/* * Copyright (c) 2003-2005 The Regents of The University of Michigan * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer; * redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution; * neither the name of the copyright holders nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * Authors: Nathan Binkert */ #include "base/statistics.hh" #include #include #include #include #include #include "base/callback.hh" #include "base/cprintf.hh" #include "base/debug.hh" #include "base/hostinfo.hh" #include "base/logging.hh" #include "base/str.hh" #include "base/time.hh" #include "base/trace.hh" using namespace std; namespace Stats { std::string Info::separatorString = "::"; // We wrap these in a function to make sure they're built in time. list & statsList() { static list the_list; return the_list; } MapType & statsMap() { static MapType the_map; return the_map; } void InfoAccess::setInfo(Info *info) { if (statsMap().find(this) != statsMap().end()) panic("shouldn't register stat twice!"); statsList().push_back(info); #ifndef NDEBUG pair result = #endif statsMap().insert(make_pair(this, info)); assert(result.second && "this should never fail"); assert(statsMap().find(this) != statsMap().end()); } void InfoAccess::setParams(const StorageParams *params) { info()->storageParams = params; } void InfoAccess::setInit() { info()->flags.set(init); } Info * InfoAccess::info() { MapType::const_iterator i = statsMap().find(this); assert(i != statsMap().end()); return (*i).second; } const Info * InfoAccess::info() const { MapType::const_iterator i = statsMap().find(this); assert(i != statsMap().end()); return (*i).second; } StorageParams::~StorageParams() { } NameMapType & nameMap() { static NameMapType the_map; return the_map; } int Info::id_count = 0; int debug_break_id = -1; Info::Info() : flags(none), precision(-1), prereq(0), storageParams(NULL) { id = id_count++; if (debug_break_id >= 0 and debug_break_id == id) Debug::breakpoint(); } Info::~Info() { } bool validateStatName(const string &name) { if (name.empty()) return false; vector vec; tokenize(vec, name, '.'); vector::const_iterator item = vec.begin(); while (item != vec.end()) { if (item->empty()) return false; string::const_iterator c = item->begin(); // The first character is different if (!isalpha(*c) && *c != '_') return false; // The rest of the characters have different rules. while (++c != item->end()) { if (!isalnum(*c) && *c != '_') return false; } ++item; } return true; } void Info::setName(const string &name) { if (!validateStatName(name)) panic("invalid stat name '%s'", name); pair p = nameMap().insert(make_pair(name, this)); Info *other = p.first->second; bool result = p.second; if (!result) { // using other->name instead of just name to avoid a compiler // warning. They should be the same. panic("same statistic name used twice! name=%s\n", other->name); } this->name = name; } bool Info::less(Info *stat1, Info *stat2) { const string &name1 = stat1->name; const string &name2 = stat2->name; vector v1; vector v2; tokenize(v1, name1, '.'); tokenize(v2, name2, '.'); size_type last = min(v1.size(), v2.size()) - 1; for (off_type i = 0; i < last; ++i) if (v1[i] != v2[i]) return v1[i] < v2[i]; // Special compare for last element. if (v1[last] == v2[last]) return v1.size() < v2.size(); else return v1[last] < v2[last]; return false; } bool Info::baseCheck() const { if (!(flags & Stats::init)) { #ifdef DEBUG cprintf("this is stat number %d\n", id); #endif panic("Not all stats have been initialized.