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573f0b0d
编写于
7月 25, 2019
作者:
J
Jason
提交者:
GitHub
7月 25, 2019
浏览文件
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差异文件
Merge pull request #50 from jiangjiajun/develop
add more ops support for tensorflow
上级
94ec88e6
b03ff6ea
变更
3
显示空白变更内容
内联
并排
Showing
3 changed file
with
229 addition
and
14 deletion
+229
-14
x2paddle/core/graph.py
x2paddle/core/graph.py
+0
-1
x2paddle/decoder/tf_decoder.py
x2paddle/decoder/tf_decoder.py
+23
-12
x2paddle/op_mapper/tf_op_mapper.py
x2paddle/op_mapper/tf_op_mapper.py
+206
-1
未找到文件。
x2paddle/core/graph.py
浏览文件 @
573f0b0d
...
@@ -110,7 +110,6 @@ class Graph(object):
...
@@ -110,7 +110,6 @@ class Graph(object):
del
self
.
node_map
[
input
].
inputs
[
idx
]
del
self
.
node_map
[
input
].
inputs
[
idx
]
del
self
.
node_map
[
node_name
]
del
self
.
node_map
[
node_name
]
print
(
"remove topo"
,
node_name
)
idx
=
self
.
topo_sort
.
index
(
node_name
)
idx
=
self
.
topo_sort
.
index
(
node_name
)
del
self
.
topo_sort
[
idx
]
del
self
.
topo_sort
[
idx
]
...
...
x2paddle/decoder/tf_decoder.py
浏览文件 @
573f0b0d
...
@@ -25,16 +25,18 @@ import sys
...
@@ -25,16 +25,18 @@ import sys
class
TFGraphNode
(
GraphNode
):
class
TFGraphNode
(
GraphNode
):
def
__init__
(
self
,
layer
,
layer_name
=
None
):
def
__init__
(
self
,
layer
,
layer_name
=
None
):
if
layer_name
is
None
:
if
layer_name
is
None
:
super
(
TFGraphNode
,
self
).
__init__
(
layer
,
super
(
TFGraphNode
,
layer
.
name
.
replace
(
'/'
,
'_'
))
self
).
__init__
(
layer
,
layer
.
name
.
replace
(
'/'
,
'_'
).
replace
(
'-'
,
'_'
))
else
:
else
:
super
(
TFGraphNode
,
self
).
__init__
(
layer
,
super
(
TFGraphNode
,
layer_name
.
replace
(
'/'
,
'_'
))
self
).
__init__
(
layer
,
layer_name
.
replace
(
'/'
,
'_'
).
replace
(
'-'
,
'_'
))
self
.
layer_type
=
layer
.
op
self
.
layer_type
=
layer
.
op
self
.
fluid_code
=
FluidCode
()
self
.
fluid_code
=
FluidCode
()
self
.
dtype_map
=
{
1
:
"float32"
,
3
:
"int32"
,
9
:
"int64"
}
self
.
dtype_map
=
{
1
:
"float32"
,
3
:
"int32"
,
4
:
"int8"
,
9
:
"int64"
}
@
property
@
property
def
out_shapes
(
self
):
def
out_shapes
(
self
):
...
@@ -89,11 +91,12 @@ class TFGraph(Graph):
...
@@ -89,11 +91,12 @@ class TFGraph(Graph):
def
build
(
self
):
def
build
(
self
):
for
layer
in
self
.
model
.
node
:
for
layer
in
self
.
model
.
node
:
self
.
node_map
[
layer
.
name
.
replace
(
'/'
,
'_'
)]
=
TFGraphNode
(
layer
)
self
.
node_map
[
layer
.
name
.
replace
(
'/'
,
'_'
).
replace
(
'-'
,
'_'
)]
=
TFGraphNode
(
layer
)
for
layer_name
,
node
in
self
.
node_map
.
items
():
for
layer_name
,
node
in
self
.
