
/*! \brief Node to represent a tensor */
class
TensorNode
:
public
Node
{
class
TensorNode
:
public
FunctionBase
Node
{
public
:
/*! \brief The shape of the tensor */
Array
<
Expr
>
shape
;
...
...
@@ -125,6 +125,12 @@ class TensorNode : public Node {
v
->
Visit
(
"dim_var"
,
&
dim_var
);
v
->
Visit
(
"source"
,
&
source
);
}
const
std
::
string
&
func_name
()
const
final
{
return
name
;
}
int
outputs
()
const
final
{
return
1
;
}
static
Tensor
make
(
Array
<
Expr
>
shape
,
std
::
string
name
,
Type
dtype
,
...
...
src/pass/ir_mutator.cc
View file @
8e04361c
...
...
@@ -8,32 +8,6 @@
namespace
tvm
{
namespace
ir
{
namespace
{
// visitor to implement apply
class
IRSubstitute
:
public
IRMutator
{
public
:
Expr
mutate
(
Expr
expr
)
final
{
const
IRNode
*
v
=
expr
.
get
();
if
(
v
!=
nullptr
)
{
auto
it
=
replacements_
.
find
(
v
);
if
(
it
!=
replacements_
.
end
())
{
return
it
->
second
;
}
}
return
IRMutator
::
mutate
(
expr
);
}
explicit
IRSubstitute
(
const
std
::
unordered_map
<
const
IRNode
*
,
Expr
>&
replacements
)
:
replacements_
(
replacements
)
{}
private
:
const
std
::
unordered_map
<
const
IRNode
*
,
Expr
>&
replacements_
;
};
}
// namespace
Expr
Substitute
(
const
std
::
unordered_map
<
const
IRNode
*
,
Expr
>&
replacements
,
Expr
expr
)
{
return
IRSubstitute
(
replacements
).
mutate
(
expr
);
}
IRMutator
::
FMutateExpr
&
IRMutator
::
vtable_expr
()
{
// NOLINT(*)
static
FMutateExpr
inst
;
return
inst
;
}
...
...
@@ -57,7 +31,7 @@ inline Array<Expr> MutateArray(Array<Expr> arr, IRMutator *m) {
bool
changed
=
false
;
for
(
size_t
i
=
0
;
i
<
arr
.
size
();
i
++
)
{
Expr
old_elem
=
arr
[
i
];
Expr
new_elem
=
m
->
m
utate
(
old_elem
);
Expr
new_elem
=
m
->
M
utate
(
old_elem
);
if
(
!
new_elem
.
same_as
(
old_elem
))
changed
=
true
;
new_arr
[
i
]
=
new_elem
;
}
...
...
@@ -73,8 +47,8 @@ inline RDomain MutateRDom(RDomain rdom, IRMutator *m) {
bool
changed
=
false
;
for
(
size_t
i
=
0
;
i
<
rdom
->
domain
.
size
();
i
++
)
{
Range
r
=
rdom
->
domain
[
i
];
Expr
new_min
=
m
->
m
utate
(
r
->
min
);
Expr
new_extent
=
m
->
m
utate
(
r
->
extent
);
Expr
new_min
=
m
->
M
utate
(
r
->
min
);
Expr
new_extent
=
m
->
M
utate
(
r
->
extent
);
if
(
!
r
->
min
.
same_as
(
new_min
))
changed
=
true
;
if
(
!
r
->
extent
.
same_as
(
new_extent
))
changed
=
true
;
new_dom
[
i
]
=
Range
::
make_with_min_extent
(
new_min
,
new_extent
);
...
...
@@ -89,7 +63,7 @@ inline RDomain MutateRDom(RDomain rdom, IRMutator *m) {
TVM_STATIC_IR_FUNCTOR
(
IRMutator
,
vtable_expr
)
.
set_dispatch
<
Reduce
>
([](
const
Reduce
*
op
,
const
Expr
&
e
,
IRMutator
*
m
)
{
RDomain
new_rdom
=
MutateRDom
(
op
->
rdom
,
m
);
Expr
new_source
=
m
->
m
utate
(
op
->
source
);
Expr
new_source
=
m
->
M
utate
(
op
->
source
);
if
(
op
->
rdom
.
same_as
(
new_rdom
)
&&
op
->
source
.
same_as
(
new_source
))
{
return
e
;
...
