mirror of https://github.com/python/cpython
410 lines
16 KiB
ReStructuredText
410 lines
16 KiB
ReStructuredText
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.. _debugger:
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*******************
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The Python Debugger
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*******************
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.. module:: pdb
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:synopsis: The Python debugger for interactive interpreters.
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.. index:: single: debugging
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The module :mod:`pdb` defines an interactive source code debugger for Python
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programs. It supports setting (conditional) breakpoints and single stepping at
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the source line level, inspection of stack frames, source code listing, and
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evaluation of arbitrary Python code in the context of any stack frame. It also
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supports post-mortem debugging and can be called under program control.
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.. index::
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single: Pdb (class in pdb)
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module: bdb
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module: cmd
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The debugger is extensible --- it is actually defined as the class :class:`Pdb`.
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This is currently undocumented but easily understood by reading the source. The
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extension interface uses the modules :mod:`bdb` (undocumented) and :mod:`cmd`.
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The debugger's prompt is ``(Pdb)``. Typical usage to run a program under control
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of the debugger is::
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>>> import pdb
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>>> import mymodule
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>>> pdb.run('mymodule.test()')
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> <string>(0)?()
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(Pdb) continue
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> <string>(1)?()
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(Pdb) continue
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NameError: 'spam'
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> <string>(1)?()
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(Pdb)
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:file:`pdb.py` can also be invoked as a script to debug other scripts. For
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example::
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python -m pdb myscript.py
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When invoked as a script, pdb will automatically enter post-mortem debugging if
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the program being debugged exits abnormally. After post-mortem debugging (or
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after normal exit of the program), pdb will restart the program. Automatic
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restarting preserves pdb's state (such as breakpoints) and in most cases is more
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useful than quitting the debugger upon program's exit.
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.. versionadded:: 2.4
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Restarting post-mortem behavior added.
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Typical usage to inspect a crashed program is::
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>>> import pdb
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>>> import mymodule
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>>> mymodule.test()
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Traceback (most recent call last):
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File "<stdin>", line 1, in ?
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File "./mymodule.py", line 4, in test
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test2()
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File "./mymodule.py", line 3, in test2
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print spam
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NameError: spam
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>>> pdb.pm()
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> ./mymodule.py(3)test2()
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-> print spam
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(Pdb)
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The module defines the following functions; each enters the debugger in a
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slightly different way:
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.. function:: run(statement[, globals[, locals]])
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Execute the *statement* (given as a string) under debugger control. The
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debugger prompt appears before any code is executed; you can set breakpoints and
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type ``continue``, or you can step through the statement using ``step`` or
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``next`` (all these commands are explained below). The optional *globals* and
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*locals* arguments specify the environment in which the code is executed; by
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default the dictionary of the module :mod:`__main__` is used. (See the
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explanation of the built-in :func:`exec` or :func:`eval` functions.)
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.. function:: runeval(expression[, globals[, locals]])
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Evaluate the *expression* (given as a string) under debugger control. When
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:func:`runeval` returns, it returns the value of the expression. Otherwise this
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function is similar to :func:`run`.
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.. function:: runcall(function[, argument, ...])
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Call the *function* (a function or method object, not a string) with the given
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arguments. When :func:`runcall` returns, it returns whatever the function call
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returned. The debugger prompt appears as soon as the function is entered.
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.. function:: set_trace()
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Enter the debugger at the calling stack frame. This is useful to hard-code a
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breakpoint at a given point in a program, even if the code is not otherwise
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being debugged (e.g. when an assertion fails).
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.. function:: post_mortem(traceback)
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Enter post-mortem debugging of the given *traceback* object.
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.. function:: pm()
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Enter post-mortem debugging of the traceback found in ``sys.last_traceback``.
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.. _debugger-commands:
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Debugger Commands
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=================
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The debugger recognizes the following commands. Most commands can be
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abbreviated to one or two letters; e.g. ``h(elp)`` means that either ``h`` or
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``help`` can be used to enter the help command (but not ``he`` or ``hel``, nor
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``H`` or ``Help`` or ``HELP``). Arguments to commands must be separated by
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whitespace (spaces or tabs). Optional arguments are enclosed in square brackets
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(``[]``) in the command syntax; the square brackets must not be typed.
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Alternatives in the command syntax are separated by a vertical bar (``|``).
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Entering a blank line repeats the last command entered. Exception: if the last
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command was a ``list`` command, the next 11 lines are listed.
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Commands that the debugger doesn't recognize are assumed to be Python statements
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and are executed in the context of the program being debugged. Python
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statements can also be prefixed with an exclamation point (``!``). This is a
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powerful way to inspect the program being debugged; it is even possible to
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change a variable or call a function. When an exception occurs in such a
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statement, the exception name is printed but the debugger's state is not
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changed.
