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7bde440e
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7bde440e
编写于
12月 07, 2022
作者:
C
chenjian
提交者:
GitHub
12月 07, 2022
浏览文件
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电子邮件补丁
差异文件
fix export bug when multiple blocks in graph (#1162)
* fix expport bug when multiple blocks in graph * fix * refactor code
上级
bce54249
变更
3
隐藏空白更改
内联
并排
Showing
3 changed file
with
210 addition
and
175 deletion
+210
-175
visualdl/component/graph/exporter.py
visualdl/component/graph/exporter.py
+2
-1
visualdl/component/graph/graph_component.py
visualdl/component/graph/graph_component.py
+207
-173
visualdl/writer/writer.py
visualdl/writer/writer.py
+1
-1
未找到文件。
visualdl/component/graph/exporter.py
浏览文件 @
7bde440e
...
@@ -26,7 +26,8 @@ def translate_graph(model, input_spec, verbose=True):
...
@@ -26,7 +26,8 @@ def translate_graph(model, input_spec, verbose=True):
with
tempfile
.
TemporaryDirectory
()
as
tmp
:
with
tempfile
.
TemporaryDirectory
()
as
tmp
:
model
.
_full_name
=
'{}[{}]'
.
format
(
model
.
__class__
.
__name__
,
"model"
)
model
.
_full_name
=
'{}[{}]'
.
format
(
model
.
__class__
.
__name__
,
"model"
)
create_opname_scope
(
model
)
create_opname_scope
(
model
)
paddle
.
jit
.
save
(
model
,
os
.
path
.
join
(
tmp
,
'temp'
),
input_spec
)
model
=
paddle
.
jit
.
to_static
(
model
,
input_spec
)
paddle
.
jit
.
save
(
model
,
os
.
path
.
join
(
tmp
,
'temp'
))
model_data
=
open
(
os
.
path
.
join
(
tmp
,
'temp.pdmodel'
),
'rb'
).
read
()
model_data
=
open
(
os
.
path
.
join
(
tmp
,
'temp.pdmodel'
),
'rb'
).
read
()
result
=
analyse_model
(
model_data
)
result
=
analyse_model
(
model_data
)
if
verbose
:
if
verbose
:
...
...
visualdl/component/graph/graph_component.py
浏览文件 @
7bde440e
...
@@ -19,6 +19,145 @@ import re
...
@@ -19,6 +19,145 @@ import re
_graph_version
=
'1.0.0'
_graph_version
=
'1.0.0'
def
post_order_traverse
(
root
,
all_ops
,
post_order_results
):
'''
Traversal a tree in post order.
Args:
root: current node of the tree.
all_ops: used to index all nodes.
post_order_results(list): used to store traversal results in place.
'''
for
child
in
all_ops
[
root
][
'children_node'
]:
post_order_traverse
(
child
,
all_ops
,
post_order_results
)
post_order_results
.
append
(
root
)
return
def
create_non_leaf_nodes
(
parent_node_name
,
child_node_name
,
all_ops
,
general_children_dict
):
'''
Create a path from leaf to root, e.g. /a/b/c -> /a/b -> /a -> /. If node in path not exists,
\
create one and fill information.
Args:
parent_node_name: name of parent node
child_node_name: name of current node
all_ops: used to store and index all nodes.
general_children_dict: used to store all descendants for each non-leaf node.
'''
if
parent_node_name
==
'/'
or
parent_node_name
==
''
:
# root node
parent_node_name
=
'/'
if
parent_node_name
not
in
all_ops
:
all_ops
[
parent_node_name
]
=
{}
all_ops
[
parent_node_name
][
'children_node'
]
=
set
()
all_ops
[
parent_node_name
][
'name'
]
=
parent_node_name
all_ops
[
parent_node_name
][
'show_name'
]
=
os
.
path
.
dirname
(
all_ops
[
child_node_name
][
'show_name'
])
all_ops
[
parent_node_name
][
'attrs'
]
=
{}
all_ops
[
parent_node_name
][
'input_nodes'
]
=
set
()
all_ops
[
parent_node_name
][
'output_nodes'
]
=
set
()
all_ops
[
parent_node_name
][
'type'
]
=
os
.
path
.
