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0b0c2768
编写于
4月 01, 2022
作者:
Y
yaoxuefeng
提交者:
GitHub
4月 01, 2022
浏览文件
操作
浏览文件
下载
电子邮件补丁
差异文件
modify api name of ps accessor (#41207)
* modify api name of ps accessor * update * code format
上级
8aef685b
变更
19
展开全部
隐藏空白更改
内联
并排
Showing
19 changed file
with
811 addition
and
874 deletion
+811
-874
paddle/fluid/distributed/ps/service/brpc_ps_client.cc
paddle/fluid/distributed/ps/service/brpc_ps_client.cc
+2
-2
paddle/fluid/distributed/ps/service/brpc_ps_server.cc
paddle/fluid/distributed/ps/service/brpc_ps_server.cc
+3
-2
paddle/fluid/distributed/ps/service/ps_client.cc
paddle/fluid/distributed/ps/service/ps_client.cc
+2
-2
paddle/fluid/distributed/ps/service/ps_local_client.cc
paddle/fluid/distributed/ps/service/ps_local_client.cc
+5
-3
paddle/fluid/distributed/ps/table/accessor.h
paddle/fluid/distributed/ps/table/accessor.h
+23
-46
paddle/fluid/distributed/ps/table/common_dense_table.cc
paddle/fluid/distributed/ps/table/common_dense_table.cc
+4
-4
paddle/fluid/distributed/ps/table/ctr_accessor.cc
paddle/fluid/distributed/ps/table/ctr_accessor.cc
+84
-85
paddle/fluid/distributed/ps/table/ctr_accessor.h
paddle/fluid/distributed/ps/table/ctr_accessor.h
+76
-76
paddle/fluid/distributed/ps/table/ctr_double_accessor.cc
paddle/fluid/distributed/ps/table/ctr_double_accessor.cc
+101
-103
paddle/fluid/distributed/ps/table/ctr_double_accessor.h
paddle/fluid/distributed/ps/table/ctr_double_accessor.h
+85
-85
paddle/fluid/distributed/ps/table/downpour_ctr_accessor.cc
paddle/fluid/distributed/ps/table/downpour_ctr_accessor.cc
+90
-101
paddle/fluid/distributed/ps/table/downpour_ctr_accessor.h
paddle/fluid/distributed/ps/table/downpour_ctr_accessor.h
+79
-81
paddle/fluid/distributed/ps/table/memory_sparse_table.cc
paddle/fluid/distributed/ps/table/memory_sparse_table.cc
+31
-33
paddle/fluid/distributed/ps/table/sparse_accessor.cc
paddle/fluid/distributed/ps/table/sparse_accessor.cc
+80
-81
paddle/fluid/distributed/ps/table/sparse_accessor.h
paddle/fluid/distributed/ps/table/sparse_accessor.h
+68
-72
paddle/fluid/distributed/ps/table/table.cc
paddle/fluid/distributed/ps/table/table.cc
+1
-1
paddle/fluid/distributed/ps/table/tensor_accessor.cc
paddle/fluid/distributed/ps/table/tensor_accessor.cc
+25
-41
paddle/fluid/distributed/ps/table/tensor_accessor.h
paddle/fluid/distributed/ps/table/tensor_accessor.h
+19
-23
paddle/fluid/distributed/test/ctr_accessor_test.cc
paddle/fluid/distributed/test/ctr_accessor_test.cc
+33
-33
未找到文件。
paddle/fluid/distributed/ps/service/brpc_ps_client.cc
浏览文件 @
0b0c2768
...
...
@@ -1520,7 +1520,7 @@ void sparse_local_merge(ValueAccessor *accessor, float *merge_data,
merge_data_shell
[
i
]
=
merge_data
+
i
;
another_data_shell
[
i
]
=
another_data
+
i
;
}
accessor
->
m
erge
(
merge_data_shell
,
another_data_shell
,
1
);
accessor
->
M
erge
(
merge_data_shell
,
another_data_shell
,
1
);
}
int
BrpcPsClient
::
push_sparse_async_shard_merge
(
...
...
@@ -1759,7 +1759,7 @@ void BrpcPsClient::push_dense_task_consume() {
async_task
]()
->
int
{
auto
&
tmp_task_vec
=
*
(
async_task
->
data
());
const
float
*
merge_data
=
tmp_task_vec
.
data
();
accessor
->
m
erge
(
&
total_send_data
,
&
merge_data
,
accessor
->
M
erge
(
&
total_send_data
,
&
merge_data
,
total_send_data_size
);
#pragma optimize("", off)
auto
*
debug_closure
=
closure
;
...
...
paddle/fluid/distributed/ps/service/brpc_ps_server.cc
浏览文件 @
0b0c2768
...
...
@@ -206,7 +206,8 @@ int32_t BrpcPsService::pull_dense(Table *table, const PsRequestMessage &request,
}
auto
res_data
=
butil
::
get_object
<
std
::
vector
<
float
>>
();
res_data
->
resize
(
num
*
table
->
value_accesor
()
->
select_size
()
/
sizeof
(
float
));
res_data
->
resize
(
num
*
table
->
value_accesor
()
->
GetTableInfo
(
SELECT_SIZE
)
/
sizeof
(
float
));
TableContext
table_context
;
table_context
.
value_type
=
Dense
;
table_context
.
pull_context
.
values
=
res_data
->
data
();
...
...
@@ -385,7 +386,7 @@ int32_t BrpcPsService::pull_sparse(Table *table,
CostTimer
timer
(
"pserver_server_pull_sparse"
);
uint32_t
num
=
*
(
uint32_t
*
)(
request
.
params
(
0
).
c_str
());
auto
dim
=
table
->
value_accesor
()
->
select_dim
(
);
auto
dim
=
table
->
value_accesor
()
->
GetTableInfo
(
SELECT_DIM
);
thread_local
std
::
string
req_buffer
;
req_buffer
.
reserve
(
req_buffer_size
);
...
...
paddle/fluid/distributed/ps/service/ps_client.cc
浏览文件 @
0b0c2768
...
...
@@ -46,8 +46,8 @@ int32_t PSClient::configure(
auto
*
accessor
=
CREATE_PSCORE_CLASS
(
ValueAccessor
,
work_param
.
downpour_table_param
(
i
).
accessor
().
accessor_class
());
accessor
->
c
onfigure
(
work_param
.
downpour_table_param
(
i
).
accessor
());
accessor
->
i
nitialize
();
accessor
->
C
onfigure
(
work_param
.
downpour_table_param
(
i
).
accessor
());
accessor
->
I
nitialize
();
_table_accessors
[
work_param
.
downpour_table_param
(
i
).
table_id
()].
reset
(
accessor
);
}
...
...
paddle/fluid/distributed/ps/service/ps_local_client.cc
100755 → 100644
浏览文件 @
0b0c2768
...
...
@@ -174,7 +174,8 @@ std::future<int32_t> PsLocalClient::Load(const LoadSaveContext& load_context) {
auto
*
accessor
=
table_accessor
(
table_id
);
auto
*
table_ptr
=
table
(
table_id
);
uint32_t
num_per_shard
=
dense_dim_per_shard
(
accessor
->
fea_dim
(),
1
);
uint32_t
num_per_shard
=
dense_dim_per_shard
(
accessor
->
GetTableInfo
(
FEA_DIM
),
1
);
std
::
vector
<
float
>
region_buffer
;
region_buffer
.
resize
(
num_per_shard
);
table_ptr
->
pull_dense
(
region_buffer
.
data
(),
region_buffer
.
size
());
...
...
@@ -219,7 +220,8 @@ std::future<int32_t> PsLocalClient::Load(const LoadSaveContext& load_context) {
auto
*
table_ptr
=
table
(
table_id
);
std
::
vector
<
float
>
region_buffer
;
region_buffer
.
resize
(
dense_dim_per_shard
(
accessor
->
fea_dim
(),
1
),
0
);
region_buffer
.
resize
(
dense_dim_per_shard
(
accessor
->
GetTableInfo
(
FEA_DIM
),
1
),
0
);
for
(
size_t
i
=
0
,
offset
=
0
;
i
<
region_num
;
++
i
)
{
uint32_t
data_num
=
regions
[
i
].
size
/
sizeof
(
float
);
memcpy
(
region_buffer
.
data
()
+
offset
,
regions
[
i
].
data
,
regions
[
i
].
size
);
...
...
@@ -252,7 +254,7 @@ std::future<int32_t> PsLocalClient::Load(const LoadSaveContext& load_context) {
auto
*
table_ptr
=
table
(
table_id
);
std
::
vector
<
float
>
region_buffer
;
region_buffer
.
resize
(
dense_dim_per_shard
(
accessor
->
fea_dim
(
),
1
));
region_buffer
.
resize
(
dense_dim_per_shard
(
accessor
->
GetTableInfo
(
FEA_DIM
),
1
));
size_t
data_size
=
region_buffer
.
size
();
for
(
size_t
i
=
0
,
offset
=
0
;
i
<
region_num
;
++
i
)
{
uint32_t
data_num
=
regions
[
i
].
size
/
sizeof
(
float
);
...
...
paddle/fluid/distributed/ps/table/accessor.h
浏览文件 @
0b0c2768
...
...
@@ -72,7 +72,7 @@ class ValueAccessor {
ValueAccessor
()
{}
virtual
~
ValueAccessor
()
{}
virtual
int
c
onfigure
(
const
TableAccessorParameter
&
parameter
)
{
virtual
int
C
onfigure
(
const
TableAccessorParameter
&
parameter
)
{
_config
=
parameter
;
// data_convert结构体初始化
if
(
_config
.
table_accessor_save_param_size
()
!=
0
)
{
...
...
@@ -88,38 +88,15 @@ class ValueAccessor {
}
return
0
;
}
virtual
int
i
nitialize
()
=
0
;
virtual
int
I
nitialize
()
=
0
;
virtual
void
SetTableInfo
(
AccessorInfo
&
info
)
=
0
;
virtual
size_t
GetTableInfo
(
InfoKey
key
)
=
0
;
// value维度
virtual
size_t
dim
()
=
0
;
// value各个维度的size
virtual
size_t
dim_size
(
size_t
dim
)
=
0
;
// value各维度相加总size
virtual
size_t
size
()
=
0
;
// value中mf动态长度部分总size大小, sparse下生效
virtual
size_t
mf_size
()
{
return
0
;
}
virtual
bool
need_extend_mf
(
float
*
value
)
{
return
false
;
}
virtual
bool
has_mf
(
size_t
size
)
{
return
false
;
}
// pull value维度
virtual
size_t
select_dim
()
=
0
;
// pull value各个维度的size
virtual
size_t
select_dim_size
(
size_t
dim
)
=
0
;
// pull value各维度相加总size
virtual
size_t
select_size
()
=
0
;
// push value维度
virtual
size_t
update_dim
()
=
0
;
// push value各个维度的size
virtual
size_t
update_dim_size
(
size_t
dim
)
=
0
;
// push value各维度相加总size
virtual
size_t
update_size
()
=
0
;
// fea total for dense
virtual
size_t
fea_dim
()
{
return
_config
.
fea_dim
();
}
virtual
bool
NeedExtendMF
(
float
*
value
)
{
return
false
;
}
virtual
bool
HasMF
(
size_t
size
)
{
return
false
;
}
// converter for save
virtual
std
::
string
get_c
onverter
(
int
param
)
{
virtual
std
::
string
GetC
onverter
(
int
param
)
{
auto
itr
=
_data_coverter_map
.
find
(
param
);
if
(
itr
==
_data_coverter_map
.
end
())
{
return
""
;
...
...
@@ -128,7 +105,7 @@ class ValueAccessor {
}
}
// deconverter for load
virtual
std
::
string
get_d
econverter
(
int
param
)
{
virtual
std
::
string
GetD
econverter
(
int
param
)
{
auto
itr
=
_data_coverter_map
.
find
(
param
);
if
(
itr
==
_data_coverter_map
.
end
())
{
return
""
;
...
...
@@ -137,47 +114,47 @@ class ValueAccessor {
}
}
// 判断该value是否进行shrink
virtual
bool
s
hrink
(
float
*
value
)
=
0
;
virtual
bool
S
hrink
(
float
*
value
)
=
0
;
// 判断该value是否在save阶段dump,
// param作为参数用于标识save阶段,如downpour的xbox与batch_model
virtual
bool
s
ave
(
float
*
value
,
int
param
)
=
0
;
virtual
bool
S
ave
(
float
*
value
,
int
param
)
=
0
;
// update delta_score and unseen_days after save
virtual
void
update_stat_after_s
ave
(
float
*
value
,
int
param
)
{}
virtual
void
UpdateStatAfterS
ave
(
float
*
value
,
int
param
)
{}
// keys不存在时,为values生成随机值
virtual
int32_t
c
reate
(
float
**
value
,
size_t
num
)
=
0
;
virtual
bool
create_v
alue
(
int
type
,
const
float
*
value
)
{
return
true
;
}
virtual
int32_t
C
reate
(
float
**
value
,
size_t
num
)
=
0
;
virtual
bool
CreateV
alue
(
int
type
,
const
float
*
value
)
{
return
true
;
}
// 从values中选取到select_values中
virtual
int32_t
s
elect
(
float
**
select_values
,
const
float
**
values
,
virtual
int32_t
S
elect
(
float
**
select_values
,
const
float
**
values
,
size_t
num
)
=
0
;
// 将update_values聚合到一起
virtual
int32_t
m
erge
(
float
**
update_values
,
virtual
int32_t
M
erge
(
float
**
update_values
,
const
float
**
other_update_values
,
size_t
num
)
=
0
;
// 将update_values聚合到一起,通过it.next判定是否进入下一个key
// virtual int32_t
m
erge(float** update_values, iterator it);
// virtual int32_t
M
erge(float** update_values, iterator it);
// 将update_values更新应用到values中
virtual
int32_t
u
pdate
(
float
**
values
,
const
float
**
update_values
,
virtual
int32_t
U
pdate
(
float
**
values
,
const
float
**
update_values
,
size_t
num
)
=
0
;
// used to save model, will filter feature
virtual
std
::
string
parse_to_s
tring
(
const
float
*
value
,
int
param
)
=
0
;
virtual
std
::
string
ParseToS
tring
(
const
float
*
value
,
int
param
)
=
0
;
// parse value from string, used to load model
virtual
int32_t
parse_from_s
tring
(
const
std
::
string
&
data
,
float
*
value
)
=
0
;
virtual
int32_t
ParseFromS
tring
(
const
std
::
string
&
data
,
float
*
value
)
=
0
;
virtual
FsDataConverter
c
onverter
(
int
param
)
{
virtual
FsDataConverter
C
onverter
(
int
param
)
{
FsDataConverter
data_convert
;
data_convert
.
converter
=
this
->
get_c
onverter
(
param
);
data_convert
.
deconverter
=
this
->
get_d
econverter
(
param
);
data_convert
.
converter
=
this
->
GetC
onverter
(
param
);
data_convert
.
deconverter
=
this
->
GetD
econverter
(
param
);
return
data_convert
;
}
virtual
int
set_w
eight
(
float
**
values
,
const
float
**
update_values
,
size_t
num
)
{
virtual
int
SetW
eight
(
float
**
values
,
const
float
**
update_values
,
size_t
num
)
{
return
0
;
}
virtual
float
get_f
ield
(
float
*
value
,
const
std
::
string
&
name
)
{
return
0.0
;
}
virtual
float
GetF
ield
(
float
*
value
,
const
std
::
string
&
name
)
{
return
0.0
;
}
#define DEFINE_GET_INDEX(class, field) \
virtual int get_##field##_index() override { return class ::field##_index(); }
...
...
paddle/fluid/distributed/ps/table/common_dense_table.cc
浏览文件 @
0b0c2768
...
...
@@ -232,9 +232,9 @@ int32_t CommonDenseTable::load(const std::string& path,
int
load_param
=
atoi
(
param
.
c_str
());
FsChannelConfig
channel_config
;
channel_config
.
converter
=
_value_accesor
->
c
onverter
(
load_param
).
converter
;
channel_config
.
converter
=
_value_accesor
->
C
onverter
(
load_param
).
converter
;
channel_config
.
deconverter
=
_value_accesor
->
c
onverter
(
load_param
).
deconverter
;
_value_accesor
->
C
onverter
(
load_param
).
deconverter
;
bool
is_read_failed
=
false
;
int
err_no
=
0
;
int
retry_num
=
0
;
...
...
@@ -329,9 +329,9 @@ int32_t CommonDenseTable::save(const std::string& path,
"%s/part-%03d"
,
table_dir
(
path
).
c_str
(),
_shard_idx
);
}
_afs_client
.
remove
(
channel_config
.
path
);
channel_config
.
converter
=
_value_accesor
->
c
onverter
(
save_param
).
converter
;
channel_config
.
converter
=
_value_accesor
->
C
onverter
(
save_param
).
converter
;
channel_config
.
deconverter
=
_value_accesor
->
c
onverter
(
save_param
).
deconverter
;
_value_accesor
->
C
onverter
(
save_param
).
deconverter
;
bool
is_write_failed
=
false
;
std
::
vector
<
std
::
vector
<
std
::
string
>>
result_buffer_param
(
...
...
paddle/fluid/distributed/ps/table/ctr_accessor.cc
浏览文件 @
0b0c2768
...
...
@@ -20,7 +20,7 @@
namespace
paddle
{
namespace
distributed
{
int
CtrCommonAccessor
::
i
nitialize
()
{
int
CtrCommonAccessor
::
I
nitialize
()
{
auto
name
=
_config
.
embed_sgd_param
().
name
();
_embed_sgd_rule
=
CREATE_PSCORE_CLASS
(
SparseValueSGDRule
,
name
);
_embed_sgd_rule
->
load_config
(
_config
.
embed_sgd_param
(),
1
);
...
...
@@ -39,73 +39,72 @@ int CtrCommonAccessor::initialize() {
}
void
CtrCommonAccessor
::
SetTableInfo
(
AccessorInfo
&
info
)
{
info
.
dim
=
dim
();
info
.
size
=
size
();
info
.
select_dim
=
select_dim
();
info
.
select_size
=
select_size
();
info
.
update_dim
=
update_dim
();
info
.
update_size
=
update_size
();
info
.
mf_size
=
mf_size
();
info
.
fea_dim
=
fea_dim
();
info
.
dim
=
Dim
();
info
.
size
=
Size
();
info
.
select_dim
=
SelectDim
();
info
.
select_size
=
SelectSize
();
info
.
update_dim
=
UpdateDim
();
info
.
update_size
=
UpdateSize
();
info
.
mf_size
=
MFSize
();
}
size_t
CtrCommonAccessor
::
GetTableInfo
(
InfoKey
key
)
{
switch
(
key
)
{
case
DIM
:
return
d
im
();
return
D
im
();
case
SIZE
:
return
s
ize
();
return
S
ize
();
case
SELECT_DIM
:
return
select_d
im
();
return
SelectD
im
();
case
SELECT_SIZE
:
return
select_s
ize
();
return
SelectS
ize
();
case
UPDATE_DIM
:
return
update_d
im
();
return
UpdateD
im
();
case
UPDATE_SIZE
:
return
update_s
ize
();
return
UpdateS
ize
();
case
MF_SIZE
:
return
mf_s
ize
();
case
FEA_DIM
:
return
fea_dim
()
;
return
MFS
ize
();
default
:
return
0
;
}
return
0
;
}
size_t
CtrCommonAccessor
::
dim
()
{
return
common_feature_value
.
d
im
();
}
size_t
CtrCommonAccessor
::
Dim
()
{
return
common_feature_value
.
D
im
();
}
size_t
CtrCommonAccessor
::
dim_s
ize
(
size_t
dim
)
{
size_t
CtrCommonAccessor
::
DimS
ize
(
size_t
dim
)
{
auto
embedx_dim
=
_config
.
embedx_dim
();
return
common_feature_value
.
dim_s
ize
(
dim
,
embedx_dim
);
return
common_feature_value
.
DimS
ize
(
dim
,
embedx_dim
);
}
size_t
CtrCommonAccessor
::
size
()
{
return
common_feature_value
.
s
ize
();
}
size_t
CtrCommonAccessor
::
Size
()
{
return
common_feature_value
.
S
ize
();
}
size_t
CtrCommonAccessor
::
mf_s
ize
()
{
size_t
CtrCommonAccessor
::
MFS
ize
()
{
return
(
_config
.
embedx_dim
()
+
common_feature_value
.
embedx_sgd_dim
)
*
sizeof
(
float
);
// embedx embedx_g2sum
}
// pull value
size_t
CtrCommonAccessor
::
select_d
im
()
{
size_t
CtrCommonAccessor
::
SelectD
im
()
{
auto
embedx_dim
=
_config
.
embedx_dim
();
return
3
+
embedx_dim
;
}
size_t
CtrCommonAccessor
::
select_dim_s
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
size_t
CtrCommonAccessor
::
SelectDimS
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
size_t
CtrCommonAccessor
::
select_size
()
{
return
select_d
im
()
*
sizeof
(
float
);
}
size_t
CtrCommonAccessor
::
SelectSize
()
{
return
SelectD
im
()
*
sizeof
(
float
);
}
// push value
size_t
CtrCommonAccessor
::
update_d
im
()
{
size_t
CtrCommonAccessor
::
UpdateD
im
()
{
auto
embedx_dim
=
_config
.
embedx_dim
();
return
4
+
embedx_dim
;
}
size_t
CtrCommonAccessor
::
update_dim_s
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
size_t
CtrCommonAccessor
::
UpdateDimS
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
size_t
CtrCommonAccessor
::
update_size
()
{
return
update_d
im
()
*
sizeof
(
float
);
}
size_t
CtrCommonAccessor
::
UpdateSize
()
{
return
UpdateD
im
()
*
sizeof
(
float
);
}
bool
CtrCommonAccessor
::
s
hrink
(
float
*
value
)
{
bool
CtrCommonAccessor
::
S
hrink
(
float
*
value
)
{
auto
base_threshold
=
_config
.
ctr_accessor_param
().
base_threshold
();
auto
delta_threshold
=
_config
.
ctr_accessor_param
().
delta_threshold
();
auto
delete_after_unseen_days
=
...
