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72c56faf
编写于
3月 05, 2020
作者:
X
xiexionghang
浏览文件
操作
浏览文件
下载
电子邮件补丁
差异文件
depend on paddle with bcloud
上级
3e834fec
变更
2
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2 changed file
with
190 addition
and
51 deletion
+190
-51
kagle/kagle_layer.py
kagle/kagle_layer.py
+107
-37
kagle/kagle_model.py
kagle/kagle_model.py
+83
-14
未找到文件。
kagle/kagle_layer.py
浏览文件 @
72c56faf
"""
DnnLayer: analyse layer config, and parse to Paddle Operator, build net
"""
import
abc
import
paddle.fluid
as
fluid
from
abc
import
ABCMeta
,
abstractmethod
class
Layer
(
object
):
__metaclass__
=
ABCMeta
"""R
"""
__metaclass__
=
abc
.
ABCMeta
def
__init__
(
self
,
config
):
"""R
"""
pass
def
generate
(
self
,
mode
,
param
):
"""R
"""
if
mode
==
'fluid'
:
return
self
.
generate_fluid
(
param
)
elif
mode
==
'tensorflow'
:
return
self
.
generate_tensorflow
(
param
)
print
(
'unsupport this mode: '
+
mode
)
return
None
,
None
return
None
,
None
@
abstractmethod
@
ab
c
.
ab
stractmethod
def
generate_fluid
(
self
,
param
):
"""R
"""
pass
# maybe
#@abstractmethod
def
generate_tensorflow
(
self
,
param
):
""" Not implement currently
"""
pass
class
EmbeddingInputLayer
(
Layer
):
"""R
"""
def
__init__
(
self
,
config
):
"""R
"""
self
.
_cvm
=
config
[
'cvm'
]
self
.
_name
=
config
[
'name'
]
self
.
_slots
=
[
str
(
slot
)
for
slot
in
config
[
'slots'
]
]
self
.
_slots
=
[
str
(
slot
)
for
slot
in
config
[
'slots'
]
]
self
.
_mf_dim
=
config
[
'mf_dim'
]
self
.
_backward
=
config
[
'backward'
]
self
.
_emb_dim
=
self
.
_mf_dim
+
3
#append show ctr lr
self
.
_emb_layers
=
[]
def
generate_fluid
(
self
,
param
):
"""R
"""
show_clk
=
fluid
.
layers
.
concat
(
[
param
[
'layer'
][
'show'
],
param
[
'layer'
][
'click'
]],
axis
=
1
)
show_clk
.
stop_gradient
=
True
...
...
@@ -42,39 +60,61 @@ class EmbeddingInputLayer(Layer):
for
slot
in
self
.
_slots
:
l
=
fluid
.
layers
.
data
(
name
=
slot
,
shape
=
[
1
],
dtype
=
"int64"
,
lod_level
=
1
)
data_var
.
append
(
l
)
emb
=
fluid
.
layers
.
embedding
(
input
=
l
,
size
=
[
10
,
self
.
_emb_dim
],
is_sparse
=
True
,
is_distributed
=
True
,
param_attr
=
fluid
.
ParamAttr
(
name
=
"embedding"
))
emb
=
fluid
.
layers
.
embedding
(
input
=
l
,
size
=
[
10
,
self
.
_emb_dim
],
\
is_sparse
=
True
,
is_distributed
=
True
,
param_attr
=
fluid
.
ParamAttr
(
name
=
"embedding"
))
emb
=
fluid
.
layers
.
sequence_pool
(
input
=
emb
,
pool_type
=
'sum'
)
emb
=
fluid
.
layers
.
continuous_value_model
(
emb
,
show_clk
,
self
.
_cvm
)
self
.
_emb_layers
.
append
(
emb
)
output
=
fluid
.
layers
.
concat
(
input
=
self
.
_emb_layers
,
axis
=
1
,
name
=
self
.
_name
)
return
output
,
{
'data_var'
:
data_var
}
class
LabelInputLayer
(
Layer
):
"""R
"""
def
__init__
(
self
,
config
):
"""R
"""
self
.