basename
(
all_ops
[
parent_node_name
][
'show_name'
])
all_ops
[
parent_node_name
][
'input_vars'
]
=
set
()
all_ops
[
parent_node_name
][
'output_vars'
]
=
set
()
all_ops
[
parent_node_name
][
'parent_node'
]
=
''
all_ops
[
parent_node_name
][
'edge_input_nodes'
]
=
[]
all_ops
[
parent_node_name
][
'edge_output_nodes'
]
=
[]
all_ops
[
parent_node_name
][
'is_leaf_node'
]
=
False
all_ops
[
child_node_name
][
'parent_node'
]
=
parent_node_name
all_ops
[
parent_node_name
][
'children_node'
].
add
(
child_node_name
)
general_children_dict
[
parent_node_name
].
add
(
child_node_name
)
general_children_dict
[
parent_node_name
].
update
(
general_children_dict
[
child_node_name
])
if
parent_node_name
==
'/'
:
# root node
return
else
:
create_non_leaf_nodes
(
os
.
path
.
dirname
(
parent_node_name
),
parent_node_name
,
all_ops
,
general_children_dict
)
def
construct_edges
(
var_name
,
all_ops
,
all_vars
,
all_edges
):
'''
Construct path edges from var's from_node to to_nodes.
Algorithm:
1. Judge if src_node and dst_node have the same parent node, if yes, link them directly
and fill information in all_edges, return.
2. Find the closest common ancestor, repeat link node and its parent until reach the common ancestor.
Every time construct a new edge, fill information in all_edges.
Args:
var_name: name of variable to process
all_ops: used to index all nodes.
all_vars: used to index all variables.
all_edges: used to store and index all edges
'''
from_node
=
all_vars
[
var_name
][
'from_node'
]
to_nodes
=
all_vars
[
var_name
][
'to_nodes'
]
def
_construct_edge
(
src_node
,
dst_node
):
if
all_ops
[
src_node
][
'parent_node'
]
==
all_ops
[
dst_node
][
'parent_node'
]:
if
(
src_node
,
dst_node
)
not
in
all_edges
:
all_edges
[(
src_node
,
dst_node
)]
=
{
'from_node'
:
src_node
,
'to_node'
:
dst_node
,
'vars'
:
{
var_name
},
'label'
:
''
}
else
:
all_edges
[(
src_node
,
dst_node
)][
'vars'
].
add
(
var_name
)
else
:
common_ancestor
=
os
.
path
.
commonpath
([
src_node
,
dst_node
])
src_base_node
=
src_node
while
True
:
parent_node
=
all_ops
[
src_base_node
][
'parent_node'
]
if
parent_node
==
common_ancestor
:
break
if
(
src_base_node
,
parent_node
)
not
in
all_edges
:
all_edges
[(
src_base_node
,
parent_node
)]
=
{
'from_node'
:
src_base_node
,
'to_node'
:
parent_node
,
'vars'
:
{
var_name
},
'label'
:
''
}
else
:
all_edges
[(
src_base_node
,
parent_node
)][
'vars'
].
add
(
var_name
)
src_base_node
=
parent_node
dst_base_node
=
dst_node
while
True
:
parent_node
=
all_ops
[
dst_base_node
][
'parent_node'
]
if
parent_node
==
common_ancestor
:
break
if
(
parent_node
,
dst_base_node
)
not
in
all_edges
:
all_edges
[(
parent_node
,
dst_base_node
)]
=
{
'from_node'
:
parent_node
,
'to_node'
:
dst_base_node
,
'vars'
:
{
var_name
},
'label'
:
''
}
else
:
all_edges
[(
parent_node
,
dst_base_node
)][
'vars'
].
add
(
var_name
)
dst_base_node
=
parent_node
if
(
src_base_node
,
dst_base_node
)
not
in
all_edges
:
all_edges
[(
src_base_node
,
dst_base_node
)]
=
{
'from_node'
:
src_base_node
,
'to_node'
:
dst_base_node
,
'vars'
:
{
var_name
},
'label'
:
''
}
else
:
all_edges
[(
src_base_node
,
dst_base_node
)][
'vars'
].
add
(
var_name
)
return
if
from_node
and
to_nodes
:
for
to_node
in
to_nodes
:
if
from_node
==
to_node
:
continue
_construct_edge
(
from_node
,
to_node
)
def
analyse_model
(
model_pb
):
# noqa: C901
def
analyse_model
(
model_pb
):
# noqa: C901
try
:
try
:
from
paddle.framework
import
core
from
paddle.framework
import
core
...
@@ -52,9 +191,11 @@ def analyse_model(model_pb): # noqa: C901
...