...
@@ -107,7 +81,7 @@ TVM_STATIC_IR_FUNCTOR(IRMutator, vtable_expr)
TVM_STATIC_IR_FUNCTOR
(
IRMutator
,
vtable_expr
)
.
set_dispatch
<
Cast
>
([](
const
Cast
*
op
,
const
Expr
&
e
,
IRMutator
*
m
)
{
Expr
value
=
m
->
m
utate
(
op
->
value
);
Expr
value
=
m
->
M
utate
(
op
->
value
);
if
(
value
.
same_as
(
op
->
value
))
{
return
e
;
}
else
{
...
...
@@ -118,8 +92,8 @@ TVM_STATIC_IR_FUNCTOR(IRMutator, vtable_expr)
// binary operator
template
<
typename
T
>
inline
Expr
Binary
(
const
T
*
op
,
const
Expr
&
e
,
IRMutator
*
m
)
{
Expr
a
=
m
->
m
utate
(
op
->
a
);
Expr
b
=
m
->
m
utate
(
op
->
b
);
Expr
a
=
m
->
M
utate
(
op
->
a
);
Expr
b
=
m
->
M
utate
(
op
->
b
);
if
(
a
.
same_as
(
op
->
a
)
&&
b
.
same_as
(
op
->
b
))
{
return
e
;
...
...
@@ -147,7 +121,7 @@ TVM_STATIC_IR_FUNCTOR(IRMutator, vtable_expr)
TVM_STATIC_IR_FUNCTOR
(
IRMutator
,
vtable_expr
)
.
set_dispatch
<
Not
>
([](
const
Not
*
op
,
const
Expr
&
e
,
IRMutator
*
m
)
{
Expr
a
=
m
->
m
utate
(
op
->
a
);
Expr
a
=
m
->
M
utate
(
op
->
a
);
if
(
a
.
same_as
(
op
->
a
))
{
return
e
;
}
else
{
...
...
@@ -155,9 +129,9 @@ TVM_STATIC_IR_FUNCTOR(IRMutator, vtable_expr)
}
})
.
set_dispatch
<
Select
>
([](
const
Select
*
op
,
const
Expr
&
e
,
IRMutator
*
m
)
{
Expr
cond
=
m
->
m
utate
(
op
->
condition
);
Expr
t
=
m
->
m
utate
(
op
->
true_value
);
Expr
f
=
m
->
m
utate
(
op
->
false_value
);
Expr
cond
=
m
->
M
utate
(
op
->
condition
);
Expr
t
=
m
->
M
utate
(
op
->
true_value
);
Expr
f
=
m
->
M
utate
(
op
->
false_value
);
if
(
cond
.
same_as
(
op
->
condition
)
&&
t
.
same_as
(
op
->
true_value
)
&&
f
.
same_as
(
op
->
false_value
))
{
...
...
@@ -167,7 +141,7 @@ TVM_STATIC_IR_FUNCTOR(IRMutator, vtable_expr)
}
})
.
set_dispatch
<
Load
>
([](
const
Load
*
op
,
const
Expr
&
e
,
IRMutator
*
m
)
{
Expr
index
=
m
->
m
utate
(
op
->
index
);
Expr
index
=
m
->
M
utate
(
op
->
index
);
if
(
index
.
same_as
(
op
->
index
))
{
return
e
;
}
else
{
...
...
@@ -175,8 +149,8 @@ TVM_STATIC_IR_FUNCTOR(IRMutator, vtable_expr)
}
})
.
set_dispatch
<
Ramp
>
([](
const
Ramp
*
op
,
const
Expr
&
e
,
IRMutator
*
m
)
{
Expr
base
=
m
->
m
utate
(
op
->
base
);
Expr
stride
=
m
->
m
utate
(
op
->
stride
);
Expr
base
=
m
->
M
utate
(
op
->
base
);
Expr
stride
=
m
->
M
utate
(
op
->
stride
);
if
(
base
.
same_as
(
op
->
base
)
&&
stride
.
same_as
(
op
->
stride
))
{
return
e
;
...
...