_name
=
config
[
'name'
]
self
.
_dim
=
config
.
get
(
'dim'
,
1
)
self
.
_data_type
=
config
.
get
(
'data_type'
,
"int64"
)
self
.
_label_idx
=
config
[
'label_idx'
]
def
generate_fluid
(
self
,
param
):
label
=
fluid
.
layers
.
data
(
name
=
self
.
_name
,
shape
=
[
-
1
,
self
.
_dim
],
dtype
=
self
.
_data_type
,
lod_level
=
0
,
append_batch_size
=
False
)
"""R
"""
label
=
fluid
.
layers
.
data
(
name
=
self
.
_name
,
shape
=
[
-
1
,
self
.
_dim
],
\
dtype
=
self
.
_data_type
,
lod_level
=
0
,
append_batch_size
=
False
)
cast_label
=
fluid
.
layers
.
cast
(
label
,
dtype
=
'float32'
)
cast_label
.
stop_gradient
=
True
return
cast_label
,
{
'data_var'
:
[
label
]}
return
cast_label
,
{
'data_var'
:
[
label
]}
class
TagInputLayer
(
Layer
):
"""R
"""
def
__init__
(
self
,
config
):
"""R
"""
self
.
_name
=
config
[
'name'
]
self
.
_tag
=
config
[
'tag'
]
self
.
_dim
=
config
.
get
(
'dim'
,
1
)
self
.
_data_type
=
config
[
'data_type'
]
def
generate_fluid
(
self
,
param
):
output
=
fluid
.
layers
.
data
(
name
=
self
.
_name
,
shape
=
[
-
1
,
self
.
_dim
],
dtype
=
self
.
_data_type
,
lod_level
=
0
,
append_batch_size
=
False
,
stop_gradient
=
True
)
return
output
,
{
'data_var'
:
[
output
]}
"""R
"""
output
=
fluid
.
layers
.
data
(
name
=
self
.
_name
,
shape
=
[
-
1
,
self
.
_dim
],
\
dtype
=
self
.
_data_type
,
lod_level
=
0
,
append_batch_size
=
False
,
stop_gradient
=
True
)
return
output
,
{
'data_var'
:
[
output
]}
class
ParamLayer
(
Layer
):
"""R
"""
def
__init__
(
self
,
config
):
"""R
"""
self
.
_name
=
config
[
'name'
]
self
.
_coln
=
config
[
'coln'
]
self
.
_table_id
=
config
.
get
(
'table_id'
,
-
1
)
...
...
@@ -83,40 +123,59 @@ class ParamLayer(Layer):
self
.
_config
=
config
def
generate_fluid
(
self
,
param
):
"""R
"""
return
self
.
_config
,
{
'inference_param'
:
{
'name'
:
'param'
,
'params'
:
[],
'table_id'
:
self
.
_table_id
}}
class
SummaryLayer
(
Layer
):
"""R
"""
def
__init__
(
self
,
config
):
"""R
"""
self
.
_name
=
config
[
'name'
]
self
.
_table_id
=
config
.
get
(
'table_id'
,
-
1
)
self
.
_data_type
=
config
.
get
(
'data_type'
,
'float32'
)
self
.
_config
=
config
def
generate_fluid
(
self
,
param
):
return
self
.
_config
,
{
'inference_param'
:
{
'name'
:
'summary'
,
'params'
:
[],
'table_id'
:
self
.
_table_id
}}
"""R
"""
return
self
.
_config
,
{
'inference_param'
:
{
'name'
:
'summary'
,
'params'
:
[],
'table_id'
:
self
.
_table_id
}}
class
NormalizetionLayer
(
Layer
):
"""R
"""
def
__init__
(
self
,
config
):
"""R
"""
self
.
_name
=
config
[
'name'
]
self
.
_input
=
config
[
'input'
]
self
.
_summary
=
config
[
'summary'
]
self
.
_table_id
=
config
.
get
(
'table_id'
,
-
1
)
def
generate_fluid
(
self
,
param
):
"""R
"""
input_layer
=
param
[
'layer'
][
self
.