...
@@ -113,12 +112,12 @@ bool CtrCommonAccessor::shrink(float* value) {
auto
delete_threshold
=
_config
.
ctr_accessor_param
().
delete_threshold
();
// time_decay first
common_feature_value
.
s
how
(
value
)
*=
_show_click_decay_rate
;
common_feature_value
.
c
lick
(
value
)
*=
_show_click_decay_rate
;
common_feature_value
.
S
how
(
value
)
*=
_show_click_decay_rate
;
common_feature_value
.
C
lick
(
value
)
*=
_show_click_decay_rate
;
// shrink after
auto
score
=
show_click_score
(
common_feature_value
.
s
how
(
value
),
common_feature_value
.
c
lick
(
value
));
auto
score
=
show_click_score
(
common_feature_value
.
S
how
(
value
),
common_feature_value
.
C
lick
(
value
));
auto
unseen_days
=
common_feature_value
.
unseen_days
(
value
);
if
(
score
<
delete_threshold
||
unseen_days
>
delete_after_unseen_days
)
{
return
true
;
...
...
@@ -126,7 +125,7 @@ bool CtrCommonAccessor::shrink(float* value) {
return
false
;
}
bool
CtrCommonAccessor
::
s
ave
(
float
*
value
,
int
param
)
{
bool
CtrCommonAccessor
::
S
ave
(
float
*
value
,
int
param
)
{
auto
base_threshold
=
_config
.
ctr_accessor_param
().
base_threshold
();
auto
delta_threshold
=
_config
.
ctr_accessor_param
().
delta_threshold
();
auto
delta_keep_days
=
_config
.
ctr_accessor_param
().
delta_keep_days
();
...
...
@@ -142,8 +141,8 @@ bool CtrCommonAccessor::save(float* value, int param) {
case
1
:
// save xbox base
case
2
:
{
if
(
show_click_score
(
common_feature_value
.
s
how
(
value
),
common_feature_value
.
c
lick
(
value
))
>=
if
(
show_click_score
(
common_feature_value
.
S
how
(
value
),
common_feature_value
.
C
lick
(
value
))
>=
base_threshold
&&
common_feature_value
.
delta_score
(
value
)
>=
delta_threshold
&&
common_feature_value
.
unseen_days
(
value
)
<=
delta_keep_days
)
{
...
...
@@ -171,7 +170,7 @@ bool CtrCommonAccessor::save(float* value, int param) {
}
}
void
CtrCommonAccessor
::
update_stat_after_s
ave
(
float
*
value
,
int
param
)
{
void
CtrCommonAccessor
::
UpdateStatAfterS
ave
(
float
*
value
,
int
param
)
{
auto
base_threshold
=
_config
.
ctr_accessor_param
().
base_threshold
();
auto
delta_threshold
=
_config
.
ctr_accessor_param
().
delta_threshold
();
auto
delta_keep_days
=
_config
.
ctr_accessor_param
().
delta_keep_days
();
...
...
@@ -180,8 +179,8 @@ void CtrCommonAccessor::update_stat_after_save(float* value, int param) {
}
switch
(
param
)
{
case
1
:
{
if
(
show_click_score
(
common_feature_value
.
s
how
(
value
),
common_feature_value
.
c
lick
(
value
))
>=
if
(
show_click_score
(
common_feature_value
.
S
how
(
value
),
common_feature_value
.
C
lick
(
value
))
>=
base_threshold
&&
common_feature_value
.
delta_score
(
value
)
>=
delta_threshold
&&
common_feature_value
.
unseen_days
(
value
)
<=
delta_keep_days
)
{
...
...
@@ -198,52 +197,52 @@ void CtrCommonAccessor::update_stat_after_save(float* value, int param) {
}
}
int32_t
CtrCommonAccessor
::
c
reate
(
float
**
values
,
size_t
num
)
{
int32_t
CtrCommonAccessor
::
C
reate
(
float
**
values
,
size_t
num
)
{
auto
embedx_dim
=
_config
.
embedx_dim
();
for
(
size_t
value_item
=
0
;
value_item
<
num
;
++
value_item
)
{
float
*
value
=
values
[
value_item
];
value
[
common_feature_value
.
unseen_days_index
()]
=
0
;
value
[
common_feature_value
.
delta_score_index
()]
=
0
;
value
[
common_feature_value
.
show_i
ndex
()]
=
0
;
value
[
common_feature_value
.
click_i
ndex
()]
=
0
;
value
[
common_feature_value
.
slot_i
ndex
()]
=
-
1
;
value
[
common_feature_value
.
ShowI
ndex
()]
=
0
;
value
[
common_feature_value
.
ClickI
ndex
()]
=
0
;
value
[
common_feature_value
.
SlotI
ndex
()]
=
-
1
;
_embed_sgd_rule
->
init_value
(
value
+
common_feature_value
.
embed_w_i
ndex
(),
value
+
common_feature_value
.
Embed_W_I
ndex
(),
value
+
common_feature_value
.
embed_g2sum_index
());
_embedx_sgd_rule
->
init_value
(
value
+
common_feature_value
.
embedx_w_i
ndex
(),
value
+
common_feature_value
.
Embedx_W_I
ndex
(),
value
+
common_feature_value
.
embedx_g2sum_index
(),
false
);
}
return
0
;
}
bool
CtrCommonAccessor
::
need_extend_mf
(
float
*
value
)
{
float
show
=
value
[
common_feature_value
.
show_i
ndex
()];
float
click
=
value
[
common_feature_value
.
click_i
ndex
()];
bool
CtrCommonAccessor
::
NeedExtendMF
(
float
*
value
)
{
float
show
=
value
[
common_feature_value
.
ShowI
ndex
()];
float
click
=
value
[
common_feature_value
.
ClickI
ndex
()];
float
score
=
(
show
-
click
)
*
_config
.
ctr_accessor_param
().
nonclk_coeff
()
+
click
*
_config
.
ctr_accessor_param
().
click_coeff
();
return
score
>=
_config
.
embedx_threshold
();
}
bool
CtrCommonAccessor
::
has_mf
(
size_t
size
)
{
bool
CtrCommonAccessor
::
HasMF
(
size_t
size
)
{
return
size
>
common_feature_value
.
embedx_g2sum_index
();
}
// from CommonFeatureValue to CtrCommonPullValue
int32_t
CtrCommonAccessor
::
s
elect
(
float
**
select_values
,
const
float
**
values
,
int32_t
CtrCommonAccessor
::
S
elect
(
float
**
select_values
,
const
float
**
values
,
size_t
num
)
{
auto
embedx_dim
=
_config
.
embedx_dim
();
for
(
size_t
value_item
=
0
;
value_item
<
num
;
++
value_item
)
{
float
*
select_value
=
select_values
[
value_item
];
const
float
*
value
=
values
[
value_item
];
select_value
[
CtrCommonPullValue
::
show_i
ndex
()]
=
value
[
common_feature_value
.
show_i
ndex
()];
select_value
[
CtrCommonPullValue
::
click_i
ndex
()]
=
value
[
common_feature_value
.
click_i
ndex
()];
select_value
[
CtrCommonPullValue
::
embed_w_i
ndex
()]
=
value
[
common_feature_value
.
embed_w_i
ndex
()];
memcpy
(
select_value
+
CtrCommonPullValue
::
embedx_w_i
ndex
(),
value
+
common_feature_value
.
embedx_w_i
ndex
(),
select_value
[
CtrCommonPullValue
::
ShowI
ndex
()]
=
value
[
common_feature_value
.
ShowI
ndex
()];
select_value
[
CtrCommonPullValue
::
ClickI
ndex
()]
=
value
[
common_feature_value
.
ClickI
ndex
()];
select_value
[
CtrCommonPullValue
::
Embed_W_I
ndex
()]
=
value
[
common_feature_value
.
Embed_W_I
ndex
()];
memcpy
(
select_value
+
CtrCommonPullValue
::
Embedx_W_I
ndex
(),
value
+
common_feature_value
.
Embedx_W_I
ndex
(),
embedx_dim
*
sizeof
(
float
));
}
return
0
;
...
...
@@ -252,16 +251,16 @@ int32_t CtrCommonAccessor::select(float** select_values, const float** values,
// from CtrCommonPushValue to CtrCommonPushValue
// first dim: item
// second dim: field num
int32_t
CtrCommonAccessor
::
m
erge
(
float
**
update_values
,
int32_t
CtrCommonAccessor
::
M
erge
(
float
**
update_values
,
const
float
**
other_update_values
,
size_t
num
)
{
auto
embedx_dim
=
_config
.
embedx_dim
();
size_t
total_dim
=
CtrCommonPushValue
::
d
im
(
embedx_dim
);
size_t
total_dim
=
CtrCommonPushValue
::
D
im
(
embedx_dim
);
for
(
size_t
value_item
=
0
;
value_item
<
num
;
++
value_item
)
{
float
*
update_value
=
update_values
[
value_item
];
const
float
*
other_update_value
=
other_update_values
[
value_item
];
for
(
auto
i
=
0u
;
i
<
total_dim
;
++
i
)
{
if
(
i
!=
CtrCommonPushValue
::
slot_i
ndex
())
{
if
(
i
!=
CtrCommonPushValue
::
SlotI
ndex
())
{
update_value
[
i
]
+=
other_update_value
[
i
];
}
}
...
...
@@ -272,43 +271,43 @@ int32_t CtrCommonAccessor::merge(float** update_values,
// from CtrCommonPushValue to CommonFeatureValue
// first dim: item
// second dim: field num
int32_t
CtrCommonAccessor
::
u
pdate
(
float
**
update_values
,
int32_t
CtrCommonAccessor
::
U
pdate
(
float
**
update_values
,
const
float
**
push_values
,
size_t
num
)
{
auto
embedx_dim
=
_config
.
embedx_dim
();
for
(
size_t
value_item
=
0
;
value_item
<
num
;
++
value_item
)
{
float
*
update_value
=
update_values
[
value_item
];
const
float
*
push_value
=
push_values
[
value_item
];
float
push_show
=
push_value
[
CtrCommonPushValue
::
show_i
ndex
()];
float
push_click
=
push_value
[
CtrCommonPushValue
::
click_i
ndex
()];
float
slot
=
push_value
[
CtrCommonPushValue
::
slot_i
ndex
()];
update_value
[
common_feature_value
.
show_i
ndex
()]
+=
push_show
;
update_value
[
common_feature_value
.
click_i
ndex
()]
+=
push_click
;
update_value
[
common_feature_value
.
slot_i
ndex
()]
=
slot
;
float
push_show
=
push_value
[
CtrCommonPushValue
::
ShowI
ndex
()];
float
push_click
=
push_value
[
CtrCommonPushValue
::
ClickI
ndex
()];
float
slot
=
push_value
[
CtrCommonPushValue
::
SlotI
ndex
()];
update_value
[
common_feature_value
.
ShowI
ndex
()]
+=
push_show
;
update_value
[
common_feature_value
.
ClickI
ndex
()]
+=
push_click
;
update_value
[
common_feature_value
.
SlotI
ndex
()]
=
slot
;
update_value
[
common_feature_value
.
delta_score_index
()]
+=
(
push_show
-
push_click
)
*
_config
.
ctr_accessor_param
().
nonclk_coeff
()
+
push_click
*
_config
.
ctr_accessor_param
().
click_coeff
();
update_value
[
common_feature_value
.
unseen_days_index
()]
=
0
;
_embed_sgd_rule
->
update_value
(
update_value
+
common_feature_value
.
embed_w_i
ndex
(),
update_value
+
common_feature_value
.
Embed_W_I
ndex
(),
update_value
+
common_feature_value
.
embed_g2sum_index
(),
push_value
+
CtrCommonPushValue
::
embed_g_i
ndex
());
push_value
+
CtrCommonPushValue
::
Embed_G_I
ndex
());
_embedx_sgd_rule
->
update_value
(
update_value
+
common_feature_value
.
embedx_w_i
ndex
(),
update_value
+
common_feature_value
.
Embedx_W_I
ndex
(),
update_value
+
common_feature_value
.
embedx_g2sum_index
(),
push_value
+
CtrCommonPushValue
::
embedx_g_i
ndex
());
push_value
+
CtrCommonPushValue
::
Embedx_G_I
ndex
());
}
return
0
;
}
bool
CtrCommonAccessor
::
create_v
alue
(
int
stage
,
const
float
*
value
)
{
bool
CtrCommonAccessor
::
CreateV
alue
(
int
stage
,
const
float
*
value
)
{
// stage == 0, pull
// stage == 1, push
if
(
stage
==
0
)
{
return
true
;
}
else
if
(
stage
==
1
)
{
// operation
auto
show
=
CtrCommonPushValue
::
s
how
(
const_cast
<
float
*>
(
value
));
auto
click
=
CtrCommonPushValue
::
c
lick
(
const_cast
<
float
*>
(
value
));
auto
show
=
CtrCommonPushValue
::
S
how
(
const_cast
<
float
*>
(
value
));
auto
click
=
CtrCommonPushValue
::
C
lick
(
const_cast
<
float
*>
(
value
));
auto
score
=
show_click_score
(
show
,
click
);
if
(
score
<=
0
)
{
return
false
;
...
...
@@ -329,34 +328,34 @@ float CtrCommonAccessor::show_click_score(float show, float click) {
return
(
show
-
click
)
*
nonclk_coeff
+
click
*
click_coeff
;
}
std
::
string
CtrCommonAccessor
::
parse_to_s
tring
(
const
float
*
v
,
int
param
)
{
std
::
string
CtrCommonAccessor
::
ParseToS
tring
(
const
float
*
v
,
int
param
)
{
thread_local
std
::
ostringstream
os
;
os
.
clear
();
os
.
str
(
""
);
os
<<
v
[
0
]
<<
" "
<<
v
[
1
]
<<
" "
<<
v
[
2
]
<<
" "
<<
v
[
3
]
<<
" "
<<
v
[
4
]
<<
" "
<<
v
[
5
];
for
(
int
i
=
common_feature_value
.
embed_g2sum_index
();
i
<
common_feature_value
.
embedx_w_i
ndex
();
i
++
)
{
i
<
common_feature_value
.
Embedx_W_I
ndex
();
i
++
)
{
os
<<
" "
<<
v
[
i
];
}
auto
show
=
common_feature_value
.
s
how
(
const_cast
<
float
*>
(
v
));
auto
click
=
common_feature_value
.
c
lick
(
const_cast
<
float
*>
(
v
));
auto
show
=
common_feature_value
.
S
how
(
const_cast
<
float
*>
(
v
));
auto
click
=
common_feature_value
.
C
lick
(
const_cast
<
float
*>
(
v
));
auto
score
=
show_click_score
(
show
,
click
);
if
(
score
>=
_config
.
embedx_threshold
()
&&
param
>
common_feature_value
.
embedx_w_i
ndex
())
{
for
(
auto
i
=
common_feature_value
.
embedx_w_i
ndex
();
i
<
common_feature_value
.
d
im
();
++
i
)
{
param
>
common_feature_value
.
Embedx_W_I
ndex
())
{
for
(
auto
i
=
common_feature_value
.
Embedx_W_I
ndex
();
i
<
common_feature_value
.
D
im
();
++
i
)
{
os
<<
" "
<<
v
[
i
];
}
}
return
os
.
str
();
}
int
CtrCommonAccessor
::
parse_from_s
tring
(
const
std
::
string
&
str
,
float
*
value
)
{
int
CtrCommonAccessor
::
ParseFromS
tring
(
const
std
::
string
&
str
,
float
*
value
)
{
int
embedx_dim
=
_config
.
embedx_dim
();
_embedx_sgd_rule
->
init_value
(
value
+
common_feature_value
.
embedx_w_i
ndex
(),
value
+
common_feature_value
.
Embedx_W_I
ndex
(),
value
+
common_feature_value
.
embedx_g2sum_index
());
auto
ret
=
paddle
::
string
::
str_to_float
(
str
.
data
(),
value
);
CHECK
(
ret
>=
6
)
<<
"expect more than 6 real:"
<<
ret
;
...
...
paddle/fluid/distributed/ps/table/ctr_accessor.h
浏览文件 @
0b0c2768
...
...
@@ -40,27 +40,27 @@ class CtrCommonAccessor : public ValueAccessor {
std::<vector>float embedx_g2sum;
*/
int
d
im
()
{
return
6
+
embed_sgd_dim
+
embedx_sgd_dim
+
embedx_dim
;
}
int
dim_s
ize
(
size_t
dim
,
int
embedx_dim
)
{
return
sizeof
(
float
);
}
int
size
()
{
return
d
im
()
*
sizeof
(
float
);
}
int
slot_i
ndex
()
{
return
0
;
}
int
unseen_days_index
()
{
return
slot_i
ndex
()
+
1
;
}
int
D
im
()
{
return
6
+
embed_sgd_dim
+
embedx_sgd_dim
+
embedx_dim
;
}
int
DimS
ize
(
size_t
dim
,
int
embedx_dim
)
{
return
sizeof
(
float
);
}
int
Size
()
{
return
D
im
()
*
sizeof
(
float
);
}
int
SlotI
ndex
()
{
return
0
;
}
int
unseen_days_index
()
{
return
SlotI
ndex
()
+
1
;
}
int
delta_score_index
()
{
return
unseen_days_index
()
+
1
;
}
int
show_i
ndex
()
{
return
delta_score_index
()
+
1
;
}
int
click_index
()
{
return
show_i
ndex
()
+
1
;
}
int
embed_w_index
()
{
return
click_i
ndex
()
+
1
;
}
int
embed_g2sum_index
()
{
return
embed_w_i
ndex
()
+
1
;
}
int
embedx_w_i
ndex
()
{
return
embed_g2sum_index
()
+
embed_sgd_dim
;
}
int
embedx_g2sum_index
()
{
return
embedx_w_i
ndex
()
+
embedx_dim
;
}
int
ShowI
ndex
()
{
return
delta_score_index
()
+
1
;
}
int
ClickIndex
()
{
return
ShowI
ndex
()
+
1
;
}
int
Embed_W_Index
()
{
return
ClickI
ndex
()
+
1
;
}
int
embed_g2sum_index
()
{
return
Embed_W_I
ndex
()
+
1
;
}
int
Embedx_W_I
ndex
()
{
return
embed_g2sum_index
()
+
embed_sgd_dim
;
}
int
embedx_g2sum_index
()
{
return
Embedx_W_I
ndex
()
+
embedx_dim
;
}
float
&
unseen_days
(
float
*
val
)
{
return
val
[
unseen_days_index
()];
}
float
&
delta_score
(
float
*
val
)
{
return
val
[
delta_score_index
()];
}
float
&
show
(
float
*
val
)
{
return
val
[
show_i
ndex
()];
}
float
&
click
(
float
*
val
)
{
return
val
[
click_i
ndex
()];
}
float
&
slot
(
float
*
val
)
{
return
val
[
slot_i
ndex
()];
}
float
&
embed_w
(
float
*
val
)
{
return
val
[
embed_w_i
ndex
()];
}
float
&
Show
(
float
*
val
)
{
return
val
[
ShowI
ndex
()];
}
float
&
Click
(
float
*
val
)
{
return
val
[
ClickI
ndex
()];
}
float
&
Slot
(
float
*
val
)
{
return
val
[
SlotI
ndex
()];
}
float
&
EmbedW
(
float
*
val
)
{
return
val
[
Embed_W_I
ndex
()];
}
float
&
embed_g2sum
(
float
*
val
)
{
return
val
[
embed_g2sum_index
()];
}
float
&
embedx_w
(
float
*
val
)
{
return
val
[
embedx_w_i
ndex
()];
}
float
&
EmbedxW
(
float
*
val
)
{
return
val
[
Embedx_W_I
ndex
()];
}
float
&
embedx_g2sum
(
float
*
val
)
{
return
val
[
embedx_g2sum_index
()];
}
int
embed_sgd_dim
;
...
...
@@ -77,31 +77,31 @@ class CtrCommonAccessor : public ValueAccessor {
std::vector<float> embedx_g;
*/
static
int
d
im
(
int
embedx_dim
)
{
return
4
+
embedx_dim
;
}
static
int
D
im
(
int
embedx_dim
)
{
return
4
+
embedx_dim
;
}
static
int
dim_s
ize
(
int
dim
,
int
embedx_dim
)
{
return
sizeof
(
float
);
}
static
int
size
(
int
embedx_dim
)
{
return
d
im
(
embedx_dim
)
*
sizeof
(
float
);
}
static
int
slot_i
ndex
()
{
return
0
;
}
static
int
show_index
()
{
return
CtrCommonPushValue
::
slot_i
ndex
()
+
1
;
}
static
int
click_index
()
{
return
CtrCommonPushValue
::
show_i
ndex
()
+
1
;
}
static
int
embed_g_index
()
{
return
CtrCommonPushValue
::
click_i
ndex
()
+
1
;
}
static
int
embedx_g_i
ndex
()
{
return
CtrCommonPushValue
::
embed_g_i
ndex
()
+
1
;
static
int
DimS
ize
(
int
dim
,
int
embedx_dim
)
{
return
sizeof
(
float
);
}
static
int
Size
(
int
embedx_dim
)
{
return
D
im
(
embedx_dim
)
*
sizeof
(
float
);
}
static
int
SlotI
ndex
()
{
return
0
;
}
static
int
ShowIndex
()
{
return
CtrCommonPushValue
::
SlotI
ndex
()
+
1
;
}
static
int
ClickIndex
()
{
return
CtrCommonPushValue
::
ShowI
ndex
()
+
1
;
}
static
int
Embed_G_Index
()
{
return
CtrCommonPushValue
::
ClickI
ndex
()
+
1
;
}
static
int
Embedx_G_I
ndex
()
{
return
CtrCommonPushValue
::
Embed_G_I
ndex
()
+
1
;
}
static
float
&
s
lot
(
float
*
val
)
{
return
val
[
CtrCommonPushValue
::
slot_i
ndex
()];
static
float
&
S
lot
(
float
*
val
)
{
return
val
[
CtrCommonPushValue
::
SlotI
ndex
()];
}
static
float
&
s
how
(
float
*
val
)
{
return
val
[
CtrCommonPushValue
::
show_i
ndex
()];
static
float
&
S
how
(
float
*
val
)
{
return
val
[
CtrCommonPushValue
::
ShowI
ndex
()];
}
static
float
&
c
lick
(
float
*
val
)
{
return
val
[
CtrCommonPushValue
::
click_i
ndex
()];
static
float
&
C
lick
(
float
*
val
)
{
return
val
[
CtrCommonPushValue
::
ClickI
ndex
()];
}
static
float
&
embed_g
(
float
*
val
)
{
return
val
[
CtrCommonPushValue
::
embed_g_i
ndex
()];
static
float
&
EmbedG
(
float
*
val
)
{
return
val
[
CtrCommonPushValue
::
Embed_G_I
ndex
()];
}
static
float
*
embedx_g
(
float
*
val
)
{
return
val
+
CtrCommonPushValue
::
embedx_g_i
ndex
();
static
float
*
EmbedxG
(
float
*
val
)
{
return
val
+
CtrCommonPushValue
::
Embedx_G_I
ndex
();
}
};
...