\n" "You may need to add ::regStats() to a" " new SimObject's regStats() function."); return false; } if ((flags & display) && name.empty()) { panic("all printable stats must be named"); return false; } return true; } void Info::enable() { } void VectorInfo::enable() { size_type s = size(); if (subnames.size() < s) subnames.resize(s); if (subdescs.size() < s) subdescs.resize(s); } void VectorDistInfo::enable() { size_type s = size(); if (subnames.size() < s) subnames.resize(s); if (subdescs.size() < s) subdescs.resize(s); } void Vector2dInfo::enable() { if (subnames.size() < x) subnames.resize(x); if (subdescs.size() < x) subdescs.resize(x); if (y_subnames.size() < y) y_subnames.resize(y); } void HistStor::grow_out() { int size = cvec.size(); int zero = size / 2; // round down! int top_half = zero + (size - zero + 1) / 2; // round up! int bottom_half = (size - zero) / 2; // round down! // grow down int low_pair = zero - 1; for (int i = zero - 1; i >= bottom_half; i--) { cvec[i] = cvec[low_pair]; if (low_pair - 1 >= 0) cvec[i] += cvec[low_pair - 1]; low_pair -= 2; } assert(low_pair == 0 || low_pair == -1 || low_pair == -2); for (int i = bottom_half - 1; i >= 0; i--) cvec[i] = Counter(); // grow up int high_pair = zero; for (int i = zero; i < top_half; i++) { cvec[i] = cvec[high_pair]; if (high_pair + 1 < size) cvec[i] += cvec[high_pair + 1]; high_pair += 2; } assert(high_pair == size || high_pair == size + 1); for (int i = top_half; i < size; i++) cvec[i] = Counter(); max_bucket *= 2; min_bucket *= 2; bucket_size *= 2; } void HistStor::grow_convert() { int size = cvec.size(); int half = (size + 1) / 2; // round up! //bool even = (size & 1) == 0; int pair = size - 1; for (int i = size - 1; i >= half; --i) { cvec[i] = cvec[pair]; if (pair - 1 >= 0) cvec[i] += cvec[pair - 1]; pair -= 2; } for (int i = half - 1; i >= 0; i--) cvec[i] = Counter(); min_bucket = -max_bucket;// - (even ? bucket_size : 0); bucket_size *= 2; } void HistStor::grow_up() { int size = cvec.size(); int half = (size + 1) / 2; // round up! int pair = 0; for (int i = 0; i < half; i++) { cvec[i] = cvec[pair]; if (pair + 1 < size) cvec[i] += cvec[pair + 1]; pair += 2; } assert(pair == size || pair == size + 1); for (int i = half; i < size; i++) cvec[i] = Counter(); max_bucket *= 2; bucket_size *= 2; } void HistStor::add(HistStor *hs) { int b_size = hs->size(); assert(size() == b_size); assert(min_bucket == hs->min_bucket); sum += hs->sum; logs += hs->logs; squares += hs->squares; samples += hs->samples; while (bucket_size > hs->bucket_size) hs->grow_up(); while (bucket_size < hs->bucket_size) grow_up(); for (uint32_t i = 0; i < b_size; i++) cvec[i] += hs->cvec[i]; } Formula::Formula() { } Formula::Formula(Temp r) { root = r.getNodePtr(); setInit(); assert(size()); } const Formula & Formula::operator=(Temp r) { assert(!root && "Can't change formulas"); root = r.getNodePtr(); setInit(); assert(size()); return *this; } const Formula & Formula::operator+=(Temp r) { if (root) root = NodePtr(new BinaryNode >(root, r)); else { root = r.getNodePtr(); setInit(); } assert(size()); return *this; } const Formula & Formula::operator/=(Temp r) { assert (root); root = NodePtr(new BinaryNode >(root, r)); assert(size()); return *this; } void Formula::result(VResult &vec) const { if (root) vec = root->result(); } Result Formula::total() const { return root ? root->total() : 0.0; } size_type Formula::size() const { if (!root) return 0; else return root->size(); } void Formula::reset() { } bool Formula::zero() const { VResult vec; result(vec); for (VResult::size_type i = 0; i < vec.size(); ++i) if (vec[i] != 0.0) return false; return true; } string Formula::str() const { return root ? root->str() : ""; } Handler resetHandler = NULL; Handler dumpHandler = NULL; void registerHandlers(Handler reset_handler, Handler dump_handler) { resetHandler = reset_handler; dumpHandler = dump_handler; } CallbackQueue dumpQueue; CallbackQueue resetQueue; void processResetQueue() { resetQueue.process(); } void processDumpQueue() { dumpQueue.process(); } void registerResetCallback(Callback *cb) { resetQueue.add(cb); } bool _enabled = false; bool enabled() { return _enabled; } void enable() { if (_enabled) fatal("Stats are already enabled"); _enabled = true; } void dump() { if (dumpHandler) dumpHandler(); else fatal("No registered Stats::dump handler"); } void reset() { if (resetHandler) resetHandler(); else fatal("No registered Stats::reset handler"); } void registerDumpCallback(Callback *cb) { dumpQueue.add(cb); } } // namespace Stats void debugDumpStats() { Stats::dump(); }