node_map
.
items
():
for
in_node
in
node
.
layer
.
input
:
for
in_node
in
node
.
layer
.
input
:
in_node
=
in_node
.
replace
(
'/'
,
'_'
)
in_node
=
in_node
.
replace
(
'/'
,
'_'
)
.
replace
(
'-'
,
'_'
)
if
in_node
not
in
self
.
node_map
:
if
in_node
not
in
self
.
node_map
:
if
in_node
.
strip
().
split
(
':'
)[
0
]
in
self
.
node_map
:
if
in_node
.
strip
().
split
(
':'
)[
0
]
in
self
.
node_map
:
self
.
connect
(
in_node
.
strip
().
split
(
':'
)[
0
],
layer_name
)
self
.
connect
(
in_node
.
strip
().
split
(
':'
)[
0
],
layer_name
)
...
@@ -112,7 +115,7 @@ class TFGraph(Graph):
...
@@ -112,7 +115,7 @@ class TFGraph(Graph):
def
get_node
(
self
,
node_name
,
copy
=
False
):
def
get_node
(
self
,
node_name
,
copy
=
False
):
items
=
node_name
.
strip
().
split
(
':'
)
items
=
node_name
.
strip
().
split
(
':'
)
items
[
0
]
=
items
[
0
].
replace
(
'/'
,
'_'
)
items
[
0
]
=
items
[
0
].
replace
(
'/'
,
'_'
)
.
replace
(
'-'
,
'_'
)
if
items
[
0
]
in
self
.
identity_map
:
if
items
[
0
]
in
self
.
identity_map
:
items
[
0
]
=
self
.
identity_map
[
items
[
0
]]
items
[
0
]
=
self
.
identity_map
[
items
[
0
]]
new_node_name
=
":"
.
join
(
items
)
new_node_name
=
":"
.
join
(
items
)
...
@@ -163,11 +166,12 @@ def check_input_shape(graph_def):
...
@@ -163,11 +166,12 @@ def check_input_shape(graph_def):
continue
continue
graph_node
=
TFGraphNode
(
layer
)
graph_node
=
TFGraphNode
(
layer
)
dtype
=
graph_node
.
dtype
dtype
=
graph_node
.
dtype
# print("shape:", graph_node.out_shapes)
if
not
graph_node
.
get_attr
(
"shape"
):
if
not
graph_node
.
get_attr
(
"shape"
):
sys
.
stderr
.
write
(
"Unknown shape for input tensor[{}]
\n
"
.
format
(
sys
.
stderr
.
write
(
layer
.
name
))
"
\n
Unknown shape for input tensor[tensor name:
\"
{}
\"
]
\n
"
.
shape
=
input
(
"Please define shape of input here: "
)
format
(
layer
.
name
))
shape
=
input
(
"Please define shape of input here(e.g. None,224,224,3): "
)
shape
=
[
shape
=
[
None
if
dim
==
"None"
else
int
(
dim
)
None
if
dim
==
"None"
else
int
(
dim
)
for
dim
in
shape
.
strip
().
split
(
','
)
for
dim
in
shape
.
strip
().
split
(
','
)
...
@@ -187,6 +191,7 @@ class TFDecoder(object):
...
@@ -187,6 +191,7 @@ class TFDecoder(object):
graph_def
=
tf
.
GraphDef
()
graph_def
=
tf
.
GraphDef
()
graph_def
.
ParseFromString
(
f
.
read
())
graph_def
.
ParseFromString
(
f
.
read
())
input_map
=
check_input_shape
(
graph_def
)
input_map
=
check_input_shape
(
graph_def
)
self
.
_fix_output_shape
(
graph_def
)
sess
.
graph
.
as_default
()
sess
.
graph
.
as_default
()
tf
.
import_graph_def
(
graph_def
,
name
=
''
,
input_map
=
input_map
)
tf
.
import_graph_def
(
graph_def
,
name
=
''
,
input_map
=
input_map
)
...