...
@@ -113,90 +113,90 @@ class CtrCommonAccessor : public ValueAccessor {
std::vector<float> embedx_w;
*/
static
int
d
im
(
int
embedx_dim
)
{
return
3
+
embedx_dim
;
}
static
int
dim_s
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
static
int
size
(
int
embedx_dim
)
{
return
d
im
(
embedx_dim
)
*
sizeof
(
float
);
}
static
int
show_i
ndex
()
{
return
0
;
}
static
int
click_i
ndex
()
{
return
1
;
}
static
int
embed_w_i
ndex
()
{
return
2
;
}
static
int
embedx_w_i
ndex
()
{
return
3
;
}
static
float
&
s
how
(
float
*
val
)
{
return
val
[
CtrCommonPullValue
::
show_i
ndex
()];
static
int
D
im
(
int
embedx_dim
)
{
return
3
+
embedx_dim
;
}
static
int
DimS
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
static
int
Size
(
int
embedx_dim
)
{
return
D
im
(
embedx_dim
)
*
sizeof
(
float
);
}
static
int
ShowI
ndex
()
{
return
0
;
}
static
int
ClickI
ndex
()
{
return
1
;
}
static
int
Embed_W_I
ndex
()
{
return
2
;
}
static
int
Embedx_W_I
ndex
()
{
return
3
;
}
static
float
&
S
how
(
float
*
val
)
{
return
val
[
CtrCommonPullValue
::
ShowI
ndex
()];
}
static
float
&
c
lick
(
float
*
val
)
{
return
val
[
CtrCommonPullValue
::
click_i
ndex
()];
static
float
&
C
lick
(
float
*
val
)
{
return
val
[
CtrCommonPullValue
::
ClickI
ndex
()];
}
static
float
&
embed_w
(
float
*
val
)
{
return
val
[
CtrCommonPullValue
::
embed_w_i
ndex
()];
static
float
&
EmbedW
(
float
*
val
)
{
return
val
[
CtrCommonPullValue
::
Embed_W_I
ndex
()];
}
static
float
*
embedx_w
(
float
*
val
)
{
return
val
+
CtrCommonPullValue
::
embedx_w_i
ndex
();
static
float
*
EmbedxW
(
float
*
val
)
{
return
val
+
CtrCommonPullValue
::
Embedx_W_I
ndex
();
}
};
CtrCommonAccessor
()
{}
virtual
int
i
nitialize
();
virtual
int
I
nitialize
();
virtual
~
CtrCommonAccessor
()
{}
virtual
void
SetTableInfo
(
AccessorInfo
&
info
);
virtual
size_t
GetTableInfo
(
InfoKey
key
);
// value维度
virtual
size_t
d
im
();
size_t
D
im
();
// value各个维度的size
virtual
size_t
dim_s
ize
(
size_t
dim
);
size_t
DimS
ize
(
size_t
dim
);
// value各维度相加总size
virtual
size_t
s
ize
();
size_t
S
ize
();
// value中mf动态长度部分总size大小, sparse下生效
virtual
size_t
mf_s
ize
();
size_t
MFS
ize
();
// pull value维度
virtual
size_t
select_d
im
();
size_t
SelectD
im
();
// pull value各个维度的size
virtual
size_t
select_dim_s
ize
(
size_t
dim
);
size_t
SelectDimS
ize
(
size_t
dim
);
// pull value各维度相加总size
virtual
size_t
select_s
ize
();
size_t
SelectS
ize
();
// push value维度
virtual
size_t
update_d
im
();
size_t
UpdateD
im
();
// push value各个维度的size
virtual
size_t
update_dim_s
ize
(
size_t
dim
);
size_t
UpdateDimS
ize
(
size_t
dim
);
// push value各维度相加总size
virtual
size_t
update_s
ize
();
size_t
UpdateS
ize
();
// 判断该value是否进行shrink
virtual
bool
s
hrink
(
float
*
value
);
virtual
bool
S
hrink
(
float
*
value
);
// 判断该value是否保存到ssd
// virtual bool save_ssd(float* value);
virtual
bool
need_extend_mf
(
float
*
value
);
virtual
bool
has_mf
(
size_t
size
);
virtual
bool
NeedExtendMF
(
float
*
value
);
virtual
bool
HasMF
(
size_t
size
);
// 判断该value是否在save阶段dump,
// param作为参数用于标识save阶段,如downpour的xbox与batch_model
// param = 0, save all feature
// param = 1, save delta feature
// param = 2, save xbox base feature
bool
s
ave
(
float
*
value
,
int
param
)
override
;
bool
S
ave
(
float
*
value
,
int
param
)
override
;
// update delta_score and unseen_days after save
void
update_stat_after_s
ave
(
float
*
value
,
int
param
)
override
;
void
UpdateStatAfterS
ave
(
float
*
value
,
int
param
)
override
;
// keys不存在时,为values生成随机值
// 要求value的内存由外部调用者分配完毕
virtual
int32_t
c
reate
(
float
**
value
,
size_t
num
);
virtual
int32_t
C
reate
(
float
**
value
,
size_t
num
);
// 从values中选取到select_values中
virtual
int32_t
s
elect
(
float
**
select_values
,
const
float
**
values
,
virtual
int32_t
S
elect
(
float
**
select_values
,
const
float
**
values
,
size_t
num
);
// 将update_values聚合到一起
virtual
int32_t
m
erge
(
float
**
update_values
,
virtual
int32_t
M
erge
(
float
**
update_values
,
const
float
**
other_update_values
,
size_t
num
);
// 将update_values聚合到一起,通过it.next判定是否进入下一个key
// virtual int32_t
m
erge(float** update_values, iterator it);
// virtual int32_t
M
erge(float** update_values, iterator it);
// 将update_values更新应用到values中
virtual
int32_t
u
pdate
(
float
**
values
,
const
float
**
update_values
,
virtual
int32_t
U
pdate
(
float
**
values
,
const
float
**
update_values
,
size_t
num
);
std
::
string
parse_to_s
tring
(
const
float
*
value
,
int
param
)
override
;
int32_t
parse_from_s
tring
(
const
std
::
string
&
str
,
float
*
v
)
override
;
virtual
bool
create_v
alue
(
int
type
,
const
float
*
value
);
std
::
string
ParseToS
tring
(
const
float
*
value
,
int
param
)
override
;
int32_t
ParseFromS
tring
(
const
std
::
string
&
str
,
float
*
v
)
override
;
virtual
bool
CreateV
alue
(
int
type
,
const
float
*
value
);
// 这个接口目前只用来取show
float
get_f
ield
(
float
*
value
,
const
std
::
string
&
name
)
override
{
float
GetF
ield
(
float
*
value
,
const
std
::
string
&
name
)
override
{
// CHECK(name == "show");
if
(
name
==
"show"
)
{
return
common_feature_value
.
s
how
(
value
);
return
common_feature_value
.
S
how
(
value
);
}
return
0.0
;
}
...
...
paddle/fluid/distributed/ps/table/ctr_double_accessor.cc
浏览文件 @
0b0c2768
此差异已折叠。
点击以展开。
paddle/fluid/distributed/ps/table/ctr_double_accessor.h
浏览文件 @
0b0c2768
...
...
@@ -38,36 +38,36 @@ class DownpourCtrDoubleAccessor : public ValueAccessor {
float embedx_g2sum;
std::vector<float> embedx_w;
*/
static
int
d
im
(
int
embedx_dim
)
{
return
8
+
embedx_dim
;
}
static
int
dim_s
ize
(
size_t
dim
,
int
embedx_dim
)
{
return
sizeof
(
float
);
}
static
int
s
ize
(
int
embedx_dim
)
{
return
(
d
im
(
embedx_dim
)
+
2
)
*
sizeof
(
float
);
static
int
D
im
(
int
embedx_dim
)
{
return
8
+
embedx_dim
;
}
static
int
DimS
ize
(
size_t
dim
,
int
embedx_dim
)
{
return
sizeof
(
float
);
}
static
int
S
ize
(
int
embedx_dim
)
{
return
(
D
im
(
embedx_dim
)
+
2
)
*
sizeof
(
float
);
}
static
int
unseen_days_index
()
{
return
0
;
}
static
int
delta_score_index
()
{
return
DownpourCtrDoubleFeatureValue
::
unseen_days_index
()
+
1
;
}
static
int
show_i
ndex
()
{
static
int
ShowI
ndex
()
{
return
DownpourCtrDoubleFeatureValue
::
delta_score_index
()
+
1
;
}
// show is double
static
int
click_i
ndex
()
{
return
DownpourCtrDoubleFeatureValue
::
show_i
ndex
()
+
2
;
static
int
ClickI
ndex
()
{
return
DownpourCtrDoubleFeatureValue
::
ShowI
ndex
()
+
2
;
}
// click is double
static
int
embed_w_i
ndex
()
{
return
DownpourCtrDoubleFeatureValue
::
click_i
ndex
()
+
2
;
static
int
Embed_W_I
ndex
()
{
return
DownpourCtrDoubleFeatureValue
::
ClickI
ndex
()
+
2
;
}
static
int
embed_g2sum_index
()
{
return
DownpourCtrDoubleFeatureValue
::
embed_w_i
ndex
()
+
1
;
return
DownpourCtrDoubleFeatureValue
::
Embed_W_I
ndex
()
+
1
;
}
static
int
slot_i
ndex
()
{
static
int
SlotI
ndex
()
{
return
DownpourCtrDoubleFeatureValue
::
embed_g2sum_index
()
+
1
;
}
static
int
embedx_g2sum_index
()
{
return
DownpourCtrDoubleFeatureValue
::
slot_i
ndex
()
+
1
;
return
DownpourCtrDoubleFeatureValue
::
SlotI
ndex
()
+
1
;
}
static
int
embedx_w_i
ndex
()
{
static
int
Embedx_W_I
ndex
()
{
return
DownpourCtrDoubleFeatureValue
::
embedx_g2sum_index
()
+
1
;
}
static
float
&
unseen_days
(
float
*
val
)
{
...
...
@@ -76,17 +76,17 @@ class DownpourCtrDoubleAccessor : public ValueAccessor {
static
float
&
delta_score
(
float
*
val
)
{
return
val
[
DownpourCtrDoubleFeatureValue
::
delta_score_index
()];
}
static
double
&
s
how
(
float
*
val
)
{
return
((
double
*
)(
val
+
DownpourCtrDoubleFeatureValue
::
show_i
ndex
()))[
0
];
static
double
&
S
how
(
float
*
val
)
{
return
((
double
*
)(
val
+
DownpourCtrDoubleFeatureValue
::
ShowI
ndex
()))[
0
];
}
static
double
&
c
lick
(
float
*
val
)
{
return
((
double
*
)(
val
+
DownpourCtrDoubleFeatureValue
::
click_i
ndex
()))[
0
];
static
double
&
C
lick
(
float
*
val
)
{
return
((
double
*
)(
val
+
DownpourCtrDoubleFeatureValue
::
ClickI
ndex
()))[
0
];
}
static
float
&
s
lot
(
float
*
val
)
{
return
val
[
DownpourCtrDoubleFeatureValue
::
slot_i
ndex
()];
static
float
&
S
lot
(
float
*
val
)
{
return
val
[
DownpourCtrDoubleFeatureValue
::
SlotI
ndex
()];
}
static
float
&
embed_w
(
float
*
val
)
{
return
val
[
DownpourCtrDoubleFeatureValue
::
embed_w_i
ndex
()];
static
float
&
EmbedW
(
float
*
val
)
{
return
val
[
DownpourCtrDoubleFeatureValue
::
Embed_W_I
ndex
()];
}
static
float
&
embed_g2sum
(
float
*
val
)
{
return
val
[
DownpourCtrDoubleFeatureValue
::
embed_g2sum_index
()];
...
...
@@ -94,8 +94,8 @@ class DownpourCtrDoubleAccessor : public ValueAccessor {
static
float
&
embedx_g2sum
(
float
*
val
)
{
return
val
[
DownpourCtrDoubleFeatureValue
::
embedx_g2sum_index
()];
}
static
float
*
embedx_w
(
float
*
val
)
{
return
(
val
+
DownpourCtrDoubleFeatureValue
::
embedx_w_i
ndex
());
static
float
*
EmbedxW
(
float
*
val
)
{
return
(
val
+
DownpourCtrDoubleFeatureValue
::
Embedx_W_I
ndex
());
}
};
struct
DownpourCtrDoublePushValue
{
...
...
@@ -106,36 +106,36 @@ class DownpourCtrDoubleAccessor : public ValueAccessor {
float embed_g;
std::vector<float> embedx_g;
*/
static
int
d
im
(
int
embedx_dim
)
{
return
4
+
embedx_dim
;
}
static
int
dim_s
ize
(
int
dim
,
int
embedx_dim
)
{
return
sizeof
(
float
);
}
static
int
size
(
int
embedx_dim
)
{
return
d
im
(
embedx_dim
)
*
sizeof
(
float
);
}
static
int
slot_i
ndex
()
{
return
0
;
}
static
int
show_i
ndex
()
{
return
DownpourCtrDoublePushValue
::
slot_i
ndex
()
+
1
;
static
int
D
im
(
int
embedx_dim
)
{
return
4
+
embedx_dim
;
}
static
int
DimS
ize
(
int
dim
,
int
embedx_dim
)
{
return
sizeof
(
float
);
}
static
int
Size
(
int
embedx_dim
)
{
return
D
im
(
embedx_dim
)
*
sizeof
(
float
);
}
static
int
SlotI
ndex
()
{
return
0
;
}
static
int
ShowI
ndex
()
{
return
DownpourCtrDoublePushValue
::
SlotI
ndex
()
+
1
;
}
static
int
click_i
ndex
()
{
return
DownpourCtrDoublePushValue
::
show_i
ndex
()
+
1
;
static
int
ClickI
ndex
()
{
return
DownpourCtrDoublePushValue
::
ShowI
ndex
()
+
1
;
}
static
int
embed_g_i
ndex
()
{
return
DownpourCtrDoublePushValue
::
click_i
ndex
()
+
1
;
static
int
Embed_G_I
ndex
()
{
return
DownpourCtrDoublePushValue
::
ClickI
ndex
()
+
1
;
}
static
int
embedx_g_i
ndex
()
{
return
DownpourCtrDoublePushValue
::
embed_g_i
ndex
()
+
1
;
static
int
Embedx_G_I
ndex
()
{
return
DownpourCtrDoublePushValue
::
Embed_G_I
ndex
()
+
1
;
}
static
float
&
s
lot
(
float
*
val
)
{
return
val
[
DownpourCtrDoublePushValue
::
slot_i
ndex
()];
static
float
&
S
lot
(
float
*
val
)
{
return
val
[
DownpourCtrDoublePushValue
::
SlotI
ndex
()];
}
static
float
&
s
how
(
float
*
val
)
{
return
val
[
DownpourCtrDoublePushValue
::
show_i
ndex
()];
static
float
&
S
how
(
float
*
val
)
{
return
val
[
DownpourCtrDoublePushValue
::
ShowI
ndex
()];
}
static
float
&
c
lick
(
float
*
val
)
{
return
val
[
DownpourCtrDoublePushValue
::
click_i
ndex
()];
static
float
&
C
lick
(
float
*
val
)
{
return
val
[
DownpourCtrDoublePushValue
::
ClickI
ndex
()];
}
static
float
&
embed_g
(
float
*
val
)
{
return
val
[
DownpourCtrDoublePushValue
::
embed_g_i
ndex
()];
static
float
&
EmbedG
(
float
*
val
)
{
return
val
[
DownpourCtrDoublePushValue
::
Embed_G_I
ndex
()];
}
static
float
*
embedx_g
(
float
*
val
)
{
return
val
+
DownpourCtrDoublePushValue
::
embedx_g_i
ndex
();
static
float
*
EmbedxG
(
float
*
val
)
{
return
val
+
DownpourCtrDoublePushValue
::
Embedx_G_I
ndex
();
}
};
struct
DownpourCtrDoublePullValue
{
...
...
@@ -145,88 +145,88 @@ class DownpourCtrDoubleAccessor : public ValueAccessor {
float embed_w;
std::vector<float> embedx_w;
*/
static
int
d
im
(
int
embedx_dim
)
{
return
3
+
embedx_dim
;
}
static
int
dim_s
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
static
int
size
(
int
embedx_dim
)
{
return
d
im
(
embedx_dim
)
*
sizeof
(
float
);
}
static
int
show_i
ndex
()
{
return
0
;
}
static
int
click_i
ndex
()
{
return
1
;
}
static
int
embed_w_i
ndex
()
{
return
2
;
}
static
int
embedx_w_i
ndex
()
{
return
3
;
}
static
float
&
s
how
(
float
*
val
)
{
return
val
[
DownpourCtrDoublePullValue
::
show_i
ndex
()];
static
int
D
im
(
int
embedx_dim
)
{
return
3
+
embedx_dim
;
}
static
int
DimS
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
static
int
Size
(
int
embedx_dim
)
{
return
D
im
(
embedx_dim
)
*
sizeof
(
float
);
}
static
int
ShowI
ndex
()
{
return
0
;
}
static
int
ClickI
ndex
()
{
return
1
;
}
static
int
Embed_W_I
ndex
()
{
return
2
;
}
static
int
Embedx_W_I
ndex
()
{
return
3
;
}
static
float
&
S
how
(
float
*
val
)
{
return
val
[
DownpourCtrDoublePullValue
::
ShowI
ndex
()];
}
static
float
&
c
lick
(
float
*
val
)
{
return
val
[
DownpourCtrDoublePullValue
::
click_i
ndex
()];
static
float
&
C
lick
(
float
*
val
)
{
return
val
[
DownpourCtrDoublePullValue
::
ClickI
ndex
()];
}
static
float
&
embed_w
(
float
*
val
)
{
return
val
[
DownpourCtrDoublePullValue
::
embed_w_i
ndex
()];
static
float
&
EmbedW
(
float
*
val
)
{
return
val
[
DownpourCtrDoublePullValue
::
Embed_W_I
ndex
()];
}
static
float
*
embedx_w
(
float
*
val
)
{
return
val
+
DownpourCtrDoublePullValue
::
embedx_w_i
ndex
();
static
float
*
EmbedxW
(
float
*
val
)
{
return
val
+
DownpourCtrDoublePullValue
::
Embedx_W_I
ndex
();
}
};
DownpourCtrDoubleAccessor
()
{}
virtual
~
DownpourCtrDoubleAccessor
()
{}
virtual
int
i
nitialize
();
virtual
int
I
nitialize
();
virtual
void
SetTableInfo
(
AccessorInfo
&
info
);
virtual
size_t
GetTableInfo
(
InfoKey
key
);
// value维度
virtual
size_t
d
im
();
size_t
D
im
();
// value各个维度的size
virtual
size_t
dim_s
ize
(
size_t
dim
);
size_t
DimS
ize
(
size_t
dim
);
// value各维度相加总size
virtual
size_t
s
ize
();
size_t
S
ize
();
// value中mf动态长度部分总size大小, sparse下生效
virtual
size_t
mf_s
ize
();
size_t
MFS
ize
();
// pull value维度
virtual
size_t
select_d
im
();
size_t
SelectD
im
();
// pull value各个维度的size
virtual
size_t
select_dim_s
ize
(
size_t
dim
);
size_t
SelectDimS
ize
(
size_t
dim
);
// pull value各维度相加总size
virtual
size_t
select_s
ize
();
size_t
SelectS
ize
();
// push value维度
virtual
size_t
update_d
im
();
size_t
UpdateD
im
();
// push value各个维度的size
virtual
size_t
update_dim_s
ize
(
size_t
dim
);
size_t
UpdateDimS
ize
(
size_t
dim
);
// push value各维度相加总size
virtual
size_t
update_s
ize
();
size_t
UpdateS
ize
();
// 判断该value是否进行shrink
virtual
bool
s
hrink
(
float
*
value
);
virtual
bool
need_extend_mf
(
float
*
value
);
virtual
bool
S
hrink
(
float
*
value
);
virtual
bool
NeedExtendMF
(
float
*
value
);
// 判断该value是否在save阶段dump,
// param作为参数用于标识save阶段,如downpour的xbox与batch_model
// param = 0, save all feature
// param = 1, save delta feature
// param = 3, save all feature with time decay
virtual
bool
s
ave
(
float
*
value
,
int
param
)
override
;
virtual
bool
S
ave
(
float
*
value
,
int
param
)
override
;
// update delta_score and unseen_days after save
virtual
void
update_stat_after_s
ave
(
float
*
value
,
int
param
)
override
;
virtual
void
UpdateStatAfterS
ave
(
float
*
value
,
int
param
)
override
;
// 判断该value是否保存到ssd
virtual
bool
save_ssd
(
float
*
value
);
// virtual bool save_cache(float* value, int param, double
// global_cache_threshold) override;
// keys不存在时,为values生成随机值
// 要求value的内存由外部调用者分配完毕
virtual
int32_t
c
reate
(
float
**
value
,
size_t
num
);
virtual
int32_t
C
reate
(
float
**
value
,
size_t
num
);
// 从values中选取到select_values中
virtual
int32_t
s
elect
(
float
**
select_values
,
const
float
**
values
,
virtual
int32_t
S
elect
(
float
**
select_values
,
const
float
**
values
,
size_t
num
);
// 将update_values聚合到一起
virtual
int32_t
m
erge
(
float
**
update_values
,
virtual
int32_t
M
erge
(
float
**
update_values
,
const
float
**
other_update_values
,
size_t
num
);
// 将update_values聚合到一起,通过it.next判定是否进入下一个key
// virtual int32_t
m
erge(float** update_values, iterator it);
// virtual int32_t
M
erge(float** update_values, iterator it);
// 将update_values更新应用到values中
virtual
int32_t
u
pdate
(
float
**
values
,
const
float
**
update_values
,
virtual
int32_t
U
pdate
(
float
**
values
,
const
float
**
update_values
,
size_t
num
);
virtual
std
::
string
parse_to_s
tring
(
const
float
*
value
,
int
param
)
override
;
virtual
int32_t
parse_from_s
tring
(
const
std
::
string
&
str
,
float
*
v
)
override
;
virtual
bool
create_v
alue
(
int
type
,
const
float
*
value
);
virtual
std
::
string
ParseToS
tring
(
const
float
*
value
,
int
param
)
override
;
virtual
int32_t
ParseFromS
tring
(
const
std
::
string
&
str
,
float
*
v
)
override
;
virtual
bool
CreateV
alue
(
int
type
,
const
float
*
value
);
//这个接口目前只用来取show
virtual
float
get_f
ield
(
float
*
value
,
const
std
::
string
&
name
)
override
{
virtual
float
GetF
ield
(
float
*
value
,
const
std
::
string
&
name
)
override
{
CHECK
(
name
==
"show"
);
if
(
name
==
"show"
)
{
return
(
float
)
DownpourCtrDoubleFeatureValue
::
s
how
(
value
);
return
(
float
)
DownpourCtrDoubleFeatureValue
::
S
how
(
value
);
}
return
0.0
;
}
...