@@ -185,7 +159,7 @@ TVM_STATIC_IR_FUNCTOR(IRMutator, vtable_expr)
}
})
.
set_dispatch
<
Broadcast
>
([](
const
Broadcast
*
op
,
const
Expr
&
e
,
IRMutator
*
m
)
{
Expr
value
=
m
->
m
utate
(
op
->
value
);
Expr
value
=
m
->
M
utate
(
op
->
value
);
if
(
value
.
same_as
(
op
->
value
))
{
return
e
;
}
else
{
...
...
@@ -202,8 +176,8 @@ TVM_STATIC_IR_FUNCTOR(IRMutator, vtable_expr)
}
})
.
set_dispatch
<
Let
>
([](
const
Let
*
op
,
const
Expr
&
e
,
IRMutator
*
m
)
{
Expr
value
=
m
->
m
utate
(
op
->
value
);
Expr
body
=
m
->
m
utate
(
op
->
body
);
Expr
value
=
m
->
M
utate
(
op
->
value
);
Expr
body
=
m
->
M
utate
(
op
->
body
);
if
(
value
.
same_as
(
op
->
value
)
&&
body
.
same_as
(
op
->
body
))
{
return
e
;
...
...
@@ -214,8 +188,8 @@ TVM_STATIC_IR_FUNCTOR(IRMutator, vtable_expr)
TVM_STATIC_IR_FUNCTOR
(
IRMutator
,
vtable_stmt
)
.
set_dispatch
<
LetStmt
>
([](
const
LetStmt
*
op
,
const
Stmt
&
s
,
IRMutator
*
m
)
{
Expr
value
=
m
->
m
utate
(
op
->
value
);
Stmt
body
=
m
->
m
utate
(
op
->
body
);
Expr
value
=
m
->
M
utate
(
op
->
value
);
Stmt
body
=
m
->
M
utate
(
op
->
body
);
if
(
value
.
same_as
(
op
->
value
)
&&
body
.
same_as
(
op
->
body
))
{
return
s
;
...
...
@@ -224,8 +198,8 @@ TVM_STATIC_IR_FUNCTOR(IRMutator, vtable_stmt)
}
})
.
set_dispatch
<
AssertStmt
>
([](
const
AssertStmt
*
op
,
const
Stmt
&
s
,
IRMutator
*
m
)
{
Expr
condition
=
m
->
m
utate
(
op
->
condition
);
Expr
message
=
m
->
m
utate
(
op
->
message
);
Expr
condition
=
m
->
M
utate
(
op
->
condition
);
Expr
message
=
m
->
M
utate
(
op
->
message
);
if
(
condition
.
same_as
(
op
->
condition
)
&&
message
.
same_as
(
op
->
message
))
{
return
s
;
...
...
@@ -234,7 +208,7 @@ TVM_STATIC_IR_FUNCTOR(IRMutator, vtable_stmt)
}
})
.
set_dispatch
<
ProducerConsumer
>
([](
const
ProducerConsumer
*
op
,
const
Stmt
&
s
,
IRMutator
*
m
)
{
Stmt
body
=
m
->
m
utate
(
op
->
body
);
Stmt
body
=
m
->
M
utate
(
op
->
body
);
if
(
body
.
same_as
(
op
->
body
))
{
return
s
;
}
else
{
...
...
@@ -242,9 +216,9 @@ TVM_STATIC_IR_FUNCTOR(IRMutator, vtable_stmt)
}
})
.
set_dispatch
<
For
>
([](
const
For
*
op
,
const
Stmt
&
s
,
IRMutator
*
m
)
{
Expr
min
=
m
->
m
utate
(
op
->
min
);
Expr
extent
=
m
->
m
utate
(
op
->
extent
);
Stmt
body
=
m
->
m
utate
(
op
->
body
);
Expr
min
=
m
->
M
utate
(
op
->
min
);
Expr
extent
=
m
->
M
utate
(
op
->
extent
);
Stmt
body
=
m
->
M
utate
(
op
->
body
);
if
(
min
.
same_as
(
op
->
min
)
&&
extent
.
same_as
(
op
->
extent
)
&&
body
.
same_as
(
op
->
body
))
{
...
...