_input
[
0
]]
summary_layer
=
param
[
'layer'
][
self
.
_summary
]
if
len
(
self
.
_input
)
>
0
:
input_list
=
[
param
[
'layer'
][
i
]
for
i
in
self
.
_input
]
input_list
=
[
param
[
'layer'
][
i
]
for
i
in
self
.
_input
]
input_layer
=
fluid
.
layers
.
concat
(
input
=
input_list
,
axis
=
1
)
bn
=
fluid
.
layers
.
data_norm
(
input
=
input_layer
,
name
=
self
.
_name
,
epsilon
=
1e-4
,
param_attr
=
{
"batch_size"
:
1e4
,
"batch_sum_default"
:
0.0
,
"batch_square"
:
1e4
})
inference_param
=
[
self
.
_name
+
'.batch_size'
,
self
.
_name
+
'.batch_sum'
,
self
.
_name
+
'.batch_square_sum'
]
return
bn
,
{
'inference_param'
:
{
'name'
:
'summary'
,
'params'
:
inference_param
,
'table_id'
:
summary_layer
.
get
(
'table_id'
,
-
1
)}}
"batch_size"
:
1e4
,
"batch_sum_default"
:
0.0
,
"batch_square"
:
1e4
})
inference_param
=
[
self
.
_name
+
'.batch_size'
,
self
.
_name
+
'.batch_sum'
,
self
.
_name
+
'.batch_square_sum'
]
return
bn
,
{
'inference_param'
:
{
'name'
:
'summary'
,
'params'
:
inference_param
,
'table_id'
:
summary_layer
.
get
(
'table_id'
,
-
1
)}}
class
NeuralLayer
(
Layer
):
"""R
"""
def
__init__
(
self
,
config
):
"""R
"""
self
.
_name
=
config
[
'name'
]
self
.
_param
=
config
[
'param'
]
self
.
_input
=
config
[
'input'
]
...
...
@@ -124,16 +183,19 @@ class NeuralLayer(Layer):
self
.
_act_func
=
config
.
get
(
'act_func'
,
None
)
def
generate_fluid
(
self
,
param
):
"""R
"""
param_layer
=
param
[
'layer'
][
self
.
_param
]
input_layer
=
param
[
'layer'
][
self
.
_input
[
0
]]
if
len
(
self
.
_input
)
>
0
:
input_list
=
[
param
[
'layer'
][
i
]
for
i
in
self
.
_input
]
input_list
=
[
param
[
'layer'
][
i
]
for
i
in
self
.
_input
]
input_layer
=
fluid
.
layers
.
concat
(
input
=
input_list
,
axis
=
1
)
input_coln
=
input_layer
.
shape
[
1
]
scale
=
param_layer
[
'init_range'
]
/
(
input_coln
**
0.5
)
bias
=
None
if
self
.
_bias
:
bias
=
fluid
.
ParamAttr
(
learning_rate
=
1.0
,
initializer
=
fluid
.
initializer
.
NormalInitializer
(
loc
=
0.0
,
scale
=
scale
))
bias
=
fluid
.
ParamAttr
(
learning_rate
=
1.0
,
initializer
=
fluid
.
initializer
.
NormalInitializer
(
loc
=
0.0
,
scale
=
scale
))
fc
=
fluid
.
layers
.
fc
(
name
=
self
.
_name
,
input
=
input_layer
,
...
...
@@ -146,8 +208,13 @@ class NeuralLayer(Layer):
inference_param
=
[
self
.
_name
+
'.w_0'
,
self
.
_name
+
'.b_0'
]
return
fc
,
{
'inference_param'
:
{
'name'
:
'param'
,
'params'
:
inference_param
,
'table_id'
:
param_layer
.
get
(
'table_id'
,
-
1
)}}
class
SigmoidLossLayer
(
Layer
):
"""R
"""
def
__init__
(
self
,
config
):
"""R
"""
self
.
_name
=
config
[
'name'
]
self
.
_label
=
config
[
'label'
]
self
.
_input
=
config
[
'input'
]
...
...
@@ -155,28 +222,30 @@ class SigmoidLossLayer(Layer):
self
.