...
paddle/fluid/distributed/ps/table/downpour_ctr_accessor.cc
浏览文件 @
0b0c2768
...
...
@@ -20,7 +20,7 @@
namespace
paddle
{
namespace
distributed
{
int
DownpourCtrAccessor
::
i
nitialize
()
{
int
DownpourCtrAccessor
::
I
nitialize
()
{
auto
name
=
_config
.
embed_sgd_param
().
name
();
_embed_sgd_rule
=
CREATE_PSCORE_CLASS
(
SparseValueSGDRule
,
name
);
_embed_sgd_rule
->
load_config
(
_config
.
embed_sgd_param
(),
1
);
...
...
@@ -38,86 +38,77 @@ int DownpourCtrAccessor::initialize() {
}
void
DownpourCtrAccessor
::
SetTableInfo
(
AccessorInfo
&
info
)
{
info
.
dim
=
dim
();
info
.
size
=
size
();
info
.
select_dim
=
select_dim
();
info
.
select_size
=
select_size
();
info
.
update_dim
=
update_dim
();
info
.
update_size
=
update_size
();
info
.
mf_size
=
mf_size
();
info
.
fea_dim
=
fea_dim
();
info
.
dim
=
Dim
();
info
.
size
=
Size
();
info
.
select_dim
=
SelectDim
();
info
.
select_size
=
SelectSize
();
info
.
update_dim
=
UpdateDim
();
info
.
update_size
=
UpdateSize
();
info
.
mf_size
=
MFSize
();
}
size_t
DownpourCtrAccessor
::
GetTableInfo
(
InfoKey
key
)
{
switch
(
key
)
{
case
DIM
:
return
d
im
();
return
D
im
();
case
SIZE
:
return
s
ize
();
return
S
ize
();
case
SELECT_DIM
:
return
select_d
im
();
return
SelectD
im
();
case
SELECT_SIZE
:
return
select_s
ize
();
return
SelectS
ize
();
case
UPDATE_DIM
:
return
update_d
im
();
return
UpdateD
im
();
case
UPDATE_SIZE
:
return
update_s
ize
();
return
UpdateS
ize
();
case
MF_SIZE
:
return
mf_s
ize
();
case
FEA_DIM
:
return
fea_dim
()
;
return
MFS
ize
();
default
:
return
0
;
}
return
0
;
}
size_t
DownpourCtrAccessor
::
d
im
()
{
size_t
DownpourCtrAccessor
::
D
im
()
{
auto
embedx_dim
=
_config
.
embedx_dim
();
return
DownpourCtrFeatureValue
::
d
im
(
embedx_dim
);
return
DownpourCtrFeatureValue
::
D
im
(
embedx_dim
);
}
size_t
DownpourCtrAccessor
::
dim_s
ize
(
size_t
dim
)
{
size_t
DownpourCtrAccessor
::
DimS
ize
(
size_t
dim
)
{
auto
embedx_dim
=
_config
.
embedx_dim
();
return
DownpourCtrFeatureValue
::
dim_s
ize
(
dim
,
embedx_dim
);
return
DownpourCtrFeatureValue
::
DimS
ize
(
dim
,
embedx_dim
);
}
size_t
DownpourCtrAccessor
::
s
ize
()
{
size_t
DownpourCtrAccessor
::
S
ize
()
{
auto
embedx_dim
=
_config
.
embedx_dim
();
return
DownpourCtrFeatureValue
::
s
ize
(
embedx_dim
);
return
DownpourCtrFeatureValue
::
S
ize
(
embedx_dim
);
}
size_t
DownpourCtrAccessor
::
mf_s
ize
()
{
size_t
DownpourCtrAccessor
::
MFS
ize
()
{
return
(
_config
.
embedx_dim
()
+
1
)
*
sizeof
(
float
);
// embedx embedx_g2sum
}
// pull value
size_t
DownpourCtrAccessor
::
select_d
im
()
{
size_t
DownpourCtrAccessor
::
SelectD
im
()
{
auto
embedx_dim
=
_config
.
embedx_dim
();
return
3
+
embedx_dim
;
}
size_t
DownpourCtrAccessor
::
select_dim_size
(
size_t
dim
)
{
return
sizeof
(
float
);
}
size_t
DownpourCtrAccessor
::
SelectDimSize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
size_t
DownpourCtrAccessor
::
select_size
()
{
return
select_dim
()
*
sizeof
(
float
);
}
size_t
DownpourCtrAccessor
::
SelectSize
()
{
return
SelectDim
()
*
sizeof
(
float
);
}
// push value
size_t
DownpourCtrAccessor
::
update_d
im
()
{
size_t
DownpourCtrAccessor
::
UpdateD
im
()
{
auto
embedx_dim
=
_config
.
embedx_dim
();
return
4
+
embedx_dim
;
}
size_t
DownpourCtrAccessor
::
update_dim_size
(
size_t
dim
)
{
return
sizeof
(
float
);
}
size_t
DownpourCtrAccessor
::
UpdateDimSize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
size_t
DownpourCtrAccessor
::
update_size
()
{
return
update_dim
()
*
sizeof
(
float
);
}
size_t
DownpourCtrAccessor
::
UpdateSize
()
{
return
UpdateDim
()
*
sizeof
(
float
);
}
bool
DownpourCtrAccessor
::
s
hrink
(
float
*
value
)
{
bool
DownpourCtrAccessor
::
S
hrink
(
float
*
value
)
{
// auto base_threshold = _config.ctr_accessor_param().base_threshold();
// auto delta_threshold = _config.ctr_accessor_param().delta_threshold();
// auto delete_threshold = _config.ctr_accessor_param().delete_threshold();
...
...
@@ -134,9 +125,9 @@ bool DownpourCtrAccessor::shrink(float* value) {
return
true
;
}
auto
show_right
=
DownpourCtrFeatureValue
::
s
how
(
value
)
*
_time_decay_rates
[
day_diff
];
DownpourCtrFeatureValue
::
S
how
(
value
)
*
_time_decay_rates
[
day_diff
];
auto
click_right
=
DownpourCtrFeatureValue
::
c
lick
(
value
)
*
_time_decay_rates
[
day_diff
];
DownpourCtrFeatureValue
::
C
lick
(
value
)
*
_time_decay_rates
[
day_diff
];
// shrink after
auto
score
=
show_click_score
(
show_right
,
click_right
);
...
...
@@ -175,15 +166,15 @@ bool DownpourCtrAccessor::save_ssd(float* value) {
// auto delta_keep_days = _config.ctr_accessor_param().delta_keep_days();
// auto unseen_days = DownpourCtrFeatureValue::unseen_days(value);
// int16_t day_diff = _day_id - unseen_days;
// if (show_click_score(DownpourCtrFeatureValue::
s
how(value),
// DownpourCtrFeatureValue::
c
lick(value)) >= base_threshold
// if (show_click_score(DownpourCtrFeatureValue::
S
how(value),
// DownpourCtrFeatureValue::
C
lick(value)) >= base_threshold
// && day_diff <= delta_keep_days) {
// return DownpourCtrFeatureValue::
s
how(value) > global_cache_threshold;
// return DownpourCtrFeatureValue::
S
how(value) > global_cache_threshold;
// }
// return false;
// }
bool
DownpourCtrAccessor
::
s
ave
(
float
*
value
,
int
param
)
{
bool
DownpourCtrAccessor
::
S
ave
(
float
*
value
,
int
param
)
{
// auto base_threshold = _config.ctr_accessor_param().base_threshold();
// auto delta_threshold = _config.ctr_accessor_param().delta_threshold();
// auto delta_keep_days = _config.ctr_accessor_param().delta_keep_days();
...
...
@@ -206,9 +197,9 @@ bool DownpourCtrAccessor::save(float* value, int param) {
int16_t
day_diff
=
_day_id
-
unseen_days
;
auto
show_right
=
DownpourCtrFeatureValue
::
s
how
(
value
)
*
_time_decay_rates
[
day_diff
];
DownpourCtrFeatureValue
::
S
how
(
value
)
*
_time_decay_rates
[
day_diff
];
auto
click_right
=
DownpourCtrFeatureValue
::
c
lick
(
value
)
*
_time_decay_rates
[
day_diff
];
DownpourCtrFeatureValue
::
C
lick
(
value
)
*
_time_decay_rates
[
day_diff
];
if
(
show_click_score
(
show_right
,
click_right
)
>=
base_threshold
&&
DownpourCtrFeatureValue
::
delta_score
(
value
)
>=
delta_threshold
&&
...
...
@@ -224,8 +215,8 @@ bool DownpourCtrAccessor::save(float* value, int param) {
}
// already decayed in shrink
case
3
:
{
// DownpourCtrFeatureValue::
s
how(value) *= _show_click_decay_rate;
// DownpourCtrFeatureValue::
c
lick(value) *= _show_click_decay_rate;
// DownpourCtrFeatureValue::
S
how(value) *= _show_click_decay_rate;
// DownpourCtrFeatureValue::
C
lick(value) *= _show_click_decay_rate;
// do this after save, because it must not be modified when retry
// DownpourCtrFeatureValue::unseen_days(value)++;
return
true
;
...
...
@@ -235,7 +226,7 @@ bool DownpourCtrAccessor::save(float* value, int param) {
};
}
void
DownpourCtrAccessor
::
update_stat_after_s
ave
(
float
*
value
,
int
param
)
{
void
DownpourCtrAccessor
::
UpdateStatAfterS
ave
(
float
*
value
,
int
param
)
{
auto
base_threshold
=
_config
.
ctr_accessor_param
().
base_threshold
();
auto
delta_threshold
=
_config
.
ctr_accessor_param
().
delta_threshold
();
auto
delta_keep_days
=
_config
.
ctr_accessor_param
().
delta_keep_days
();
...
...
@@ -247,9 +238,9 @@ void DownpourCtrAccessor::update_stat_after_save(float* value, int param) {
auto
unseen_days
=
DownpourCtrFeatureValue
::
unseen_days
(
value
);
int16_t
day_diff
=
_day_id
-
unseen_days
;
auto
show_right
=
DownpourCtrFeatureValue
::
s
how
(
value
)
*
_time_decay_rates
[
day_diff
];
DownpourCtrFeatureValue
::
S
how
(
value
)
*
_time_decay_rates
[
day_diff
];
auto
click_right
=
DownpourCtrFeatureValue
::
c
lick
(
value
)
*
_time_decay_rates
[
day_diff
];
DownpourCtrFeatureValue
::
C
lick
(
value
)
*
_time_decay_rates
[
day_diff
];
if
(
show_click_score
(
show_right
,
click_right
)
>=
base_threshold
&&
DownpourCtrFeatureValue
::
delta_score
(
value
)
>=
delta_threshold
&&
...
...
@@ -268,28 +259,28 @@ void DownpourCtrAccessor::update_stat_after_save(float* value, int param) {
};
}
int32_t
DownpourCtrAccessor
::
c
reate
(
float
**
values
,
size_t
num
)
{
int32_t
DownpourCtrAccessor
::
C
reate
(
float
**
values
,
size_t
num
)
{
auto
embedx_dim
=
_config
.
embedx_dim
();
for
(
size_t
value_item
=
0
;
value_item
<
num
;
++
value_item
)
{
float
*
value
=
values
[
value_item
];
value
[
DownpourCtrFeatureValue
::
unseen_days_index
()]
=
0
;
value
[
DownpourCtrFeatureValue
::
delta_score_index
()]
=
0
;
value
[
DownpourCtrFeatureValue
::
show_i
ndex
()]
=
0
;
value
[
DownpourCtrFeatureValue
::
click_i
ndex
()]
=
0
;
value
[
DownpourCtrFeatureValue
::
slot_i
ndex
()]
=
-
1
;
value
[
DownpourCtrFeatureValue
::
ShowI
ndex
()]
=
0
;
value
[
DownpourCtrFeatureValue
::
ClickI
ndex
()]
=
0
;
value
[
DownpourCtrFeatureValue
::
SlotI
ndex
()]
=
-
1
;
_embed_sgd_rule
->
init_value
(
value
+
DownpourCtrFeatureValue
::
embed_w_i
ndex
(),
value
+
DownpourCtrFeatureValue
::
Embed_W_I
ndex
(),
value
+
DownpourCtrFeatureValue
::
embed_g2sum_index
(),
true
);
_embedx_sgd_rule
->
init_value
(
value
+
DownpourCtrFeatureValue
::
embedx_w_i
ndex
(),
value
+
DownpourCtrFeatureValue
::
Embedx_W_I
ndex
(),
value
+
DownpourCtrFeatureValue
::
embedx_g2sum_index
());
}
return
0
;
}
bool
DownpourCtrAccessor
::
need_extend_mf
(
float
*
value
)
{
float
show
=
value
[
DownpourCtrFeatureValue
::
show_i
ndex
()];
float
click
=
value
[
DownpourCtrFeatureValue
::
click_i
ndex
()];
bool
DownpourCtrAccessor
::
NeedExtendMF
(
float
*
value
)
{
float
show
=
value
[
DownpourCtrFeatureValue
::
ShowI
ndex
()];
float
click
=
value
[
DownpourCtrFeatureValue
::
ClickI
ndex
()];
// float score = (show - click) * _config.ctr_accessor_param().nonclk_coeff()
float
score
=
(
show
-
click
)
*
_config
.
ctr_accessor_param
().
nonclk_coeff
()
+
click
*
_config
.
ctr_accessor_param
().
click_coeff
();
...
...
@@ -297,25 +288,25 @@ bool DownpourCtrAccessor::need_extend_mf(float* value) {
return
score
>=
_config
.
embedx_threshold
();
}
bool
DownpourCtrAccessor
::
has_mf
(
size_t
size
)
{
bool
DownpourCtrAccessor
::
HasMF
(
size_t
size
)
{
return
size
>
DownpourCtrFeatureValue
::
embedx_g2sum_index
();
}
// from DownpourCtrFeatureValue to DownpourCtrPullValue
int32_t
DownpourCtrAccessor
::
s
elect
(
float
**
select_values
,
const
float
**
values
,
int32_t
DownpourCtrAccessor
::
S
elect
(
float
**
select_values
,
const
float
**
values
,
size_t
num
)
{
auto
embedx_dim
=
_config
.
embedx_dim
();
for
(
size_t
value_item
=
0
;
value_item
<
num
;
++
value_item
)
{
float
*
select_value
=
select_values
[
value_item
];
float
*
value
=
const_cast
<
float
*>
(
values
[
value_item
]);
select_value
[
DownpourCtrPullValue
::
show_i
ndex
()]
=
value
[
DownpourCtrFeatureValue
::
show_i
ndex
()];
select_value
[
DownpourCtrPullValue
::
click_i
ndex
()]
=
value
[
DownpourCtrFeatureValue
::
click_i
ndex
()];
select_value
[
DownpourCtrPullValue
::
embed_w_i
ndex
()]
=
value
[
DownpourCtrFeatureValue
::
embed_w_i
ndex
()];
memcpy
(
select_value
+
DownpourCtrPullValue
::
embedx_w_i
ndex
(),
value
+
DownpourCtrFeatureValue
::
embedx_w_i
ndex
(),
select_value
[
DownpourCtrPullValue
::
ShowI
ndex
()]
=
value
[
DownpourCtrFeatureValue
::
ShowI
ndex
()];
select_value
[
DownpourCtrPullValue
::
ClickI
ndex
()]
=
value
[
DownpourCtrFeatureValue
::
ClickI
ndex
()];
select_value
[
DownpourCtrPullValue
::
Embed_W_I
ndex
()]
=
value
[
DownpourCtrFeatureValue
::
Embed_W_I
ndex
()];
memcpy
(
select_value
+
DownpourCtrPullValue
::
Embedx_W_I
ndex
(),
value
+
DownpourCtrFeatureValue
::
Embedx_W_I
ndex
(),
embedx_dim
*
sizeof
(
float
));
}
return
0
;
...
...
@@ -324,16 +315,16 @@ int32_t DownpourCtrAccessor::select(float** select_values, const float** values,
// from DownpourCtrPushValue to DownpourCtrPushValue
// first dim: item
// second dim: field num
int32_t
DownpourCtrAccessor
::
m
erge
(
float
**
update_values
,
int32_t
DownpourCtrAccessor
::
M
erge
(
float
**
update_values
,
const
float
**
other_update_values
,
size_t
num
)
{
auto
embedx_dim
=
_config
.
embedx_dim
();
size_t
total_dim
=
DownpourCtrPushValue
::
d
im
(
embedx_dim
);
size_t
total_dim
=
DownpourCtrPushValue
::
D
im
(
embedx_dim
);
for
(
size_t
value_item
=
0
;
value_item
<
num
;
++
value_item
)
{
float
*
update_value
=
update_values
[
value_item
];
const
float
*
other_update_value
=
other_update_values
[
value_item
];
for
(
auto
i
=
0u
;
i
<
total_dim
;
++
i
)
{
if
(
i
!=
DownpourCtrPushValue
::
slot_i
ndex
())
{
if
(
i
!=
DownpourCtrPushValue
::
SlotI
ndex
())
{
update_value
[
i
]
+=
other_update_value
[
i
];
}
}
...
...
@@ -344,18 +335,18 @@ int32_t DownpourCtrAccessor::merge(float** update_values,
// from DownpourCtrPushValue to DownpourCtrFeatureValue
// first dim: item
// second dim: field num
int32_t
DownpourCtrAccessor
::
u
pdate
(
float
**
update_values
,
int32_t
DownpourCtrAccessor
::
U
pdate
(
float
**
update_values
,
const
float
**
push_values
,
size_t
num
)
{
auto
embedx_dim
=
_config
.
embedx_dim
();
for
(
size_t
value_item
=
0
;
value_item
<
num
;
++
value_item
)
{
float
*
update_value
=
update_values
[
value_item
];
const
float
*
push_value
=
push_values
[
value_item
];
float
push_show
=
push_value
[
DownpourCtrPushValue
::
show_i
ndex
()];
float
push_click
=
push_value
[
DownpourCtrPushValue
::
click_i
ndex
()];
float
slot
=
push_value
[
DownpourCtrPushValue
::
slot_i
ndex
()];
update_value
[
DownpourCtrFeatureValue
::
show_i
ndex
()]
+=
push_show
;
update_value
[
DownpourCtrFeatureValue
::
click_i
ndex
()]
+=
push_click
;
update_value
[
DownpourCtrFeatureValue
::
slot_i
ndex
()]
=
slot
;
float
push_show
=
push_value
[
DownpourCtrPushValue
::
ShowI
ndex
()];
float
push_click
=
push_value
[
DownpourCtrPushValue
::
ClickI
ndex
()];
float
slot
=
push_value
[
DownpourCtrPushValue
::
SlotI
ndex
()];
update_value
[
DownpourCtrFeatureValue
::
ShowI
ndex
()]
+=
push_show
;
update_value
[
DownpourCtrFeatureValue
::
ClickI
ndex
()]
+=
push_click
;
update_value
[
DownpourCtrFeatureValue
::
SlotI
ndex
()]
=
slot
;
update_value
[
DownpourCtrFeatureValue
::
delta_score_index
()]
+=
(
push_show
-
push_click
)
*
_config
.
ctr_accessor_param
().
nonclk_coeff
()
+
push_click
*
_config
.
ctr_accessor_param
().
click_coeff
();
...
...
