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author | Armin Rigo <arigo@tunes.org> | 2006-02-08 12:53:56 (GMT) |
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committer | Armin Rigo <arigo@tunes.org> | 2006-02-08 12:53:56 (GMT) |
commit | a871ef2b3e924f058ec1b0aed7d4c83a546414b7 (patch) | |
tree | 0f214529cc5f93d06b28e56569d36c1d1ee80996 /Modules/_lsprof.c | |
parent | 5eefdca65477bd8d3a408c380323d4af3228a667 (diff) | |
download | cpython-a871ef2b3e924f058ec1b0aed7d4c83a546414b7.zip cpython-a871ef2b3e924f058ec1b0aed7d4c83a546414b7.tar.gz cpython-a871ef2b3e924f058ec1b0aed7d4c83a546414b7.tar.bz2 |
Added the cProfile module.
Based on lsprof (patch #1212837) by Brett Rosen and Ted Czotter.
With further editing by Michael Hudson and myself.
History in svn repo: http://codespeak.net/svn/user/arigo/hack/misc/lsprof
* Module/_lsprof.c is the internal C module, Lib/cProfile.py a wrapper.
* pstats.py updated to display cProfile's caller/callee timings if available.
* setup.py and NEWS updated.
* documentation updates in the profiler section:
- explain the differences between the three profilers that we have now
- profile and cProfile can use a unified documentation, like (c)Pickle
- mention that hotshot is "for specialized usage" now
- removed references to the "old profiler" that no longer exists
* test updates:
- extended test_profile to cover delicate cases like recursion
- added tests for the caller/callee displays
- added test_cProfile, performing the same tests for cProfile
* TO-DO:
- cProfile gives a nicer name to built-in, particularly built-in methods,
which could be backported to profile.
- not tested on Windows recently!
Diffstat (limited to 'Modules/_lsprof.c')
-rw-r--r-- | Modules/_lsprof.c | 867 |
1 files changed, 867 insertions, 0 deletions
diff --git a/Modules/_lsprof.c b/Modules/_lsprof.c new file mode 100644 index 0000000..81d88ea --- /dev/null +++ b/Modules/_lsprof.c @@ -0,0 +1,867 @@ +#include "Python.h" +#include "compile.h" +#include "frameobject.h" +#include "structseq.h" +#include "rotatingtree.h" + +#if !defined(HAVE_LONG_LONG) +#error "This module requires long longs!" +#endif + +/*** Selection of a high-precision timer ***/ + +#ifdef MS_WINDOWS + +#include <windows.h> + +static PY_LONG_LONG +hpTimer(void) +{ + LARGE_INTEGER li; + QueryPerformanceCounter(&li); + return li.QuadPart; +} + +static double +hpTimerUnit(void) +{ + LARGE_INTEGER li; + if (QueryPerformanceFrequency(&li)) + return 1000.0 / li.QuadPart; + else + return 0.001; /* unlikely */ +} + +#else /* !MS_WINDOWS */ + +#ifndef HAVE_GETTIMEOFDAY +#error "This module requires gettimeofday() on non-Windows platforms!" +#endif + +#if (defined(PYOS_OS2) && defined(PYCC_GCC)) +#include <sys/time.h> +#else +#include <sys/resource.h> +#include <sys/times.h> +#endif + +static PY_LONG_LONG +hpTimer(void) +{ + struct timeval tv; + PY_LONG_LONG ret; +#ifdef GETTIMEOFDAY_NO_TZ + gettimeofday(&tv); +#else + gettimeofday(&tv, (struct timezone *)NULL); +#endif + ret = tv.tv_sec; + ret = ret * 1000000 + tv.tv_usec; + return ret; +} + +static double +hpTimerUnit(void) +{ + return 0.001; +} + +#endif /* MS_WINDOWS */ + +/************************************************************/ +/* Written by Brett Rosen and Ted Czotter */ + +struct _ProfilerEntry; + +/* represents a function called from another function */ +typedef struct _ProfilerSubEntry { + rotating_node_t header; + PY_LONG_LONG tt; + PY_LONG_LONG it; + long callcount; + long