@@ -255,8 +229,8 @@ TVM_STATIC_IR_FUNCTOR(IRMutator, vtable_stmt)
}
})
.
set_dispatch
<
Store
>
([](
const
Store
*
op
,
const
Stmt
&
s
,
IRMutator
*
m
)
{
Expr
value
=
m
->
m
utate
(
op
->
value
);
Expr
index
=
m
->
m
utate
(
op
->
index
);
Expr
value
=
m
->
M
utate
(
op
->
value
);
Expr
index
=
m
->
M
utate
(
op
->
index
);
if
(
value
.
same_as
(
op
->
value
)
&&
index
.
same_as
(
op
->
index
))
{
return
s
;
}
else
{
...
...
@@ -276,14 +250,14 @@ TVM_STATIC_IR_FUNCTOR(IRMutator, vtable_stmt)
std
::
vector
<
Expr
>
new_extents
;
bool
all_extents_unmodified
=
true
;
for
(
size_t
i
=
0
;
i
<
op
->
extents
.
size
();
i
++
)
{
new_extents
.
push_back
(
m
->
m
utate
(
op
->
extents
[
i
]));
new_extents
.
push_back
(
m
->
M
utate
(
op
->
extents
[
i
]));
all_extents_unmodified
&=
new_extents
[
i
].
same_as
(
op
->
extents
[
i
]);
}
Stmt
body
=
m
->
m
utate
(
op
->
body
);
Expr
condition
=
m
->
m
utate
(
op
->
condition
);
Stmt
body
=
m
->
M
utate
(
op
->
body
);
Expr
condition
=
m
->
M
utate
(
op
->
condition
);
Expr
new_expr
;
if
(
op
->
new_expr
.
defined
())
{
new_expr
=
m
->
m
utate
(
op
->
new_expr
);
new_expr
=
m
->
M
utate
(
op
->
new_expr
);
}
if
(
all_extents_unmodified
&&
body
.
same_as
(
op
->
body
)
&&
...
...
@@ -308,16 +282,16 @@ TVM_STATIC_IR_FUNCTOR(IRMutator, vtable_stmt)
for
(
size_t
i
=
0
;
i
<
op
->
bounds
.
size
();
i
++
)
{
Expr
old_min
=
op
->
bounds
[
i
]
->
min
;
Expr
old_extent
=
op
->
bounds
[
i
]
->
extent
;
Expr
new_min
=
m
->
m
utate
(
old_min
);
Expr
new_extent
=
m
->
m
utate
(
old_extent
);
Expr
new_min
=
m
->
M
utate
(
old_min
);
Expr
new_extent
=
m
->
M
utate
(
old_extent
);
if
(
!
new_min
.
same_as
(
old_min
))
bounds_changed
=
true
;
if
(
!
new_extent
.
same_as
(
old_extent
))
bounds_changed
=
true
;
new_bounds
.
push_back
(
Range
::
make_by_min_extent
(
new_min
,
new_extent
));
}
Stmt
body
=
m
->
m
utate
(
op
->
body
);
Expr
condition
=
m
->
m
utate
(
op
->
condition
);
Stmt
body
=
m
->
M
utate
(
op
->
body
);
Expr
condition
=
m
->
M
utate
(
op
->
condition
);
if
(
!
bounds_changed
&&
body
.
same_as
(
op
->
body
)
&&
condition
.
same_as
(
op
->
condition
))
{
...
...
@@ -328,8 +302,8 @@ TVM_STATIC_IR_FUNCTOR(IRMutator, vtable_stmt)
}
})
.
set_dispatch
<
Block
>
([](
const
Block
*
op
,
const
Stmt
&
s
,
IRMutator
*
m
)
{
Stmt
first
=
m
->
m
utate
(
op
->
first
);
Stmt
rest
=
m
->
m
utate
(
op
->
rest
);
Stmt
first
=
m
->
M
utate
(
op
->
first
);
Stmt
rest
=
m
->
M
utate
(
op
->
rest
);
if
(
first
.
same_as
(
op
->
first
)
&&
rest
.
same_as
(
op
->
rest
))
{
return
s
;
...
...
