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pytensor
Commits
af8f19b6
提交
af8f19b6
authored
10月 24, 2013
作者:
Pascal Lamblin
浏览文件
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差异文件
Add new checks in optimization, to prevent incorrect replacement.
We want to avoid merging different outputs of a scan node, that compute the same thing, but keep a different number of steps.
上级
d011f68e
隐藏空白字符变更
内嵌
并排
正在显示
1 个修改的文件
包含
71 行增加
和
40 行删除
+71
-40
scan_opt.py
theano/scan_module/scan_opt.py
+71
-40
没有找到文件。
theano/scan_module/scan_opt.py
浏览文件 @
af8f19b6
...
@@ -1280,6 +1280,9 @@ def scan_merge_inouts(node):
...
@@ -1280,6 +1280,9 @@ def scan_merge_inouts(node):
if
not
isinstance
(
node
.
op
,
scan_op
.
Scan
):
if
not
isinstance
(
node
.
op
,
scan_op
.
Scan
):
return
False
return
False
# Do a first pass to merge identical external inputs.
# Equivalent inputs will be stored in inp_equiv, then a new
# scan node created without duplicates.
a
=
scan_args
(
node
.
inputs
,
node
.
outputs
,
a
=
scan_args
(
node
.
inputs
,
node
.
outputs
,
node
.
op
.
inputs
,
node
.
op
.
outputs
,
node
.
op
.
info
)
node
.
op
.
inputs
,
node
.
op
.
outputs
,
node
.
op
.
info
)
...
@@ -1332,7 +1335,9 @@ def scan_merge_inouts(node):
...
@@ -1332,7 +1335,9 @@ def scan_merge_inouts(node):
else
:
else
:
na
=
a
na
=
a
# start again
# Now that the identical external inputs have been merged, we do a new
# loop in order to merge external outputs that compute the same things
# from the same inputs.
left
=
[]
left
=
[]
right
=
[]
right
=
[]
...
@@ -1369,32 +1374,42 @@ def scan_merge_inouts(node):
...
@@ -1369,32 +1374,42 @@ def scan_merge_inouts(node):
else
:
else
:
seen
[(
oms
,
sl
)]
=
ims
seen
[(
oms
,
sl
)]
=
ims
def
map_out
(
i
,
o
,
seen
):
def
map_out
(
outer_i
,
inner_o
,
outer_o
,
seen
):
for
si
,
so
in
seen
:
# Return the outer input corresponding to an
if
equal_computations
([
i
],
[
si
],
left
,
right
):
# (outer input, inner output) pair. If we see that pair for the first
return
so
# time, return the provided outer output. If an equivalent pair had
seen
.
append
((
i
,
o
))
# already been seen, return that one instead.
return
o
# Note that we need to check that the outer input match as well,
# because they could have different sizes, and the corresponding
def
map_nitsot_out
(
i
,
o
,
sh
,
seen
):
# outer outputs cannot be merged in that case.
for
p
,
(
si
,
so
,
ssh
)
in
enumerate
(
seen
):
for
s_outer_i
,
s_inner_o
,
s_outer_o
in
seen
:
if
equal_computations
([
i
],
[
si
],
left
,
right
):
if
(
equal_computations
([
inner_o
],
[
s_inner_o
],
left
,
right
)
and
outer_i
==
s_outer_i
):
return
s_outer_o
seen
.
append
((
outer_i
,
inner_o
,
outer_o
))
return
outer_o
def
map_nitsot_out
(
outer_i
,
inner_o
,
outer_o
,
sh
,
seen
):
# Like map_out, but also checks the needed shape.
for
p
,
(
s_outer_i
,
s_inner_o
,
s_outer_o
,
ssh
)
in
enumerate
(
seen
):
if
(
equal_computations
([
inner_o
],
[
s_inner_o
],
left
,
right
)
and
outer_i
==
s_outer_i
):
if
equal_computations
([
sh
],
[
ssh
]):
if
equal_computations
([
sh
],
[
ssh
]):
return
so
return
s
_outer_
o
try
:
try
:
vsh
=
int
(
opt
.
get_scalar_constant_value
(
sh
))
vsh
=
int
(
opt
.
get_scalar_constant_value
(
sh
))
vssh
=
int
(
opt
.
get_scalar_constant_value
(
ssh
))
vssh
=
int
(
opt
.
get_scalar_constant_value
(
ssh
))
except
tensor
.
NotScalarConstantError
:
except
tensor
.
NotScalarConstantError
:
return
o
return
o
uter_o
if
vsh
==
vssh
:
if
vsh
==
vssh
:
return
so
return
s
_outer_
o
elif
vsh
>
vssh
:
elif
vsh
>
vssh
:
seen
[
p
]
=
(
i
,
o
,
sh
)
seen
[
p
]
=
(
outer_i
,
inner_o
,
outer_
o
,
sh
)
return
o
return
o
uter_o
else
:
else
:
return
so
[:
vsh
]
return
s
_outer_
o
[:
vsh
]
seen
.
append
((
i
,
o
,
sh
))
seen
.
append
((
outer_i
,
inner_o
,
outer_
o
,
sh
))
return
o
return
o
uter_o
seen
=
[]
seen
=
[]
...
@@ -1410,36 +1425,52 @@ def scan_merge_inouts(node):
...