recursivecallcount; + long recursionLevel; +} ProfilerSubEntry; + +/* represents a function or user defined block */ +typedef struct _ProfilerEntry { + rotating_node_t header; + PyObject *userObj; /* PyCodeObject, or a descriptive str for builtins */ + PY_LONG_LONG tt; /* total time in this entry */ + PY_LONG_LONG it; /* inline time in this entry (not in subcalls) */ + long callcount; /* how many times this was called */ + long recursivecallcount; /* how many times called recursively */ + long recursionLevel; + rotating_node_t *calls; +} ProfilerEntry; + +typedef struct _ProfilerContext { + PY_LONG_LONG t0; + PY_LONG_LONG subt; + struct _ProfilerContext *previous; + ProfilerEntry *ctxEntry; +} ProfilerContext; + +typedef struct { + PyObject_HEAD + rotating_node_t *profilerEntries; + ProfilerContext *currentProfilerContext; + ProfilerContext *freelistProfilerContext; + int flags; + PyObject *externalTimer; + double externalTimerUnit; +} ProfilerObject; + +#define POF_ENABLED 0x001 +#define POF_SUBCALLS 0x002 +#define POF_BUILTINS 0x004 +#define POF_NOMEMORY 0x100 + +staticforward PyTypeObject PyProfiler_Type; + +#define PyProfiler_Check(op) PyObject_TypeCheck(op, &PyProfiler_Type) +#define PyProfiler_CheckExact(op) ((op)->ob_type == &PyProfiler_Type) + +/*** External Timers ***/ + +#define DOUBLE_TIMER_PRECISION 4294967296.0 +static PyObject *empty_tuple; + +static PY_LONG_LONG CallExternalTimer(ProfilerObject *pObj) +{ + PY_LONG_LONG result; + PyObject *o = PyObject_Call(pObj->externalTimer, empty_tuple, NULL); + if (o == NULL) { + PyErr_WriteUnraisable(pObj->externalTimer); + return 0; + } + if (pObj->externalTimerUnit > 0.0) { + /* interpret the result as an integer that will be scaled + in profiler_getstats() */ + result = PyLong_AsLongLong(o); + } + else { + /* interpret the result as a double measured in seconds. + As the profiler works with PY_LONG_LONG internally + we convert it to a large integer */ + double val = PyFloat_AsDouble(o); + /* error handling delayed to the code below */ + result = (PY_LONG_LONG) (val * DOUBLE_TIMER_PRECISION); + } + Py_DECREF(o); + if (PyErr_Occurred()) { + PyErr_WriteUnraisable((PyObject *) pObj); + return 0; + } + return result; +} + +#define CALL_TIMER(pObj) ((pObj)->externalTimer ? \ + CallExternalTimer(pObj) : \ + hpTimer()) + +/*** ProfilerObject ***/ + +static PyObject * +normalizeUserObj(PyObject *obj) +{ + PyCFunctionObject *fn; + if (!PyCFunction_Check(obj)) { + Py_INCREF(obj); + return obj; + } + /* Replace built-in function objects with a descriptive string + because of built-in methods -- keeping a reference to + __self__ is probably not a good idea. */ + fn = (PyCFunctionObject *)obj; + + if (fn->m_self == NULL) { + /* built-in function: look up the module name */ + PyObject *mod = fn->m_module; + char *modname; + if (mod && PyString_Check(mod)) { + modname = PyString_AS_STRING(mod); + } + else if (mod && PyModule_Check(mod)) { + modname = PyModule_GetName(mod); + if (modname == NULL) { + PyErr_Clear(); + modname = "__builtin__"; + } + } + else { + modname = "__builtin__"; + } + if (strcmp(modname, "__builtin__") != 0) + return PyString_FromFormat("<%s.