@@ -363,25 +354,25 @@ int32_t DownpourCtrAccessor::update(float** update_values,
// push_click * _config.ctr_accessor_param().click_coeff();
update_value
[
DownpourCtrFeatureValue
::
unseen_days_index
()]
=
0
;
_embed_sgd_rule
->
update_value
(
update_value
+
DownpourCtrFeatureValue
::
embed_w_i
ndex
(),
update_value
+
DownpourCtrFeatureValue
::
Embed_W_I
ndex
(),
update_value
+
DownpourCtrFeatureValue
::
embed_g2sum_index
(),
push_value
+
DownpourCtrPushValue
::
embed_g_i
ndex
(),
push_show
);
push_value
+
DownpourCtrPushValue
::
Embed_G_I
ndex
(),
push_show
);
_embedx_sgd_rule
->
update_value
(
update_value
+
DownpourCtrFeatureValue
::
embedx_w_i
ndex
(),
update_value
+
DownpourCtrFeatureValue
::
Embedx_W_I
ndex
(),
update_value
+
DownpourCtrFeatureValue
::
embedx_g2sum_index
(),
push_value
+
DownpourCtrPushValue
::
embedx_g_i
ndex
(),
push_show
);
push_value
+
DownpourCtrPushValue
::
Embedx_G_I
ndex
(),
push_show
);
}
return
0
;
}
bool
DownpourCtrAccessor
::
create_v
alue
(
int
stage
,
const
float
*
value
)
{
bool
DownpourCtrAccessor
::
CreateV
alue
(
int
stage
,
const
float
*
value
)
{
// stage == 0, pull
// stage == 1, push
if
(
stage
==
0
)
{
return
true
;
}
else
if
(
stage
==
1
)
{
auto
show
=
DownpourCtrPushValue
::
s
how
(
const_cast
<
float
*>
(
value
));
auto
click
=
DownpourCtrPushValue
::
c
lick
(
const_cast
<
float
*>
(
value
));
auto
show
=
DownpourCtrPushValue
::
S
how
(
const_cast
<
float
*>
(
value
));
auto
click
=
DownpourCtrPushValue
::
C
lick
(
const_cast
<
float
*>
(
value
));
auto
score
=
show_click_score
(
show
,
click
);
if
(
score
<=
0
)
{
return
false
;
...
...
@@ -404,15 +395,14 @@ float DownpourCtrAccessor::show_click_score(float show, float click) {
return
(
show
-
click
)
*
nonclk_coeff
+
click
*
click_coeff
;
}
std
::
string
DownpourCtrAccessor
::
parse_to_string
(
const
float
*
v
,
int
param_size
)
{
std
::
string
DownpourCtrAccessor
::
ParseToString
(
const
float
*
v
,
int
param_size
)
{
thread_local
std
::
ostringstream
os
;
os
.
clear
();
os
.
str
(
""
);
os
<<
v
[
0
]
<<
" "
<<
v
[
1
]
<<
" "
<<
v
[
2
]
<<
" "
<<
v
[
3
]
<<
" "
<<
v
[
4
]
<<
" "
<<
v
[
5
]
<<
" "
<<
v
[
6
];
auto
show
=
DownpourCtrFeatureValue
::
s
how
(
const_cast
<
float
*>
(
v
));
auto
click
=
DownpourCtrFeatureValue
::
c
lick
(
const_cast
<
float
*>
(
v
));
auto
show
=
DownpourCtrFeatureValue
::
S
how
(
const_cast
<
float
*>
(
v
));
auto
click
=
DownpourCtrFeatureValue
::
C
lick
(
const_cast
<
float
*>
(
v
));
auto
score
=
show_click_score
(
show
,
click
);
if
(
score
>=
_config
.
embedx_threshold
()
&&
param_size
>
7
)
{
os
<<
" "
<<
v
[
7
];
...
...
@@ -423,22 +413,21 @@ std::string DownpourCtrAccessor::parse_to_string(const float* v,
return
os
.
str
();
}
int
DownpourCtrAccessor
::
parse_from_string
(
const
std
::
string
&
str
,
float
*
value
)
{
int
DownpourCtrAccessor
::
ParseFromString
(
const
std
::
string
&
str
,
float
*
value
)
{
int
embedx_dim
=
_config
.
embedx_dim
();
float
data_buff
[
d
im
()];
float
data_buff
[
D
im
()];
float
*
data_buff_ptr
=
data_buff
;
_embedx_sgd_rule
->
init_value
(
data_buff_ptr
+
DownpourCtrFeatureValue
::
embedx_w_i
ndex
(),
data_buff_ptr
+
DownpourCtrFeatureValue
::
Embedx_W_I
ndex
(),
data_buff_ptr
+
DownpourCtrFeatureValue
::
embedx_g2sum_index
());
auto
str_len
=
paddle
::
string
::
str_to_float
(
str
.
data
(),
data_buff_ptr
);
CHECK
(
str_len
>=
6
)
<<
"expect more than 6 real:"
<<
str_len
;
// no slot, embedx
int
value_dim
=
d
im
();
int
value_dim
=
D
im
();
int
embedx_g2sum_index
=
DownpourCtrFeatureValue
::
embedx_g2sum_index
();
value
[
DownpourCtrFeatureValue
::
slot_i
ndex
()]
=
-
1
;
value
[
DownpourCtrFeatureValue
::
SlotI
ndex
()]
=
-
1
;
// other case
if
(
str_len
==
(
value_dim
-
1
))
{
memcpy
(
value
,
data_buff_ptr
,
(
embedx_g2sum_index
-
1
)
*
sizeof
(
float
));
...
...
@@ -494,8 +483,8 @@ void DownpourCtrAccessor::update_time_decay(float* value,
if
(
day_diff
>=
_config
.
ctr_accessor_param
().
delete_after_unseen_days
())
{
return
;
}
DownpourCtrFeatureValue
::
s
how
(
value
)
*=
_time_decay_rates
[
day_diff
];
DownpourCtrFeatureValue
::
c
lick
(
value
)
*=
_time_decay_rates
[
day_diff
];
DownpourCtrFeatureValue
::
S
how
(
value
)
*=
_time_decay_rates
[
day_diff
];
DownpourCtrFeatureValue
::
C
lick
(
value
)
*=
_time_decay_rates
[
day_diff
];
if
(
is_update_seen_day
)
{
DownpourCtrFeatureValue
::
unseen_days
(
value
)
=
_day_id
;
}
...
...
paddle/fluid/distributed/ps/table/downpour_ctr_accessor.h
浏览文件 @
0b0c2768
...
...
@@ -42,32 +42,30 @@ class DownpourCtrAccessor : public ValueAccessor {
std::vector<float> embedx_w;
*/
static
int
d
im
(
int
embedx_dim
)
{
return
8
+
embedx_dim
;
}
static
int
dim_s
ize
(
size_t
dim
,
int
embedx_dim
)
{
return
sizeof
(
float
);
}
static
int
size
(
int
embedx_dim
)
{
return
d
im
(
embedx_dim
)
*
sizeof
(
float
);
}
static
int
D
im
(
int
embedx_dim
)
{
return
8
+
embedx_dim
;
}
static
int
DimS
ize
(
size_t
dim
,
int
embedx_dim
)
{
return
sizeof
(
float
);
}
static
int
Size
(
int
embedx_dim
)
{
return
D
im
(
embedx_dim
)
*
sizeof
(
float
);
}
static
int
unseen_days_index
()
{
return
0
;
}
static
int
delta_score_index
()
{
return
DownpourCtrFeatureValue
::
unseen_days_index
()
+
1
;
}
static
int
show_i
ndex
()
{
static
int
ShowI
ndex
()
{
return
DownpourCtrFeatureValue
::
delta_score_index
()
+
1
;
}
static
int
click_index
()
{
return
DownpourCtrFeatureValue
::
show_index
()
+
1
;
}
static
int
embed_w_index
()
{
return
DownpourCtrFeatureValue
::
click_index
()
+
1
;
static
int
ClickIndex
()
{
return
DownpourCtrFeatureValue
::
ShowIndex
()
+
1
;
}
static
int
Embed_W_Index
()
{
return
DownpourCtrFeatureValue
::
ClickIndex
()
+
1
;
}
static
int
embed_g2sum_index
()
{
return
DownpourCtrFeatureValue
::
embed_w_i
ndex
()
+
1
;
return
DownpourCtrFeatureValue
::
Embed_W_I
ndex
()
+
1
;
}
static
int
slot_i
ndex
()
{
static
int
SlotI
ndex
()
{
return
DownpourCtrFeatureValue
::
embed_g2sum_index
()
+
1
;
}
static
int
embedx_g2sum_index
()
{
return
DownpourCtrFeatureValue
::
slot_i
ndex
()
+
1
;
return
DownpourCtrFeatureValue
::
SlotI
ndex
()
+
1
;
}
static
int
embedx_w_i
ndex
()
{
static
int
Embedx_W_I
ndex
()
{
return
DownpourCtrFeatureValue
::
embedx_g2sum_index
()
+
1
;
}
static
float
&
unseen_days
(
float
*
val
)
{
...
...
@@ -76,17 +74,17 @@ class DownpourCtrAccessor : public ValueAccessor {
static
float
&
delta_score
(
float
*
val
)
{
return
val
[
DownpourCtrFeatureValue
::
delta_score_index
()];
}
static
float
&
s
how
(
float
*
val
)
{
return
val
[
DownpourCtrFeatureValue
::
show_i
ndex
()];
static
float
&
S
how
(
float
*
val
)
{
return
val
[
DownpourCtrFeatureValue
::
ShowI
ndex
()];
}
static
float
&
c
lick
(
float
*
val
)
{
return
val
[
DownpourCtrFeatureValue
::
click_i
ndex
()];
static
float
&
C
lick
(
float
*
val
)
{
return
val
[
DownpourCtrFeatureValue
::
ClickI
ndex
()];
}
static
float
&
s
lot
(
float
*
val
)
{
return
val
[
DownpourCtrFeatureValue
::
slot_i
ndex
()];
static
float
&
S
lot
(
float
*
val
)
{
return
val
[
DownpourCtrFeatureValue
::
SlotI
ndex
()];
}
static
float
&
embed_w
(
float
*
val
)
{
return
val
[
DownpourCtrFeatureValue
::
embed_w_i
ndex
()];
static
float
&
EmbedW
(
float
*
val
)
{
return
val
[
DownpourCtrFeatureValue
::
Embed_W_I
ndex
()];
}
static
float
&
embed_g2sum
(
float
*
val
)
{
return
val
[
DownpourCtrFeatureValue
::
embed_g2sum_index
()];
...
...
@@ -94,8 +92,8 @@ class DownpourCtrAccessor : public ValueAccessor {
static
float
&
embedx_g2sum
(
float
*
val
)
{
return
val
[
DownpourCtrFeatureValue
::
embedx_g2sum_index
()];
}
static
float
*
embedx_w
(
float
*
val
)
{
return
(
val
+
DownpourCtrFeatureValue
::
embedx_w_i
ndex
());
static
float
*
EmbedxW
(
float
*
val
)
{
return
(
val
+
DownpourCtrFeatureValue
::
Embedx_W_I
ndex
());
}
};
...
...
@@ -108,24 +106,24 @@ class DownpourCtrAccessor : public ValueAccessor {
std::vector<float> embedx_g;
*/
static
int
d
im
(
int
embedx_dim
)
{
return
4
+
embedx_dim
;
}
static
int
D
im
(
int
embedx_dim
)
{
return
4
+
embedx_dim
;
}
static
int
dim_s
ize
(
int
dim
,
int
embedx_dim
)
{
return
sizeof
(
float
);
}
static
int
size
(
int
embedx_dim
)
{
return
d
im
(
embedx_dim
)
*
sizeof
(
float
);
}
static
int
slot_i
ndex
()
{
return
0
;
}
static
int
show_index
()
{
return
DownpourCtrPushValue
::
slot_i
ndex
()
+
1
;
}
static
int
click_index
()
{
return
DownpourCtrPushValue
::
show_i
ndex
()
+
1
;
}
static
int
embed_g_i
ndex
()
{
return
DownpourCtrPushValue
::
click_i
ndex
()
+
1
;
}
static
int
embedx_g_i
ndex
()
{
return
DownpourCtrPushValue
::
embed_g_i
ndex
()
+
1
;
}
static
float
&
s
lot
(
float
*
val
)
{
return
val
[
0
];
}
static
float
&
s
how
(
float
*
val
)
{
return
val
[
1
];
}
static
float
&
c
lick
(
float
*
val
)
{
return
val
[
2
];
}
static
float
&
embed_g
(
float
*
val
)
{
return
val
[
3
];
}
static
float
*
embedx_g
(
float
*
val
)
{
return
val
+
4
;
}
static
int
DimS
ize
(
int
dim
,
int
embedx_dim
)
{
return
sizeof
(
float
);
}
static
int
Size
(
int
embedx_dim
)
{
return
D
im
(
embedx_dim
)
*
sizeof
(
float
);
}
static
int
SlotI
ndex
()
{
return
0
;
}
static
int
ShowIndex
()
{
return
DownpourCtrPushValue
::
SlotI
ndex
()
+
1
;
}
static
int
ClickIndex
()
{
return
DownpourCtrPushValue
::
ShowI
ndex
()
+
1
;
}
static
int
Embed_G_I
ndex
()
{
return
DownpourCtrPushValue
::
ClickI
ndex
()
+
1
;
}
static
int
Embedx_G_I
ndex
()
{
return
DownpourCtrPushValue
::
Embed_G_I
ndex
()
+
1
;
}
static
float
&
S
lot
(
float
*
val
)
{
return
val
[
0
];
}
static
float
&
S
how
(
float
*
val
)
{
return
val
[
1
];
}
static
float
&
C
lick
(
float
*
val
)
{
return
val
[
2
];
}
static
float
&
EmbedG
(
float
*
val
)
{
return
val
[
3
];
}
static
float
*
EmbedxG
(
float
*
val
)
{
return
val
+
4
;
}
};
struct
DownpourCtrPullValue
{
...
...
@@ -136,95 +134,95 @@ class DownpourCtrAccessor : public ValueAccessor {
std::vector<float> embedx_w;
*/
static
int
d
im
(
int
embedx_dim
)
{
return
3
+
embedx_dim
;
}
static
int
dim_s
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
static
int
size
(
int
embedx_dim
)
{
return
d
im
(
embedx_dim
)
*
sizeof
(
float
);
}
static
int
show_i
ndex
()
{
return
0
;
}
static
int
click_i
ndex
()
{
return
1
;
}
static
int
embed_w_i
ndex
()
{
return
2
;
}
static
int
embedx_w_i
ndex
()
{
return
3
;
}
static
float
&
s
how
(
float
*
val
)
{
return
val
[
DownpourCtrPullValue
::
show_i
ndex
()];
static
int
D
im
(
int
embedx_dim
)
{
return
3
+
embedx_dim
;
}
static
int
DimS
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
static
int
Size
(
int
embedx_dim
)
{
return
D
im
(
embedx_dim
)
*
sizeof
(
float
);
}
static
int
ShowI
ndex
()
{
return
0
;
}
static
int
ClickI
ndex
()
{
return
1
;
}
static
int
Embed_W_I
ndex
()
{
return
2
;
}
static
int
Embedx_W_I
ndex
()
{
return
3
;
}
static
float
&
S
how
(
float
*
val
)
{
return
val
[
DownpourCtrPullValue
::
ShowI
ndex
()];
}
static
float
&
c
lick
(
float
*
val
)
{
return
val
[
DownpourCtrPullValue
::
click_i
ndex
()];
static
float
&
C
lick
(
float
*
val
)
{
return
val
[
DownpourCtrPullValue
::
ClickI
ndex
()];
}
static
float
&
embed_w
(
float
*
val
)
{
return
val
[
DownpourCtrPullValue
::
embed_w_i
ndex
()];
static
float
&
EmbedW
(
float
*
val
)
{
return
val
[
DownpourCtrPullValue
::
Embed_W_I
ndex
()];
}
static
float
*
embedx_w
(
float
*
val
)
{
return
val
+
DownpourCtrPullValue
::
embedx_w_i
ndex
();
static
float
*
EmbedxW
(
float
*
val
)
{
return
val
+
DownpourCtrPullValue
::
Embedx_W_I
ndex
();
}
};
DownpourCtrAccessor
()
{}
virtual
~
DownpourCtrAccessor
()
{}
virtual
int
i
nitialize
();
virtual
int
I
nitialize
();
virtual
void
SetTableInfo
(
AccessorInfo
&
info
);
virtual
size_t
GetTableInfo
(
InfoKey
key
);
// value维度
virtual
size_t
d
im
();
size_t
D
im
();
// value各个维度的size
virtual
size_t
dim_s
ize
(
size_t
dim
);
size_t
DimS
ize
(
size_t
dim
);
// value各维度相加总size
virtual
size_t
s
ize
();
size_t
S
ize
();
// value中mf动态长度部分总size大小, sparse下生效
virtual
size_t
mf_s
ize
();
size_t
MFS
ize
();
// pull value维度
virtual
size_t
select_d
im
();
size_t
SelectD
im
();
// pull value各个维度的size
virtual
size_t
select_dim_s
ize
(
size_t
dim
);
size_t
SelectDimS
ize
(
size_t
dim
);
// pull value各维度相加总size
virtual
size_t
select_s
ize
();
size_t
SelectS
ize
();
// push value维度
virtual
size_t
update_d
im
();
size_t
UpdateD
im
();
// push value各个维度的size
virtual
size_t
update_dim_s
ize
(
size_t
dim
);
size_t
UpdateDimS
ize
(
size_t
dim
);
// push value各维度相加总size
virtual
size_t
update_s
ize
();
size_t
UpdateS
ize
();
// 判断该value是否进行shrink
virtual
bool
s
hrink
(
float
*
value
);
virtual
bool
S
hrink
(
float
*
value
);
// 判断该value是否保存到ssd
virtual
bool
save_ssd
(
float
*
value
);
virtual
bool
need_extend_mf
(
float
*
value
);
virtual
bool
has_mf
(
size_t
size
);
virtual
bool
NeedExtendMF
(
float
*
value
);
virtual
bool
HasMF
(
size_t
size
);
// 判断该value是否在save阶段dump,
// param作为参数用于标识save阶段,如downpour的xbox与batch_model
// param = 0, save all feature
// param = 1, save delta feature
// param = 3, save all feature with time decay
virtual
bool
s
ave
(
float
*
value
,
int
param
)
override
;
virtual
bool
S
ave
(
float
*
value
,
int
param
)
override
;
// update delta_score and unseen_days after save
virtual
void
update_stat_after_s
ave
(
float
*
value
,
int
param
)
override
;
virtual
void
UpdateStatAfterS
ave
(
float
*
value
,
int
param
)
override
;
// virtual bool save_cache(float* value, int param, double
// global_cache_threshold) override;
// keys不存在时,为values生成随机值
// 要求value的内存由外部调用者分配完毕
virtual
int32_t
c
reate
(
float
**
value
,
size_t
num
);
virtual
int32_t
C
reate
(
float
**
value
,
size_t
num
);
// 从values中选取到select_values中
virtual
int32_t
s
elect
(
float
**
select_values
,
const
float
**
values
,
virtual
int32_t
S
elect
(
float
**
select_values
,
const
float
**
values
,
size_t
num
);
// 将update_values聚合到一起
virtual
int32_t
m
erge
(
float
**
update_values
,
virtual
int32_t
M
erge
(
float
**
update_values
,
const
float
**
other_update_values
,
size_t
num
);
// 将update_values聚合到一起,通过it.next判定是否进入下一个key
// virtual int32_t
m
erge(float** update_values, iterator it);
// virtual int32_t
M
erge(float** update_values, iterator it);
// 将update_values更新应用到values中
virtual
int32_t
u
pdate
(
float
**
values
,
const
float
**
update_values
,
virtual
int32_t
U
pdate
(
float
**
values
,
const
float
**
update_values
,
size_t
num
);
virtual
std
::
string
parse_to_s
tring
(
const
float
*
value
,
int
param
)
override
;
virtual
int32_t
parse_from_s
tring
(
const
std
::
string
&
str
,
float
*
v
)
override
;
virtual
bool
create_v
alue
(
int
type
,
const
float
*
value
);
virtual
std
::
string
ParseToS
tring
(
const
float
*
value
,
int
param
)
override
;
virtual
int32_t
ParseFromS
tring
(
const
std
::
string
&
str
,
float
*
v
)
override
;
virtual
bool
CreateV
alue
(
int
type
,
const
float
*
value
);
//这个接口目前只用来取show
virtual
float
get_f
ield
(
float
*
value
,
const
std
::
string
&
name
)
override
{
virtual
float
GetF
ield
(
float
*
value
,
const
std
::
string
&
name
)
override
{
CHECK
(
name
==
"show"
);
if
(
name
==
"show"
)
{
auto
unseen_days
=
DownpourCtrFeatureValue
::
unseen_days
(
value
);
int16_t
day_diff
=
_day_id
-
unseen_days
;
auto
show_right
=
DownpourCtrFeatureValue
::
s
how
(
value
)
*
_time_decay_rates
[
day_diff
];
DownpourCtrFeatureValue
::
S
how
(
value
)
*
_time_decay_rates
[
day_diff
];
return
(
float
)
show_right
;
}
return
0.0
;
...
...
paddle/fluid/distributed/ps/table/memory_sparse_table.cc
浏览文件 @
0b0c2768
...
...
@@ -99,9 +99,9 @@ int32_t MemorySparseTable::load(const std::string& path,
channel_config
.
path
=
file_list
[
file_start_idx
+
i
];
VLOG
(
1
)
<<
"MemorySparseTable::load begin load "
<<
channel_config
.
path
<<
" into local shard "
<<
i
;
channel_config
.
converter
=
_value_accesor
->
c
onverter
(
load_param
).
converter
;
channel_config
.
converter
=
_value_accesor
->
C
onverter
(
load_param
).
converter
;
channel_config
.
deconverter
=
_value_accesor
->
c
onverter
(
load_param
).
deconverter
;
_value_accesor
->
C
onverter
(
load_param
).
deconverter
;
bool
is_read_failed
=
false
;
int
retry_num
=
0
;
...
...
@@ -119,8 +119,7 @@ int32_t MemorySparseTable::load(const std::string& path,
uint64_t
key
=
std
::
strtoul
(
line_data
.
data
(),
&
end
,
10
);
auto
&
value
=
shard
[
key
];
value
.
resize
(
feature_value_size
);
int
parse_size
=
_value_accesor
->
parse_from_string
(
++
end
,
value
.
data
());
int
parse_size
=
_value_accesor
->
ParseFromString
(
++
end
,
value
.
data
());
value
.
resize
(
parse_size
);
// for debug
...