@@ -338,9 +312,9 @@ TVM_STATIC_IR_FUNCTOR(IRMutator, vtable_stmt)
}
})
.
set_dispatch
<
IfThenElse
>
([](
const
IfThenElse
*
op
,
const
Stmt
&
s
,
IRMutator
*
m
)
{
Expr
condition
=
m
->
m
utate
(
op
->
condition
);
Stmt
then_case
=
m
->
m
utate
(
op
->
then_case
);
Stmt
else_case
=
m
->
m
utate
(
op
->
else_case
);
Expr
condition
=
m
->
M
utate
(
op
->
condition
);
Stmt
then_case
=
m
->
M
utate
(
op
->
then_case
);
Stmt
else_case
=
m
->
M
utate
(
op
->
else_case
);
if
(
condition
.
same_as
(
op
->
condition
)
&&
then_case
.
same_as
(
op
->
then_case
)
&&
else_case
.
same_as
(
op
->
else_case
))
{
...
...
@@ -350,7 +324,7 @@ TVM_STATIC_IR_FUNCTOR(IRMutator, vtable_stmt)
}
})
.
set_dispatch
<
Evaluate
>
([](
const
Evaluate
*
op
,
const
Stmt
&
s
,
IRMutator
*
m
)
{
Expr
v
=
m
->
m
utate
(
op
->
value
);
Expr
v
=
m
->
M
utate
(
op
->
value
);
if
(
v
.
same_as
(
op
->
value
))
{
return
s
;
}
else
{
...
...
src/pass/ir_pass.cc
0 → 100644
View file @
8e04361c
/*!
* Copyright (c) 2016 by Contributors
* \file ir_pass.cc
*/
#include <tvm/ir.h>
#include <tvm/ir_visitor.h>
#include <tvm/ir_mutator.h>
#include <unordered_set>
namespace
tvm
{
namespace
ir
{
namespace
{
// visitor to implement apply
class
IRSubstitute
:
public
IRMutator
{
public
:
Expr
Mutate
(
Expr
expr
)
final
{
const
IRNode
*
v
=
expr
.
get
();
if
(
v
!=
nullptr
)
{
auto
it
=
replacements_
.
find
(
v
);
if
(
it
!=
replacements_
.
end
())
{
return
it
->
second
;
}
}
return
IRMutator
::
Mutate
(
expr
);
}
explicit
IRSubstitute
(
const
std
::
unordered_map
<
const
IRNode
*
,
Expr
>&
replacements
)
:
replacements_
(
replacements
)
{}
private
:
const
std
::
unordered_map
<
const
IRNode
*
,
Expr
>&
replacements_
;
};
}
// namespace
Expr
Substitute
(
const
std
::
unordered_map
<
const
IRNode
*
,
Expr
>&
replacements
,
Expr
expr
)
{
return
IRSubstitute
(
replacements
).
Mutate
(
expr
);
}
}
// namespace ir
}
// namespace tvm
src/pass/ir_visitor.cc
View file @
8e04361c
...
...
@@ -14,10 +14,10 @@ class IRApplyVisit : public IRVisitor {
public
:
explicit
IRApplyVisit
(
std
::
function
<
void
(
const
IRNodeRef
&
)
>
f
)
:
f_
(
f
)
{}
void
v
isit
(
const
IRNodeRef
&
node
)
final
{
void
V
isit
(
const
IRNodeRef
&
node
)
final
{
if
(
visited_
.
count
(
node
.
get
())
!=
0
)
return
;
visited_
.
insert
(
node
.
get
());
IRVisitor
::
v
isit
(
node
);
IRVisitor
::
V
isit
(
node
);
f_
(
node
);
}
...
...
@@ -25,18 +25,18 @@ class IRApplyVisit : public IRVisitor {
std
::
function
<
void
(
const
IRNodeRef
&
)
>
f_
;
std
::
unordered_set
<
const
Node
*>
visited_
;
};
}
// namespace
void
PostOrderVisit
(
const
IRNodeRef
&
node
,
std
::
function
<
void
(
const
IRNodeRef
&
)
>
fvisit
)
{
IRApplyVisit
(
fvisit
).
Visit
(
node
);
}
IRVisitor
::
FVisit
&
IRVisitor
::
vtable
()
{
// NOLINT(*)
static
FVisit
inst
;
return
inst
;
}
void
PostOrderVisit
(
const
IRNodeRef
&
node
,
std
::
function
<
void
(
const
IRNodeRef
&
)
>
fvisit
)
{
IRApplyVisit
v
(
fvisit
);
v
.
visit
(
node
);
}
// namespace to register the functors.
namespace
{
...