%s>", + modname, + fn->m_ml->ml_name); + else + return PyString_FromFormat("<%s>", + fn->m_ml->ml_name); + } + else { + /* built-in method: try to return + repr(getattr(type(__self__), __name__)) + */ + PyObject *self = fn->m_self; + PyObject *name = PyString_FromString(fn->m_ml->ml_name); + if (name != NULL) { + PyObject *mo = _PyType_Lookup(self->ob_type, name); + Py_XINCREF(mo); + Py_DECREF(name); + if (mo != NULL) { + PyObject *res = PyObject_Repr(mo); + Py_DECREF(mo); + if (res != NULL) + return res; + } + } + PyErr_Clear(); + return PyString_FromFormat("<built-in method %s>", + fn->m_ml->ml_name); + } +} + +static ProfilerEntry* +newProfilerEntry(ProfilerObject *pObj, void *key, PyObject *userObj) +{ + ProfilerEntry *self; + self = (ProfilerEntry*) malloc(sizeof(ProfilerEntry)); + if (self == NULL) { + pObj->flags |= POF_NOMEMORY; + return NULL; + } + userObj = normalizeUserObj(userObj); + if (userObj == NULL) { + PyErr_Clear(); + free(self); + pObj->flags |= POF_NOMEMORY; + return NULL; + } + self->header.key = key; + self->userObj = userObj; + self->tt = 0; + self->it = 0; + self->callcount = 0; + self->recursivecallcount = 0; + self->recursionLevel = 0; + self->calls = EMPTY_ROTATING_TREE; + RotatingTree_Add(&pObj->profilerEntries, &self->header); + return self; +} + +static ProfilerEntry* +getEntry(ProfilerObject *pObj, void *key) +{ + return (ProfilerEntry*) RotatingTree_Get(&pObj->profilerEntries, key); +} + +static ProfilerSubEntry * +getSubEntry(ProfilerObject *pObj, ProfilerEntry *caller, ProfilerEntry* entry) +{ + return (ProfilerSubEntry*) RotatingTree_Get(&caller->calls, + (void *)entry); +} + +static ProfilerSubEntry * +newSubEntry(ProfilerObject *pObj, ProfilerEntry *caller, ProfilerEntry* entry) +{ + ProfilerSubEntry *self; + self = (ProfilerSubEntry*) malloc(sizeof(ProfilerSubEntry)); + if (self == NULL) { + pObj->flags |= POF_NOMEMORY; + return NULL; + } + self->header.key = (void *)entry; + self->tt = 0; + self->it = 0; + self->callcount = 0; + self->recursivecallcount = 0; + self->recursionLevel = 0; + RotatingTree_Add(&caller->calls, &self->header); + return self; +} + +static int freeSubEntry(rotating_node_t *header, void *arg) +{ + ProfilerSubEntry *subentry = (ProfilerSubEntry*) header; + free(subentry); + return 0; +} + +static int freeEntry(rotating_node_t *header, void *arg) +{ + ProfilerEntry *entry = (ProfilerEntry*) header; + RotatingTree_Enum(entry->calls, freeSubEntry, NULL); + Py_DECREF(entry->userObj); + free(entry); + return 0; +} + +static void clearEntries(ProfilerObject *pObj) +{ + RotatingTree_Enum(pObj->profilerEntries, freeEntry, NULL); + pObj->profilerEntries = EMPTY_ROTATING_TREE; + /* release the memory hold by the free list of ProfilerContexts */ + while (pObj->freelistProfilerContext) { + ProfilerContext *c = pObj->freelistProfilerContext; + pObj->freelistProfilerContext = c->previous; + free(c); + } +} + +static void +initContext(ProfilerObject *pObj, ProfilerContext *self, ProfilerEntry *entry) +{ + self->ctxEntry = entry; + self->subt = 0; + self->previous = pObj->currentProfilerContext; + pObj->currentProfilerContext = self; + ++entry->recursionLevel; + if ((pObj->flags & POF_SUBCALLS) && self->previous) { + /* find or create an entry for me in my caller's entry */ + ProfilerEntry *caller = self->previous->ctxEntry; + ProfilerSubEntry *subentry = getSubEntry(pObj, caller, entry); + if (subentry == NULL) + subentry = newSubEntry(pObj, caller, entry); + if (subentry) + ++subentry->recursionLevel; + } + self->t0 = CALL_TIMER(pObj); +} + +static void +Stop(ProfilerObject *pObj, ProfilerContext *self, ProfilerEntry *entry) +{ + PY_LONG_LONG tt = CALL_TIMER(pObj) - self->t0; + PY_LONG_LONG it = tt - self->subt; + if (self->previous) + self->previous->subt += tt; + pObj->currentProfilerContext = self->previous; + if (--entry->recursionLevel == 0) + entry->tt += tt; + else + ++entry->recursivecallcount; + entry->it += it; + entry->callcount++; + if ((pObj->flags & POF_SUBCALLS) && self->previous) { + /* find or create an entry for me in my caller's entry */ + ProfilerEntry *caller = self->previous->ctxEntry; + ProfilerSubEntry *subentry = getSubEntry(pObj, caller, entry); + if (subentry) { + if (--subentry->recursionLevel == 0) + subentry->tt += tt; + else + ++subentry->recursivecallcount; + subentry->it += it; + ++subentry->callcount; + } + } +} + +static void +ptrace_enter_call(PyObject *self, void *key, PyObject *userObj) +{ + /* entering a call to the function identified by 'key' + (which can be a PyCodeObject or a PyMethodDef pointer) */ + ProfilerObject *pObj = (ProfilerObject*)self; + ProfilerEntry *profEntry; + ProfilerContext *pContext; + + profEntry = getEntry(pObj, key); + if (profEntry == NULL) { + profEntry = newProfilerEntry(pObj, key, userObj); + if (profEntry == NULL) + return; + } + /* grab a ProfilerContext out of the free list */ + pContext = pObj->freelistProfilerContext; + if (pContext) { + pObj->freelistProfilerContext = pContext->previous; + } + else { + /* free list exhausted, allocate a new one */ + pContext = (ProfilerContext*) + malloc(sizeof(ProfilerContext)); + if (pContext == NULL) { + pObj->flags |= POF_NOMEMORY; + return; + } + } + initContext(pObj, pContext, profEntry); +} + +static void +ptrace_leave_call(PyObject *self, void *key) +{ + /* leaving a call to the function identified by 'key' */ + ProfilerObject *pObj = (ProfilerObject*)self; + ProfilerEntry *profEntry; + ProfilerContext *pContext; + + pContext = pObj->currentProfilerContext; + if (pContext == NULL) + return; + profEntry = getEntry(pObj, key); + if (profEntry) { + Stop(pObj, pContext, profEntry); + } + else { + pObj->currentProfilerContext = pContext->previous; + } + /* put pContext into the free list */ + pContext->previous = pObj->freelistProfilerContext; + pObj->freelistProfilerContext = pContext; +} + +static int +profiler_callback(PyObject *self, PyFrameObject *frame, int what, + PyObject *arg) +{ + switch (what) { + + /* the 'frame' of a called function is about to start its execution */ + case PyTrace_CALL: + ptrace_enter_call(self, (void *)frame->f_code, + (PyObject *)frame->f_code); + break; + + /* the 'frame' of a called function is about to finish + (either normally or with an exception) */ + case PyTrace_RETURN: + ptrace_leave_call(self, (void *)frame->f_code); + break; + + /* case PyTrace_EXCEPTION: + If the exception results in the function exiting, a + PyTrace_RETURN event will be generated, so we don't need to + handle it. */ + +#ifdef PyTrace_C_CALL /* not defined in Python <= 2.3 */ + /* the Python function 'frame' is issuing a call to the built-in + function 'arg' */ + case PyTrace_C_CALL: + if ((((ProfilerObject *)self)->flags & POF_BUILTINS) + && PyCFunction_Check(arg)) { + ptrace_enter_call(self, + ((PyCFunctionObject *)arg)->m_ml, + arg); + } + break; + + /* the call to the built-in function 'arg' is returning into its + caller 'frame' */ + case PyTrace_C_RETURN: /* ...normally */ + case PyTrace_C_EXCEPTION: /* ...with an exception set */ + if ((((ProfilerObject *)self)->flags & POF_BUILTINS) + && PyCFunction_Check(arg)) { + ptrace_leave_call(self, + ((PyCFunctionObject *)arg)->m_ml); + } + break; +#endif + + default: + break; + } + return 