...
@@ -196,8 +195,7 @@ int32_t MemorySparseTable::load_local_fs(const std::string& path,
uint64_t
key
=
std
::
strtoul
(
line_data
.
data
(),
&
end
,
10
);
auto
&
value
=
shard
[
key
];
value
.
resize
(
feature_value_size
);
int
parse_size
=
_value_accesor
->
parse_from_string
(
++
end
,
value
.
data
());
int
parse_size
=
_value_accesor
->
ParseFromString
(
++
end
,
value
.
data
());
value
.
resize
(
parse_size
);
}
file
.
close
();
...
...
@@ -253,9 +251,9 @@ int32_t MemorySparseTable::save(const std::string& dirname,
paddle
::
string
::
format_string
(
"%s/part-%03d-%05d"
,
table_path
.
c_str
(),
_shard_idx
,
file_start_idx
+
i
);
}
channel_config
.
converter
=
_value_accesor
->
c
onverter
(
save_param
).
converter
;
channel_config
.
converter
=
_value_accesor
->
C
onverter
(
save_param
).
converter
;
channel_config
.
deconverter
=
_value_accesor
->
c
onverter
(
save_param
).
deconverter
;
_value_accesor
->
C
onverter
(
save_param
).
deconverter
;
bool
is_write_failed
=
false
;
int
feasign_size
=
0
;
int
retry_num
=
0
;
...
...
@@ -268,8 +266,8 @@ int32_t MemorySparseTable::save(const std::string& dirname,
auto
write_channel
=
_afs_client
.
open_w
(
channel_config
,
1024
*
1024
*
40
,
&
err_no
);
for
(
auto
it
=
shard
.
begin
();
it
!=
shard
.
end
();
++
it
)
{
if
(
_value_accesor
->
s
ave
(
it
.
value
().
data
(),
save_param
))
{
std
::
string
format_value
=
_value_accesor
->
parse_to_s
tring
(
if
(
_value_accesor
->
S
ave
(
it
.
value
().
data
(),
save_param
))
{
std
::
string
format_value
=
_value_accesor
->
ParseToS
tring
(
it
.
value
().
data
(),
it
.
value
().
size
());
if
(
0
!=
write_channel
->
write_line
(
paddle
::
string
::
format_string
(
...
...
@@ -302,7 +300,7 @@ int32_t MemorySparseTable::save(const std::string& dirname,
}
while
(
is_write_failed
);
feasign_size_all
+=
feasign_size
;
for
(
auto
it
=
shard
.
begin
();
it
!=
shard
.
end
();
++
it
)
{
_value_accesor
->
update_stat_after_s
ave
(
it
.
value
().
data
(),
save_param
);
_value_accesor
->
UpdateStatAfterS
ave
(
it
.
value
().
data
(),
save_param
);
}
LOG
(
INFO
)
<<
"MemorySparseTable save prefix success, path: "
<<
channel_config
.
path
;
...
...
@@ -334,9 +332,9 @@ int32_t MemorySparseTable::save_local_fs(const std::string& dirname,
std
::
ofstream
os
;
os
.
open
(
file_name
);
for
(
auto
it
=
shard
.
begin
();
it
!=
shard
.
end
();
++
it
)
{
if
(
_value_accesor
->
s
ave
(
it
.
value
().
data
(),
save_param
))
{
std
::
string
format_value
=
_value_accesor
->
parse_to_string
(
it
.
value
().
data
(),
it
.
value
().
size
());
if
(
_value_accesor
->
S
ave
(
it
.
value
().
data
(),
save_param
))
{
std
::
string
format_value
=
_value_accesor
->
ParseToString
(
it
.
value
().
data
(),
it
.
value
().
size
());
std
::
string
out_line
=
paddle
::
string
::
format_string
(
"%lu %s
\n
"
,
it
.
key
(),
format_value
.
c_str
());
// VLOG(2) << out_line.c_str();
...
...
@@ -370,7 +368,7 @@ int64_t MemorySparseTable::local_mf_size() {
auto
&
local_shard
=
_local_shards
[
shard_id
];
for
(
auto
it
=
local_shard
.
begin
();
it
!=
local_shard
.
end
();
++
it
)
{
if
(
_value_accesor
->
has_mf
(
it
.
value
().
size
()))
{
if
(
_value_accesor
->
HasMF
(
it
.
value
().
size
()))
{
size_arr
[
shard_id
]
+=
1
;
}
}
...
...
@@ -453,7 +451,7 @@ int32_t MemorySparseTable::pull_sparse(float* pull_values,
auto
&
feature_value
=
local_shard
[
key
];
feature_value
.
resize
(
data_size
);
float
*
data_ptr
=
feature_value
.
data
();
_value_accesor
->
c
reate
(
&
data_buffer_ptr
,
1
);
_value_accesor
->
C
reate
(
&
data_buffer_ptr
,
1
);
memcpy
(
data_ptr
,
data_buffer_ptr
,
data_size
*
sizeof
(
float
));
}
...
...
@@ -467,7 +465,7 @@ int32_t MemorySparseTable::pull_sparse(float* pull_values,
}
auto
offset
=
keys
[
i
].
second
;
float
*
select_data
=
pull_values
+
select_value_size
*
offset
;
_value_accesor
->
s
elect
(
&
select_data
,
_value_accesor
->
S
elect
(
&
select_data
,
(
const
float
**
)
&
data_buffer_ptr
,
1
);
}
...
...
@@ -484,8 +482,8 @@ int32_t MemorySparseTable::pull_sparse(float* pull_values,
int32_t
MemorySparseTable
::
pull_sparse_ptr
(
char
**
pull_values
,
const
uint64_t
*
keys
,
size_t
num
)
{
CostTimer
timer
(
"pscore_sparse_select_all"
);
size_t
value_size
=
_value_accesor
->
size
(
)
/
sizeof
(
float
);
size_t
mf_value_size
=
_value_accesor
->
mf_size
(
)
/
sizeof
(
float
);
size_t
value_size
=
_value_accesor
->
GetTableInfo
(
SIZE
)
/
sizeof
(
float
);
size_t
mf_value_size
=
_value_accesor
->
GetTableInfo
(
MF_SIZE
)
/
sizeof
(
float
);
std
::
vector
<
std
::
future
<
int
>>
tasks
(
_real_local_shard_num
);
std
::
vector
<
std
::
vector
<
std
::
pair
<
uint64_t
,
int
>>>
task_keys
(
...
...
@@ -514,7 +512,7 @@ int32_t MemorySparseTable::pull_sparse_ptr(char** pull_values,
auto
&
feature_value
=
local_shard
[
key
];
feature_value
.
resize
(
data_size
);
float
*
data_ptr
=
feature_value
.
data
();
_value_accesor
->
c
reate
(
&
data_buffer_ptr
,
1
);
_value_accesor
->
C
reate
(
&
data_buffer_ptr
,
1
);
memcpy
(
data_ptr
,
data_buffer_ptr
,
data_size
*
sizeof
(
float
));
ret
=
&
feature_value
;
}
else
{
...
...
@@ -564,13 +562,13 @@ int32_t MemorySparseTable::push_sparse(const uint64_t* keys,
auto
itr
=
local_shard
.
find
(
key
);
if
(
itr
==
local_shard
.
end
())
{
if
(
FLAGS_pserver_enable_create_feasign_randomly
&&
!
_value_accesor
->
create_v
alue
(
1
,
update_data
))
{
!
_value_accesor
->
CreateV
alue
(
1
,
update_data
))
{
continue
;
}
auto
value_size
=
value_col
-
mf_value_col
;
auto
&
feature_value
=
local_shard
[
key
];
feature_value
.
resize
(
value_size
);
_value_accesor
->
c
reate
(
&
data_buffer_ptr
,
1
);
_value_accesor
->
C
reate
(
&
data_buffer_ptr
,
1
);
memcpy
(
feature_value
.
data
(),
data_buffer_ptr
,
value_size
*
sizeof
(
float
));
itr
=
local_shard
.
find
(
key
);
...
...
@@ -581,16 +579,16 @@ int32_t MemorySparseTable::push_sparse(const uint64_t* keys,
size_t
value_size
=
feature_value
.
size
();
if
(
value_size
==
value_col
)
{
// 已拓展到最大size, 则就地update
_value_accesor
->
u
pdate
(
&
value_data
,
&
update_data
,
1
);
_value_accesor
->
U
pdate
(
&
value_data
,
&
update_data
,
1
);
}
else
{
// 拷入buffer区进行update,然后再回填,不需要的mf则回填时抛弃了
memcpy
(
data_buffer_ptr
,
value_data
,
value_size
*
sizeof
(
float
));
_value_accesor
->
u
pdate
(
&
data_buffer_ptr
,
&
update_data
,
1
);
_value_accesor
->
U
pdate
(
&
data_buffer_ptr
,
&
update_data
,
1
);
if
(
_value_accesor
->
need_extend_mf
(
data_buffer
))
{
if
(
_value_accesor
->
NeedExtendMF
(
data_buffer
))
{
feature_value
.
resize
(
value_col
);
value_data
=
feature_value
.
data
();
_value_accesor
->
c
reate
(
&
value_data
,
1
);
_value_accesor
->
C
reate
(
&
value_data
,
1
);
}
memcpy
(
value_data
,
data_buffer_ptr
,
value_size
*
sizeof
(
float
));
}
...
...
@@ -641,13 +639,13 @@ int32_t MemorySparseTable::_push_sparse(const uint64_t* keys,
auto
itr
=
local_shard
.
find
(
key
);
if
(
itr
==
local_shard
.
end
())
{
if
(
FLAGS_pserver_enable_create_feasign_randomly
&&
!
_value_accesor
->
create_v
alue
(
1
,
update_data
))
{
!
_value_accesor
->
CreateV
alue
(
1
,
update_data
))
{
continue
;
}
auto
value_size
=
value_col
-
mf_value_col
;
auto
&
feature_value
=
local_shard
[
key
];
feature_value
.
resize
(
value_size
);
_value_accesor
->
c
reate
(
&
data_buffer_ptr
,
1
);
_value_accesor
->
C
reate
(
&
data_buffer_ptr
,
1
);
memcpy
(
feature_value
.
data
(),
data_buffer_ptr
,
value_size
*
sizeof
(
float
));
itr
=
local_shard
.
find
(
key
);
...
...
@@ -656,15 +654,15 @@ int32_t MemorySparseTable::_push_sparse(const uint64_t* keys,
float
*
value_data
=
feature_value
.
data
();
size_t
value_size
=
feature_value
.
size
();
if
(
value_size
==
value_col
)
{
// 已拓展到最大size, 则就地update
_value_accesor
->
u
pdate
(
&
value_data
,
&
update_data
,
1
);
_value_accesor
->
U
pdate
(
&
value_data
,
&
update_data
,
1
);
}
else
{
// 拷入buffer区进行update,然后再回填,不需要的mf则回填时抛弃了
memcpy
(
data_buffer_ptr
,
value_data
,
value_size
*
sizeof
(
float
));
_value_accesor
->
u
pdate
(
&
data_buffer_ptr
,
&
update_data
,
1
);
if
(
_value_accesor
->
need_extend_mf
(
data_buffer
))
{
_value_accesor
->
U
pdate
(
&
data_buffer_ptr
,
&
update_data
,
1
);
if
(
_value_accesor
->
NeedExtendMF
(
data_buffer
))
{
feature_value
.
resize
(
value_col
);
value_data
=
feature_value
.
data
();
_value_accesor
->
c
reate
(
&
value_data
,
1
);
_value_accesor
->
C
reate
(
&
value_data
,
1
);
}
memcpy
(
value_data
,
data_buffer_ptr
,
value_size
*
sizeof
(
float
));
}
...
...
@@ -688,7 +686,7 @@ int32_t MemorySparseTable::shrink(const std::string& param) {
// shrink
auto
&
shard
=
_local_shards
[
shard_id
];
for
(
auto
it
=
shard
.
begin
();
it
!=
shard
.
end
();)
{
if
(
_value_accesor
->
s
hrink
(
it
.
value
().
data
()))
{
if
(
_value_accesor
->
S
hrink
(
it
.
value
().
data
()))
{
it
=
shard
.
erase
(
it
);
}
else
{
++
it
;
...
...
paddle/fluid/distributed/ps/table/sparse_accessor.cc
浏览文件 @
0b0c2768
...
...
@@ -20,7 +20,7 @@
namespace
paddle
{
namespace
distributed
{
int
SparseAccessor
::
i
nitialize
()
{
int
SparseAccessor
::
I
nitialize
()
{
auto
name
=
_config
.
embed_sgd_param
().
name
();
_embed_sgd_rule
=
CREATE_PSCORE_CLASS
(
SparseValueSGDRule
,
name
);
_embed_sgd_rule
->
load_config
(
_config
.
embed_sgd_param
(),
1
);
...
...
@@ -39,73 +39,72 @@ int SparseAccessor::initialize() {
}
void
SparseAccessor
::
SetTableInfo
(
AccessorInfo
&
info
)
{
info
.
dim
=
dim
();
info
.
size
=
size
();
info
.
select_dim
=
select_dim
();
info
.
select_size
=
select_size
();
info
.
update_dim
=
update_dim
();
info
.
update_size
=
update_size
();
info
.
mf_size
=
mf_size
();
info
.
fea_dim
=
fea_dim
();
info
.
dim
=
Dim
();
info
.
size
=
Size
();
info
.
select_dim
=
SelectDim
();
info
.
select_size
=
SelectSize
();
info
.
update_dim
=
UpdateDim
();
info
.
update_size
=
UpdateSize
();
info
.
mf_size
=
MFSize
();
}
size_t
SparseAccessor
::
GetTableInfo
(
InfoKey
key
)
{
switch
(
key
)
{
case
DIM
:
return
d
im
();
return
D
im
();
case
SIZE
:
return
s
ize
();
return
S
ize
();
case
SELECT_DIM
:
return
select_d
im
();
return
SelectD
im
();
case
SELECT_SIZE
:
return
select_s
ize
();
return
SelectS
ize
();
case
UPDATE_DIM
:
return
update_d
im
();
return
UpdateD
im
();
case
UPDATE_SIZE
:
return
update_s
ize
();
return
UpdateS
ize
();
case
MF_SIZE
:
return
mf_s
ize
();
case
FEA_DIM
:
return
fea_dim
()
;
return
MFS
ize
();
default
:
return
0
;
}
return
0
;
}
size_t
SparseAccessor
::
dim
()
{
return
sparse_feature_value
.
d
im
();
}
size_t
SparseAccessor
::
Dim
()
{
return
sparse_feature_value
.
D
im
();
}
size_t
SparseAccessor
::
dim_s
ize
(
size_t
dim
)
{
size_t
SparseAccessor
::
DimS
ize
(
size_t
dim
)
{
auto
embedx_dim
=
_config
.
embedx_dim
();
return
sparse_feature_value
.
dim_s
ize
(
dim
,
embedx_dim
);
return
sparse_feature_value
.
DimS
ize
(
dim
,
embedx_dim
);
}
size_t
SparseAccessor
::
size
()
{
return
sparse_feature_value
.
s
ize
();
}
size_t
SparseAccessor
::
Size
()
{
return
sparse_feature_value
.
S
ize
();
}
size_t
SparseAccessor
::
mf_s
ize
()
{
size_t
SparseAccessor
::
MFS
ize
()
{
return
(
_config
.
embedx_dim
()
+
sparse_feature_value
.
embedx_sgd_dim
)
*
sizeof
(
float
);
// embedx embedx_g2sum
}
// pull value
size_t
SparseAccessor
::
select_d
im
()
{
size_t
SparseAccessor
::
SelectD
im
()
{
auto
embedx_dim
=
_config
.
embedx_dim
();
return
1
+
embedx_dim
;
}
size_t
SparseAccessor
::
select_dim_s
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
size_t
SparseAccessor
::
SelectDimS
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
size_t
SparseAccessor
::
select_size
()
{
return
select_d
im
()
*
sizeof
(
float
);
}
size_t
SparseAccessor
::
SelectSize
()
{
return
SelectD
im
()
*
sizeof
(
float
);
}
// push value
size_t
SparseAccessor
::
update_d
im
()
{
size_t
SparseAccessor
::
UpdateD
im
()
{
auto
embedx_dim
=
_config
.
embedx_dim
();
return
4
+
embedx_dim
;
}
size_t
SparseAccessor
::
update_dim_s
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
size_t
SparseAccessor
::
UpdateDimS
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
size_t
SparseAccessor
::
update_size
()
{
return
update_d
im
()
*
sizeof
(
float
);
}
size_t
SparseAccessor
::
UpdateSize
()
{
return
UpdateD
im
()
*
sizeof
(
float
);
}
bool
SparseAccessor
::
s
hrink
(
float
*
value
)
{
bool
SparseAccessor
::
S
hrink
(
float
*
value
)
{
auto
base_threshold
=
_config
.
ctr_accessor_param
().
base_threshold
();
auto
delta_threshold
=
_config
.
ctr_accessor_param
().
delta_threshold
();
auto
delete_after_unseen_days
=
...
...
@@ -113,12 +112,12 @@ bool SparseAccessor::shrink(float* value) {
auto
delete_threshold
=
_config
.
ctr_accessor_param
().
delete_threshold
();
// time_decay first
sparse_feature_value
.
s
how
(
value
)
*=
_show_click_decay_rate
;
sparse_feature_value
.
c
lick
(
value
)
*=
_show_click_decay_rate
;
sparse_feature_value
.
S
how
(
value
)
*=
_show_click_decay_rate
;
sparse_feature_value
.
C
lick
(
value
)
*=
_show_click_decay_rate
;
// shrink after
auto
score
=
show_click_score
(
sparse_feature_value
.
s
how
(
value
),
sparse_feature_value
.
c
lick
(
value
));
auto
score
=
show_click_score
(
sparse_feature_value
.
S
how
(
value
),
sparse_feature_value
.
C
lick
(
value
));
auto
unseen_days
=
sparse_feature_value
.
unseen_days
(
value
);
if
(
score
<
delete_threshold
||
unseen_days
>
delete_after_unseen_days
)
{
return
true
;
...
...
@@ -126,7 +125,7 @@ bool SparseAccessor::shrink(float* value) {
return
false
;
}
bool
SparseAccessor
::
s
ave
(
float
*
value
,
int
param
)
{
bool
SparseAccessor
::
S
ave
(
float
*
value
,
int
param
)
{
auto
base_threshold
=
_config
.
ctr_accessor_param
().
base_threshold
();
auto
delta_threshold
=
_config
.
ctr_accessor_param
().
delta_threshold
();
auto
delta_keep_days
=
_config
.
ctr_accessor_param
().
delta_keep_days
();
...
...
@@ -142,8 +141,8 @@ bool SparseAccessor::save(float* value, int param) {
case
1
:
// save xbox base
case
2
:
{
if
(
show_click_score
(
sparse_feature_value
.
s
how
(
value
),
sparse_feature_value
.
c
lick
(
value
))
>=
if
(
show_click_score
(
sparse_feature_value
.
S
how
(
value
),
sparse_feature_value
.
C
lick
(
value
))
>=
base_threshold
&&
sparse_feature_value
.
delta_score
(
value
)
>=
delta_threshold
&&
sparse_feature_value
.
unseen_days
(
value
)
<=
delta_keep_days
)
{
...
...
@@ -171,7 +170,7 @@ bool SparseAccessor::save(float* value, int param) {
}
}
void
SparseAccessor
::
update_stat_after_s
ave
(
float
*
value
,
int
param
)
{
void
SparseAccessor
::
UpdateStatAfterS
ave
(
float
*
value
,
int
param
)
{
auto
base_threshold
=
_config
.
ctr_accessor_param
().
base_threshold
();
auto
delta_threshold
=
_config
.
ctr_accessor_param
().
delta_threshold
();
auto
delta_keep_days
=
_config
.
ctr_accessor_param
().
delta_keep_days
();
...
...
@@ -180,8 +179,8 @@ void SparseAccessor::update_stat_after_save(float* value, int param) {
}
switch
(
param
)
{
case
1
:
{
if
(
show_click_score
(
sparse_feature_value
.
s
how
(
value
),
sparse_feature_value
.
c
lick
(
value
))
>=
if
(
show_click_score
(
sparse_feature_value
.
S
how
(
value
),
sparse_feature_value
.
C
lick
(
value
))
>=
base_threshold
&&
sparse_feature_value
.
delta_score
(
value
)
>=
delta_threshold
&&
sparse_feature_value
.
unseen_days
(
value
)
<=
delta_keep_days
)
{
...
...
@@ -198,48 +197,48 @@ void SparseAccessor::update_stat_after_save(float* value, int param) {
}
}
int32_t
SparseAccessor
::
c
reate
(
float
**
values
,
size_t
num
)
{
int32_t
SparseAccessor
::
C
reate
(
float
**
values
,
size_t
num
)
{
auto
embedx_dim
=
_config
.
embedx_dim
();
for
(
size_t
value_item
=
0
;
value_item
<
num
;
++
value_item
)
{
float
*
value
=
values
[
value_item
];
value
[
sparse_feature_value
.
unseen_days_index
()]
=
0
;
value
[
sparse_feature_value
.
delta_score_index
()]
=
0
;
value
[
sparse_feature_value
.
show_i
ndex
()]
=
0
;
value
[
sparse_feature_value
.
click_i
ndex
()]
=
0
;
value
[
sparse_feature_value
.
slot_i
ndex
()]
=
-
1
;
value
[
sparse_feature_value
.
ShowI
ndex
()]
=
0
;
value
[
sparse_feature_value
.
ClickI
ndex
()]
=
0
;
value
[
sparse_feature_value
.
SlotI
ndex
()]
=
-
1
;
_embed_sgd_rule
->
init_value
(
value
+
sparse_feature_value
.
embed_w_i
ndex
(),
value
+
sparse_feature_value
.
Embed_W_I
ndex
(),
value
+
sparse_feature_value
.
embed_g2sum_index
());
_embedx_sgd_rule
->
init_value
(
value
+
sparse_feature_value
.
embedx_w_i
ndex
(),
value
+
sparse_feature_value
.
