From: Mark Florisson Date: Tue, 14 Dec 2010 00:12:49 +0000 (+0100) Subject: Faster Python stepping using a watchpoint approach (f->f_lasti) X-Git-Tag: 0.14.1rc0~12^2~16 X-Git-Url: http://git.tremily.us/?a=commitdiff_plain;h=98c5444da116d049023bdac69917161e02cfa49f;p=cython.git Faster Python stepping using a watchpoint approach (f->f_lasti) --- diff --git a/Cython/Debugger/Tests/test_libcython_in_gdb.py b/Cython/Debugger/Tests/test_libcython_in_gdb.py index e8827b66..d8a09f6a 100644 --- a/Cython/Debugger/Tests/test_libcython_in_gdb.py +++ b/Cython/Debugger/Tests/test_libcython_in_gdb.py @@ -262,7 +262,7 @@ 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): diff --git a/Cython/Debugger/libcython.py b/Cython/Debugger/libcython.py index 1a1a4172..48462355 100644 --- a/Cython/Debugger/libcython.py +++ b/Cython/Debugger/libcython.py @@ -872,8 +872,18 @@ class CythonCodeStepper(CythonCommand, libpython.GenericCodeStepper): result.extend(self.cy.functions_by_cname) return result + +class CyStep(CythonCodeStepper): + "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(): + libpython.py_step.get_source_line = self.get_source_line + libpython.py_step.invoke(args, from_tty) + elif not self.is_cython_function(): if self.stepinto: command = 'step' else: @@ -884,14 +894,7 @@ class CythonCodeStepper(CythonCommand, libpython.GenericCodeStepper): self.step() -class CyStep(CythonCodeStepper): - "Step through Cython, Python or C code." - - name = 'cy step' - stepinto = True - - -class CyNext(CythonCodeStepper): +class CyNext(CyStep): "Step-over Python code." name = 'cy next' diff --git a/Cython/Debugger/libpython.py b/Cython/Debugger/libpython.py index b289d04b..8e9ec2af 100644 --- a/Cython/Debugger/libpython.py +++ b/Cython/Debugger/libpython.py @@ -1715,6 +1715,8 @@ 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()) @@ -1846,7 +1848,8 @@ class GenericCodeStepper(gdb.Command): methods: lineno(frame) - tells the current line number (only called for a relevant 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' @@ -1956,7 +1959,11 @@ class GenericCodeStepper(gdb.Command): elif get_selected_inferior().pid == 0: return result else: - return None + match = re.search('.*[Ww]arning.*', result, re.MULTILINE) + if match: + print match.group(0) + + return '' def _stackdepth(self, frame): depth = 0 @@ -1966,13 +1973,13 @@ class GenericCodeStepper(gdb.Command): return depth - def finish_executing(self, result): + def finish_executing(self, output): """ After doing some kind of code running in the inferior, print the line of source code or the result of the last executed gdb command (passed in as the `result` argument). """ - result = self.stopped(result) + result = self.stopped(output) if result: print result.strip() # check whether the program was killed by a signal, it should still @@ -1982,7 +1989,13 @@ class GenericCodeStepper(gdb.Command): except RuntimeError: pass else: - print self.get_source_line(frame) + line = self.get_source_line(frame) + + if line is None: + print output + else: + print result + print line else: frame = gdb.selected_frame() output = None @@ -2024,33 +2037,53 @@ class GenericCodeStepper(gdb.Command): break hitbp = re.search(r'Breakpoint (\d+)', result) - is_relavant = self.is_relevant_function(frame) - if hitbp or is_relavant or self.stopped(result): + is_relevant = self.is_relevant_function(frame) + if hitbp or is_relevant or self.stopped(result): break self.finish_executing(result) - def _step(self): + def step(self, 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 self.stepinto: self.enable_breakpoints() beginframe = gdb.selected_frame() - beginline = self.lineno(beginframe) - if not self.stepinto: - depth = self._stackdepth(beginframe) + + if self.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.lineno() as it may raise for + # irrelevant frames. + beginline = self.lineno(beginframe) + + if not self.stepinto: + depth = self._stackdepth(beginframe) newframe = beginframe - result = '' - + while True: if self.is_relevant_function(newframe): - result = gdb.execute('next', to_string=True) + result = gdb.execute(stepover_command, to_string=True) else: - result = self._finish() + self.finish() if self.stopped(result): break @@ -2065,7 +2098,8 @@ 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 (bp is None or + (is_relevant_function and bp == m.group(1))): # 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 @@ -2083,17 +2117,17 @@ class GenericCodeStepper(gdb.Command): if is_relevant_function: break else: - if self.lineno(newframe) > beginline: + # newframe equals beginframe, check for a difference in the + # line number + lineno = self.lineno(newframe) + if lineno and lineno != beginline: break if self.stepinto: self.disable_breakpoints() - return result + self.finish_executing(result) - def step(self, *args): - return self.finish_executing(self._step()) - def run(self, *args): self.finish_executing(gdb.execute('run', to_string=True)) @@ -2108,7 +2142,7 @@ class PythonCodeStepper(GenericCodeStepper): if pyframe: return pyframe else: - raise gdb.GdbError( + raise gdb.RuntimeError( "Unable to find the Python frame, run your code with a debug " "build (configure with --with-pydebug or compile with -g).") @@ -2133,7 +2167,32 @@ class PythonCodeStepper(GenericCodeStepper): class PyStep(PythonCodeStepper): "Step through Python code." - invoke = PythonCodeStepper.step + def __init__(self, *args, **kwargs): + super(PyStep, self).__init__(*args, **kwargs) + self.lastframe = None + + def invoke(self, args, from_tty): + # Set a watchpoint for a frame once as deleting it will make py-step + # unrepeatable. + # See http://sourceware.org/bugzilla/show_bug.cgi?id=12216 + # When the watchpoint goes out of scope it will automatically + # disappear. + + newframe = gdb.selected_frame() + framewrapper = Frame(newframe) + if newframe != self.lastframe and framewrapper.is_evalframeex(): + self.lastframe = newframe + output = gdb.execute('watch f->f_lasti', to_string=True) + + self.step(stepover_command='py-finish') + + # match = re.search(r'[Ww]atchpoint (\d+):', output) + # if match: + # watchpoint = match.group(1) + # gdb.execute('delete %s' % watchpoint) + + def invoke(self, args, from_tty): + self.step() class PyNext(PythonCodeStepper): "Step-over Python code."