@@ -194,3 +199,9 @@ class TFDecoder(object):
...
@@ -194,3 +199,9 @@ class TFDecoder(object):
self
.
tf_graph
=
TFGraph
(
sess
.
graph
.
_as_graph_def
(
add_shapes
=
True
)[
0
])
self
.
tf_graph
=
TFGraph
(
sess
.
graph
.
_as_graph_def
(
add_shapes
=
True
)[
0
])
self
.
tf_graph
.
build
()
self
.
tf_graph
.
build
()
def
_fix_output_shape
(
self
,
graph
):
for
i
in
range
(
len
(
graph
.
node
)):
node
=
graph
.
node
[
i
]
if
node
.
op
==
"swish_f32"
:
graph
.
node
[
i
].
attr
[
'_disable_call_shape_inference'
].
b
=
False
x2paddle/op_mapper/tf_op_mapper.py
浏览文件 @
573f0b0d
...
@@ -54,7 +54,8 @@ class TFOpMapper(OpMapper):
...
@@ -54,7 +54,8 @@ class TFOpMapper(OpMapper):
attr
=
{
attr
=
{
'dtype'
:
string
(
dtype
),
'dtype'
:
string
(
dtype
),
'shape'
:
shape
,
'shape'
:
shape
,
'name'
:
string
(
node
.
layer_name
)
'name'
:
string
(
node
.
layer_name
),
'append_batch_size'
:
False
}
}
node
.
fluid_code
.
add_layer
(
"data"
,
node
.
fluid_code
.
add_layer
(
"data"
,
inputs
=
None
,
inputs
=
None
,
...
@@ -350,6 +351,7 @@ class TFOpMapper(OpMapper):
...
@@ -350,6 +351,7 @@ class TFOpMapper(OpMapper):
param
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
1
],
copy
=
True
)
param
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
1
],
copy
=
True
)
if
param
.
layer_type
==
"Const"
:
if
param
.
layer_type
==
"Const"
:
attr
=
{
"shape"
:
param
.
value
.
tolist
()}
attr
=
{
"shape"
:
param
.
value
.
tolist
()}
self
.
omit_nodes
.
append
(
param
.
layer_name
)
else
:
else
:
# Here is a trick method to solove tensor parameter in tensorflow
# Here is a trick method to solove tensor parameter in tensorflow
assert
len
(
param
.
out_shapes
[
0
]
assert
len
(
param
.
out_shapes
[
0
]
...
@@ -425,3 +427,206 @@ class TFOpMapper(OpMapper):
...
@@ -425,3 +427,206 @@ class TFOpMapper(OpMapper):
inputs
=
input
,
inputs
=
input
,
output
=
node
,
output
=
node
,
param_attr
=
None
)
param_attr
=
None
)
def
Sigmoid
(
self
,
node
):
input
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
0
],
copy
=
True
)
node
.
fluid_code
.
add_layer
(
"sigmoid"
,
inputs
=
input
,
output
=
node
,
param_attr
=
None
)
def
Maximum
(
self
,
node
):
x
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
0
],
copy
=
True
)
y
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
1
],
copy
=
True
)
inputs
=
{
"x"
:
x
,
"y"
:
y
}
node
.
fluid_code
.
add_layer
(
"elementwise_max"
,
inputs
=
inputs
,
output
=
node
,
param_attr
=
None
)
def
SplitV
(
self
,
node
):
input
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
0
],
copy
=
True
)
num_sections
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
1
],
copy
=
True
)
dim
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
2
],
copy
=
True
)
assert
num_sections
.
layer_type
==
"Const"
assert
dim
.
layer_type
==
"Const"
self
.
omit_nodes
.
append
(
num_sections
.
layer_name
)
self
.
omit_nodes
.
append
(
dim
.