_metric_label
=
config
.
get
(
'metric_label'
,
None
)
self
.
_bound
=
config
.
get
(
'bound'
,
[
-
15.0
,
15.0
])
self
.
_extend_output
=
{
'metric_label'
:
self
.
_metric_label
,
'metric_dict'
:
{
'auc'
:
{
'var'
:
None
},
'batch_auc'
:
{
'var'
:
None
},
'stat_pos'
:
{
'var'
:
None
,
'data_type'
:
'int64'
},
'stat_neg'
:
{
'var'
:
None
,
'data_type'
:
'int64'
},
'batch_stat_pos'
:
{
'var'
:
None
,
'data_type'
:
'int64'
},
'batch_stat_neg'
:
{
'var'
:
None
,
'data_type'
:
'int64'
},
'pos_ins_num'
:
{
'var'
:
None
},
'abserr'
:
{
'var'
:
None
},
'sqrerr'
:
{
'var'
:
None
},
'prob'
:
{
'var'
:
None
},
'total_ins_num'
:
{
'var'
:
None
},
'q'
:
{
'var'
:
None
}
'metric_label'
:
self
.
_metric_label
,
'metric_dict'
:
{
'auc'
:
{
'var'
:
None
},
'batch_auc'
:
{
'var'
:
None
},
'stat_pos'
:
{
'var'
:
None
,
'data_type'
:
'int64'
},
'stat_neg'
:
{
'var'
:
None
,
'data_type'
:
'int64'
},
'batch_stat_pos'
:
{
'var'
:
None
,
'data_type'
:
'int64'
},
'batch_stat_neg'
:
{
'var'
:
None
,
'data_type'
:
'int64'
},
'pos_ins_num'
:
{
'var'
:
None
},
'abserr'
:
{
'var'
:
None
},
'sqrerr'
:
{
'var'
:
None
},
'prob'
:
{
'var'
:
None
},
'total_ins_num'
:
{
'var'
:
None
},
'q'
:
{
'var'
:
None
}
}
}
def
generate_fluid
(
self
,
param
):
"""R
"""
input_layer
=
param
[
'layer'
][
self
.
_input
[
0
]]
label_layer
=
param
[
'layer'
][
self
.
_label
]
output
=
fluid
.
layers
.
clip
(
input_layer
,
self
.
_bound
[
0
],
self
.
_bound
[
1
],
name
=
self
.
_name
)
output
=
fluid
.
layers
.
clip
(
input_layer
,
self
.
_bound
[
0
],
self
.
_bound
[
1
],
name
=
self
.
_name
)
norm
=
fluid
.
layers
.
sigmoid
(
output
,
name
=
self
.
_name
)
output
=
fluid
.
layers
.
log_loss
(
norm
,
fluid
.
layers
.
cast
(
x
=
label_layer
,
dtype
=
'float32'
))
if
self
.
_weight
:
...
...
@@ -191,7 +260,8 @@ class SigmoidLossLayer(Layer):
input
=
[
fluid
.
layers
.
elementwise_sub
(
fluid
.
layers
.
ceil
(
norm
),
norm
),
norm
],
axis
=
1
)
metric
[
'auc'
][
'var'
],
metric
[
'batch_auc'
][
'var'
],
[
metric
[
'batch_stat_pos'
][
'var'
],
\
metric
[
'batch_stat_neg'
][
'var'
],
metric
[
'stat_pos'
][
'var'
],
metric
[
'stat_neg'
][
'var'
]]
=
\
fluid
.
layers
.
auc
(
input
=
binary_predict
,
label
=
fluid
.
layers
.
cast
(
x
=
label_layer
,
dtype
=
'int64'
),
curve
=
'ROC'
,
num_thresholds
=
32
)
fluid
.
layers
.
auc
(
input
=
binary_predict
,
label
=
fluid
.
layers
.
cast
(
x
=
label_layer
,
dtype
=
'int64'
),
\
curve
=
'ROC'
,
num_thresholds
=
32
)
metric
[
'sqrerr'
][
'var'
],
metric
[
'abserr'
][
'var'
],
metric
[
'prob'
][
'var'
],
metric
[
'q'
][
'var'
],
\
metric
[
'pos_ins_num'
][
'var'
],
metric
[
'total_ins_num'
][
'var'
]
=
\
...
