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Gwenaël Samain
cython
Commits
c5e16a3f
Commit
c5e16a3f
authored
Jan 13, 2011
by
Robert Bradshaw
Browse files
Options
Browse Files
Download
Plain Diff
Merge branch 'master' of
https://github.com/markflorisson88/cython
into markflorisson88-master
parents
b4c160b5
05533ff0
Changes
10
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Side-by-side
Showing
10 changed files
with
1039 additions
and
748 deletions
+1039
-748
Cython/Compiler/Main.py
Cython/Compiler/Main.py
+33
-28
Cython/Compiler/ParseTreeTransforms.py
Cython/Compiler/ParseTreeTransforms.py
+163
-84
Cython/Compiler/Tests/TestParseTreeTransforms.py
Cython/Compiler/Tests/TestParseTreeTransforms.py
+16
-15
Cython/Debugger/Tests/TestLibCython.py
Cython/Debugger/Tests/TestLibCython.py
+11
-0
Cython/Debugger/Tests/codefile
Cython/Debugger/Tests/codefile
+15
-4
Cython/Debugger/Tests/test_libcython_in_gdb.py
Cython/Debugger/Tests/test_libcython_in_gdb.py
+69
-7
Cython/Debugger/libcython.py
Cython/Debugger/libcython.py
+305
-245
Cython/Debugger/libpython.py
Cython/Debugger/libpython.py
+396
-335
runtests.py
runtests.py
+28
-28
setup.py
setup.py
+3
-2
No files found.
Cython/Compiler/Main.py
View file @
c5e16a3f
...
...
@@ -18,7 +18,11 @@ from time import time
import
Code
import
Errors
import
Parsing
# Do not import Parsing here, import it when needed, because Parsing imports
# Nodes, which globally needs debug command line options initialized to set a
# conditional metaclass. These options are processed by CmdLine called from
# main() in this file.
# import Parsing
import
Version
from
Scanning
import
PyrexScanner
,
FileSourceDescriptor
from
Errors
import
PyrexError
,
CompileError
,
InternalError
,
AbortError
,
error
,
warning
...
...
@@ -496,6 +500,7 @@ class Context(object):
try
:
f
=
Utils
.
open_source_file
(
source_filename
,
"rU"
)
try
:
import
Parsing
s
=
PyrexScanner
(
f
,
source_desc
,
source_encoding
=
f
.
encoding
,
scope
=
scope
,
context
=
self
)
tree
=
Parsing
.
p_module
(
s
,
pxd
,
full_module_name
)
...
...
Cython/Compiler/ParseTreeTransforms.py
View file @
c5e16a3f
...
...
@@ -1591,6 +1591,10 @@ class DebugTransform(CythonTransform):
#self.c_output_file = options.output_file
self
.
c_output_file
=
result
.
c_file
# Closure support, basically treat nested functions as if the AST were
# never nested
self
.
nested_funcdefs
=
[]
# tells visit_NameNode whether it should register step-into functions
self
.
register_stepinto
=
False
...
...
@@ -1605,7 +1609,16 @@ class DebugTransform(CythonTransform):
# serialize functions
self
.
tb
.
start
(
'Functions'
)
# First, serialize functions normally...
self
.
visitchildren
(
node
)
# ... then, serialize nested functions
for
nested_funcdef
in
self
.
nested_funcdefs
:
self
.
visit_FuncDefNode
(
nested_funcdef
)
self
.
register_stepinto
=
True
self
.
serialize_modulenode_as_function
(
node
)
self
.
register_stepinto
=
False
self
.
tb
.
end
(
'Functions'
)
# 2.3 compatibility. Serialize global variables
...
...
@@ -1627,6 +1640,14 @@ class DebugTransform(CythonTransform):
def
visit_FuncDefNode
(
self
,
node
):
self
.
visited
.
add
(
node
.
local_scope
.
qualified_name
)
if
getattr
(
node
,
'is_wrapper'
,
False
):
return
node
if
self
.
register_stepinto
:
self
.
nested_funcdefs
.
append
(
node
)
return
node
# node.entry.visibility = 'extern'
if
node
.
py_func
is
None
:
pf_cname
=
''
...
...
@@ -1678,6 +1699,51 @@ class DebugTransform(CythonTransform):
self
.
visitchildren
(
node
)
return
node
def
serialize_modulenode_as_function
(
self
,
node
):
"""
Serialize the module-level code as a function so the debugger will know
it's a "relevant frame" and it will know where to set the breakpoint
for 'break modulename'.
"""
name
=
node
.
full_module_name
.
rpartition
(
'.'
)[
-
1
]
cname_py2
=
'init'
+
name
cname_py3
=
'PyInit_'
+
name
py2_attrs
=
dict
(
name
=
name
,
cname
=
cname_py2
,
pf_cname
=
''
,
# Ignore the qualified_name, breakpoints should be set using
# `cy break modulename:lineno` for module-level breakpoints.
qualified_name
=
''
,
lineno
=
'1'
,
is_initmodule_function
=
"True"
,
)
py3_attrs
=
dict
(
py2_attrs
,
cname
=
cname_py3
)
self
.
_serialize_modulenode_as_function
(
node
,
py2_attrs
)
self
.
_serialize_modulenode_as_function
(
node
,
py3_attrs
)
def
_serialize_modulenode_as_function
(
self
,
node
,
attrs
):
self
.
tb
.
start
(
'Function'
,
attrs
=
attrs
)
self
.
tb
.
start
(
'Locals'
)
self
.
serialize_local_variables
(
node
.
scope
.
entries
)
self
.
tb
.
end
(
'Locals'
)
self
.
tb
.
start
(
'Arguments'
)
self
.
tb
.
end
(
'Arguments'
)
self
.
tb
.
start
(
'StepIntoFunctions'
)
self
.
register_stepinto
=
True
self
.
visitchildren
(
node
)
self
.
register_stepinto
=
False
self
.
tb
.
end
(
'StepIntoFunctions'
)
self
.
tb
.
end
(
'Function'
)
def
serialize_local_variables
(
self
,
entries
):
for
entry
in
entries
.
values
():
if
entry
.
type
.
is_pyobject
:
...
...
@@ -1685,9 +1751,22 @@ class DebugTransform(CythonTransform):
else
:
vartype
=
'CObject'
if
entry
.
from_closure
:
# We're dealing with a closure where a variable from an outer
# scope is accessed, get it from the scope object.
cname
=
'%s->%s'
%
(
Naming
.
cur_scope_cname
,
entry
.
outer_entry
.
cname
)
qname
=
'%s.%s.%s'
%
(
entry
.
scope
.
outer_scope
.
qualified_name
,
entry
.
scope
.
name
,
entry
.
name
)
elif
entry
.
in_closure
:
cname
=
'%s->%s'
%
(
Naming
.
cur_scope_cname
,
entry
.
cname
)
qname
=
entry
.
qualified_name
else
:
cname
=
entry
.
cname
# if entry.type.is_extension_type:
# cname = entry.type.typeptr_cname
qname
=
entry
.
qualified_name
if
not
entry
.
pos
:
# this happens for variables that are not in the user's code,
...