@@ -52,9 +191,11 @@ def analyse_model(model_pb): # noqa: C901
op_inputvars_dict
=
collections
.
defaultdict
(
list
)
op_inputvars_dict
=
collections
.
defaultdict
(
list
)
op_outputvars_dict
=
collections
.
defaultdict
(
list
)
op_outputvars_dict
=
collections
.
defaultdict
(
list
)
for
i
in
range
(
program_desc
.
num_blocks
()):
for
i
in
range
(
program_desc
.
num_blocks
()):
if
i
!=
0
:
# We do not show sub block for clarity now
continue
block_desc
=
program_desc
.
block
(
i
)
block_desc
=
program_desc
.
block
(
i
)
# vars info
# vars info
for
i
,
var_desc
in
enumerate
(
block_desc
.
all_vars
()
):
for
var_desc
in
block_desc
.
all_vars
(
):
try
:
try
:
var_name
=
var_desc
.
name
()
var_name
=
var_desc
.
name
()
all_vars
[
var_name
]
=
{}
all_vars
[
var_name
]
=
{}
...
@@ -88,9 +229,13 @@ def analyse_model(model_pb): # noqa: C901
...
@@ -88,9 +229,13 @@ def analyse_model(model_pb): # noqa: C901
all_vars
[
var_name
][
'from_node'
]
=
''
all_vars
[
var_name
][
'from_node'
]
=
''
all_vars
[
var_name
][
'to_nodes'
]
=
[]
all_vars
[
var_name
][
'to_nodes'
]
=
[]
for
i
in
range
(
program_desc
.
num_blocks
()):
if
i
!=
0
:
# We do not show sub block for clarity now
continue
block_desc
=
program_desc
.
block
(
i
)
# ops info
# ops info
for
i
in
range
(
block_desc
.
op_size
()):
for
j
in
range
(
block_desc
.
op_size
()):
op_desc
=
block_desc
.
op
(
i
)
op_desc
=
block_desc
.
op
(
j
)
op_name
=
op_desc
.
attr
(
'op_namescope'
)
+
generate
(
op_name
=
op_desc
.
attr
(
'op_namescope'
)
+
generate
(
str
(
op_desc
.
type
()))
str
(
op_desc
.
type
()))
all_ops
[
op_name
]
=
{}
all_ops
[
op_name
]
=
{}
...
@@ -117,11 +262,16 @@ def analyse_model(model_pb): # noqa: C901
...
@@ -117,11 +262,16 @@ def analyse_model(model_pb): # noqa: C901
attr_dict
=
{}
attr_dict
=
{}
attr_type_dict
=
{}
attr_type_dict
=
{}
for
attr_name
in
op_desc
.
attr_names
():
for
attr_name
in
op_desc
.
attr_names
():
attr_dict
[
attr_name
]
=
op_desc
.
attr
(
attr_name
)
try
:
attr_type
=
op_desc
.
attr_type
(
attr_name
)
if
attr_name
==
'sub_block'
:
attr_type_dict
[
attr_name
]
=
attr_type_name
[
continue
attr_type
]
if
attr_type
in
attr_type_name
else
str
(
attr_dict
[
attr_name
]
=
op_desc
.
attr
(
attr_name
)
attr_type
).
split
(
'.'
)[
1
]
attr_type
=
op_desc
.
attr_type
(
attr_name
)
attr_type_dict
[
attr_name
]
=
attr_type_name
[
attr_type
]
if
attr_type
in
attr_type_name
else
str
(
attr_type
).
split
(
'.'
)[
1
]
except
Exception
:
continue
all_ops
[
op_name
][
'attrs'
]
=
attr_dict
all_ops
[
op_name
][
'attrs'
]
=
attr_dict
all_ops
[
op_name
][
'attr_types'
]
=
attr_type_dict
all_ops
[
op_name
][
'attr_types'
]
=
attr_type_dict
all_ops
[
op_name
][
'children_node'
]
=
[]
all_ops
[
op_name
][
'children_node'
]
=
[]
...
@@ -129,181 +279,65 @@ def analyse_model(model_pb): # noqa: C901
...