...
@@ -47,22 +47,22 @@ void NoOp(const IRNodeRef& n, IRVisitor* v) {
inline
void
VisitArray
(
Array
<
Expr
>
arr
,
IRVisitor
*
v
)
{
for
(
size_t
i
=
0
;
i
<
arr
.
size
();
i
++
)
{
v
->
v
isit
(
arr
[
i
]);
v
->
V
isit
(
arr
[
i
]);
}
}
inline
void
VisitRDom
(
RDomain
rdom
,
IRVisitor
*
v
)
{
for
(
size_t
i
=
0
;
i
<
rdom
->
domain
.
size
();
i
++
)
{
Range
r
=
rdom
->
domain
[
i
];
v
->
v
isit
(
r
->
min
);
v
->
v
isit
(
r
->
extent
);
v
->
V
isit
(
r
->
min
);
v
->
V
isit
(
r
->
extent
);
}
}
TVM_STATIC_IR_FUNCTOR
(
IRVisitor
,
vtable
)
.
set_dispatch
<
Reduce
>
([](
const
Reduce
*
op
,
IRVisitor
*
v
)
{
VisitRDom
(
op
->
rdom
,
v
);
v
->
v
isit
(
op
->
source
);
v
->
V
isit
(
op
->
source
);
});
TVM_STATIC_IR_FUNCTOR
(
IRVisitor
,
vtable
)
...
...
@@ -74,14 +74,14 @@ TVM_STATIC_IR_FUNCTOR(IRVisitor, vtable)
TVM_STATIC_IR_FUNCTOR
(
IRVisitor
,
vtable
)
.
set_dispatch
<
Cast
>
([](
const
Cast
*
op
,
IRVisitor
*
v
)
{
v
->
v
isit
(
op
->
value
);
v
->
V
isit
(
op
->
value
);
});
// binary operator
template
<
typename
T
>
inline
void
Binary
(
const
T
*
op
,
IRVisitor
*
v
)
{
v
->
v
isit
(
op
->
a
);
v
->
v
isit
(
op
->
b
);
v
->
V
isit
(
op
->
a
);
v
->
V
isit
(
op
->
b
);
}
TVM_STATIC_IR_FUNCTOR
(
IRVisitor
,
vtable
)
...
...
@@ -103,51 +103,51 @@ TVM_STATIC_IR_FUNCTOR(IRVisitor, vtable)
TVM_STATIC_IR_FUNCTOR
(
IRVisitor
,
vtable
)
.
set_dispatch
<
Not
>
([](
const
Not
*
op
,
IRVisitor
*
v
)
{
v
->
v
isit
(
op
->
a
);
v
->
V
isit
(
op
->
a
);
})
.
set_dispatch
<
Select
>
([](
const
Select
*
op
,
IRVisitor
*
v
)
{
v
->
v
isit
(
op
->
condition
);
v
->
v
isit
(
op
->
true_value
);
v
->
v
isit
(
op
->
false_value
);
v
->
V
isit
(
op
->
condition
);
v
->
V
isit
(
op
->
true_value
);
v
->
V
isit
(
op
->
false_value
);
})
.
set_dispatch
<
Load
>
([](
const
Load
*
op
,
IRVisitor
*
v
)
{
v
->
v
isit
(
op
->
index
);
v
->
V
isit
(
op
->
index
);
})
.
set_dispatch
<
Ramp
>
([](
const
Ramp
*
op
,
IRVisitor
*
v
)
{
v
->
v
isit
(
op
->
base
);
v
->
v
isit
(
op
->
stride
);
v
->
V
isit
(
op
->
base
);
v
->
V
isit
(
op
->
stride
);
})
.
set_dispatch
<
Broadcast
>
([](
const
Broadcast
*
op
,
IRVisitor
*
v
)
{
v
->
v
isit
(
op
->
value
);
v
->
V
isit
(
op
->
value
);
})
.
set_dispatch
<
Call
>
([](
const
Call
*
op
,
IRVisitor
*
v
)
{
VisitArray
(
op
->
args
,
v
);
})
.