...
@@ -1700,7 +1779,7 @@ class DebugTransform(CythonTransform):
attrs
=
dict
(
name
=
entry
.
name
,
cname
=
cname
,
qualified_name
=
entry
.
qualified_
name
,
qualified_name
=
q
name
,
type
=
vartype
,
lineno
=
lineno
)
...
...
Cython/Compiler/Tests/TestParseTreeTransforms.py
View file @
c5e16a3f
...
...
@@ -182,7 +182,8 @@ class TestDebugTransform(DebuggerTestCase):
self
.
assertEqual
(
'PythonObject'
,
xml_globals
.
get
(
'python_var'
))
# test functions
funcnames
=
'codefile.spam'
,
'codefile.ham'
,
'codefile.eggs'
funcnames
=
(
'codefile.spam'
,
'codefile.ham'
,
'codefile.eggs'
,
'codefile.closure'
,
'codefile.inner'
)
required_xml_attrs
=
'name'
,
'cname'
,
'qualified_name'
assert
all
([
f
in
xml_funcs
for
f
in
funcnames
])
spam
,
ham
,
eggs
=
[
xml_funcs
[
funcname
]
for
funcname
in
funcnames
]
...
...
Cython/Debugger/Tests/TestLibCython.py
View file @
c5e16a3f
...
...
@@ -16,6 +16,7 @@ from distutils import ccompiler
import
runtests
import
Cython.Distutils.extension
import
Cython.Distutils.build_ext
from
Cython.Debugger
import
Cygdb
as
cygdb
root
=
os
.
path
.
dirname
(
os
.
path
.
abspath
(
__file__
))
...
...
@@ -24,6 +25,10 @@ cfuncs_file = os.path.join(root, 'cfuncs.c')
with
open
(
codefile
)
as
f
:
source_to_lineno
=
dict
((
line
.
strip
(),
i
+
1
)
for
i
,
line
in
enumerate
(
f
))
# Cython.Distutils.__init__ imports build_ext from build_ext which means we
# can't access the module anymore. Get it from sys.modules instead.
build_ext
=
sys
.
modules
[
'Cython.Distutils.build_ext'
]
class
DebuggerTestCase
(
unittest
.
TestCase
):
def
setUp
(
self
):
...
...
@@ -52,6 +57,9 @@ class DebuggerTestCase(unittest.TestCase):
module
=
'codefile'
,
)
optimization_disabler
=
build_ext
.
Optimization
()
optimization_disabler
.
disable_optimization
()
cython_compile_testcase
=
runtests
.
CythonCompileTestCase
(
workdir
=
self
.
tempdir
,
# we clean up everything (not only compiled files)
...
...
@@ -77,6 +85,8 @@ class DebuggerTestCase(unittest.TestCase):
**
opts
)
optimization_disabler
.
restore_state
()
# ext = Cython.Distutils.extension.Extension(
# 'codefile',
# ['codefile.pyx'],
...
...
@@ -95,6 +105,7 @@ class DebuggerTestCase(unittest.TestCase):
class
GdbDebuggerTestCase
(
DebuggerTestCase
):
def
setUp
(
self
):
super
(
GdbDebuggerTestCase
,
self
).
setUp
()
...
...
Cython/Debugger/Tests/codefile
View file @
c5e16a3f
...
...
@@ -22,15 +22,26 @@ def spam(a=0):
os.path.join("foo", "bar")
some_c_function()
c
def ham
():
c
pdef eggs
():
pass
c
pdef eggs
():
c
def ham
():
pass
cdef class SomeClass(object):
def spam(self):
pass
def outer():
cdef object a = "an object"
def inner():
b = 2
# access closed over variables
print a, b
return inner
outer()()
spam()
print "bye!"
\ No newline at end of file
Cython/Debugger/Tests/test_libcython_in_gdb.py
View file @
c5e16a3f
...
...
@@ -14,6 +14,7 @@ import warnings
import
unittest
import
textwrap
import
tempfile
import
functools
import
traceback
import
itertools
from
test
import
test_support
...
...
@@ -28,12 +29,35 @@ from Cython.Debugger.Tests import TestLibCython as test_libcython
sys
.
argv
=
[
'gdb'
]
def
print_on_call_decorator
(
func
):
@
functools
.
wraps
(
func
)
def
wrapper
(
self
,
*
args
,
**
kwargs
):
_debug
(
type
(
self
).
__name__
,
func
.
__name__
)
try
:
return
func
(
self
,
*
args
,
**
kwargs
)
except
Exception
,
e
:
_debug
(
"An exception occurred:"
,
traceback
.
format_exc
(
e
))
raise
return
wrapper
class
TraceMethodCallMeta
(
type
):
def
__init__
(
self
,
name
,
bases
,
dict
):
for
func_name
,
func
in
dict
.
iteritems
():
if
inspect
.
isfunction
(
func
):
setattr
(
self
,
func_name
,
print_on_call_decorator
(
func
))
class
DebugTestCase
(
unittest
.
TestCase
):
"""
Base class for test cases. On teardown it kills the inferior and unsets
all breakpoints.
"""
__metaclass__
=
TraceMethodCallMeta
def
__init__
(
self
,
name
):
super
(
DebugTestCase
,
self
).
__init__
(
name
)
self
.
cy
=
libcython
.
cy
...
...
@@ -58,7 +82,7 @@ class DebugTestCase(unittest.TestCase):
if
source_line
is
not
None
:
lineno
=
test_libcython
.
source_to_lineno
[
source_line
]
frame
=
gdb
.
selected_frame
()
self
.
assertEqual
(
libcython
.
cy
.
step
.
lineno
(
frame
),
lineno
)
self
.
assertEqual
(
libcython
.
cy
thon_info
.
lineno
(
frame
),
lineno
)
def
break_and_run
(
self
,
source_line
):
break_lineno
=
test_libcython
.
source_to_lineno
[
source_line
]
...
...
@@ -74,9 +98,6 @@ class DebugTestCase(unittest.TestCase):
gdb
.
execute
(
'set args -c "import codefile"'
)
libcython
.
cy
.
step
.
static_breakpoints
.
clear
()
libcython
.
cy
.
step
.
runtime_breakpoints
.
clear
()
libcython
.
cy
.
step
.
init_breakpoints
()
class
TestDebugInformationClasses
(
DebugTestCase
):
...
...
@@ -101,7 +122,7 @@ class TestDebugInformationClasses(DebugTestCase):
'codefile.SomeClass.spam'
)
self
.
assertEqual
(
self
.
spam_func
.
module
,
self
.
module
)
assert
self
.
eggs_func
.
pf_cname
assert
self
.
eggs_func
.
pf_cname
,
(
self
.
eggs_func
,
self
.
eggs_func
.
pf_cname
)
assert
not
self
.
ham_func
.
pf_cname
assert
not
self
.
spam_func
.
pf_cname
assert
not
self
.
spam_meth
.
pf_cname
...