0; +} + +static int +pending_exception(ProfilerObject *pObj) +{ + if (pObj->flags & POF_NOMEMORY) { + pObj->flags -= POF_NOMEMORY; + PyErr_SetString(PyExc_MemoryError, + "memory was exhausted while profiling"); + return -1; + } + return 0; +} + +/************************************************************/ + +static PyStructSequence_Field profiler_entry_fields[] = { + {"code", "code object or built-in function name"}, + {"callcount", "how many times this was called"}, + {"reccallcount", "how many times called recursively"}, + {"totaltime", "total time in this entry"}, + {"inlinetime", "inline time in this entry (not in subcalls)"}, + {"calls", "details of the calls"}, + {0} +}; + +static PyStructSequence_Field profiler_subentry_fields[] = { + {"code", "called code object or built-in function name"}, + {"callcount", "how many times this is called"}, + {"reccallcount", "how many times this is called recursively"}, + {"totaltime", "total time spent in this call"}, + {"inlinetime", "inline time (not in further subcalls)"}, + {0} +}; + +static PyStructSequence_Desc profiler_entry_desc = { + "_lsprof.profiler_entry", /* name */ + NULL, /* doc */ + profiler_entry_fields, + 6 +}; + +static PyStructSequence_Desc profiler_subentry_desc = { + "_lsprof.profiler_subentry", /* name */ + NULL, /* doc */ + profiler_subentry_fields, + 5 +}; + +static PyTypeObject StatsEntryType; +static PyTypeObject StatsSubEntryType; + + +typedef struct { + PyObject *list; + PyObject *sublist; + double factor; +} statscollector_t; + +static int statsForSubEntry(rotating_node_t *node, void *arg) +{ + ProfilerSubEntry *sentry = (ProfilerSubEntry*) node; + statscollector_t *collect = (statscollector_t*) arg; + ProfilerEntry *entry = (ProfilerEntry*) sentry->header.key; + int err; + PyObject *sinfo; + sinfo = PyObject_CallFunction((PyObject*) &StatsSubEntryType, + "((Olldd))", + entry->userObj, + sentry->callcount, + sentry->recursivecallcount, + collect->factor * sentry->tt, + collect->factor * sentry->it); + if (sinfo == NULL) + return -1; + err = PyList_Append(collect->sublist, sinfo); + Py_DECREF(sinfo); + return err; +} + +static int statsForEntry(rotating_node_t *node, void *arg) +{ + ProfilerEntry *entry = (ProfilerEntry*) node; + statscollector_t *collect = (statscollector_t*) arg; + PyObject *info; + int err; + if (entry->callcount == 0) + return 0; /* skip */ + + if (entry->calls != EMPTY_ROTATING_TREE) { + collect->sublist = PyList_New(0); + if (collect->sublist == NULL) + return -1; + if (RotatingTree_Enum(entry->calls, + statsForSubEntry, collect) != 0) { + Py_DECREF(collect->sublist); + return -1; + } + } + else { + Py_INCREF(Py_None); + collect->sublist = Py_None; + } + + info = PyObject_CallFunction((PyObject*) &StatsEntryType, + "((OllddO))", + entry->userObj, + entry->callcount, + entry->recursivecallcount, + collect->factor * entry->tt, + collect->factor * entry->it, + collect->sublist); + Py_DECREF(collect->sublist); + if (info == NULL) + return -1; + err = PyList_Append(collect->list, info); + Py_DECREF(info); + return err; +} + +PyDoc_STRVAR(getstats_doc, "\ +getstats() -> list of profiler_entry objects\n\ +\n\ +Return all information collected by the profiler.