set_dispatch
<
Let
>
([](
const
Let
*
op
,
IRVisitor
*
v
)
{
v
->
v
isit
(
op
->
value
);
v
->
v
isit
(
op
->
body
);
v
->
V
isit
(
op
->
value
);
v
->
V
isit
(
op
->
body
);
});
TVM_STATIC_IR_FUNCTOR
(
IRVisitor
,
vtable
)
.
set_dispatch
<
LetStmt
>
([](
const
LetStmt
*
op
,
IRVisitor
*
v
)
{
v
->
v
isit
(
op
->
value
);
v
->
v
isit
(
op
->
body
);
v
->
V
isit
(
op
->
value
);
v
->
V
isit
(
op
->
body
);
})
.
set_dispatch
<
AssertStmt
>
([](
const
AssertStmt
*
op
,
IRVisitor
*
v
)
{
v
->
v
isit
(
op
->
condition
);
v
->
v
isit
(
op
->
message
);
v
->
V
isit
(
op
->
condition
);
v
->
V
isit
(
op
->
message
);
})
.
set_dispatch
<
ProducerConsumer
>
([](
const
ProducerConsumer
*
op
,
IRVisitor
*
v
)
{
v
->
v
isit
(
op
->
body
);
v
->
V
isit
(
op
->
body
);
})
.
set_dispatch
<
For
>
([](
const
For
*
op
,
IRVisitor
*
v
)
{
v
->
v
isit
(
op
->
min
);
v
->
v
isit
(
op
->
extent
);
v
->
v
isit
(
op
->
body
);
v
->
V
isit
(
op
->
min
);
v
->
V
isit
(
op
->
extent
);
v
->
V
isit
(
op
->
body
);
})
.
set_dispatch
<
Store
>
([](
const
Store
*
op
,
IRVisitor
*
v
)
{
v
->
v
isit
(
op
->
value
);
v
->
v
isit
(
op
->
index
);
v
->
V
isit
(
op
->
value
);
v
->
V
isit
(
op
->
index
);
})
.
set_dispatch
<
Provide
>
([](
const
Provide
*
op
,
IRVisitor
*
v
)
{
VisitArray
(
op
->
args
,
v
);
...
...
@@ -155,36 +155,36 @@ TVM_STATIC_IR_FUNCTOR(IRVisitor, vtable)
})
.
set_dispatch
<
Allocate
>
([](
const
Allocate
*
op
,
IRVisitor
*
v
)
{
for
(
size_t
i
=
0
;
i
<
op
->
extents
.
size
();
i
++
)
{
v
->
v
isit
(
op
->
extents
[
i
]);
v
->
V
isit
(
op
->
extents
[
i
]);
}
v
->
v
isit
(
op
->
body
);
v
->
v
isit
(
op
->
condition
);
v
->
V
isit
(
op
->
body
);
v
->
V
isit
(
op
->
condition
);
if
(
op
->
new_expr
.
defined
())
{
v
->
v
isit
(
op
->
new_expr
);
v
->
V
isit
(
op
->
new_expr
);
}
})
.
set_dispatch
<
Free
>
(
NoOp
)
.
set_dispatch
<
Realize
>
([](
const
Realize
*
op
,
IRVisitor
*
v
)
{
// Mutate the bounds
for
(
size_t
i
=
0
;
i
<
op
->
bounds
.
size
();
i
++
)
{
v
->
v
isit
(
op
->
bounds
[
i
]
->
min
);
v
->
v
isit
(
op
->
bounds
[
i
]
->
extent
);
v
->
V
isit
(
op
->
bounds
[
i
]
->
min
);
v
->
V
isit
(
op
->
bounds
[
i
]
->
extent
);
}
v
->
v
isit
(
op
->
body
);
v
->
v
isit
(
op
->
condition
);
v
->
V
isit
(
op
->
body
);
v
->
V
isit
(
op
->
condition
);
})
.
set_dispatch
<
Block
>
([](
const
Block
*
op
,
IRVisitor
*
v
)
{
v
->
v
isit
(
op
->
first
);
v
->
v
isit
(
op
->
rest
);
v
->
V
isit
(
op
->
first
);
v
->
V
isit
(
op
->
rest
);
})
.
set_dispatch
<
IfThenElse
>
([](
const
IfThenElse
*
op
,
IRVisitor
*
v
)
{
v
->
v
isit
(
op
->
condition
);
v
->
v
isit
(
op
->
then_case
);
v
->
v
isit
(
op
->
else_case
);
v
->
V
isit
(
op
->
condition
);
v
->
V
isit
(
op
->
then_case
);
v
->
V
isit
(
op
->
else_case
);
})
.
set_dispatch
<
Evaluate
>
([](
const
Evaluate
*
op
,
IRVisitor
*
v
)
{
v
->
v
isit
(
op
->
value
);
v
->
V
isit
(
op
->
value
);
});
}
// namespace
...