...
@@ -130,7 +151,7 @@ class TestParameters(unittest.TestCase):
class
TestBreak
(
DebugTestCase
):
def
test_break
(
self
):
breakpoint_amount
=
len
(
gdb
.
breakpoints
())
breakpoint_amount
=
len
(
gdb
.
breakpoints
()
or
()
)
gdb
.
execute
(
'cy break codefile.spam'
)
self
.
assertEqual
(
len
(
gdb
.
breakpoints
()),
breakpoint_amount
+
1
)
...
...
@@ -143,6 +164,16 @@ class TestBreak(DebugTestCase):
gdb
.
execute
(
'cy break -p join'
)
assert
'def join('
in
gdb
.
execute
(
'cy run'
,
to_string
=
True
)
def
test_break_lineno
(
self
):
beginline
=
'import os'
nextline
=
'cdef int c_var = 12'
self
.
break_and_run
(
beginline
)
self
.
lineno_equals
(
beginline
)
step_result
=
gdb
.
execute
(
'cy step'
,
to_string
=
True
)
self
.
lineno_equals
(
nextline
)
assert
step_result
.
rstrip
().
endswith
(
nextline
)
class
TestKilled
(
DebugTestCase
):
...
...
@@ -151,6 +182,7 @@ class TestKilled(DebugTestCase):
output
=
gdb
.
execute
(
'cy run'
,
to_string
=
True
)
assert
'abort'
in
output
.
lower
()
class
DebugStepperTestCase
(
DebugTestCase
):
def
step
(
self
,
varnames_and_values
,
source_line
=
None
,
lineno
=
None
):
...
...
@@ -262,7 +294,7 @@ class TestBacktrace(DebugTestCase):
gdb
.
execute
(
'cy bt'
)
result
=
gdb
.
execute
(
'cy bt -a'
,
to_string
=
True
)
assert
re
.
search
(
r'\
#
0 *0x.* in main\
(
\)
at
'
,
result
),
result
assert
re
.
search
(
r'\
#
0 *0x.* in main\
(
\)'
,
result
),
result
class
TestFunctions
(
DebugTestCase
):
...
...
@@ -344,6 +376,36 @@ class TestExec(DebugTestCase):
gdb
.
execute
(
'cy exec some_random_var = 14'
)
self
.
assertEqual
(
'14'
,
self
.
eval_command
(
'some_random_var'
))
class
TestClosure
(
DebugTestCase
):
def
break_and_run_func
(
self
,
funcname
):
gdb
.
execute
(
'cy break '
+
funcname
)
gdb
.
execute
(
'cy run'
)
def
test_inner
(
self
):
self
.
break_and_run_func
(
'inner'
)
self
.
assertEqual
(
''
,
gdb
.
execute
(
'cy locals'
,
to_string
=
True
))
# Allow the Cython-generated code to initialize the scope variable
gdb
.
execute
(
'cy step'
)
self
.
assertEqual
(
str
(
self
.
read_var
(
'a'
)),
"'an object'"
)
print_result
=
gdb
.
execute
(
'cy print a'
,
to_string
=
True
).
strip
()
self
.
assertEqual
(
print_result
,
"a = 'an object'"
)
def
test_outer
(
self
):
self
.
break_and_run_func
(
'outer'
)
self
.
assertEqual
(
''
,
gdb
.
execute
(
'cy locals'
,
to_string
=
True
))
# Initialize scope with 'a' uninitialized
gdb
.
execute
(
'cy step'
)
self
.
assertEqual
(
''
,
gdb
.
execute
(
'cy locals'
,
to_string
=
True
))
# Initialize 'a' to 1
gdb
.
execute
(
'cy step'
)
print_result
=
gdb
.
execute
(
'cy print a'
,
to_string
=
True
).
strip
()
self
.
assertEqual
(
print_result
,
"a = 'an object'"
)
_do_debug
=
os
.
environ
.
get
(
'GDB_DEBUG'
)
if
_do_debug
:
...
...
Cython/Debugger/libcython.py
View file @
c5e16a3f
...
...
@@ -154,9 +154,6 @@ class CythonModule(object):
self
.
lineno_c2cy
=
{}
self
.
functions
=
{}
def
qualified_name
(
self
,
varname
):
return
'.'
.
join
(
self
.
name
,
varname
)
class
CythonVariable
(
object
):
def
__init__
(
self
,
name
,
cname
,
qualified_name
,
type
,
lineno
):
...
...
@@ -174,7 +171,8 @@ class CythonFunction(CythonVariable):
pf_cname
,
qualified_name
,
lineno
,
type
=
CObject
):
type
=
CObject
,
is_initmodule_function
=
"False"
):
super
(
CythonFunction
,
self
).
__init__
(
name
,
cname
,
qualified_name
,
...
...
@@ -182,6 +180,7 @@ class CythonFunction(CythonVariable):
lineno
)
self
.
module
=
module
self
.
pf_cname
=
pf_cname
self
.
is_initmodule_function
=
is_initmodule_function
==
"True"
self
.
locals
=
{}
self
.
arguments
=
[]
self
.
step_into_functions
=
set
()
...
...
@@ -243,7 +242,8 @@ class CythonBase(object):
pyframeobject
=
libpython
.
Frame
(
frame
).
get_pyop
()
if
not
pyframeobject
:
raise
gdb
.
GdbError
(
'Unable to read information on python frame'
)
raise
gdb
.
GdbError
(
'Unable to read information on python frame'
)
filename
=
pyframeobject
.
filename
()
lineno
=
pyframeobject
.
current_line_num
()
...
...
@@ -256,7 +256,7 @@ class CythonBase(object):
filename
=
None
lineno
=
0
else
:
filename
=
symbol_and_line_obj
.
symtab
.
f
ilename
filename
=
symbol_and_line_obj
.
symtab
.
f
ullname
()
lineno
=
symbol_and_line_obj
.
line
if
pygments
:
lexer
=
pygments
.
lexers
.
CLexer
(
stripall
=
False
)
...
...
@@ -389,10 +389,20 @@ class CythonBase(object):
value
)
def
is_initialized
(
self
,
cython_func
,
local_name
):
islocal
=
local_name
in
cython_func
.
locals
if
islocal
:
cyvar
=
cython_func
.
locals
[
local_name
]
if
'->'
in
cyvar
.
cname
:
# Closed over free variable
if
self
.
get_cython_lineno
()
>=
cython_func
.
lineno
+
1
:
if
cyvar
.
type
==
PythonObject
:
return
long
(
gdb
.
parse_and_eval
(
cyvar
.
cname
))
return
True
return
False
cur_lineno
=
self
.
get_cython_lineno
()
return
(
local_name
in
cython_func
.
arguments
or
(
local_name
in
cython_func
.
locals
and
cur_lineno
>
cython_func
.
locals
[
local_name
].
lineno
))
(
islocal
and
cur_lineno
>
cyvar
.
lineno
))
class
SourceFileDescriptor
(
object
):
def
__init__
(
self
,
filename
,
lexer
,
formatter
=
None
):
...