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Multiple commands may be entered on a single line, separated by ``;;``. (A
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single ``;`` is not used as it is the separator for multiple commands in a line
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that is passed to the Python parser.) No intelligence is applied to separating
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the commands; the input is split at the first ``;;`` pair, even if it is in the
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middle of a quoted string.
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The debugger supports aliases. Aliases can have parameters which allows one a
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certain level of adaptability to the context under examination.
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.. index::
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pair: .pdbrc; file
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triple: debugger; configuration; file
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If a file :file:`.pdbrc` exists in the user's home directory or in the current
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directory, it is read in and executed as if it had been typed at the debugger
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prompt. This is particularly useful for aliases. If both files exist, the one
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in the home directory is read first and aliases defined there can be overridden
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by the local file.
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h(elp) [*command*]
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Without argument, print the list of available commands. With a *command* as
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argument, print help about that command. ``help pdb`` displays the full
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documentation file; if the environment variable :envvar:`PAGER` is defined, the
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file is piped through that command instead. Since the *command* argument must
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be an identifier, ``help exec`` must be entered to get help on the ``!``
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command.
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w(here)
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Print a stack trace, with the most recent frame at the bottom. An arrow
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indicates the current frame, which determines the context of most commands.
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d(own)
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Move the current frame one level down in the stack trace (to a newer frame).
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u(p)
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Move the current frame one level up in the stack trace (to an older frame).
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b(reak) [[*filename*:]*lineno*``|``*function*[, *condition*]]
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With a *lineno* argument, set a break there in the current file. With a
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*function* argument, set a break at the first executable statement within that
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function. The line number may be prefixed with a filename and a colon, to
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specify a breakpoint in another file (probably one that hasn't been loaded yet).
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The file is searched on ``sys.path``. Note that each breakpoint is assigned a
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number to which all the other breakpoint commands refer.
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If a second argument is present, it is an expression which must evaluate to true
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before the breakpoint is honored.
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Without argument, list all breaks, including for each breakpoint, the number of
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times that breakpoint has been hit, the current ignore count, and the associated
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condition if any.
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tbreak [[*filename*:]*lineno*``|``*function*[, *condition*]]
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Temporary breakpoint, which is removed automatically when it is first hit. The
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arguments are the same as break.
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cl(ear) [*bpnumber* [*bpnumber ...*]]
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With a space separated list of breakpoint numbers, clear those breakpoints.
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Without argument, clear all breaks (but first ask confirmation).
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disable [*bpnumber* [*bpnumber ...*]]
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Disables the breakpoints given as a space separated list of breakpoint numbers.
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Disabling a breakpoint means it cannot cause the program to stop execution, but
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unlike clearing a breakpoint, it remains in the list of breakpoints and can be
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(re-)enabled.
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enable [*bpnumber* [*bpnumber ...*]]
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Enables the breakpoints specified.
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ignore *bpnumber* [*count*]
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Sets the ignore count for the given breakpoint number. If count is omitted, the
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ignore count is set to 0. A breakpoint becomes active when the ignore count is
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zero. When non-zero, the count is decremented each time the breakpoint is
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reached and the breakpoint is not disabled and any associated condition
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evaluates to true.
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condition *bpnumber* [*condition*]
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Condition is an expression which must evaluate to true before the breakpoint is
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honored. If condition is absent, any existing condition is removed; i.e., the
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breakpoint is made unconditional.
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commands [*bpnumber*]
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Specify a list of commands for breakpoint number *bpnumber*. The commands
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themselves appear on the following lines. Type a line containing just 'end' to
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terminate the commands. An example::
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(Pdb) commands 1
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(com) print some_variable
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(com) end
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(Pdb)
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To remove all commands from a breakpoint, type commands and follow it
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immediately with end; that is, give no commands.
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With no *bpnumber* argument, commands refers to the last breakpoint set.
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You can use breakpoint commands to start your program up again. Simply use the
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continue command, or step, or any other command that resumes execution.
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Specifying any command resuming execution (currently continue, step, next,
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return, jump, quit and their abbreviations) terminates the command list (as if
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that command was immediately followed by end). This is because any time you
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resume execution (even with a simple next or step), you may encounter· another
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breakpoint--which could have its own command list, leading to ambiguities about
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which list to execute.
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If you use the 'silent' command in the command list, the usual message about
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stopping at a breakpoint is not printed. This may be desirable for breakpoints
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that are to print a specific message and then continue. If none of the other
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commands print anything, you see no sign that the breakpoint was reached.
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.. versionadded:: 2.5
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s(tep)
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Execute the current line, stop at the first possible occasion (either in a
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function that is called or on the next line in the current function).
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n(ext)
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Continue execution until the next line in the current function is reached or it
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returns. (The difference between ``next`` and ``step`` is that ``step`` stops
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inside a called function, while ``next`` executes called functions at (nearly)
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full speed, only stopping at the next line in the current function.)