Embedx_W_I
ndex
(),
value
+
sparse_feature_value
.
embedx_g2sum_index
(),
false
);
}
return
0
;
}
bool
SparseAccessor
::
need_extend_mf
(
float
*
value
)
{
float
show
=
value
[
sparse_feature_value
.
show_i
ndex
()];
float
click
=
value
[
sparse_feature_value
.
click_i
ndex
()];
bool
SparseAccessor
::
NeedExtendMF
(
float
*
value
)
{
float
show
=
value
[
sparse_feature_value
.
ShowI
ndex
()];
float
click
=
value
[
sparse_feature_value
.
ClickI
ndex
()];
float
score
=
(
show
-
click
)
*
_config
.
ctr_accessor_param
().
nonclk_coeff
()
+
click
*
_config
.
ctr_accessor_param
().
click_coeff
();
return
score
>=
_config
.
embedx_threshold
();
}
bool
SparseAccessor
::
has_mf
(
size_t
size
)
{
bool
SparseAccessor
::
HasMF
(
size_t
size
)
{
return
size
>
sparse_feature_value
.
embedx_g2sum_index
();
}
// from SparseFeatureValue to SparsePullValue
int32_t
SparseAccessor
::
s
elect
(
float
**
select_values
,
const
float
**
values
,
int32_t
SparseAccessor
::
S
elect
(
float
**
select_values
,
const
float
**
values
,
size_t
num
)
{
auto
embedx_dim
=
_config
.
embedx_dim
();
for
(
size_t
value_item
=
0
;
value_item
<
num
;
++
value_item
)
{
float
*
select_value
=
select_values
[
value_item
];
const
float
*
value
=
values
[
value_item
];
select_value
[
SparsePullValue
::
embed_w_i
ndex
()]
=
value
[
sparse_feature_value
.
embed_w_i
ndex
()];
memcpy
(
select_value
+
SparsePullValue
::
embedx_w_i
ndex
(),
value
+
sparse_feature_value
.
embedx_w_i
ndex
(),
select_value
[
SparsePullValue
::
Embed_W_I
ndex
()]
=
value
[
sparse_feature_value
.
Embed_W_I
ndex
()];
memcpy
(
select_value
+
SparsePullValue
::
Embedx_W_I
ndex
(),
value
+
sparse_feature_value
.
Embedx_W_I
ndex
(),
embedx_dim
*
sizeof
(
float
));
}
return
0
;
...
...
@@ -248,15 +247,15 @@ int32_t SparseAccessor::select(float** select_values, const float** values,
// from SparsePushValue to SparsePushValue
// first dim: item
// second dim: field num
int32_t
SparseAccessor
::
m
erge
(
float
**
update_values
,
int32_t
SparseAccessor
::
M
erge
(
float
**
update_values
,
const
float
**
other_update_values
,
size_t
num
)
{
auto
embedx_dim
=
_config
.
embedx_dim
();
size_t
total_dim
=
SparsePushValue
::
d
im
(
embedx_dim
);
size_t
total_dim
=
SparsePushValue
::
D
im
(
embedx_dim
);
for
(
size_t
value_item
=
0
;
value_item
<
num
;
++
value_item
)
{
float
*
update_value
=
update_values
[
value_item
];
const
float
*
other_update_value
=
other_update_values
[
value_item
];
for
(
auto
i
=
0u
;
i
<
total_dim
;
++
i
)
{
if
(
i
!=
SparsePushValue
::
slot_i
ndex
())
{
if
(
i
!=
SparsePushValue
::
SlotI
ndex
())
{
update_value
[
i
]
+=
other_update_value
[
i
];
}
}
...
...
@@ -267,43 +266,43 @@ int32_t SparseAccessor::merge(float** update_values,
// from SparsePushValue to SparseFeatureValue
// first dim: item
// second dim: field num
int32_t
SparseAccessor
::
u
pdate
(
float
**
update_values
,
const
float
**
push_values
,
int32_t
SparseAccessor
::
U
pdate
(
float
**
update_values
,
const
float
**
push_values
,
size_t
num
)
{
auto
embedx_dim
=
_config
.
embedx_dim
();
for
(
size_t
value_item
=
0
;
value_item
<
num
;
++
value_item
)
{
float
*
update_value
=
update_values
[
value_item
];
const
float
*
push_value
=
push_values
[
value_item
];
float
push_show
=
push_value
[
SparsePushValue
::
show_i
ndex
()];
float
push_click
=
push_value
[
SparsePushValue
::
click_i
ndex
()];
float
slot
=
push_value
[
SparsePushValue
::
slot_i
ndex
()];
update_value
[
sparse_feature_value
.
show_i
ndex
()]
+=
push_show
;
update_value
[
sparse_feature_value
.
click_i
ndex
()]
+=
push_click
;
update_value
[
sparse_feature_value
.
slot_i
ndex
()]
=
slot
;
float
push_show
=
push_value
[
SparsePushValue
::
ShowI
ndex
()];
float
push_click
=
push_value
[
SparsePushValue
::
ClickI
ndex
()];
float
slot
=
push_value
[
SparsePushValue
::
SlotI
ndex
()];
update_value
[
sparse_feature_value
.
ShowI
ndex
()]
+=
push_show
;
update_value
[
sparse_feature_value
.
ClickI
ndex
()]
+=
push_click
;
update_value
[
sparse_feature_value
.
SlotI
ndex
()]
=
slot
;
update_value
[
sparse_feature_value
.
delta_score_index
()]
+=
(
push_show
-
push_click
)
*
_config
.
ctr_accessor_param
().
nonclk_coeff
()
+
push_click
*
_config
.
ctr_accessor_param
().
click_coeff
();
update_value
[
sparse_feature_value
.
unseen_days_index
()]
=
0
;
_embed_sgd_rule
->
update_value
(
update_value
+
sparse_feature_value
.
embed_w_i
ndex
(),
update_value
+
sparse_feature_value
.
Embed_W_I
ndex
(),
update_value
+
sparse_feature_value
.
embed_g2sum_index
(),
push_value
+
SparsePushValue
::
embed_g_i
ndex
());
push_value
+
SparsePushValue
::
Embed_G_I
ndex
());
_embedx_sgd_rule
->
update_value
(
update_value
+
sparse_feature_value
.
embedx_w_i
ndex
(),
update_value
+
sparse_feature_value
.
Embedx_W_I
ndex
(),
update_value
+
sparse_feature_value
.
embedx_g2sum_index
(),
push_value
+
SparsePushValue
::
embedx_g_i
ndex
());
push_value
+
SparsePushValue
::
Embedx_G_I
ndex
());
}
return
0
;
}
bool
SparseAccessor
::
create_v
alue
(
int
stage
,
const
float
*
value
)
{
bool
SparseAccessor
::
CreateV
alue
(
int
stage
,
const
float
*
value
)
{
// stage == 0, pull
// stage == 1, push
if
(
stage
==
0
)
{
return
true
;
}
else
if
(
stage
==
1
)
{
// operation
auto
show
=
SparsePushValue
::
s
how
(
const_cast
<
float
*>
(
value
));
auto
click
=
SparsePushValue
::
c
lick
(
const_cast
<
float
*>
(
value
));
auto
show
=
SparsePushValue
::
S
how
(
const_cast
<
float
*>
(
value
));
auto
click
=
SparsePushValue
::
C
lick
(
const_cast
<
float
*>
(
value
));
auto
score
=
show_click_score
(
show
,
click
);
if
(
score
<=
0
)
{
return
false
;
...
...
@@ -324,34 +323,34 @@ float SparseAccessor::show_click_score(float show, float click) {
return
(
show
-
click
)
*
nonclk_coeff
+
click
*
click_coeff
;
}
std
::
string
SparseAccessor
::
parse_to_s
tring
(
const
float
*
v
,
int
param
)
{
std
::
string
SparseAccessor
::
ParseToS
tring
(
const
float
*
v
,
int
param
)
{
thread_local
std
::
ostringstream
os
;
os
.
clear
();
os
.
str
(
""
);
os
<<
v
[
0
]
<<
" "
<<
v
[
1
]
<<
" "
<<
v
[
2
]
<<
" "
<<
v
[
3
]
<<
" "
<<
v
[
4
]
<<
" "
<<
v
[
5
];
for
(
int
i
=
sparse_feature_value
.
embed_g2sum_index
();
i
<
sparse_feature_value
.
embedx_w_i
ndex
();
i
++
)
{
i
<
sparse_feature_value
.
Embedx_W_I
ndex
();
i
++
)
{
os
<<
" "
<<
v
[
i
];
}
auto
show
=
sparse_feature_value
.
s
how
(
const_cast
<
float
*>
(
v
));
auto
click
=
sparse_feature_value
.
c
lick
(
const_cast
<
float
*>
(
v
));
auto
show
=
sparse_feature_value
.
S
how
(
const_cast
<
float
*>
(
v
));
auto
click
=
sparse_feature_value
.
C
lick
(
const_cast
<
float
*>
(
v
));
auto
score
=
show_click_score
(
show
,
click
);
if
(
score
>=
_config
.
embedx_threshold
()
&&
param
>
sparse_feature_value
.
embedx_w_i
ndex
())
{
for
(
auto
i
=
sparse_feature_value
.
embedx_w_i
ndex
();
i
<
sparse_feature_value
.
d
im
();
++
i
)
{
param
>
sparse_feature_value
.
Embedx_W_I
ndex
())
{
for
(
auto
i
=
sparse_feature_value
.
Embedx_W_I
ndex
();
i
<
sparse_feature_value
.
D
im
();
++
i
)
{
os
<<
" "
<<
v
[
i
];
}
}
return
os
.
str
();
}
int
SparseAccessor
::
parse_from_s
tring
(
const
std
::
string
&
str
,
float
*
value
)
{
int
SparseAccessor
::
ParseFromS
tring
(
const
std
::
string
&
str
,
float
*
value
)
{
int
embedx_dim
=
_config
.
embedx_dim
();
_embedx_sgd_rule
->
init_value
(
value
+
sparse_feature_value
.
embedx_w_i
ndex
(),
value
+
sparse_feature_value
.
Embedx_W_I
ndex
(),
value
+
sparse_feature_value
.
embedx_g2sum_index
());
auto
ret
=
paddle
::
string
::
str_to_float
(
str
.
data
(),
value
);
CHECK
(
ret
>=
6
)
<<
"expect more than 6 real:"
<<
ret
;
...
...
paddle/fluid/distributed/ps/table/sparse_accessor.h
浏览文件 @
0b0c2768
...
...
@@ -40,27 +40,27 @@ class SparseAccessor : public ValueAccessor {
std::<vector>float embedx_g2sum;
*/
int
d
im
()
{
return
6
+
embed_sgd_dim
+
embedx_sgd_dim
+
embedx_dim
;
}
int
dim_s
ize
(
size_t
dim
,
int
embedx_dim
)
{
return
sizeof
(
float
);
}
int
size
()
{
return
d
im
()
*
sizeof
(
float
);
}
int
slot_i
ndex
()
{
return
0
;
}
int
unseen_days_index
()
{
return
slot_i
ndex
()
+
1
;
}
int
D
im
()
{
return
6
+
embed_sgd_dim
+
embedx_sgd_dim
+
embedx_dim
;
}
int
DimS
ize
(
size_t
dim
,
int
embedx_dim
)
{
return
sizeof
(
float
);
}
int
Size
()
{
return
D
im
()
*
sizeof
(
float
);
}
int
SlotI
ndex
()
{
return
0
;
}
int
unseen_days_index
()
{
return
SlotI
ndex
()
+
1
;
}
int
delta_score_index
()
{
return
unseen_days_index
()
+
1
;
}
int
show_i
ndex
()
{
return
delta_score_index
()
+
1
;
}
int
click_index
()
{
return
show_i
ndex
()
+
1
;
}
int
embed_w_index
()
{
return
click_i
ndex
()
+
1
;
}
int
embed_g2sum_index
()
{
return
embed_w_i
ndex
()
+
1
;
}
int
embedx_w_i
ndex
()
{
return
embed_g2sum_index
()
+
embed_sgd_dim
;
}
int
embedx_g2sum_index
()
{
return
embedx_w_i
ndex
()
+
embedx_dim
;
}
int
ShowI
ndex
()
{
return
delta_score_index
()
+
1
;
}
int
ClickIndex
()
{
return
ShowI
ndex
()
+
1
;
}
int
Embed_W_Index
()
{
return
ClickI
ndex
()
+
1
;
}
int
embed_g2sum_index
()
{
return
Embed_W_I
ndex
()
+
1
;
}
int
Embedx_W_I
ndex
()
{
return
embed_g2sum_index
()
+
embed_sgd_dim
;
}
int
embedx_g2sum_index
()
{
return
Embedx_W_I
ndex
()
+
embedx_dim
;
}
float
&
unseen_days
(
float
*
val
)
{
return
val
[
unseen_days_index
()];
}
float
&
delta_score
(
float
*
val
)
{
return
val
[
delta_score_index
()];
}
float
&
show
(
float
*
val
)
{
return
val
[
show_i
ndex
()];
}
float
&
click
(
float
*
val
)
{
return
val
[
click_i
ndex
()];
}
float
&
slot
(
float
*
val
)
{
return
val
[
slot_i
ndex
()];
}
float
&
embed_w
(
float
*
val
)
{
return
val
[
embed_w_i
ndex
()];
}
float
&
Show
(
float
*
val
)
{
return
val
[
ShowI
ndex
()];
}
float
&
Click
(
float
*
val
)
{
return
val
[
ClickI
ndex
()];
}
float
&
Slot
(
float
*
val
)
{
return
val
[
SlotI
ndex
()];
}
float
&
EmbedW
(
float
*
val
)
{
return
val
[
Embed_W_I
ndex
()];
}
float
&
embed_g2sum
(
float
*
val
)
{
return
val
[
embed_g2sum_index
()];
}
float
&
embedx_w
(
float
*
val
)
{
return
val
[
embedx_w_i
ndex
()];
}
float
&
EmbedxW
(
float
*
val
)
{
return
val
[
Embedx_W_I
ndex
()];
}
float
&
embedx_g2sum
(
float
*
val
)
{
return
val
[
embedx_g2sum_index
()];
}
int
embed_sgd_dim
;
...
...
@@ -77,29 +77,25 @@ class SparseAccessor : public ValueAccessor {
std::vector<float> embedx_g;
*/
static
int
dim
(
int
embedx_dim
)
{
return
4
+
embedx_dim
;
}
static
int
dim_size
(
int
dim
,
int
embedx_dim
)
{
return
sizeof
(
float
);
}
static
int
size
(
int
embedx_dim
)
{
return
dim
(
embedx_dim
)
*
sizeof
(
float
);
}
static
int
slot_index
()
{
return
0
;
}
static
int
show_index
()
{
return
SparsePushValue
::
slot_index
()
+
1
;
}
static
int
click_index
()
{
return
SparsePushValue
::
show_index
()
+
1
;
}
static
int
embed_g_index
()
{
return
SparsePushValue
::
click_index
()
+
1
;
}
static
int
embedx_g_index
()
{
return
SparsePushValue
::
embed_g_index
()
+
1
;
}
static
float
&
slot
(
float
*
val
)
{
return
val
[
SparsePushValue
::
slot_index
()];
static
int
Dim
(
int
embedx_dim
)
{
return
4
+
embedx_dim
;
}
static
int
DimSize
(
int
dim
,
int
embedx_dim
)
{
return
sizeof
(
float
);
}
static
int
Size
(
int
embedx_dim
)
{
return
Dim
(
embedx_dim
)
*
sizeof
(
float
);
}
static
int
SlotIndex
()
{
return
0
;
}
static
int
ShowIndex
()
{
return
SparsePushValue
::
SlotIndex
()
+
1
;
}
static
int
ClickIndex
()
{
return
SparsePushValue
::
ShowIndex
()
+
1
;
}
static
int
Embed_G_Index
()
{
return
SparsePushValue
::
ClickIndex
()
+
1
;
}
static
int
Embedx_G_Index
()
{
return
SparsePushValue
::
Embed_G_Index
()
+
1
;
}
static
float
&
Slot
(
float
*
val
)
{
return
val
[
SparsePushValue
::
SlotIndex
()];
}
static
float
&
Show
(
float
*
val
)
{
return
val
[
SparsePushValue
::
ShowIndex
()];
}
static
float
&
Click
(
float
*
val
)
{
return
val
[
SparsePushValue
::
ClickIndex
()];
}
static
float
&
show
(
float
*
val
)
{
return
val
[
SparsePushValue
::
show_i
ndex
()];
static
float
&
EmbedG
(
float
*
val
)
{
return
val
[
SparsePushValue
::
Embed_G_I
ndex
()];
}
static
float
&
click
(
float
*
val
)
{
return
val
[
SparsePushValue
::
click_index
()];
}
static
float
&
embed_g
(
float
*
val
)
{
return
val
[
SparsePushValue
::
embed_g_index
()];
}
static
float
*
embedx_g
(
float
*
val
)
{
return
val
+
SparsePushValue
::
embedx_g_index
();
static
float
*
EmbedxG
(
float
*
val
)
{
return
val
+
SparsePushValue
::
Embedx_G_Index
();
}
};
...
...
@@ -109,82 +105,82 @@ class SparseAccessor : public ValueAccessor {
std::vector<float> embedx_w;
*/
static
int
d
im
(
int
embedx_dim
)
{
return
1
+
embedx_dim
;
}
static
int
dim_s
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
static
int
size
(
int
embedx_dim
)
{
return
d
im
(
embedx_dim
)
*
sizeof
(
float
);
}
static
int
embed_w_i
ndex
()
{
return
0
;
}
static
int
embedx_w_i
ndex
()
{
return
1
;
}
static
float
&
embed_w
(
float
*
val
)
{
return
val
[
SparsePullValue
::
embed_w_i
ndex
()];
static
int
D
im
(
int
embedx_dim
)
{
return
1
+
embedx_dim
;
}
static
int
DimS
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
static
int
Size
(
int
embedx_dim
)
{
return
D
im
(
embedx_dim
)
*
sizeof
(
float
);
}
static
int
Embed_W_I
ndex
()
{
return
0
;
}
static
int
Embedx_W_I
ndex
()
{
return
1
;
}
static
float
&
EmbedW
(
float
*
val
)
{
return
val
[
SparsePullValue
::
Embed_W_I
ndex
()];
}
static
float
*
embedx_w
(
float
*
val
)
{
return
val
+
SparsePullValue
::
embedx_w_i
ndex
();
static
float
*
EmbedxW
(
float
*
val
)
{
return
val
+
SparsePullValue
::
Embedx_W_I
ndex
();
}
};
SparseAccessor
()
{}
virtual
int
i
nitialize
();
virtual
int
I
nitialize
();
virtual
void
SetTableInfo
(
AccessorInfo
&
info
);
virtual
size_t
GetTableInfo
(
InfoKey
key
);
virtual
~
SparseAccessor
()
{}
// value维度
virtual
size_t
d
im
();
size_t
D
im
();
// value各个维度的size
virtual
size_t
dim_s
ize
(
size_t
dim
);
size_t
DimS
ize
(
size_t
dim
);
// value各维度相加总size
virtual
size_t
s
ize
();
size_t
S
ize
();
// value中mf动态长度部分总size大小, sparse下生效
virtual
size_t
mf_s
ize
();
size_t
MFS
ize
();
// pull value维度
virtual
size_t
select_d
im
();
size_t
SelectD
im
();
// pull value各个维度的size
virtual
size_t
select_dim_s
ize
(
size_t
dim
);
size_t
SelectDimS
ize
(
size_t
dim
);
// pull value各维度相加总size
virtual
size_t
select_s
ize
();
size_t
SelectS
ize
();
// push value维度
virtual
size_t
update_d
im
();
size_t
UpdateD
im
();
// push value各个维度的size
virtual
size_t
update_dim_s
ize
(
size_t
dim
);
size_t
UpdateDimS
ize
(
size_t
dim
);
// push value各维度相加总size
virtual
size_t
update_s
ize
();
size_t
UpdateS
ize
();
// 判断该value是否进行shrink
virtual
bool
s
hrink
(
float
*
value
);
virtual
bool
S
hrink
(
float
*
value
);
// 判断该value是否保存到ssd
// virtual bool save_ssd(float* value);
virtual
bool
need_extend_mf
(
float
*
value
);
virtual
bool
has_mf
(
size_t
size
);
virtual
bool
NeedExtendMF
(
float
*
value
);
virtual
bool
HasMF
(
size_t
size
);
// 判断该value是否在save阶段dump,
// param作为参数用于标识save阶段,如downpour的xbox与batch_model
// param = 0, save all feature
// param = 1, save delta feature
// param = 2, save xbox base feature
bool
s
ave
(
float
*
value
,
int
param
)
override
;
bool
S
ave
(
float
*
value
,
int
param
)
override
;
// update delta_score and unseen_days after save
void
update_stat_after_s
ave
(
float
*
value
,
int
param
)
override
;
void
UpdateStatAfterS
ave
(
float
*
value
,
int
param
)
override
;
// keys不存在时,为values生成随机值
// 要求value的内存由外部调用者分配完毕
virtual
int32_t
c
reate
(
float
**
value
,
size_t
num
);
virtual
int32_t
C
reate
(
float
**
value
,
size_t
num
);
// 从values中选取到select_values中
virtual
int32_t
s
elect
(
float
**
select_values
,
const
float
**
values
,
virtual
int32_t
S
elect
(
float
**
select_values
,
const
float
**
values
,
size_t
num
);
// 将update_values聚合到一起
virtual
int32_t
m
erge
(
float
**
update_values
,
virtual
int32_t
M
erge
(
float
**
update_values
,
const
float
**
other_update_values
,
size_t
num
);
// 将update_values聚合到一起,通过it.next判定是否进入下一个key
// virtual int32_t
m
erge(float** update_values, iterator it);
// virtual int32_t
M
erge(float** update_values, iterator it);
// 将update_values更新应用到values中
virtual
int32_t
u
pdate
(
float
**
values
,
const
float
**
update_values
,
virtual
int32_t
U
pdate
(
float
**
values
,
const
float
**
update_values
,
size_t
num
);
std
::
string
parse_to_s
tring
(
const
float
*
value
,
int
param
)
override
;
int32_t
parse_from_s
tring
(
const
std
::
string
&
str
,
float
*
v
)
override
;
virtual
bool
create_v
alue
(
int
type
,
const
float
*
value
);
std
::
string
ParseToS
tring
(
const
float
*
value
,
int
param
)
override
;
int32_t
ParseFromS
tring
(
const
std
::
string
&
str
,
float
*
v
)
override
;
virtual
bool
CreateV
alue
(
int
type
,
const
float
*
value
);
// 这个接口目前只用来取show
float
get_f
ield
(
float
*
value
,
const
std
::
string
&
name
)
override
{
float
GetF
ield
(
float
*
value
,
const
std
::
string
&
name
)
override
{
// CHECK(name == "show");
if
(
name
==
"show"
)
{
return
sparse_feature_value
.
s
how
(
value
);
return
sparse_feature_value
.