...
@@ -706,8 +716,6 @@ class CyImport(CythonCommand):
for
c_lineno
in
c_linenos
:
cython_module
.
lineno_c2cy
[
c_lineno
]
=
cython_lineno
self
.
cy
.
step
.
init_breakpoints
()
class
CyBreak
(
CythonCommand
):
"""
...
...
@@ -754,10 +762,16 @@ class CyBreak(CythonCommand):
def
_break_funcname
(
self
,
funcname
):
func
=
self
.
cy
.
functions_by_qualified_name
.
get
(
funcname
)
if
func
and
func
.
is_initmodule_function
:
func
=
None
break_funcs
=
[
func
]
if
not
func
:
funcs
=
self
.
cy
.
functions_by_name
.
get
(
funcname
)
funcs
=
self
.
cy
.
functions_by_name
.
get
(
funcname
)
or
[]
funcs
=
[
f
for
f
in
funcs
if
not
f
.
is_initmodule_function
]
if
not
funcs
:
gdb
.
execute
(
'break '
+
funcname
)
return
...
...
@@ -813,18 +827,28 @@ class CyBreak(CythonCommand):
@
dont_suppress_errors
def
complete
(
self
,
text
,
word
):
names
=
self
.
cy
.
functions_by_qualified_name
# Filter init-module functions (breakpoints can be set using
# modulename:linenumber).
names
=
[
n
for
n
,
L
in
self
.
cy
.
functions_by_name
.
iteritems
()
if
any
(
not
f
.
is_initmodule_function
for
f
in
L
)]
qnames
=
[
n
for
n
,
f
in
self
.
cy
.
functions_by_qualified_name
.
iteritems
()
if
not
f
.
is_initmodule_function
]
if
parameters
.
complete_unqualified
:
names
=
itertools
.
chain
(
names
,
self
.
cy
.
functions_by_name
)
all_names
=
itertools
.
chain
(
qnames
,
names
)
else
:
all_names
=
qnames
words
=
text
.
strip
().
split
()
if
words
and
'.'
in
words
[
-
1
]:
lastword
=
words
[
-
1
]
compl
=
[
n
for
n
in
self
.
cy
.
functions_by_qualified_name
if
n
.
startswith
(
lastword
)]
else
:
if
not
words
or
'.'
not
in
words
[
-
1
]:
# complete unqualified
seen
=
set
(
text
[:
-
len
(
word
)].
split
())
return
[
n
for
n
in
names
if
n
.
startswith
(
word
)
and
n
not
in
seen
]
return
[
n
for
n
in
all_names
if
n
.
startswith
(
word
)
and
n
not
in
seen
]
# complete qualified name
lastword
=
words
[
-
1
]
compl
=
[
n
for
n
in
qnames
if
n
.
startswith
(
lastword
)]
if
len
(
lastword
)
>
len
(
word
):
# readline sees something (e.g. a '.') as a word boundary, so don't
...
...
@@ -835,10 +859,9 @@ class CyBreak(CythonCommand):
return
compl
class
Cython
CodeStepper
(
CythonCommand
,
libpython
.
GenericCodeStepper
):
class
Cython
Info
(
CythonBase
,
libpython
.
PythonInfo
):
"""
Base class for CyStep and CyNext. It implements the interface dictated by
libpython.GenericCodeStepper.
Implementation of the interface dictated by libpython.LanguageInfo.
"""
def
lineno
(
self
,
frame
):
...
...
@@ -848,32 +871,49 @@ class CythonCodeStepper(CythonCommand, libpython.GenericCodeStepper):
# related code. The C level should be dispatched to the 'step' command.
if
self
.
is_cython_function
(
frame
):
return
self
.
get_cython_lineno
(
frame
)
else
:
return
libpython
.
py_step
.
lineno
(
frame
)
return
super
(
CythonInfo
,
self
).
lineno
(
frame
)
def
get_source_line
(
self
,
frame
):
try
:
line
=
super
(
Cython
CodeStepper
,
self
).
get_source_line
(
frame
)
line
=
super
(
Cython
Info
,
self
).
get_source_line
(
frame
)
except
gdb
.
GdbError
:
return
None
else
:
return
line
.
strip
()
or
None
@
classmethod
def
register
(
cls
)
:
return
cls
(
cls
.
name
,
stepinto
=
getattr
(
cls
,
'stepinto'
,
False
)
)
def
exc_info
(
self
,
frame
):
if
self
.
is_python_function
:
return
super
(
CythonInfo
,
self
).
exc_info
(
frame
)
def
runtime_break_functions
(
self
):
if
self
.
is_cython_function
():
return
self
.
get_cython_function
().
step_into_functions
return
()
def
static_break_functions
(
self
):
result
=
[
'PyEval_EvalFrameEx'
]
result
.
extend
(
self
.
cy
.
functions_by_cname
)
return
result
class
CythonExecutionControlCommand
(
CythonCommand
,
libpython
.
ExecutionControlCommandBase
):
@
classmethod
def
register
(
cls
):
return
cls
(
cls
.
name
,
cython_info
)
class
CyStep
(
CythonExecutionControlCommand
,
libpython
.
PythonStepperMixin
):
"Step through Cython, Python or C code."
name
=
'cy -step'
stepinto
=
True
def
invoke
(
self
,
args
,
from_tty
):
if
not
self
.
is_cython_function
()
and
not
self
.
is_python_function
():
if
self
.
is_python_function
():
self
.
python_step
(
self
.
stepinto
)
elif
not
self
.
is_cython_function
():
if
self
.
stepinto
:
command
=
'step'
else
:
...
...
@@ -881,24 +921,17 @@ class CythonCodeStepper(CythonCommand, libpython.GenericCodeStepper):
self
.
finish_executing
(
gdb
.
execute
(
command
,
to_string
=
True
))
else
:
self
.
step
()
class
CyStep
(
CythonCodeStepper
):
"Step through Cython, Python or C code."
name
=
'cy step'
stepinto
=
True
self
.
step
(
stepinto
=
self
.
stepinto
)
class
CyNext
(
Cy
thonCodeStepper
):
"Step-over
Python
code."
class
CyNext
(
Cy
Step
):
"Step-over
Cython, Python or C
code."
name
=
'cy next'
name
=
'cy
-
next'
stepinto
=
False
class
CyRun
(
Cython
CodeStepper
):
class
CyRun
(
Cython
ExecutionControlCommand
):
"""
Run a Cython program. This is like the 'run' command, except that it
displays Cython or Python source lines as well
...
...