@@ -129,181 +279,65 @@ def analyse_model(model_pb): # noqa: C901
all_ops
[
op_name
][
'output_nodes'
]
=
[]
all_ops
[
op_name
][
'output_nodes'
]
=
[]
all_ops
[
op_name
][
'edge_input_nodes'
]
=
[]
all_ops
[
op_name
][
'edge_input_nodes'
]
=
[]
all_ops
[
op_name
][
'edge_output_nodes'
]
=
[]
all_ops
[
op_name
][
'edge_output_nodes'
]
=
[]
# second pass, create non-leaf nodes, fill 'parent_node', 'children_nodes' of nodes.
for
variable_name
in
all_vars
:
if
all_vars
[
variable_name
][
'from_node'
]
==
''
:
continue
# some variable's input and output node are the same, we should prevent to show this situation as a cycle
from_node_name
=
all_vars
[
variable_name
][
'from_node'
]
for
to_node_name
in
all_vars
[
variable_name
][
'to_nodes'
]:
if
to_node_name
!=
from_node_name
:
all_ops
[
from_node_name
][
'output_nodes'
].
append
(
to_node_name
)
all_ops
[
to_node_name
][
'input_nodes'
].
append
(
from_node_name
)
general_children_dict
=
collections
.
defaultdict
(
set
)
def
create_non_leaf_nodes
(
parent_node_name
,
child_node_name
):
if
parent_node_name
==
'/'
or
parent_node_name
==
''
:
# root node
parent_node_name
=
'/'
if
parent_node_name
not
in
all_ops
:
all_ops
[
parent_node_name
]
=
{}
all_ops
[
parent_node_name
][
'children_node'
]
=
set
()
all_ops
[
parent_node_name
][
'name'
]
=
parent_node_name
all_ops
[
parent_node_name
][
'show_name'
]
=
os
.
path
.
dirname
(
all_ops
[
child_node_name
][
'show_name'
])
all_ops
[
parent_node_name
][
'attrs'
]
=
{}
all_ops
[
parent_node_name
][
'input_nodes'
]
=
set
()
all_ops
[
parent_node_name
][
'output_nodes'
]
=
set
()
all_ops
[
parent_node_name
][
'type'
]
=
os
.
path
.
basename
(
all_ops
[
parent_node_name
][
'show_name'
])
all_ops
[
parent_node_name
][
'input_vars'
]
=
set
()
all_ops
[
parent_node_name
][
'output_vars'
]
=
set
()
all_ops
[
parent_node_name
][
'parent_node'
]
=
''
all_ops
[
parent_node_name
][
'edge_input_nodes'
]
=
[]
all_ops
[
parent_node_name
][
'edge_output_nodes'
]
=
[]
all_ops
[
parent_node_name
][
'is_leaf_node'
]
=
False
all_ops
[
child_node_name
][
'parent_node'
]
=
parent_node_name
all_ops
[
parent_node_name
][
'children_node'
].
add
(
child_node_name
)
general_children_dict
[
parent_node_name
].
add
(
child_node_name
)
general_children_dict
[
parent_node_name
].
update
(
general_children_dict
[
child_node_name
])
if
parent_node_name
==
'/'
:
# root node
return
else
:
create_non_leaf_nodes
(
os
.
path
.
dirname
(
parent_node_name
),
parent_node_name
)
def
construct_edges
(
var_name
):
'''
Construct path edges from var's from_node to to_nodes.
Algorithm:
1. Judge if src_node and dst_node have the same parent node, if yes, link them directly
and fill information in all_edges, return.
2. Find the closest common ancestor, repeat link node and its parent until reach the common ancestor.
Every time construct a new edge, fill information in all_edges.
'''
from_node
=
all_vars
[
var_name
][
'from_node'
]
to_nodes
=
all_vars
[
var_name
][
'to_nodes'
]
def
_construct_edge
(
src_node
,
dst_node
):
if
all_ops
[
src_node
][
'parent_node'
]
==
all_ops
[
dst_node
][
'parent_node'
]:
if
(
src_node
,
dst_node
)
not
in
all_edges
:
all_edges
[(
src_node
,
dst_node
)]
=
{
'from_node'
:
src_node
,
'to_node'
:
dst_node
,
'vars'
:
{
var_name
},
'label'
:
''
}
else
:
all_edges
[(
src_node
,
dst_node
)][
'vars'
].
add
(
var_name
)
else
:
common_ancestor
=
os
.
path
.