\n\ +Each profiler_entry is a tuple-like object with the\n\ +following attributes:\n\ +\n\ + code code object\n\ + callcount how many times this was called\n\ + reccallcount how many times called recursively\n\ + totaltime total time in this entry\n\ + inlinetime inline time in this entry (not in subcalls)\n\ + calls details of the calls\n\ +\n\ +The calls attribute is either None or a list of\n\ +profiler_subentry objects:\n\ +\n\ + code called code object\n\ + callcount how many times this is called\n\ + reccallcount how many times this is called recursively\n\ + totaltime total time spent in this call\n\ + inlinetime inline time (not in further subcalls)\n\ +"); + +static PyObject* +profiler_getstats(ProfilerObject *pObj, PyObject* noarg) +{ + statscollector_t collect; + if (pending_exception(pObj)) + return NULL; + if (!pObj->externalTimer) + collect.factor = hpTimerUnit(); + else if (pObj->externalTimerUnit > 0.0) + collect.factor = pObj->externalTimerUnit; + else + collect.factor = 1.0 / DOUBLE_TIMER_PRECISION; + collect.list = PyList_New(0); + if (collect.list == NULL) + return NULL; + if (RotatingTree_Enum(pObj->profilerEntries, statsForEntry, &collect) + != 0) { + Py_DECREF(collect.list); + return NULL; + } + return collect.list; +} + +static int +setSubcalls(ProfilerObject *pObj, int nvalue) +{ + if (nvalue == 0) + pObj->flags &= ~POF_SUBCALLS; + else if (nvalue > 0) + pObj->flags |= POF_SUBCALLS; + return 0; +} + +static int +setBuiltins(ProfilerObject *pObj, int nvalue) +{ + if (nvalue == 0) + pObj->flags &= ~POF_BUILTINS; + else if (nvalue > 0) { +#ifndef PyTrace_C_CALL + PyErr_SetString(PyExc_ValueError, + "builtins=True requires Python >= 2.4"); + return -1; +#else + pObj->flags |= POF_BUILTINS; +#endif + } + return 0; +} + +PyDoc_STRVAR(enable_doc, "\ +enable(subcalls=True, builtins=True)\n\ +\n\ +Start collecting profiling information.\n\ +If 'subcalls' is True, also records for each function\n\ +statistics separated according to its current caller.\n\ +If 'builtins' is True, records the time spent in\n\ +built-in functions separately from their caller.\n\ +"); + +static PyObject* +profiler_enable(ProfilerObject *self, PyObject *args, PyObject *kwds) +{ + int subcalls = -1; + int builtins = -1; + static const char *kwlist[] = {"subcalls", "builtins", 0}; + if (!PyArg_ParseTupleAndKeywords(args, kwds, "|ii:enable", + kwlist, &subcalls, &builtins)) + return NULL; + if (setSubcalls(self, subcalls) < 0 || setBuiltins(self, builtins) < 0) + return NULL; + PyEval_SetProfile(profiler_callback, (PyObject*)self); + self->flags |= POF_ENABLED; + Py_INCREF(Py_None); + return Py_None; +} + +static void +flush_unmatched(ProfilerObject *pObj) +{ + while (pObj->currentProfilerContext) { + ProfilerContext *pContext = pObj->currentProfilerContext; + ProfilerEntry *profEntry= pContext->ctxEntry; + if (profEntry) + Stop(pObj, pContext, profEntry); + else + pObj->currentProfilerContext = pContext->previous; + if (pContext) + free(pContext); + } + +} + +PyDoc_STRVAR(disable_doc, "\ +disable()\n\ +\n\ +Stop collecting profiling information.\n\ +"); + +static PyObject* +profiler_disable(ProfilerObject *self, PyObject* noarg) +{ + self->flags &= ~POF_ENABLED; + PyEval_SetProfile(NULL, NULL); + flush_unmatched(self); + if (pending_exception(self)) + return NULL; + Py_INCREF(Py_None); + return Py_None; +} + +PyDoc_STRVAR(clear_doc, "\ +clear()\n\ +\n\ +Clear all profiling information collected so far.