@@ -906,26 +939,26 @@ class CyRun(CythonCodeStepper):
name
=
'cy run'
invoke
=
Cython
CodeStepper
.
run
invoke
=
Cython
ExecutionControlCommand
.
run
class
CyCont
(
Cy
Run
):
class
CyCont
(
Cy
thonExecutionControlCommand
):
"""
Continue a Cython program. This is like the 'run' command, except that it
displays Cython or Python source lines as well.
"""
name
=
'cy cont'
invoke
=
Cython
CodeStepper
.
cont
invoke
=
Cython
ExecutionControlCommand
.
cont
class
CyFinish
(
Cy
Run
):
class
CyFinish
(
Cy
thonExecutionControlCommand
):
"""
Execute until the function returns.
"""
name
=
'cy finish'
invoke
=
Cython
CodeStepper
.
finish
invoke
=
Cython
ExecutionControlCommand
.
finish
class
CyUp
(
CythonCommand
):
...
...
@@ -961,7 +994,7 @@ class CyDown(CyUp):
_command
=
'down'
class
CySelect
(
CythonCo
deStepper
):
class
CySelect
(
CythonCo
mmand
):
"""
Select a frame. Use frame numbers as listed in `cy backtrace`.
This command is useful because `cy backtrace` prints a reversed backtrace.
...
...
@@ -979,7 +1012,7 @@ class CySelect(CythonCodeStepper):
while
frame
.
newer
():
frame
=
frame
.
newer
()
stackdepth
=
self
.
_
stackdepth
(
frame
)
stackdepth
=
libpython
.
stackdepth
(
frame
)
try
:
gdb
.
execute
(
'select %d'
%
(
stackdepth
-
stackno
-
1
,))
...
...
@@ -1033,7 +1066,7 @@ class CyList(CythonCommand):
command_class
=
gdb
.
COMMAND_FILES
completer_class
=
gdb
.
COMPLETE_NONE
@
dispatch_on_frame
(
c_command
=
'list'
)
#
@dispatch_on_frame(c_command='list')
def
invoke
(
self
,
_
,
from_tty
):
sd
,
lineno
=
self
.
get_source_desc
()
source
=
sd
.
get_source
(
lineno
-
5
,
lineno
+
5
,
mark_line
=
lineno
,
...
...
@@ -1085,7 +1118,13 @@ class CyLocals(CythonCommand):
@
dispatch_on_frame
(
c_command
=
'info locals'
,
python_command
=
'py-locals'
)
def
invoke
(
self
,
args
,
from_tty
):
local_cython_vars
=
self
.
get_cython_function
().
locals
cython_function
=
self
.
get_cython_function
()
if
cython_function
.
is_initmodule_function
:
self
.
cy
.
globals
.
invoke
(
args
,
from_tty
)
return
local_cython_vars
=
cython_function
.
locals
max_name_length
=
len
(
max
(
local_cython_vars
,
key
=
len
))
for
name
,
cyvar
in
sorted
(
local_cython_vars
.
iteritems
(),
key
=
sortkey
):
if
self
.
is_initialized
(
self
.
get_cython_function
(),
cyvar
.
name
):
...
...
@@ -1263,17 +1302,16 @@ class CyCValue(CyCName):
@
require_cython_frame
@
gdb_function_value_to_unicode
def
invoke
(
self
,
cyname
,
frame
=
None
):
try
:
globals_dict
=
self
.
get_cython_globals_dict
()
cython_function
=
self
.
get_cython_function
(
frame
)
if
self
.
is_initialized
(
cython_function
,
cyname
):
cname
=
super
(
CyCValue
,
self
).
invoke
(
cyname
,
frame
=
frame
)
return
gdb
.
parse_and_eval
(
cname
)
except
(
gdb
.
GdbError
,
RuntimeError
),
e
:
# variable exists but may not have been initialized yet, or may be
# in the globals dict of the Cython module
d
=
self
.
get_cython_globals_dict
()
if
cyname
in
d
:
return
d
[
cyname
].
_gdbval
raise
gdb
.
GdbError
(
str
(
e
))
elif
cyname
in
globals_dict
:
return
globals_dict
[
cyname
].
_gdbval
else
:
raise
gdb
.
GdbError
(
"Variable %s is not initialized."
%
cyname
)
class
CyLine
(
gdb
.
Function
,
CythonBase
):
...
...
@@ -1285,5 +1323,27 @@ class CyLine(gdb.Function, CythonBase):
def
invoke
(
self
):
return
self
.
get_cython_lineno
()
cython_info
=
CythonInfo
()
cy
=
CyCy
.
register
()
cython_info
.
cy
=
cy
def
register_defines
():
libpython
.
source_gdb_script
(
textwrap
.
dedent
(
"""
\
define cy step
cy -step
end
define cy next
cy -next
end
document cy step
%s
end
document cy next
%s
end
"""
)
%
(
CyStep
.
__doc__
,
CyNext
.
__doc__
))
register_defines
()
\ No newline at end of file
Cython/Debugger/libpython.py
View file @
c5e16a3f
...
...
@@ -369,8 +369,8 @@ class PyObjectPtr(object):
if
tp_name
in
name_map
:
return
name_map
[
tp_name
]
if
tp_flags
&
Py_TPFLAGS_HEAPTYPE
:
return
Heap
TypeObjectPtr
if
tp_flags
&
(
Py_TPFLAGS_HEAPTYPE
|
Py_TPFLAGS_TYPE_SUBCLASS
)
:
return
Py
TypeObjectPtr
if
tp_flags
&
Py_TPFLAGS_INT_SUBCLASS
:
return
PyIntObjectPtr
...
...
@@ -392,8 +392,6 @@ class PyObjectPtr(object):
return
PyDictObjectPtr
if
tp_flags
&
Py_TPFLAGS_BASE_EXC_SUBCLASS
:
return
PyBaseExceptionObjectPtr
#if tp_flags & Py_TPFLAGS_TYPE_SUBCLASS:
# return PyTypeObjectPtr
# Use the base class:
return
cls
...
...
@@ -484,8 +482,8 @@ def _PyObject_VAR_SIZE(typeobj, nitems):
)
&
~
(
SIZEOF_VOID_P
-
1
)
).
cast
(
gdb
.
lookup_type
(
'size_t'
))
class
Heap
TypeObjectPtr
(
PyObjectPtr
):
_typename
=
'PyObject'
class
Py
TypeObjectPtr
(
PyObjectPtr
):
_typename
=
'Py
Type
Object'
def
get_attr_dict
(
self
):
'''
...
...