layer_name
)
attr
=
{
"num_or_sections"
:
num_sections
.
value
.
tolist
(),
"dim"
:
dim
.
value
}
node
.
fluid_code
.
add_layer
(
"split"
,
inputs
=
input
,
output
=
node
,
param_attr
=
attr
)
def
Exp
(
self
,
node
):
input
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
0
],
copy
=
True
)
node
.
fluid_code
.
add_layer
(
"exp"
,
inputs
=
input
,
output
=
node
,
param_attr
=
None
)
def
ConcatV2
(
self
,
node
):
inputs
=
[
self
.
graph
.
get_node
(
name
,
copy
=
True
)
for
name
in
node
.
layer
.
input
[:
-
1
]
]
axis
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
-
1
],
copy
=
True
)
assert
axis
.
layer_type
==
"Const"
self
.
omit_nodes
.
append
(
axis
.
layer_name
)
attr
=
{
"axis"
:
axis
.
value
}
node
.
fluid_code
.
add_layer
(
"concat"
,
inputs
=
inputs
,
output
=
node
,
param_attr
=
attr
)
def
Tile
(
self
,
node
):
input
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
0
],
copy
=
True
)
expand_times
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
1
],
copy
=
True
)
assert
expand_times
.
layer_type
==
"Const"
self
.
omit_nodes
.
append
(
expand_times
.
layer_name
)
attr
=
{
"expand_times"
:
expand_times
.
value
.
tolist
()}
node
.
fluid_code
.
add_layer
(
"expand"
,
inputs
=
input
,
output
=
node
,
param_attr
=
attr
)
def
Pack
(
self
,
node
):
inputs
=
[
self
.
graph
.
get_node
(
name
,
copy
=
True
)
for
name
in
node
.
layer
.
input
]
node
.
fluid_code
.
add_layer
(
"stack"
,
inputs
=
inputs
,
output
=
node
,
param_attr
=
None
)
def
Pad
(
self
,
node
):
input
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
0
],
copy
=
True
)
paddings
=
self
.
graph
.
get_node
(
Node
.
layer
.
input
[
1
],
copy
=
True
)
assert
paddings
.
layer_type
==
"Const"
,
"Padding should be Const"
self
.
omit_nodes
.
append
(
paddings
.
layer_name
)
attr
=
{
"paddings"
:
paddings
.
value
.
tolist
()}
node
.
fluid_code
.
add_layer
(
"pad"
,
inputs
=
input
,
output
=
node
,
param_attr
=
attr
)
# def ResizeNearestNeighbor(self, node):
# pass
def
Range
(
self
,
node
):
start
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
0
],
copy
=
True
)
limit
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
1
],
copy
=
True
)
delta
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
2
],
copy
=
True
)
if
start
.
layer_type
==
"Const"
:
self
.
omit_nodes
.
append
(
start
.
layer_name
)
start
=
start
.
value
if
limit
.
layer_type
==
"Const"
:
self
.
omit_nodes
.
append
(
limit
.
layer_name
)
limit
=
limit
.
value
if
delta
.
layer_type
==
"Const"
:
self
.
omit_nodes
.
append
(
delta
.
layer_name
)
delta
=
delta
.
value
inputs
=
{
"start"
:
start
,
"end"
:
limit
,
"step"
:
delta
}
attr
=
{
"dtype"
:
string
(
node
.
dtype
)}
node
.
fluid_code
.
append
(
"range"
,
inputs
=
inputs
,
output
=
node
,
param_attr
=
None
)
# def Fill(self, node):
# shape = self.graph.get_node(node.layer
def
Mul
(
self
,
node
):
x
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
0
],
copy
=
True
)
y
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
1
],
copy
=
True
)
inputs
=
{
"x"
:
x
,
"y"
:
y
}
node
.
fluid_code
.
