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Sebastien Robin
erp5
Commits
d52666e7
Commit
d52666e7
authored
Nov 04, 2015
by
Ayush Tiwari
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erp5_data_notebook bt5: Handle case for jupyter_code as comments , giving empty nodelist
parent
e5184879
Changes
2
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2 changed files
with
78 additions
and
77 deletions
+78
-77
bt5/erp5_data_notebook/ExtensionTemplateItem/portal_components/extension.erp5.JupyterCompile.py
...teItem/portal_components/extension.erp5.JupyterCompile.py
+74
-73
bt5/erp5_data_notebook/ExtensionTemplateItem/portal_components/extension.erp5.JupyterCompile.xml
...eItem/portal_components/extension.erp5.JupyterCompile.xml
+4
-4
No files found.
bt5/erp5_data_notebook/ExtensionTemplateItem/portal_components/extension.erp5.JupyterCompile.py
View file @
d52666e7
...
...
@@ -58,7 +58,7 @@ def Base_compileJupyterCode(self, jupyter_code, old_local_variable_dict):
# Saving the initial globals dict so as to compare it after code execution
globals_dict
=
globals
()
g
[
'context'
]
=
self
result_string
=
None
result_string
=
''
ename
,
evalue
,
tb_list
=
None
,
None
,
None
# Update globals dict and use it while running exec command
g
.
update
(
old_local_variable_dict
[
'variables'
])
...
...
@@ -69,87 +69,88 @@ def Base_compileJupyterCode(self, jupyter_code, old_local_variable_dict):
# TODO: This can be refactored by using client side error handling instead of
# catching errors on server/erp5.
status
=
u'ok'
local_variable_dict
=
old_local_variable_dict
# Execute only if jupyter_code is not empty
if
jupyter_code
:
# Import all the modules from local_variable_dict['imports']
# While any execution, in locals() dict, a module is saved as:
# code : 'from os import path'
# {'path': <module 'posixpath'>}
# So, here we would try to get the name 'posixpath' and import it as 'path'
for
k
,
v
in
old_local_variable_dict
[
'imports'
].
iteritems
():
import_statement_code
=
'import %s as %s'
%
(
v
,
k
)
exec
(
import_statement_code
,
g
,
g
)
# Create ast parse tree
ast_node
=
ast
.
parse
(
jupyter_code
)
# Get the node list from the parsed tree
nodelist
=
ast_node
.
body
# If the last node is instance of ast.Expr, set its interactivity as 'last'
# This would be the case if the last node is expression
if
isinstance
(
nodelist
[
-
1
],
ast
.
Expr
):
interactivity
=
"last"
else
:
interactivity
=
"none"
# Here, we define which nodes to execute with 'single' and which to execute
# with 'exec' mode.
if
interactivity
==
'none'
:
to_run_exec
,
to_run_interactive
=
nodelist
,
[]
elif
interactivity
==
'last'
:
to_run_exec
,
to_run_interactive
=
nodelist
[:
-
1
],
nodelist
[
-
1
:]
old_stdout
=
sys
.
stdout
result
=
StringIO
()
sys
.
stdout
=
result
# Execute the nodes with 'exec' mode
for
node
in
to_run_exec
:
mod
=
ast
.
Module
([
node
])
code
=
compile
(
mod
,
'<string>'
,
"exec"
)
exec
(
code
,
g
,
g
)
# Execute the interactive nodes with 'single' mode
for
node
in
to_run_interactive
:
mod
=
ast
.
Interactive
([
node
])
code
=
compile
(
mod
,
'<string>'
,
"single"
)
exec
(
code
,
g
,
g
)
# Letting the code fail in case of error while executing the python script/code
# XXX: Need to be refactored so to acclimitize transactions failure as well as
# normal python code failure and show it to user on jupyter frontend.
# Decided to let this fail silently in backend without letting the frontend
# user know the error so as to let tranasction or its error be handled by ZODB
# in uniform way instead of just using half transactions.
sys
.
stdout
=
old_stdout
result_string
=
result
.
getvalue
()
else
:
result_string
=
jupyter_code
# Difference between the globals variable before and after exec/eval so that
# we don't have to save unnecessary variables in database which might or might
# not be picklabale
local_variable_dict
=
old_local_variable_dict
local_variable_dict_new
=
{
key
:
val
for
key
,
val
in
g
.
items
()
if
key
not
in
globals_dict
.
keys
()}
local_variable_dict
[
'variables'
].
update
(
local_variable_dict_new
)
# Differentiate 'module' objects from local_variable_dict and save them as
# string in the dict as {'imports': {'numpy': 'np', 'matplotlib': 'mp']}
if
'variables'
and
'imports'
in
local_variable_dict
:
for
key
,
val
in
local_variable_dict
[
'variables'
].
items
():
# Check if the val in the dict is ModuleType and remove it in case it is
if
isinstance
(
val
,
types
.