@@ -546,9 +544,16 @@ class HeapTypeObjectPtr(PyObjectPtr):
return
visited
.
add
(
self
.
as_address
())
pyop_attrdict
=
self
.
get_attr_dict
()
_write_instance_repr
(
out
,
visited
,
self
.
safe_tp_name
(),
pyop_attrdict
,
self
.
as_address
())
try
:
tp_name
=
self
.
field
(
'tp_name'
).
string
()
except
RuntimeError
:
tp_name
=
'unknown'
out
.
write
(
'<type %s at remote 0x%x>'
%
(
tp_name
,
self
.
as_address
()))
# pyop_attrdict = self.get_attr_dict()
# _write_instance_repr(out, visited,
# self.safe_tp_name(), pyop_attrdict, self.as_address())
class
ProxyException
(
Exception
):
def
__init__
(
self
,
tp_name
,
args
):
...
...
@@ -1136,9 +1141,6 @@ class PyTupleObjectPtr(PyObjectPtr):
else
:
out
.
write
(
')'
)
class
PyTypeObjectPtr
(
PyObjectPtr
):
_typename
=
'PyTypeObject'
def
_unichr_is_printable
(
char
):
# Logic adapted from Python 3's Tools/unicode/makeunicodedata.py
...
...
@@ -1715,6 +1717,8 @@ class PyNameEquals(gdb.Function):
if frame.is_evalframeex():
pyframe = frame.get_pyop()
if pyframe is None:
warnings.warn("Use a Python debug build, Python breakpoints "
"won'
t
work
otherwise
.
")
return None
return getattr(pyframe, attr).proxyval(set())
...
...
@@ -1839,132 +1843,98 @@ def get_selected_inferior():
if thread == selected_thread:
return inferior
class GenericCodeStepper(gdb.Command):
def source_gdb_script(script_contents, to_string=False):
"""
Superclass for code stepping. Subclasses must implement the following
methods:
lineno(frame)
tells the current line number (only called for a relevant frame)
is_relevant_function(frame)
tells whether we care about frame '
frame
'
get_source_line(frame)
get the line of source code for the current line (only called for a
relevant frame). If the source code cannot be retrieved this
function should return None
static_break_functions()
returns an iterable of function names that are considered relevant
and should halt step-into execution. This is needed to provide a
performing step-into
runtime_break_functions
list of functions that we should break into depending on the
context
This class provides an '
invoke
' method that invokes a '
step
' or '
step
-
over
'
depending on the '
stepinto
' argument.
Source a gdb script with script_contents passed as a string. This is useful
to provide defines for py-step and py-next to make them repeatable (this is
not possible with gdb.execute()). See
http://sourceware.org/bugzilla/show_bug.cgi?id=12216
"""
fd, filename = tempfile.mkstemp()
f = os.fdopen(fd, 'w')
f.write(script_contents)
f.close()
gdb.execute("
source
%
s
" % filename, to_string=to_string)
os.remove(filename)
def register_defines():
source_gdb_script(textwrap.dedent("""
\
define py-step
-py-step
end
define py-next
-py-next
end
document py-step
%s
end
document py-next
%s
end
""") % (PyStep.__doc__, PyNext.__doc__))
def stackdepth(frame):
"
Tells
the
stackdepth
of
a
gdb
frame
.
"
depth = 0
while frame:
frame = frame.older()
depth += 1
stepper = False
static_breakpoints = {}
runtime_breakpoints = {}
def __init__(self, name, stepinto=False):
super(GenericCodeStepper, self).__init__(name,
gdb.COMMAND_RUNNING,
gdb.COMPLETE_NONE)
self.stepinto = stepinto
def _break_func(self, funcname):
result = gdb.execute('
break
%
s
' % funcname, to_string=True)
return re.search(r'
Breakpoint
(
\
d
+
)
', result).group(1)
def init_breakpoints(self):
"""
Keep all breakpoints around and simply disable/enable them each time
we are stepping. We need this because if you set and delete a
breakpoint, gdb will not repeat your command (this is due to '
delete
').
We also can'
t
use
the
breakpoint
API
because
there
's no option to make
breakpoint setting silent.
This method must be called whenever the list of functions we should
step into changes. It can be called on any GenericCodeStepper instance.
"""
break_funcs = set(self.static_break_functions())
for funcname in break_funcs:
if funcname not in self.static_breakpoints:
try:
gdb.Breakpoint('', gdb.BP_BREAKPOINT, internal=True)
except (AttributeError, TypeError):
# gdb.Breakpoint does not take an '
internal
' argument, or
# gdb.Breakpoint does not exist.
breakpoint = self._break_func(funcname)
except RuntimeError:
# gdb.Breakpoint does take an '
internal
' argument, use it
# and hide output
result = gdb.execute(textwrap.dedent("""
\
python bp = gdb.Breakpoint(%r, gdb.BP_BREAKPOINT,
\
internal=True);
\
print bp.number""",
to_string=True))
breakpoint = int(result)
self.static_breakpoints[funcname] = breakpoint
for bp in set(self.static_breakpoints) - break_funcs:
gdb.execute("delete " + self.static_breakpoints[bp])
self.disable_breakpoints()
def enable_breakpoints(self):
for bp in self.static_breakpoints.itervalues():
gdb.execute('
enable
' + bp)
runtime_break_functions = self.runtime_break_functions()
if runtime_break_functions is None:
return
for funcname in runtime_break_functions:
if (funcname not in self.static_breakpoints and
funcname not in self.runtime_breakpoints):
self.runtime_breakpoints[funcname] = self._break_func(funcname)
elif funcname in self.runtime_breakpoints:
gdb.execute('
enable
' + self.runtime_breakpoints[funcname])
def disable_breakpoints(self):
chain = itertools.chain(self.static_breakpoints.itervalues(),
self.runtime_breakpoints.itervalues())
for bp in chain:
gdb.execute('
disable
' + bp)
return depth
def runtime_break_functions(self
):
class ExecutionControlCommandBase(gdb.Command
):
"""
Implement this if the list of step-into functions depends on the
context.
Superclass for language specific execution control. Language specific
features should be implemented by lang_info using the LanguageInfo
interface. 'name' is the name of the command.
"""
def stopped(self, result):
match = re.search('
^
Program
received
signal
.
*
', result, re.MULTILINE)
def __init__(self, name, lang_info):
super(ExecutionControlCommandBase, self).__init__(
name, gdb.COMMAND_RUNNING, gdb.COMPLETE_NONE)
self.lang_info = lang_info
def install_breakpoints(self):
all_locations = itertools.chain(
self.lang_info.static_break_functions(),
self.lang_info.runtime_break_functions())
for location in all_locations:
result = gdb.execute('break %s' % location, to_string=True)
yield re.search(r'Breakpoint (
\
d+)
'
, result).group(1)
def delete_breakpoints(self, breakpoint_list):
for bp in breakpoint_list:
gdb.execute("
delete
%
s
" % bp)
def filter_output(self, result):
output = []
match_finish = re.search(r'^Value returned is
\
$
\
d+ = (.*)', result,
re.MULTILINE)
if match_finish:
output.append('Value returned: %s' % match_finish.group(1))
reflags = re.MULTILINE
regexes = [
(r'^Program received signal .*', reflags|re.DOTALL),
(r'.*[Ww]arning.*', 0),
(r'^Program exited .*', reflags),
]
for regex, flags in regexes:
match = re.search(regex, result, flags)
if match:
return match.group(0)
elif get_selected_inferior().pid == 0:
return result
else:
return None
output.append(match.group(0))
def _stackdepth(self, frame):
depth = 0
while frame:
frame = frame.older()
depth += 1
return '
\
n
'.join(output)
return depth
def stopped(self):
return get_selected_inferior().pid == 0
def finish_executing(self, result):
"""
...