...
tests/cpp/ir_mutator_test.cc
View file @
8e04361c
...
...
@@ -13,10 +13,10 @@ class IRVar2Const : public IRMutator {
public
:
VarExpr
var
;
int
int_val
;
Expr
m
utate
(
Expr
expr
)
final
{
Expr
M
utate
(
Expr
expr
)
final
{
static
const
FMutateExpr
&
f
=
IRVar2Const
::
vtable_expr
();
return
(
f
.
can_dispatch
(
expr
)
?
f
(
expr
,
expr
,
this
)
:
IRMutator
::
m
utate
(
expr
));
f
(
expr
,
expr
,
this
)
:
IRMutator
::
M
utate
(
expr
));
}
static
FMutateExpr
&
vtable_expr
();
};
...
...
@@ -46,31 +46,12 @@ TEST(IRMutator, Basic) {
IRVar2Const
mu
;
mu
.
var
=
y
;
mu
.
int_val
=
10
;
auto
zz
=
mu
.
m
utate
(
z
);
auto
zz
=
mu
.
M
utate
(
z
);
std
::
ostringstream
os
;
os
<<
zz
;
CHECK
(
os
.
str
()
==
"(x + 10)"
);
}
TEST
(
IRMutator
,
Substitute
)
{
using
namespace
Halide
::
Internal
;
using
namespace
tvm
;
Var
x
(
"x"
),
y
;
auto
z
=
x
+
y
;
{
auto
zz
=
Substitute
({{
y
.
get
(),
11
}},
z
);
std
::
ostringstream
os
;
os
<<
zz
;
CHECK
(
os
.
str
()
==
"(x + 11)"
);
}
{
auto
zz
=
Substitute
({{
z
.
get
(),
11
}},
z
);
std
::
ostringstream
os
;
os
<<
zz
;
CHECK
(
os
.
str
()
==
"11"
);
}
}
int
main
(
int
argc
,
char
**
argv
)
{
testing
::
InitGoogleTest
(
&
argc
,
argv
);
testing
::
FLAGS_gtest_death_test_style
=
"threadsafe"
;
...
...
tests/cpp/ir_pass_test.cc
0 → 100644
View file @
8e04361c
#include <dmlc/logging.h>
#include <gtest/gtest.h>
#include <tvm/tvm.h>
#include <tvm/ir_pass.h>
TEST
(
IRPass
,
Substitute
)
{
using
namespace
Halide
::
Internal
;
using
namespace
tvm
;
Var
x
(
"x"
),
y
;
auto
z
=
x
+
y
;
{
auto
zz
=
ir
::
Substitute
({{
y
.
get
(),
11
}},
z
);
std
::
ostringstream
os
;
os
<<
zz
;
CHECK
(
os
.
str
()
==
"(x + 11)"
);
}
{
auto
zz
=
ir
::
Substitute
({{
z
.
get
(),
11
}},
z
);
std
::
ostringstream
os
;
os
<<
zz
;
CHECK
(
os
.
str
()
==
"11"
);
}
}
int
main
(
int
argc
,
char
**
argv
)
{
testing
::
InitGoogleTest
(
&
argc
,
argv
);
testing
::
FLAGS_gtest_death_test_style
=
"threadsafe"
;
return
RUN_ALL_TESTS
();
}
tests/cpp/ir_visitor_test.cc
View file @
8e04361c
...
...
@@ -2,6 +2,7 @@
#include <gtest/gtest.h>
#include <tvm/tvm.h>
#include <tvm/ir_visitor.h>
#include <tvm/ir_pass.h>
TEST
(
IRVisitor
,
CountVar
)
{
using
namespace
Halide
::
Internal
;
...
...
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