commonpath
([
src_node
,
dst_node
])
src_base_node
=
src_node
while
True
:
parent_node
=
all_ops
[
src_base_node
][
'parent_node'
]
if
parent_node
==
common_ancestor
:
break
if
(
src_base_node
,
parent_node
)
not
in
all_edges
:
all_edges
[(
src_base_node
,
parent_node
)]
=
{
'from_node'
:
src_base_node
,
'to_node'
:
parent_node
,
'vars'
:
{
var_name
},
'label'
:
''
}
else
:
all_edges
[(
src_base_node
,
parent_node
)][
'vars'
].
add
(
var_name
)
src_base_node
=
parent_node
dst_base_node
=
dst_node
while
True
:
parent_node
=
all_ops
[
dst_base_node
][
'parent_node'
]
if
parent_node
==
common_ancestor
:
break
if
(
parent_node
,
dst_base_node
)
not
in
all_edges
:
all_edges
[(
parent_node
,
dst_base_node
)]
=
{
'from_node'
:
parent_node
,
'to_node'
:
dst_base_node
,
'vars'
:
{
var_name
},
'label'
:
''
}
else
:
all_edges
[(
parent_node
,
dst_base_node
)][
'vars'
].
add
(
var_name
)
dst_base_node
=
parent_node
if
(
src_base_node
,
dst_base_node
)
not
in
all_edges
:
all_edges
[(
src_base_node
,
dst_base_node
)]
=
{
'from_node'
:
src_base_node
,
'to_node'
:
dst_base_node
,
'vars'
:
{
var_name
},
'label'
:
''
}
else
:
all_edges
[(
src_base_node
,
dst_base_node
)][
'vars'
].
add
(
var_name
)
return
if
from_node
and
to_nodes
:
# second pass, create non-leaf nodes, fill 'parent_node', 'children_nodes' of nodes.
for
to_node
in
to_nodes
:
for
variable_name
in
all_vars
:
if
from_node
==
to_node
:
if
all_vars
[
variable_name
][
'from_node'
]
==
''
:
continue
continue
_construct_edge
(
from_node
,
to_node
)
# some variable's input and output node are the same, we should prevent to show this situation as a cycle
from_node_name
=
all_vars
[
variable_name
][
'from_node'
]
for
to_node_name
in
all_vars
[
variable_name
][
'to_nodes'
]:
if
to_node_name
!=
from_node_name
:
all_ops
[
from_node_name
][
'output_nodes'
].
append
(
to_node_name
)
all_ops
[
to_node_name
][
'input_nodes'
].
append
(
from_node_name
)
all_op_names
=
list
(
all_ops
.
keys
())
general_children_dict
=
collections
.
defaultdict
(
set
)
for
op_name
in
all_op_names
:
create_non_leaf_nodes
(
os
.
path
.
dirname
(
op_name
),
op_name
)
# fill all non-leaf node's 'output_nodes' 'input_nodes' 'output_vars' 'input_vars'
all_op_names
=
list
(
all_ops
.
keys
())
# post-order traverse tree
for
op_name
in
all_op_names
:
post_order_results
=
[]
create_non_leaf_nodes
(
os
.
path
.
dirname
(
op_name
),
op_name
,
all_ops
,
general_children_dict
)
def
post_order_traverse
(
root
):
# fill all non-leaf node's 'output_nodes' 'input_nodes' 'output_vars' 'input_vars'
for
child
in
all_ops
[
root
][
'children_node'
]:
# post-order traverse tree
post_order_traverse
(
child
)
post_order_results
=
[]
nonlocal
post_order_results
post_order_results
.
append
(
root
)
return
post_order_traverse
(
'/'
)
post_order_traverse
(
'/'
,
all_ops
,
post_order_results
)
for
op_name
in
post_order_results
:
for
op_name
in
post_order_results
:
op
=
all_ops
[
op_name
]
op
=
all_ops
[
op_name
]
op
[
'children_node'
]
=
list
(
op
[
'children_node'
])
op
[
'children_node'
]
=
list
(
op
[
'children_node'
])
if
op
[
'children_node'
]:
if
op
[
'children_node'
]:
for
child_op
in
op
[
'children_node'
]:
for
child_op
in
op
[
'children_node'
]:
for
input_node
in
all_ops
[
child_op
][
'input_nodes'
]:
for
input_node
in
all_ops
[
child_op
][
'input_nodes'
]:
if
input_node
in
general_children_dict
[
op_name
]:
if
input_node
in
general_children_dict
[
op_name
]:
continue
continue
else
:
else
:
op
[
'input_nodes'
].