add_layer
(
"elementwise_mul"
,
inputs
=
inputs
,
output
=
node
,
param_attr
=
None
)
def
Sub
(
self
,
node
):
x
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
0
],
copy
=
True
)
y
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
1
],
copy
=
True
)
inputs
=
{
"x"
:
x
,
"y"
:
y
}
node
.
fluid_code
.
add_layer
(
"elementwise_sub"
,
inputs
=
inputs
,
output
=
node
,
param_attr
=
None
)
def
Rsqrt
(
self
,
node
):
input
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
0
],
copy
=
True
)
node
.
fluid_code
.
add_layer
(
"rsqrt"
,
inputs
=
input
,
output
=
node
,
param_attr
=
None
)
def
swish_f32
(
self
,
node
):
input
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
0
],
copy
=
True
)
node
.
fluid_code
.
add_layer
(
"sigmoid"
,
inputs
=
input
,
output
=
node
,
param_attr
=
None
)
inputs
=
{
"x"
:
input
,
"y"
:
node
}
node
.
fluid_code
.
add_layer
(
"elementwise_mul"
,
inputs
=
inputs
,
output
=
node
,
param_attr
=
None
)
def
Mean
(
self
,
node
):
input
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
0
],
copy
=
True
)
reduce_idx
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
1
],
copy
=
True
)
assert
reduce_idx
.
layer_type
==
"Const"
,
"Only support Const parameter[reduce_idx]"
keep_dims
=
node
.
get_attr
(
"keep_dims"
)
attr
=
{
"dim"
:
reduce_idx
.
value
.
tolist
(),
"keep_dim"
:
keep_dims
}
node
.
fluid_code
.
add_layer
(
"reduce_mean"
,
inputs
=
input
,
output
=
node
,
param_attr
=
attr
)
def
MatMul
(
self
,
node
):
x
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
0
],
copy
=
True
)
y
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
1
],
copy
=
True
)
transpose_a
=
node
.
get_attr
(
'transpose_a'
)
transpose_b
=
node
.
get_attr
(
'transpose_b'
)
inputs
=
{
"x"
:
x
,
"y"
:
y
}
attr
=
{
"transpose_x"
:
transpose_a
,
"transpose_y"
:
transpose_b
}
node
.
fluid_code
.
add_layer
(
"matmul"
,
inputs
=
inputs
,
output
=
node
,
param_attr
=
attr
)
def
ArgMax
(
self
,
node
):
input
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
0
],
copy
=
True
)
axis
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
1
],
copy
=
True
)
assert
axis
.
layer_type
==
"Const"
,
"ArgMax only support Const parameter"
self
.
omit_nodes
.
append
(
axis
.
layer_name
)
attr
=
{
"axis"
:
axis
.
value
}
node
.
fluid_code
.
add_layer
(
"argmax"
,
inputs
=
input
,
output
=
node
,
param_attr
=
attr
)
def
StridedSlice
(
self
,
node
):
input
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
0
],
copy
=
True
)
begin
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
1
],
copy
=
True
)
end
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
2
],
copy
=
True
)
strides
=
self
.
graph
.
get_node
(
node
.
layer
.
input
[
3
],
copy
=
True
)
assert
begin
.
layer_type
==
"Const"
assert
end
.
layer_type
==
"Const"
assert
strides
.
layer_type
==
"Const"
self
.
omit_nodes
.
append
(
begin
.
layer_name
)
self
.
omit_nodes
.
append
(
end
.
layer_name
)
self
.
omit_nodes
.
append
(
strides
.
layer_name
)
strides
=
strides
.
value
.
tolist
()
assert
len
(
set
(
strides
))
==
1
and
strides
[
0
]
==
1
attr
=
{
"starts"
:
begin
.
value
.
tolist
(),
"ends"
:
end
.
value
.
tolist
()}
node
.
fluid_code
.
add_layer
(
"slice"
,
inputs
=
input
,
output
=
node
,
param_attr
=
attr
)
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