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v0.5.1
https://github.com/python/cpython
09 December 2020, 11:06:31 UTC
Revision 9f1e5f1b7f074e026843a5d70834233a95a6bf9d authored by Mario Corchero on 06 January 2018, 07:53:05 UTC, committed by Nick Coghlan on 06 January 2018, 07:53:05 UTC 
bpo-32206: Pdb can now run modules (GH-4752)
 
Add a new argument "-m" to the pdb module to allow
users to run `python -m pdb -m my_module_name`.

This relies on private APIs in the runpy module to work,
but we can get away with that since they're both part of
the standard library and can be updated together if
the runpy internals get refactored.
1 parent 735ae8d
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Tip revision: 9f1e5f1b7f074e026843a5d70834233a95a6bf9d authored by Mario Corchero on 06 January 2018, 07:53:05 UTC
bpo-32206: Pdb can now run modules (GH-4752)
Tip revision: 9f1e5f1
gdbinit 
# If you use the GNU debugger gdb to debug the Python C runtime, you
# might find some of the following commands useful.  Copy this to your
# ~/.gdbinit file and it'll get loaded into gdb automatically when you
# start it up.  Then, at the gdb prompt you can do things like:
#
#    (gdb) pyo apyobjectptr
#    <module 'foobar' (built-in)>
#    refcounts: 1
#    address    : 84a7a2c
#    $1 = void
#    (gdb)
#
# NOTE: If you have gdb 7 or later, it supports debugging of Python directly
# with embedded macros that you may find superior to what is in here.
# See Tools/gdb/libpython.py and http://bugs.python.org/issue8032.

# Prints a representation of the object to stderr, along with the
# number of reference counts it current has and the hex address the
# object is allocated at.  The argument must be a PyObject*
define pyo
    # side effect of calling _PyObject_Dump is to dump the object's
    # info - assigning just prevents gdb from printing the
    # NULL return value
    set $_unused_void = _PyObject_Dump($arg0)
end

# Prints a representation of the object to stderr, along with the
# number of reference counts it current has and the hex address the
# object is allocated at.  The argument must be a PyGC_Head*
define pyg
    print _PyGC_Dump($arg0)
end

# print the local variables of the current frame
define pylocals
    set $_i = 0
    while $_i < f->f_code->co_nlocals
	if f->f_localsplus + $_i != 0
	    set $_names = co->co_varnames
	    set $_name = _PyUnicode_AsString(PyTuple_GetItem($_names, $_i))
	    printf "%s:\n", $_name
            pyo f->f_localsplus[$_i]
	end
        set $_i = $_i + 1
    end
end

# A rewrite of the Python interpreter's line number calculator in GDB's
# command language
define lineno
    set $__continue = 1
    set $__co = f->f_code
    set $__lasti = f->f_lasti
    set $__sz = ((PyVarObject *)$__co->co_lnotab)->ob_size/2
    set $__p = (unsigned char *)((PyBytesObject *)$__co->co_lnotab)->ob_sval
    set $__li = $__co->co_firstlineno
    set $__ad = 0
    while ($__sz-1 >= 0 && $__continue)
      set $__sz = $__sz - 1
      set $__ad = $__ad + *$__p
      set $__p = $__p + 1
      if ($__ad > $__lasti)
	set $__continue = 0
      else
        set $__li = $__li + *$__p
        set $__p = $__p + 1
      end
    end
    printf "%d", $__li
end

# print the current frame - verbose
define pyframev
    pyframe
    pylocals
end

define pyframe
    set $__fn = _PyUnicode_AsString(co->co_filename)
    set $__n = _PyUnicode_AsString(co->co_name)
    printf "%s (", $__fn
    lineno
    printf "): %s\n", $__n
### Uncomment these lines when using from within Emacs/XEmacs so it will
### automatically track/display the current Python source line
#    printf "%c%c%s:", 032, 032, $__fn
#    lineno
#    printf ":1\n"
end

### Use these at your own risk.  It appears that a bug in gdb causes it
### to crash in certain circumstances.

#define up
#    up-silently 1
#    printframe
#end

#define down
#    down-silently 1
#    printframe
#end

define printframe
    if $pc > PyEval_EvalFrameEx && $pc < PyEval_EvalCodeEx
	pyframe
    else
        frame
    end
end

# Here's a somewhat fragile way to print the entire Python stack from gdb.
# It's fragile because the tests for the value of $pc depend on the layout
# of specific functions in the C source code.

# Explanation of while and if tests: We want to pop up the stack until we
# land in Py_Main (this is probably an incorrect assumption in an embedded
# interpreter, but the test can be extended by an interested party).  If
# Py_Main <= $pc <= Py_GetArgcArv is true, $pc is in Py_Main(), so the while
# tests succeeds as long as it's not true.  In a similar fashion the if
# statement tests to see if we are in PyEval_EvalFrameEx().

# Note: The name of the main interpreter function and the function which
# follow it has changed over time.  This version of pystack works with this
# version of Python.  If you try using it with older or newer versions of
# the interpreter you may will have to change the functions you compare with
# $pc.

# print the entire Python call stack
define pystack
    while $pc < Py_Main || $pc > Py_GetArgcArgv
        if $pc > PyEval_EvalFrameEx && $pc < PyEval_EvalCodeEx
	    pyframe
        end
        up-silently 1
    end
    select-frame 0
end

# print the entire Python call stack - verbose mode
define pystackv
    while $pc < Py_Main || $pc > Py_GetArgcArgv
        if $pc > PyEval_EvalFrameEx && $pc < PyEval_EvalCodeEx
	    pyframev
        end
        up-silently 1
    end
    select-frame 0
end

# generally useful macro to print a Unicode string
def pu
  set $uni = $arg0
  set $i = 0
  while (*$uni && $i++<100)
    if (*$uni < 0x80)
      print *(char*)$uni++
    else
      print /x *(short*)$uni++
    end
  end
end
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