add
(
input_node
)
op
[
'input_nodes'
].
add
(
input_node
)
for
output_node
in
all_ops
[
child_op
][
'output_nodes'
]:
for
output_node
in
all_ops
[
child_op
][
'output_nodes'
]:
if
output_node
in
general_children_dict
[
op_name
]:
if
output_node
in
general_children_dict
[
op_name
]:
continue
continue
else
:
else
:
op
[
'output_nodes'
].
add
(
output_node
)
op
[
'output_nodes'
].
add
(
output_node
)
for
input_var
in
op_inputvars_dict
[
child_op
]:
for
input_var
in
op_inputvars_dict
[
child_op
]:
if
all_vars
[
input_var
][
if
all_vars
[
input_var
][
'from_node'
]
not
in
general_children_dict
[
'from_node'
]
not
in
general_children_dict
[
op_name
]:
op_name
]:
op
[
'input_vars'
].
add
(
input_var
)
op
[
'input_vars'
].
add
(
input_var
)
for
output_var
in
op_outputvars_dict
[
child_op
]:
for
output_var
in
op_outputvars_dict
[
child_op
]:
for
to_node_name
in
all_vars
[
output_var
][
'to_nodes'
]:
for
to_node_name
in
all_vars
[
output_var
][
'to_nodes'
]:
if
to_node_name
not
in
general_children_dict
[
op_name
]:
if
to_node_name
not
in
general_children_dict
[
op
[
'output_vars'
].
add
(
output_var
)
op_name
]:
op
[
'input_nodes'
]
=
list
(
op
[
'input_nodes'
])
op
[
'output_vars'
].
add
(
output_var
)
op
[
'output_nodes'
]
=
list
(
op
[
'output_nodes'
])
op
[
'input_nodes'
]
=
list
(
op
[
'input_nodes'
])
op_inputvars_dict
[
op_name
]
=
list
(
op
[
'input_vars'
])
op
[
'output_nodes'
]
=
list
(
op
[
'output_nodes'
])
op_outputvars_dict
[
op_name
]
=
list
(
op
[
'output_vars'
])
op_inputvars_dict
[
op_name
]
=
list
(
op
[
'input_vars'
])
op
[
'input_vars'
]
=
{
'X'
:
list
(
op
[
'input_vars'
])}
op_outputvars_dict
[
op_name
]
=
list
(
op
[
'output_vars'
])
op
[
'output_vars'
]
=
{
'Y'
:
list
(
op
[
'output_vars'
])}
op
[
'input_vars'
]
=
{
'X'
:
list
(
op
[
'input_vars'
])}
op
[
'output_vars'
]
=
{
'Y'
:
list
(
op
[
'output_vars'
])}
# Supplement edges and 'edge_input_nodes', 'edge_output_nodes' in op to help draw in frontend
# Supplement edges and 'edge_input_nodes', 'edge_output_nodes' in op to help draw in frontend
for
var_name
in
all_vars
.
keys
():
for
var_name
in
all_vars
.
keys
():
construct_edges
(
var_name
)
construct_edges
(
var_name
,
all_ops
,
all_vars
,
all_edges
)
for
src_node
,
to_node
in
all_edges
.
keys
():
for
src_node
,
to_node
in
all_edges
.
keys
():
all_ops
[
src_node
][
'edge_output_nodes'
].
append
(
to_node
)
all_ops
[
src_node
][
'edge_output_nodes'
].
append
(
to_node
)
...
...
visualdl/writer/writer.py
浏览文件 @
7bde440e
...
@@ -665,7 +665,7 @@ class LogWriter(object):
...
@@ -665,7 +665,7 @@ class LogWriter(object):
result
=
translate_graph
(
model
,
input_spec
,
verbose
)
result
=
translate_graph
(
model
,
input_spec
,
verbose
)
except
Exception
as
e
:
except
Exception
as
e
:
print
(
"Failed to save model graph, error: {}"
.
format
(
e
))
print
(
"Failed to save model graph, error: {}"
.
format
(
e
))
r
eturn
r
aise
e
graph_file_name
=
bfile
.
join
(
graph_file_name
=
bfile
.
join
(
self
.
logdir
,
self
.
logdir
,
"vdlgraph.%010d.log%s"
%
(
time
.
time
(),
self
.
_filename_suffix
))
"vdlgraph.%010d.log%s"
%
(
time
.
time
(),
self
.
_filename_suffix
))
...
...
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