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r(eturn)
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Continue execution until the current function returns.
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c(ont(inue))
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Continue execution, only stop when a breakpoint is encountered.
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j(ump) *lineno*
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Set the next line that will be executed. Only available in the bottom-most
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frame. This lets you jump back and execute code again, or jump forward to skip
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code that you don't want to run.
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It should be noted that not all jumps are allowed --- for instance it is not
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possible to jump into the middle of a :keyword:`for` loop or out of a
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:keyword:`finally` clause.
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l(ist) [*first*[, *last*]]
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List source code for the current file. Without arguments, list 11 lines around
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the current line or continue the previous listing. With one argument, list 11
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lines around at that line. With two arguments, list the given range; if the
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second argument is less than the first, it is interpreted as a count.
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a(rgs)
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Print the argument list of the current function.
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p *expression*
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Evaluate the *expression* in the current context and print its value.
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.. note::
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``print`` can also be used, but is not a debugger command --- this executes the
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Python :keyword:`print` statement.
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pp *expression*
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Like the ``p`` command, except the value of the expression is pretty-printed
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using the :mod:`pprint` module.
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alias [*name* [command]]
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Creates an alias called *name* that executes *command*. The command must *not*
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be enclosed in quotes. Replaceable parameters can be indicated by ``%1``,
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``%2``, and so on, while ``%*`` is replaced by all the parameters. If no
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command is given, the current alias for *name* is shown. If no arguments are
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given, all aliases are listed.
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Aliases may be nested and can contain anything that can be legally typed at the
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pdb prompt. Note that internal pdb commands *can* be overridden by aliases.
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Such a command is then hidden until the alias is removed. Aliasing is
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recursively applied to the first word of the command line; all other words in
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the line are left alone.
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As an example, here are two useful aliases (especially when placed in the
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:file:`.pdbrc` file)::
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#Print instance variables (usage "pi classInst")
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alias pi for k in %1.__dict__.keys(): print "%1.",k,"=",%1.__dict__[k]
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#Print instance variables in self
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alias ps pi self
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unalias *name*
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Deletes the specified alias.
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[!]*statement*
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Execute the (one-line) *statement* in the context of the current stack frame.
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The exclamation point can be omitted unless the first word of the statement
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resembles a debugger command. To set a global variable, you can prefix the
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assignment command with a ``global`` command on the same line, e.g.::
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(Pdb) global list_options; list_options = ['-l']
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(Pdb)
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run [*args* ...]
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Restart the debugged python program. If an argument is supplied, it is splitted
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with "shlex" and the result is used as the new sys.argv. History, breakpoints,
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actions and debugger options are preserved. "restart" is an alias for "run".
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.. versionadded:: 2.6
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q(uit)
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Quit from the debugger. The program being executed is aborted.
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.. _debugger-hooks:
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How It Works
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============
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Some changes were made to the interpreter:
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* ``sys.settrace(func)`` sets the global trace function
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* there can also a local trace function (see later)
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Trace functions have three arguments: *frame*, *event*, and *arg*. *frame* is
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the current stack frame. *event* is a string: ``'call'``, ``'line'``,
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``'return'``, ``'exception'``, ``'c_call'``, ``'c_return'``, or
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``'c_exception'``. *arg* depends on the event type.
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The global trace function is invoked (with *event* set to ``'call'``) whenever a
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new local scope is entered; it should return a reference to the local trace
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function to be used that scope, or ``None`` if the scope shouldn't be traced.
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The local trace function should return a reference to itself (or to another
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function for further tracing in that scope), or ``None`` to turn off tracing in
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that scope.
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Instance methods are accepted (and very useful!) as trace functions.
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The events have the following meaning:
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``'call'``
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A function is called (or some other code block entered). The global trace
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function is called; *arg* is ``None``; the return value specifies the local
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trace function.
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``'line'``
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The interpreter is about to execute a new line of code (sometimes multiple line
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events on one line exist). The local trace function is called; *arg* is
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``None``; the return value specifies the new local trace function.
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``'return'``
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A function (or other code block) is about to return. The local trace function
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is called; *arg* is the value that will be returned. The trace function's
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return value is ignored.
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``'exception'``
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An exception has occurred. The local trace function is called; *arg* is a
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triple ``(exception, value, traceback)``; the return value specifies the new
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local trace function.
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``'c_call'``
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A C function is about to be called. This may be an extension function or a
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builtin. *arg* is the C function object.
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``'c_return'``
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A C function has returned. *arg* is ``None``.
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``'c_exception'``
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A C function has thrown an exception. *arg* is ``None``.
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Note that as an exception is propagated down the chain of callers, an
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``'exception'`` event is generated at each level.
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For more information on code and frame objects, refer to :ref:`types`.
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