@@ -1410,36 +1425,52 @@ def scan_merge_inouts(node):
# If x is a scalar, then it means its value is the number of
# If x is a scalar, then it means its value is the number of
# items scan is supposed to store for this nit_sot sequence
# items scan is supposed to store for this nit_sot sequence
shapes
.
append
(
x
)
shapes
.
append
(
x
)
tmp
=
[
map_nitsot_out
(
i
,
o
,
sh
,
seen
)
assert
len
(
na
.
outer_in_nit_sot
)
==
len
(
na
.
inner_out_nit_sot
)
for
i
,
o
,
sh
in
zip
(
na
.
inner_out_nit_sot
,
assert
len
(
na
.
inner_out_nit_sot
)
==
len
(
na
.
outer_out_nit_sot
)
na
.
outer_out_nit_sot
,
assert
len
(
na
.
outer_out_nit_sot
)
==
len
(
shapes
)
shapes
)]
na
.
outer_out_nit_sot
=
[
na
.
outer_out_nit_sot
=
[
map_nitsot_out
(
i
,
o
,
sh
,
seen
)
map_nitsot_out
(
outer_i
,
inner_o
,
outer_o
,
sh
,
seen
)
for
i
,
o
,
sh
in
zip
(
na
.
inner_out_nit_sot
,
for
outer_i
,
inner_o
,
outer_o
,
sh
in
zip
(
na
.
outer_in_nit_sot
,
na
.
outer_out_nit_sot
,
na
.
inner_out_nit_sot
,
shapes
)]
na
.
outer_out_nit_sot
,
shapes
)]
seen
=
[]
seen
=
[]
na
.
outer_out_sit_sot
=
[
map_out
(
i
,
o
,
seen
)
assert
len
(
na
.
outer_in_sit_sot
)
==
len
(
na
.
inner_out_sit_sot
)
for
i
,
o
in
zip
(
na
.
inner_out_sit_sot
,
assert
len
(
na
.
inner_out_sit_sot
)
==
len
(
na
.
outer_out_sit_sot
)
na
.
outer_out_sit_sot
)]
na
.
outer_out_sit_sot
=
[
map_out
(
outer_i
,
inner_o
,
outer_o
,
seen
)
for
outer_i
,
inner_o
,
outer_o
in
zip
(
na
.
outer_in_sit_sot
,
na
.
inner_out_sit_sot
,
na
.
outer_out_sit_sot
)]
seen
=
[]
seen
=
[]
na
.
outer_out_mit_sot
=
[
map_out
(
i
,
o
,
seen
)
assert
len
(
na
.
outer_in_mit_sot
)
==
len
(
na
.
inner_out_mit_sot
)
for
i
,
o
in
zip
(
na
.
inner_out_mit_sot
,
assert
len
(
na
.
inner_out_mit_sot
)
==
len
(
na
.
outer_out_mit_sot
)
na
.
outer_out_mit_sot
)]
na
.
outer_out_mit_sot
=
[
map_out
(
outer_i
,
inner_o
,
outer_o
,
seen
)
for
outer_i
,
inner_o
,
outer_o
in
zip
(
na
.
outer_in_mit_sot
,
na
.
inner_out_mit_sot
,
na
.
outer_out_mit_sot
)]
seen
=
[]
seen
=
[]
new_outer_out_mit_mot
=
[]
new_outer_out_mit_mot
=
[]
for
imm
,
omm
,
osl
in
zip
(
na
.
inner_out_mit_mot
,
assert
len
(
na
.
outer_in_mit_mot
)
==
len
(
na
.
inner_out_mit_mot
)
na
.
outer_out_mit_mot
,
na
.
mit_mot_out_slices
):
assert
len
(
na
.
inner_out_mit_mot
)
==
len
(
na
.
outer_out_mit_mot
)
for
simm
,
somm
,
sosl
in
seen
:
assert
len
(
na
.
outer_out_mit_mot
)
==
len
(
na
.
mit_mot_out_slices
)
if
osl
==
sosl
and
equal_computations
(
imm
,
simm
,
left
,
right
):
for
outer_imm
,
inner_omm
,
outer_omm
,
osl
in
zip
(
na
.
outer_in_mit_mot
,
new_outer_out_mit_mot
.
append
(
somm
)
na
.
inner_out_mit_mot
,
na
.
outer_out_mit_mot
,
na
.
mit_mot_out_slices
):
for
s_outer_imm
,
s_inner_omm
,
s_outer_omm
,
sosl
in
seen
:
if
(
osl
==
sosl
and
equal_computations
(
inner_omm
,
s_inner_omm
,
left
,
right
)
and
outer_imm
==
s_outer_imm
):
new_outer_out_mit_mot
.
append
(
s_outer_omm
)
break
break
else
:
else
:
seen
.
append
((
imm
,
omm
,
osl
))
seen
.
append
((
outer_imm
,
inner_omm
,
outer_
omm
,
osl
))
new_outer_out_mit_mot
.
append
(
omm
)
new_outer_out_mit_mot
.
append
(
o
uter_o
mm
)
na
.
outer_out_mit_mot
=
new_outer_out_mit_mot
na
.
outer_out_mit_mot
=
new_outer_out_mit_mot
return
na
.
outer_outputs
return
na
.
outer_outputs
...
...
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