S
how
(
value
);
}
return
0.0
;
}
...
...
paddle/fluid/distributed/ps/table/table.cc
浏览文件 @
0b0c2768
...
...
@@ -97,7 +97,7 @@ int32_t Table::initialize_accessor() {
<<
", accessor_name:"
<<
_config
.
accessor
().
accessor_class
();
return
-
1
;
}
if
(
accessor
->
configure
(
_config
.
accessor
())
||
accessor
->
i
nitialize
()
!=
0
)
{
if
(
accessor
->
Configure
(
_config
.
accessor
())
||
accessor
->
I
nitialize
()
!=
0
)
{
LOG
(
ERROR
)
<<
" accessor initialize failed, table_id:"
<<
_config
.
table_id
()
<<
", accessor_name:"
<<
_config
.
accessor
().
accessor_class
();
return
-
1
;
...
...
paddle/fluid/distributed/ps/table/tensor_accessor.cc
浏览文件 @
0b0c2768
...
...
@@ -18,86 +18,70 @@
namespace
paddle
{
namespace
distributed
{
int
CommMergeAccessor
::
i
nitialize
()
{
return
0
;
}
int
CommMergeAccessor
::
I
nitialize
()
{
return
0
;
}
void
CommMergeAccessor
::
SetTableInfo
(
AccessorInfo
&
info
)
{
info
.
dim
=
dim
();
info
.
size
=
size
();
info
.
select_dim
=
select_dim
();
info
.
select_size
=
select_size
();
info
.
update_dim
=
update_dim
();
info
.
update_size
=
update_size
();
info
.
mf_size
=
mf_size
();
info
.
select_dim
=
SelectDim
();
info
.
select_size
=
SelectSize
();
info
.
update_dim
=
UpdateDim
();
info
.
update_size
=
UpdateSize
();
info
.
fea_dim
=
fea_dim
();
}
size_t
CommMergeAccessor
::
GetTableInfo
(
InfoKey
key
)
{
switch
(
key
)
{
case
DIM
:
return
dim
();
case
SIZE
:
return
size
();
case
SELECT_DIM
:
return
select_d
im
();
return
SelectD
im
();
case
SELECT_SIZE
:
return
select_s
ize
();
return
SelectS
ize
();
case
UPDATE_DIM
:
return
update_d
im
();
return
UpdateD
im
();
case
UPDATE_SIZE
:
return
update_size
();
case
MF_SIZE
:
return
mf_size
();
return
UpdateSize
();
case
FEA_DIM
:
return
fea_dim
();
default:
return
0
;
}
return
0
;
}
// value 维度
size_t
CommMergeAccessor
::
dim
()
{
return
0
;
}
// value 各个维度的size
size_t
CommMergeAccessor
::
dim_size
(
size_t
dim
)
{
return
0
;
}
// value 各维度相加总size
size_t
CommMergeAccessor
::
size
()
{
return
0
;
}
// pull value 维度
size_t
CommMergeAccessor
::
select_d
im
()
{
return
_config
.
embedx_dim
();
}
size_t
CommMergeAccessor
::
SelectD
im
()
{
return
_config
.
embedx_dim
();
}
// pull value 各个维度的size
size_t
CommMergeAccessor
::
select_dim_s
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
size_t
CommMergeAccessor
::
SelectDimS
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
// pull value 各维度相加总size
size_t
CommMergeAccessor
::
select_size
()
{
return
select_d
im
()
*
sizeof
(
float
);
}
size_t
CommMergeAccessor
::
SelectSize
()
{
return
SelectD
im
()
*
sizeof
(
float
);
}
// push value 维度
size_t
CommMergeAccessor
::
update_d
im
()
{
return
_config
.
embedx_dim
();
}
size_t
CommMergeAccessor
::
UpdateD
im
()
{
return
_config
.
embedx_dim
();
}
// push value 各个维度的size
size_t
CommMergeAccessor
::
update_dim_s
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
size_t
CommMergeAccessor
::
UpdateDimS
ize
(
size_t
dim
)
{
return
sizeof
(
float
);
}
// push value 各维度相加总size
size_t
CommMergeAccessor
::
update_size
()
{
return
update_d
im
()
*
sizeof
(
float
);
}
size_t
CommMergeAccessor
::
UpdateSize
()
{
return
UpdateD
im
()
*
sizeof
(
float
);
}
// 判断该value 是否进行shrink
bool
CommMergeAccessor
::
s
hrink
(
float
*
/*value*/
)
{
return
false
;
}
bool
CommMergeAccessor
::
S
hrink
(
float
*
/*value*/
)
{
return
false
;
}
// 判断该value 是否在save阶段dump,
// param作为参数用于标识save阶段,如downpour的xbox与batch_model
bool
CommMergeAccessor
::
s
ave
(
float
*
/*value*/
,
int
/*param*/
)
{
return
true
;
}
bool
CommMergeAccessor
::
S
ave
(
float
*
/*value*/
,
int
/*param*/
)
{
return
true
;
}
// keys不存在时,为values生成随机值
int32_t
CommMergeAccessor
::
c
reate
(
float
**
value
,
size_t
num
)
{
return
0
;
}
int32_t
CommMergeAccessor
::
C
reate
(
float
**
value
,
size_t
num
)
{
return
0
;
}
// 从values中选取到select_values中
int32_t
CommMergeAccessor
::
s
elect
(
float
**
select_values
,
const
float
**
values
,
int32_t
CommMergeAccessor
::
S
elect
(
float
**
select_values
,
const
float
**
values
,
size_t
num
)
{
return
0
;
}
// 将update_values聚合到一起
int32_t
CommMergeAccessor
::
m
erge
(
float
**
update_values
,
int32_t
CommMergeAccessor
::
M
erge
(
float
**
update_values
,
const
float
**
other_update_values
,
size_t
num
)
{
Eigen
::
Map
<
Eigen
::
MatrixXf
>
u_mat
(
update_values
[
0
],
1
,
num
);
...
...
@@ -109,13 +93,13 @@ int32_t CommMergeAccessor::merge(float **update_values,
// 将update_values聚合到一起,通过it.next判定是否进入下一个key
// int32_t merge(float** update_values, iterator it);
// 将update_values更新应用到values中
int32_t
CommMergeAccessor
::
u
pdate
(
float
**
values
,
const
float
**
update_values
,
int32_t
CommMergeAccessor
::
U
pdate
(
float
**
values
,
const
float
**
update_values
,
size_t
num
)
{
return
0
;
}
int
CommMergeAccessor
::
set_w
eight
(
float
**
values
,
const
float
**
update_values
,
size_t
num
)
{
int
CommMergeAccessor
::
SetW
eight
(
float
**
values
,
const
float
**
update_values
,
size_t
num
)
{
return
0
;
}
...
...
paddle/fluid/distributed/ps/table/tensor_accessor.h
浏览文件 @
0b0c2768
...
...
@@ -29,53 +29,49 @@ class CommMergeAccessor : public ValueAccessor {
public:
CommMergeAccessor
()
{}
virtual
~
CommMergeAccessor
()
{}
virtual
int
i
nitialize
();
virtual
int
I
nitialize
();
virtual
void
SetTableInfo
(
AccessorInfo
&
info
);
virtual
size_t
GetTableInfo
(
InfoKey
key
);
// value维度
virtual
size_t
dim
();
// value各个维度的size
virtual
size_t
dim_size
(
size_t
dim
);
// value各维度相加总size
virtual
size_t
size
();
// pull value维度
virtual
size_t
select_d
im
();
size_t
SelectD
im
();
// pull value各个维度的size
virtual
size_t
select_dim_s
ize
(
size_t
dim
);
size_t
SelectDimS
ize
(
size_t
dim
);
// pull value各维度相加总size
virtual
size_t
select_s
ize
();
size_t
SelectS
ize
();
// push value维度
virtual
size_t
update_d
im
();
size_t
UpdateD
im
();
// push value各个维度的size
virtual
size_t
update_dim_s
ize
(
size_t
dim
);
size_t
UpdateDimS
ize
(
size_t
dim
);
// push value各维度相加总size
virtual
size_t
update_size
();
size_t
UpdateSize
();
size_t
fea_dim
()
{
return
_config
.
fea_dim
();
}
// 判断该value是否进行shrink
virtual
bool
s
hrink
(
float
*
/*value*/
);
virtual
bool
S
hrink
(
float
*
/*value*/
);
// 判断该value是否在save阶段dump,
// param作为参数用于标识save阶段,如downpour的xbox与batch_model
virtual
bool
s
ave
(
float
*
/*value*/
,
int
/*param*/
);
virtual
bool
S
ave
(
float
*
/*value*/
,
int
/*param*/
);
// keys不存在时,为values生成随机值
virtual
int32_t
c
reate
(
float
**
value
,
size_t
num
);
virtual
int32_t
C
reate
(
float
**
value
,
size_t
num
);
// 从values中选取到select_values中
virtual
int32_t
s
elect
(
float
**
select_values
,
const
float
**
values
,
virtual
int32_t
S
elect
(
float
**
select_values
,
const
float
**
values
,
size_t
num
);
// 将update_values聚合到一起
virtual
int32_t
m
erge
(
float
**
update_values
,
virtual
int32_t
M
erge
(
float
**
update_values
,
const
float
**
other_update_values
,
size_t
num
);
// 将update_values聚合到一起,通过it.next判定是否进入下一个key
// virtual int32_t
m
erge(float** update_values, iterator it);
// virtual int32_t
M
erge(float** update_values, iterator it);
// 将update_values更新应用到values中
virtual
int32_t
u
pdate
(
float
**
values
,
const
float
**
update_values
,
virtual
int32_t
U
pdate
(
float
**
values
,
const
float
**
update_values
,
size_t
num
);
virtual
int
set_w
eight
(
float
**
values
,
const
float
**
update_values
,
size_t
num
);
virtual
std
::
string
parse_to_s
tring
(
const
float
*
value
,
int
param
)
{
virtual
int
SetW
eight
(
float
**
values
,
const
float
**
update_values
,
size_t
num
);
virtual
std
::
string
ParseToS
tring
(
const
float
*
value
,
int
param
)
{
return
""
;
}
virtual
int
parse_from_s
tring
(
const
std
::
string
&
str
,
float
*
v
)
{
return
0
;
}
virtual
int
ParseFromS
tring
(
const
std
::
string
&
str
,
float
*
v
)
{
return
0
;
}
};
}
// namespace distributed
}
// namespace paddle
paddle/fluid/distributed/test/ctr_accessor_test.cc
浏览文件 @
0b0c2768
...
...
@@ -67,49 +67,49 @@ TableAccessorParameter gen_param() {
TEST
(
downpour_feature_value_accessor_test
,
test_shrink
)
{
TableAccessorParameter
parameter
=
gen_param
();
CtrCommonAccessor
*
acc
=
new
CtrCommonAccessor
();
ASSERT_EQ
(
acc
->
c
onfigure
(
parameter
),
0
);
ASSERT_EQ
(
acc
->
i
nitialize
(),
0
);
ASSERT_EQ
(
acc
->
C
onfigure
(
parameter
),
0
);
ASSERT_EQ
(
acc
->
I
nitialize
(),
0
);
VLOG
(
3
)
<<
"size of struct: "
<<
acc
->
common_feature_value
.
embed_sgd_dim
<<
" "
<<
acc
->
common_feature_value
.
embedx_dim
<<
" "
<<
acc
->
common_feature_value
.
embedx_sgd_dim
<<
" "
<<
acc
->
common_feature_value
.
d
im
()
<<
"
\n
"
;
<<
acc
->
common_feature_value
.
D
im
()
<<
"
\n
"
;
float
*
value
=
new
float
[
acc
->
d
im
()];
for
(
auto
i
=
0u
;
i
<
acc
->
d
im
();
++
i
)
{
float
*
value
=
new
float
[
acc
->
D
im
()];
for
(
auto
i
=
0u
;
i
<
acc
->
D
im
();
++
i
)
{
value
[
i
]
=
i
*
1.0
;
}
ASSERT_TRUE
(
!
acc
->
s
hrink
(
value
));
ASSERT_TRUE
(
!
acc
->
S
hrink
(
value
));
// set unseen_days too long
value
[
1
]
=
1000
;
// set delta score too small
value
[
2
]
=
0.001
;
ASSERT_TRUE
(
acc
->
s
hrink
(
value
));
ASSERT_TRUE
(
acc
->
S
hrink
(
value
));
}
TEST
(
downpour_feature_value_accessor_test
,
test_save
)
{
TableAccessorParameter
parameter
=
gen_param
();
CtrCommonAccessor
*
acc
=
new
CtrCommonAccessor
();
ASSERT_EQ
(
acc
->
c
onfigure
(
parameter
),
0
);
ASSERT_EQ
(
acc
->
i
nitialize
(),
0
);
ASSERT_EQ
(
acc
->
C
onfigure
(
parameter
),
0
);
ASSERT_EQ
(
acc
->
I
nitialize
(),
0
);
float
*
value
=
new
float
[
acc
->
d
im
()];
for
(
auto
i
=
0u
;
i
<
acc
->
d
im
();
++
i
)
{
float
*
value
=
new
float
[
acc
->
D
im
()];
for
(
auto
i
=
0u
;
i
<
acc
->
D
im
();
++
i
)
{
value
[
i
]
=
i
*
1.0
;
}
// save all feature
ASSERT_TRUE
(
acc
->
s
ave
(
value
,
0
));
ASSERT_TRUE
(
acc
->
S
ave
(
value
,
0
));
// save delta feature
ASSERT_TRUE
(
acc
->
s
ave
(
value
,
1
));
ASSERT_TRUE
(
acc
->
S
ave
(
value
,
1
));
// save base feature with time decay
ASSERT_TRUE
(
acc
->
s
ave
(
value
,
2
));
ASSERT_TRUE
(
acc
->
S
ave
(
value
,
2
));
VLOG
(
3
)
<<
"test_save:"
;
for
(
auto
i
=
0u
;
i
<
acc
->
d
im
();
++
i
)
{
for
(
auto
i
=
0u
;
i
<
acc
->
D
im
();
++
i
)
{
VLOG
(
3
)
<<
value
[
i
];
}
}
...
...
@@ -117,8 +117,8 @@ TEST(downpour_feature_value_accessor_test, test_save) {
TEST
(
downpour_feature_value_accessor_test
,
test_create
)
{
TableAccessorParameter
parameter
=
gen_param
();
CtrCommonAccessor
*
acc
=
new
CtrCommonAccessor
();
ASSERT_EQ
(
acc
->
c
onfigure
(
parameter
),
0
);
ASSERT_EQ
(
acc
->
i
nitialize
(),
0
);
ASSERT_EQ
(
acc
->
C
onfigure
(
parameter
),
0
);
ASSERT_EQ
(
acc
->
I
nitialize
(),
0
);
const
int
field_size
=
7
+
8
;
const
int
item_size
=
10
;
...
...
@@ -127,7 +127,7 @@ TEST(downpour_feature_value_accessor_test, test_create) {
for
(
auto
i
=
0u
;
i
<
item_size
;
++
i
)
{
value
[
i
]
=
new
float
[
field_size
];
}
ASSERT_EQ
(
acc
->
c
reate
(
value
,
item_size
),
0
);
ASSERT_EQ
(
acc
->
C
reate
(
value
,
item_size
),
0
);
for
(
auto
i
=
0u
;
i
<
item_size
;
++
i
)
{
for
(
auto
j
=
0u
;
j
<
field_size
;
++
j
)
{
...
...
@@ -141,11 +141,11 @@ TEST(downpour_feature_value_accessor_test, test_create) {
TEST
(
downpour_feature_value_accessor_test
,
test_update
)
{
TableAccessorParameter
parameter
=
gen_param
();
CtrCommonAccessor
*
acc
=
new
CtrCommonAccessor
();
ASSERT_EQ
(
acc
->
c
onfigure
(
parameter
),
0
);
ASSERT_EQ
(
acc
->
i
nitialize
(),
0
);
ASSERT_EQ
(
acc
->
C
onfigure
(
parameter
),
0
);
ASSERT_EQ
(
acc
->
I
nitialize
(),
0
);
VLOG
(
3
)
<<
"dim: "
<<
acc
->
common_feature_value
.
d
im
()
<<
"
\n
"
;
VLOG
(
3
)
<<
"update_dim: "
<<
acc
->
update_dim
(
)
<<
"
\n
"
;
VLOG
(
3
)
<<
"dim: "
<<
acc
->
common_feature_value
.
D
im
()
<<
"
\n
"
;
VLOG
(
3
)
<<
"update_dim: "
<<
acc
->
GetTableInfo
(
UPDATE_DIM
)
<<
"
\n
"
;
const
int
field_size
=
7
+
8
;
const
int
item_size
=
10
;
...
...
@@ -162,8 +162,8 @@ TEST(downpour_feature_value_accessor_test, test_update) {
typedef
const
float
*
const_float_ptr
;
const_float_ptr
*
grad
=
new
const_float_ptr
[
item_size
];
for
(
auto
i
=
0u
;
i
<
item_size
;
++
i
)
{
float
*
p
=
new
float
[
acc
->
update_dim
(
)];
for
(
auto
j
=
0u
;
j
<
acc
->
update_dim
(
);
++
j
)
{
float
*
p
=
new
float
[
acc
->
GetTableInfo
(
UPDATE_DIM
)];
for
(
auto
j
=
0u
;
j
<
acc
->
GetTableInfo
(
UPDATE_DIM
);
++
j
)
{
p
[
j
]
=
i
;
}
grad
[
i
]
=
p
;
...
...
@@ -251,14 +251,14 @@ TEST(downpour_feature_value_accessor_test, test_update) {
acc
->
_embedx_sgd_rule
->
update_value
(
&
v
.
embedx_w
[
0
],
&
v
.
embedx_g2sum
[
0
],
&
push_v
.
embedx_g
[
0
]);
float
*
ptr
=
new
float
[
acc
->
d
im
()];
float
*
ptr
=
new
float
[
acc
->
D
im
()];
v
.
to_array
(
ptr
,
parameter
.
embedx_dim
());
exp_value
.
push_back
(
ptr
);
}
acc
->
u
pdate
(
value
,
grad
,
item_size
);
acc
->
U
pdate
(
value
,
grad
,
item_size
);
for
(
auto
i
=
0u
;
i
<
item_size
;
++
i
)
{
for
(
auto
j
=
0u
;
j
<
acc
->
d
im
();
++
j
)
{
for
(
auto
j
=
0u
;
j
<
acc
->
D
im
();
++
j
)
{
VLOG
(
3
)
<<
value
[
i
][
j
]
<<
":"
<<
exp_value
[
i
][
j
]
<<
" "
;
ASSERT_FLOAT_EQ
(
value
[
i
][
j
],
exp_value
[
i
][
j
]);
}
...
...
@@ -268,8 +268,8 @@ TEST(downpour_feature_value_accessor_test, test_update) {
TEST
(
downpour_feature_value_accessor_test
,
test_show_click_score
)
{
TableAccessorParameter
parameter
=
gen_param
();
CtrCommonAccessor
*
acc
=
new
CtrCommonAccessor
();
ASSERT_EQ
(
acc
->
c
onfigure
(
parameter
),
0
);
ASSERT_EQ
(
acc
->
i
nitialize
(),
0
);
ASSERT_EQ
(
acc
->
C
onfigure
(
parameter
),
0
);
ASSERT_EQ
(
acc
->
I
nitialize
(),
0
);
float
show
=
10
;
float
click
=
6
;
...
...
@@ -279,8 +279,8 @@ TEST(downpour_feature_value_accessor_test, test_show_click_score) {
TEST
(
downpour_feature_value_accessor_test
,
test_string_related
)
{
TableAccessorParameter
parameter
=
gen_param
();
CtrCommonAccessor
*
acc
=
new
CtrCommonAccessor
();
ASSERT_EQ
(
acc
->
c
onfigure
(
parameter
),
0
);
ASSERT_EQ
(
acc
->
i
nitialize
(),
0
);
ASSERT_EQ
(
acc
->
C
onfigure
(
parameter
),
0
);
ASSERT_EQ
(
acc
->
I
nitialize
(),
0
);
const
int
field_size
=
15
;
float
*
value
=
new
float
[
field_size
];
...
...
@@ -288,12 +288,12 @@ TEST(downpour_feature_value_accessor_test, test_string_related) {
value
[
i
]
=
i
;
}
auto
str
=
acc
->
parse_to_s
tring
(
value
,
0
);
auto
str
=
acc
->
ParseToS
tring
(
value
,
0
);
VLOG
(
3
)
<<
str
<<
std
::
endl
;
str
=
"0 1 2 3 4 5 6"
;
ASSERT_NE
(
acc
->
parse_from_s
tring
(
str
,
value
),
0
);
ASSERT_NE
(
acc
->
ParseFromS
tring
(
str
,
value
),
0
);
// make sure init_zero=true
for
(
auto
i
=
7
;
i
<
15
;
++
i
)
{
...
...
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