...
kagle/kagle_model.py
浏览文件 @
72c56faf
"""
Model Net: analyse layer config, and parse to Paddle Pragram
"""
import
abc
import
copy
import
yaml
import
kagle_layer
import
kagle_table
import
kagle
.kagle
_layer
import
kagle
.kagle
_table
import
paddle.fluid
as
fluid
from
abc
import
ABCMeta
,
abstractmethod
from
paddle.fluid.incubate.fleet.parameter_server.pslib
import
fleet
def
create
(
config
):
"""
Create a model instance by config
Args:
config(dict) : desc model type and net
Return:
Model Instance
"""
model
=
None
if
config
[
'mode'
]
==
'fluid'
:
model
=
FluidModel
(
config
)
model
.
build_model
()
return
model
class
Model
(
object
):
__metaclass__
=
ABCMeta
"""R
"""
__metaclass__
=
abc
.
ABCMeta
def
__init__
(
self
,
config
):
"""R
"""
self
.
_config
=
config
self
.
_name
=
config
[
'name'
]
f
=
open
(
config
[
'layer_file'
],
'r'
)
...
...
@@ -30,31 +45,52 @@ class Model(object):
pass
def
get_cost_op
(
self
):
"""R
"""
return
self
.
_cost
def
get_metrics
(
self
):
"""R
"""
return
self
.
_metrics
@
abstractmethod
@
ab
c
.
ab
stractmethod
def
shrink
(
self
,
params
):
"""R
"""
pass
@
abstractmethod
@
ab
c
.
ab
stractmethod
def
build_model
(
self
):
"""R
"""
pass
@
abstractmethod
@
ab
c
.
ab
stractmethod
def
dump_model_program
(
self
,
path
):
"""R
"""
pass
@
abstractmethod
@
ab
c
.
ab
stractmethod
def
dump_inference_param
(
self
,
params
):
"""R
"""
pass
@
abstractmethod
@
ab
c
.
ab
stractmethod
def
dump_inference_program
(
self
,
inference_layer
,
path
):
"""R
"""
pass
def
inference_params
(
self
,
inference_layer
):
"""
get params name for inference_layer
Args:
inference_layer(str): layer for inference
Return:
params(list): params name list that for inference layer
"""
layer
=
inference_layer
if
layer
in
self
.
_inference_meta
[
'params'
]:
return
self
.
_inference_meta
[
'params'
][
layer
]
...
...
@@ -69,6 +105,13 @@ class Model(object):
return
self
.
_inference_meta
[
'params'
][
layer
]
def
get_dependency
(
self
,
layer_graph
,
dest_layer
):
"""
get layers of dest_layer depends on
Args:
layer_graph(dict) : all layers in graph
Return:
depend_layers(list) : sub-graph layers for calculate dest_layer
"""
dependency_list
=
[]
if
dest_layer
in
layer_graph
:
dependencys
=
copy
.
deepcopy
(
layer_graph
[
dest_layer
][
'input'
])
...
...
@@ -79,11 +122,24 @@ class Model(object):
class
FluidModel
(
Model
):
"""R
"""
def
__init__
(
self
,
config
):
"""R
"""
Model
.
__init__
(
self
,
config
)
pass
def
build_model
(
self
):
"""R
build a fluid model with config
Return:
modle_instance(dict)
train_program
startup_program
inference_param : all params name list
table: table-meta to ps-server
"""
for
layer
in
self
.
_build_nodes
[
'layer'
]:
self
.
_build_param
[
'inner_layer'
][
layer
[
'name'
]]
=
layer
...
...
@@ -91,7 +147,8 @@ class FluidModel(Model):
self
.
_build_param
[
'table'
]
=
{}
self
.
_build_param
[
'model'
][
'train_program'
]
=
fluid
.
Program
()
self
.
_build_param
[
'model'
][
'startup_program'
]
=
fluid
.