\n\ +"); + +static PyObject* +profiler_clear(ProfilerObject *pObj, PyObject* noarg) +{ + clearEntries(pObj); + Py_INCREF(Py_None); + return Py_None; +} + +static void +profiler_dealloc(ProfilerObject *op) +{ + if (op->flags & POF_ENABLED) + PyEval_SetProfile(NULL, NULL); + flush_unmatched(op); + clearEntries(op); + Py_XDECREF(op->externalTimer); + op->ob_type->tp_free(op); +} + +static int +profiler_init(ProfilerObject *pObj, PyObject *args, PyObject *kw) +{ + PyObject *o; + PyObject *timer = NULL; + double timeunit = 0.0; + int subcalls = 1; +#ifdef PyTrace_C_CALL + int builtins = 1; +#else + int builtins = 0; +#endif + static const char *kwlist[] = {"timer", "timeunit", + "subcalls", "builtins", 0}; + + if (!PyArg_ParseTupleAndKeywords(args, kw, "|Odii:Profiler", kwlist, + &timer, &timeunit, + &subcalls, &builtins)) + return -1; + + if (setSubcalls(pObj, subcalls) < 0 || setBuiltins(pObj, builtins) < 0) + return -1; + o = pObj->externalTimer; + pObj->externalTimer = timer; + Py_XINCREF(timer); + Py_XDECREF(o); + pObj->externalTimerUnit = timeunit; + return 0; +} + +static PyMethodDef profiler_methods[] = { + {"getstats", (PyCFunction)profiler_getstats, + METH_NOARGS, getstats_doc}, + {"enable", (PyCFunction)profiler_enable, + METH_VARARGS | METH_KEYWORDS, enable_doc}, + {"disable", (PyCFunction)profiler_disable, + METH_NOARGS, disable_doc}, + {"clear", (PyCFunction)profiler_clear, + METH_NOARGS, clear_doc}, + {NULL, NULL} +}; + +PyDoc_STRVAR(profiler_doc, "\ +Profiler(custom_timer=None, time_unit=None, subcalls=True, builtins=True)\n\ +\n\ + Builds a profiler object using the specified timer function.\n\ + The default timer is a fast built-in one based on real time.\n\ + For custom timer functions returning integers, time_unit can\n\ + be a float specifying a scale (i.e. how long each integer unit\n\ + is, in seconds).\n\ +"); + +statichere PyTypeObject PyProfiler_Type = { + PyObject_HEAD_INIT(NULL) + 0, /* ob_size */ + "_lsprof.Profiler", /* tp_name */ + sizeof(ProfilerObject), /* tp_basicsize */ + 0, /* tp_itemsize */ + (destructor)profiler_dealloc, /* tp_dealloc */ + 0, /* tp_print */ + 0, /* tp_getattr */ + 0, /* tp_setattr */ + 0, /* tp_compare */ + 0, /* tp_repr */ + 0, /* tp_as_number */ + 0, /* tp_as_sequence */ + 0, /* tp_as_mapping */ + 0, /* tp_hash */ + 0, /* tp_call */ + 0, /* tp_str */ + 0, /* tp_getattro */ + 0, /* tp_setattro */ + 0, /* tp_as_buffer */ + Py_TPFLAGS_DEFAULT | Py_TPFLAGS_BASETYPE, /* tp_flags */ + profiler_doc, /* tp_doc */ + 0, /* tp_traverse */ + 0, /* tp_clear */ + 0, /* tp_richcompare */ + 0, /* tp_weaklistoffset */ + 0, /* tp_iter */ + 0, /* tp_iternext */ + profiler_methods, /* tp_methods */ + 0, /* tp_members */ + 0, /* tp_getset */ + 0, /* tp_base */ + 0, /* tp_dict */ + 0, /* tp_descr_get */ + 0, /* tp_descr_set */ + 0, /* tp_dictoffset */ + (initproc)profiler_init, /* tp_init */ + PyType_GenericAlloc, /* tp_alloc */ + PyType_GenericNew, /* tp_new */ + PyObject_Del, /* tp_free */ +}; + +static PyMethodDef moduleMethods[] = { + {NULL, NULL} +}; + +PyMODINIT_FUNC +init_lsprof(void) +{ + PyObject *module, *d; + module = Py_InitModule3("_lsprof", moduleMethods, "Fast profiler"); + d = PyModule_GetDict(module); + if (PyType_Ready(&PyProfiler_Type) < 0) + return; + PyDict_SetItemString(d, "Profiler", (PyObject *)&PyProfiler_Type); + + PyStructSequence_InitType(&StatsEntryType, &profiler_entry_desc); + PyStructSequence_InitType(&StatsSubEntryType, &profiler_subentry_desc); + Py_INCREF((PyObject*) &StatsEntryType); + Py_INCREF((PyObject*) &StatsSubEntryType); + PyModule_AddObject(module, "profiler_entry", + (PyObject*) &StatsEntryType); + PyModule_AddObject(module, "profiler_subentry", + (PyObject*) &StatsSubEntryType); + empty_tuple = PyTuple_New(0); +} |