...
@@ -1972,32 +1942,19 @@ class GenericCodeStepper(gdb.Command):
of source code or the result of the last executed gdb command (passed
in as the `result` argument).
"""
result = self.stopped(result)
if result:
result = self.filter_output(result)
if self.stopped():
print result.strip()
# check whether the program was killed by a signal, it should still
# have a stack.
try:
frame = gdb.selected_frame()
except RuntimeError:
pass
else:
print self.get_source_line(frame)
else:
frame = gdb.selected_frame()
output = None
if self.is_relevant_function(frame):
output = self.get_source_line(frame)
if output is None:
pframe = getattr(self, '
print_stackframe
', None)
if pframe:
pframe(frame, index=0)
else:
print result.strip()
if self.lang_info.is_relevant_function(frame):
raised_exception = self.lang_info.exc_info(frame)
if raised_exception:
print raised_exception
print self.lang_info.get_source_line(frame) or result
else:
print
outpu
t
print
resul
t
def _finish(self):
"""
...
...
@@ -2010,11 +1967,10 @@ class GenericCodeStepper(gdb.Command):
# outermost frame, continue
return gdb.execute('cont', to_string=True)
def
finish(self, *args
):
def
_finish_frame(self
):
"""
Execute until the function returns to a relevant caller.
"""
while True:
result = self._finish()
...
...
@@ -2024,39 +1980,64 @@ class GenericCodeStepper(gdb.Command):
break
hitbp = re.search(r'Breakpoint (
\
d+)
'
, result)
is_rel
avant = self
.is_relevant_function(frame)
if hitbp or is_rel
avant or self.stopped(result
):
is_rel
evant = self.lang_info
.is_relevant_function(frame)
if hitbp or is_rel
evant or self.stopped(
):
break
return result
def finish(self, *args):
"
Implements
the
finish
command
.
"
result = self._finish_frame()
self.finish_executing(result)
def
_step(self
):
def
step(self, stepinto, stepover_command='next'
):
"""
Do a single step or step-over. Returns the result of the last gdb
command that made execution stop.
This implementation, for stepping, sets (conditional) breakpoints for
all functions that are deemed relevant. It then does a step over until
either something halts execution, or until the next line is reached.
If, however, stepover_command is given, it should be a string gdb
command that continues execution in some way. The idea is that the
caller has set a (conditional) breakpoint or watchpoint that can work
more efficiently than the step-over loop. For Python this means setting
a watchpoint for f->f_lasti, which means we can then subsequently
"
finish
" frames.
We want f->f_lasti instead of f->f_lineno, because the latter only
works properly with local trace functions, see
PyFrameObjectPtr.current_line_num and PyFrameObjectPtr.addr2line.
"""
if s
elf.s
tepinto:
self.enable_breakpoints(
)
if stepinto:
breakpoint_list = list(self.install_breakpoints()
)
beginframe = gdb.selected_frame()
beginline = self.lineno(beginframe)
if not self.stepinto:
depth = self._stackdepth(beginframe)
if self.lang_info.is_relevant_function(beginframe):
# If we start in a relevant frame, initialize stuff properly. If
# we don't start in a relevant frame, the loop will halt
# immediately. So don't call self.lang_info.lineno() as it may
# raise for irrelevant frames.
beginline = self.lang_info.lineno(beginframe)
if not stepinto:
depth = stackdepth(beginframe)
newframe = beginframe
result = ''
while True:
if self.is_relevant_function(newframe):
result = gdb.execute(
'
next
'
, to_string=True)
if self.
lang_info.
is_relevant_function(newframe):
result = gdb.execute(
stepover_command
, to_string=True)
else:
result = self._finish()
result = self._finish
_frame
()
if self.stopped(
result
):
if self.stopped():
break
newframe = gdb.selected_frame()
is_relevant_function = self.is_relevant_function(newframe)
is_relevant_function = self.
lang_info.
is_relevant_function(newframe)
try:
framename = newframe.name()
except RuntimeError:
...
...
@@ -2064,8 +2045,7 @@ class GenericCodeStepper(gdb.Command):
m = re.search(r'Breakpoint (
\
d+)
'
, result)
if m:
bp = self.runtime_breakpoints.get(framename)
if bp is None or (m.group(1) == bp and is_relevant_function):
if is_relevant_function and m.group(1) in breakpoint_list:
# although we hit a breakpoint, we still need to check
# that the function, in case hit by a runtime breakpoint,
# is in the right context
...
...
@@ -2074,25 +2054,25 @@ class GenericCodeStepper(gdb.Command):
if newframe != beginframe:
# new function
if not s
elf.s
tepinto:
if not stepinto:
# see if we returned to the caller
newdepth = s
elf._s
tackdepth(newframe)
newdepth = stackdepth(newframe)
is_relevant_function = (newdepth < depth and
is_relevant_function)
if is_relevant_function:
break
else:
if self.lineno(newframe) > beginline:
# newframe equals beginframe, check for a difference in the
# line number
lineno = self.lang_info.lineno(newframe)
if lineno and lineno != beginline:
break
if self.stepinto:
self.disable_breakpoints()
return result
if stepinto:
self.delete_breakpoints(breakpoint_list)
def step(self, *args):
return self.finish_executing(self._step())
self.finish_executing(result)
def run(self, *args):
self.finish_executing(gdb.execute('run', to_string=True))
...
...
@@ -2101,14 +2081,57 @@ class GenericCodeStepper(gdb.Command):
self.finish_executing(gdb.execute('cont', to_string=True))
class PythonCodeStepper(GenericCodeStepper):
class LanguageInfo(object):
"""
This class defines the interface that ExecutionControlCommandBase needs to
provide language-specific execution control.
Classes that implement this interface should implement:
lineno(frame)
Tells the current line number (only called for a relevant frame).
If lineno is a false value it is not checked for a difference.
is_relevant_function(frame)
tells whether we care about frame 'frame'
get_source_line(frame)
get the line of source code for the current line (only called for a
relevant frame). If the source code cannot be retrieved this
function should return None
exc_info(frame) -- optional
tells whether an exception was raised, if so, it should return a
string representation of the exception value, None otherwise.
static_break_functions()
returns an iterable of function names that are considered relevant
and should halt step-into execution. This is needed to provide a
performing step-into
runtime_break_functions() -- optional
list of functions that we should break into depending on the
context
"""
def exc_info(self, frame):
"
See
this
class
' docstring."
def runtime_break_functions(self):
"""
Implement this if the list of step-into functions depends on the
context.