Program
()
with
fluid
.
program_guard
(
self
.
_build_param
[
'model'
][
'train_program'
],
self
.
_build_param
[
'model'
][
'startup_program'
]):
with
fluid
.
program_guard
(
self
.
_build_param
[
'model'
][
'train_program'
],
\
self
.
_build_param
[
'model'
][
'startup_program'
]):
with
fluid
.
unique_name
.
guard
():
for
phase
in
self
.
_build_phase
:
if
self
.
_build_nodes
[
phase
]
is
None
:
...
...
@@ -114,16 +171,19 @@ class FluidModel(Model):
self
.
_metrics
[
extend_output
[
'metric_label'
]]
=
extend_output
[
'metric_dict'
]
if
'inference_param'
in
extend_output
:
param_name
=
extend_output
[
'inference_param'
][
'name'
]
inference_param
=
extend_output
[
'inference_param'
]
param_name
=
inference_param
[
'name'
]
if
param_name
not
in
self
.
_build_param
[
'table'
]:
self
.
_build_param
[
'table'
][
param_name
]
=
{
'params'
:[]}
table_meta
=
kagle_table
.
TableMeta
.
alloc_new_table
(
extend_output
[
'inference_param'
]
[
'table_id'
])
table_meta
=
kagle_table
.
TableMeta
.
alloc_new_table
(
inference_param
[
'table_id'
])
self
.
_build_param
[
'table'
][
param_name
][
'_meta'
]
=
table_meta
self
.
_build_param
[
'table'
][
param_name
][
'params'
]
+=
extend_output
[
'inference_param'
]
[
'params'
]
self
.
_build_param
[
'table'
][
param_name
][
'params'
]
+=
inference_param
[
'params'
]
pass
@
classmethod
def
build_optimizer
(
self
,
params
):
"""R
"""
optimizer_conf
=
params
[
'optimizer_conf'
]
strategy
=
None
if
'strategy'
in
optimizer_conf
:
...
...
@@ -134,12 +194,15 @@ class FluidModel(Model):
model_metrics
=
metrics
[
name
]
stat_var_names
+=
[
model_metrics
[
metric
][
'var'
].
name
for
metric
in
model_metrics
]
strategy
[
'stat_var_names'
]
=
list
(
set
(
stat_var_names
))
optimizer_generator
=
'optimizer = fluid.optimizer.'
+
optimizer_conf
[
'class'
]
+
'(learning_rate='
+
str
(
optimizer_conf
[
'learning_rate'
])
+
')'
optimizer_generator
=
'optimizer = fluid.optimizer.'
+
optimizer_conf
[
'class'
]
+
\
'(learning_rate='
+
str
(
optimizer_conf
[
'learning_rate'
])
+
')'
exec
(
optimizer_generator
)
optimizer
=
fleet
.
distributed_optimizer
(
optimizer
,
strategy
=
strategy
)
return
optimizer
def
dump_model_program
(
self
,
path
):
"""R
"""
with
open
(
path
+
'/'
+
self
.
_name
+
'_main_program.pbtxt'
,
"w"
)
as
fout
:
print
>>
fout
,
self
.
_build_param
[
'model'
][
'train_program'
]
with
open
(
path
+
'/'
+
self
.
_name
+
'_startup_program.pbtxt'
,
"w"
)
as
fout
:
...
...
@@ -147,6 +210,8 @@ class FluidModel(Model):
pass
def
shrink
(
self
,
params
):
"""R
"""
scope
=
params
[
'scope'
]
decay
=
params
[
'decay'
]
for
param_table
in
self
.
_build_param
[
'table'
]:
...
...
@@ -154,9 +219,13 @@ class FluidModel(Model):
fleet
.
shrink_dense_table
(
decay
,
scope
=
scope
,
table_id
=
table_id
)
def
dump_inference_program
(
self
,
inference_layer
,
path
):
"""R
"""
pass
def
dump_inference_param
(
self
,
params
):
"""R
"""
scope
=
params
[
'scope'
]
executor
=
params
[
'executor'
]
program
=
self
.
_build_param
[
'model'
][
'train_program'
]
...
...
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