ModuleType
):
# Update local_variable_dict['imports'] dictionary with key, value pairs
# with key corresponding to module name as its imported and value as the
# module name being stored in sys.path
# For example : 'np': <numpy module at ...> -- {'np': numpy}
local_variable_dict
[
'imports'
][
key
]
=
val
.
__name__
# XXX: The next line is mutating the dict, beware in case any reference
# is made later on to local_variable_dict['variables'] dictionary
local_variable_dict
[
'variables'
].
pop
(
key
)
# Handle case for empty nodelist(in case of comments as jupyter_code)
if
nodelist
:
# Import all the modules from local_variable_dict['imports']
# While any execution, in locals() dict, a module is saved as:
# code : 'from os import path'
# {'path': <module 'posixpath'>}
# So, here we would try to get the name 'posixpath' and import it as 'path'
for
k
,
v
in
old_local_variable_dict
[
'imports'
].
iteritems
():
import_statement_code
=
'import %s as %s'
%
(
v
,
k
)
exec
(
import_statement_code
,
g
,
g
)
# If the last node is instance of ast.Expr, set its interactivity as 'last'
# This would be the case if the last node is expression
if
isinstance
(
nodelist
[
-
1
],
ast
.
Expr
):
interactivity
=
"last"
else
:
interactivity
=
"none"
# Here, we define which nodes to execute with 'single' and which to execute
# with 'exec' mode.
if
interactivity
==
'none'
:
to_run_exec
,
to_run_interactive
=
nodelist
,
[]
elif
interactivity
==
'last'
:
to_run_exec
,
to_run_interactive
=
nodelist
[:
-
1
],
nodelist
[
-
1
:]
old_stdout
=
sys
.
stdout
result
=
StringIO
()
sys
.
stdout
=
result
# Execute the nodes with 'exec' mode
for
node
in
to_run_exec
:
mod
=
ast
.
Module
([
node
])
code
=
compile
(
mod
,
'<string>'
,
"exec"
)
exec
(
code
,
g
,
g
)
# Execute the interactive nodes with 'single' mode
for
node
in
to_run_interactive
:
mod
=
ast
.
Interactive
([
node
])
code
=
compile
(
mod
,
'<string>'
,
"single"
)
exec
(
code
,
g
,
g
)
# Letting the code fail in case of error while executing the python script/code
# XXX: Need to be refactored so to acclimitize transactions failure as well as
# normal python code failure and show it to user on jupyter frontend.
# Decided to let this fail silently in backend without letting the frontend
# user know the error so as to let tranasction or its error be handled by ZODB
# in uniform way instead of just using half transactions.
sys
.
stdout
=
old_stdout
result_string
=
result
.
getvalue
()
# Difference between the globals variable before and after exec/eval so that
# we don't have to save unnecessary variables in database which might or might
# not be picklabale
local_variable_dict_new
=
{
key
:
val
for
key
,
val
in
g
.
items
()
if
key
not
in
globals_dict
.
keys
()}
local_variable_dict
[
'variables'
].
update
(
local_variable_dict_new
)
# Differentiate 'module' objects from local_variable_dict and save them as
# string in the dict as {'imports': {'numpy': 'np', 'matplotlib': 'mp']}
if
'variables'
and
'imports'
in
local_variable_dict
:
for
key
,
val
in
local_variable_dict
[
'variables'
].
items
():
# Check if the val in the dict is ModuleType and remove it in case it is
if
isinstance
(
val
,
types
.
ModuleType
):
# Update local_variable_dict['imports'] dictionary with key, value pairs
# with key corresponding to module name as its imported and value as the
# module name being stored in sys.path
# For example : 'np': <numpy module at ...> -- {'np': numpy}
local_variable_dict
[
'imports'
][
key
]
=
val
.
__name__
# XXX: The next line is mutating the dict, beware in case any reference
# is made later on to local_variable_dict['variables'] dictionary
local_variable_dict
[
'variables'
].
pop
(
key
)
result
=
{
'result_string'
:
result_string
,
...
...
bt5/erp5_data_notebook/ExtensionTemplateItem/portal_components/extension.erp5.JupyterCompile.xml
View file @
d52666e7
...
...
@@ -47,10 +47,10 @@
<value>
<tuple>
<string>
W: 50, 2: Using the global statement (global-statement)
</string>
<string>
W:
82, 6
: Use of exec (exec-used)
</string>
<string>
W:11
1, 6
: Use of exec (exec-used)
</string>
<string>
W:1
17, 6
: Use of exec (exec-used)
</string>
<string>
W:21
2
, 4: Using the global statement (global-statement)
</string>
<string>
W:
91, 8
: Use of exec (exec-used)
</string>
<string>
W:11
5, 8
: Use of exec (exec-used)
</string>
<string>
W:1
21, 8
: Use of exec (exec-used)
</string>
<string>
W:21
3
, 4: Using the global statement (global-statement)
</string>
</tuple>
</value>
</item>
...
...
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