"""
return ()
class PythonInfo(LanguageInfo):
def pyframe(self, frame):
pyframe = Frame(frame).get_pyop()
if pyframe:
return pyframe
else:
raise gdb.
Gdb
Error(
raise gdb.
Runtime
Error(
"Unable to find the Python frame, run your code with a debug "
"build (configure with --with-pydebug or compile with -g).")
...
...
@@ -2126,47 +2149,67 @@ class PythonCodeStepper(GenericCodeStepper):
except IOError, e:
return None
def exc_info(self, frame):
try:
tstate = frame.read_var('
tstate
').dereference()
if gdb.parse_and_eval('
tstate
->
frame
==
f'):
# tstate local variable initialized
inf_type = tstate['
curexc_type
']
inf_value = tstate['
curexc_value
']
if inf_type:
return '
An
exception
was
raised
:
%
s
(
%
s
)
' % (inf_type,
inf_value)
except (ValueError, RuntimeError), e:
# Could not read the variable tstate or it'
s
memory
,
it
's ok
pass
def static_break_functions(self):
yield '
PyEval_EvalFrameEx
'
class PyStep(PythonCodeStepper):
class PythonStepperMixin(object):
"""
Make this a mixin so CyStep can also inherit from this and use a
CythonCodeStepper at the same time.
"""
def python_step(self, stepinto):
frame = gdb.selected_frame()
framewrapper = Frame(frame)
output = gdb.execute('
watch
f
->
f_lasti
', to_string=True)
watchpoint = int(re.search(r'
[
Ww
]
atchpoint
(
\
d
+
):
', output).group(1))
self.step(stepinto=stepinto, stepover_command='
finish
')
gdb.execute('
delete
%
s
' % watchpoint)
class PyStep(ExecutionControlCommandBase, PythonStepperMixin):
"Step through Python code."
invoke = PythonCodeStepper.step
stepinto = True
def invoke(self, args, from_tty):
self.python_step(stepinto=self.stepinto)
class PyNext(Py
thonCodeStepper
):
class PyNext(Py
Step
):
"Step-over Python code."
invoke = PythonCodeStepper.step
stepinto = False
class PyFinish(
PythonCodeStepper
):
class PyFinish(
ExecutionControlCommandBase
):
"Execute until function returns to a caller."
invoke =
PythonCodeStepper
.finish
invoke =
ExecutionControlCommandBase
.finish
class PyRun(
PythonCodeStepper
):
class PyRun(
ExecutionControlCommandBase
):
"Run the program."
invoke = PythonCodeStepper.run
class PyCont(PythonCodeStepper):
invoke = ExecutionControlCommandBase.run
invoke = PythonCodeStepper.cont
class PyCont(ExecutionControlCommandBase):
invoke = ExecutionControlCommandBase.cont
py_step = PyStep('
py
-
step
', stepinto=True)
py_next = PyNext('
py
-
next
', stepinto=False)
py_finish = PyFinish('
py
-
finish
')
py_run = PyRun('
py
-
run
')
py_cont = PyCont('
py
-
cont
')
gdb.execute('
set
breakpoint
pending
on
')
py_step.init_breakpoints()
Py_single_input = 256
Py_file_input = 257
Py_eval_input = 258
def _pointervalue(gdbval):
"""
...
...
@@ -2210,6 +2253,10 @@ def get_inferior_unicode_postfix():
class
PythonCodeExecutor
(
object
):
Py_single_input
=
256
Py_file_input
=
257
Py_eval_input
=
258
def
malloc
(
self
,
size
):
chunk
=
(
gdb
.
parse_and_eval
(
"(void *) malloc((size_t) %d)"
%
size
))
...
...
@@ -2382,7 +2429,7 @@ class PyExec(gdb.Command):
def
readcode
(
self
,
expr
):
if
expr
:
return
expr
,
Py_single_input
return
expr
,
Py
thonCodeExecutor
.
Py
_single_input
else
:
lines
=
[]
while
True
:
...
...
@@ -2412,5 +2459,19 @@ class PyExec(gdb.Command):
executor
.
evalcode
(
expr
,
input_type
,
global_dict
,
local_dict
)
py_exec
=
FixGdbCommand
(
'py-exec'
,
'-py-exec'
)
_py_exec
=
PyExec
(
"-py-exec"
,
gdb
.
COMMAND_DATA
,
gdb
.
COMPLETE_NONE
)
gdb
.
execute
(
'set breakpoint pending on'
)
if
hasattr
(
gdb
,
'GdbError'
):
# Wrap py-step and py-next in gdb defines to make them repeatable.
py_step
=
PyStep
(
'-py-step'
,
PythonInfo
())
py_next
=
PyNext
(
'-py-next'
,
PythonInfo
())
register_defines
()
py_finish
=
PyFinish
(
'py-finish'
,
PythonInfo
())
py_run
=
PyRun
(
'py-run'
,
PythonInfo
())
py_cont
=
PyCont
(
'py-cont'
,
PythonInfo
())
py_exec
=
FixGdbCommand
(
'py-exec'
,
'-py-exec'
)
_py_exec
=
PyExec
(
"-py-exec"
,
gdb
.
COMMAND_DATA
,
gdb
.
COMPLETE_NONE
)
else
:
warnings
.
warn
(
"Use gdb 7.2 or higher to use the py-exec command."
)
\ No newline at end of file
runtests.py
View file @
c5e16a3f
...
...
@@ -675,12 +675,12 @@ class CythonPyregrTestCase(CythonRunTestCase):
except
(
unittest
.
SkipTest
,
support
.
ResourceDenied
):
result
.
addSkip
(
self
,
'ok'
)
try
:
import
gdb
include_debugger
=
sys
.
version_info
[:
2
]
>
(
2
,
5
)
except
:
include_debugger
=
False
# Someone wrapped this in a:
# 'try: import gdb; ... except: include_debugger = False' thing, but don't do
# this, it doesn't work as gdb is a builtin module in GDB. The tests themselves
# are doing the skipping. If there's a problem with the tests, please file an
# issue.
include_debugger
=
sys
.
version_info
[:
2
]
>
(
2
,
5
)
def
collect_unittests
(
path
,
module_prefix
,
suite
,
selectors
):
def
file_matches
(
filename
):
...
...
setup.py
View file @
c5e16a3f
...
...
@@ -100,7 +100,8 @@ def compile_cython_modules(profile=False, compile_more=False, cython_with_refnan
"Cython.Compiler.Parsing"
,
"Cython.Compiler.Visitor"
,
"Cython.Compiler.Code"
,
"Cython.Runtime.refnanny"
]
"Cython.Runtime.refnanny"
,
"Cython.Debugger.do_repeat"
,]
if
compile_more
:
compiled_modules
.
extend
([
"Cython.Compiler.ParseTreeTransforms"
,
...
...
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