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b6aa6d55eb856f99a06c400b5dcda118c46dacfa
gem5/src/base/stats/text.cc
Andreas Hansson b6aa6d55eb clang/gcc: Fix compilation issues with clang 3.0 and gcc 4.6 
This patch addresses a number of minor issues that cause problems when
compiling with clang >= 3.0 and gcc >= 4.6. Most importantly, it
avoids using the deprecated ext/hash_map and instead uses
unordered_map (and similarly so for the hash_set). To make use of the
new STL containers, g++ and clang has to be invoked with "-std=c++0x",
and this is now added for all gcc versions >= 4.6, and for clang >=
3.0. For gcc >= 4.3 and <= 4.5 and clang <= 3.0 we use the tr1
unordered_map to avoid the deprecation warning.

The addition of c++0x in turn causes a few problems, as the
compiler is more stringent and adds a number of new warnings. Below,
the most important issues are enumerated:

1) the use of namespaces is more strict, e.g. for isnan, and all
   headers opening the entire namespace std are now fixed.

2) another other issue caused by the more stringent compiler is the
   narrowing of the embedded python, which used to be a char array,
   and is now unsigned char since there were values larger than 128.

3) a particularly odd issue that arose with the new c++0x behaviour is
   found in range.hh, where the operator< causes gcc to complain about
   the template type parsing (the "<" is interpreted as the beginning
   of a template argument), and the problem seems to be related to the
   begin/end members introduced for the range-type iteration, which is
   a new feature in c++11.

As a minor update, this patch also fixes the build flags for the clang
debug target that used to be shared with gcc and incorrectly use
"-ggdb".
2012-04-14 05:43:31 -04:00

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/*
* Copyright (c) 2004-2005 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
*/
#if defined(__APPLE__)
#define _GLIBCPP_USE_C99 1
#endif
#if defined(__sun)
#include <math.h>
#endif
#include <cassert>
#ifdef __SUNPRO_CC
#include <math.h>
#endif
#include <cmath>
#include <fstream>
#include <iostream>
#include <sstream>
#include <string>
#include "base/stats/info.hh"
#include "base/stats/text.hh"
#include "base/cast.hh"
#include "base/misc.hh"
#include "base/str.hh"
using namespace std;
#ifndef NAN
float __nan();
/** Define Not a number. */
#define NAN (__nan())
/** Need to define __nan() */
#define __M5_NAN
#endif
#ifdef __M5_NAN
float
__nan()
{
union {
uint32_t ui;
float f;
} nan;
nan.ui = 0x7fc00000;
return nan.f;
}
#endif
namespace Stats {
std::list<Info *> &statsList();
Text::Text()
: mystream(false), stream(NULL), descriptions(false)
{
}
Text::Text(std::ostream &stream)
: mystream(false), stream(NULL), descriptions(false)
{
open(stream);
}
Text::Text(const std::string &file)
: mystream(false), stream(NULL), descriptions(false)
{
open(file);
}
Text::~Text()
{
if (mystream) {
assert(stream);
delete stream;
}
}
void
Text::open(std::ostream &_stream)
{
if (stream)
panic("stream already set!");
mystream = false;
stream = &_stream;
if (!valid())
fatal("Unable to open output stream for writing\n");
}
void
Text::open(const std::string &file)
{
if (stream)
panic("stream already set!");
mystream = true;
stream = new ofstream(file.c_str(), ios::trunc);
if (!valid())
fatal("Unable to open statistics file for writing\n");
}
bool
Text::valid() const
{
return stream != NULL && stream->good();
}
void
Text::begin()
{
ccprintf(*stream, "\n---------- Begin Simulation Statistics ----------\n");
}
void
Text::end()
{
ccprintf(*stream, "\n---------- End Simulation Statistics ----------\n");
stream->flush();
}
bool
Text::noOutput(const Info &info)
{
if (!info.flags.isSet(display))
return true;
if (info.prereq && info.prereq->zero())
return true;
return false;
}
string
ValueToString(Result value, int precision)
{
stringstream val;
if (!std::isnan(value)) {
if (precision != -1)
val.precision(precision);
else if (value == rint(value))
val.precision(0);
val.unsetf(ios::showpoint);
val.setf(ios::fixed);
val << value;
} else {
val << "no_value";
}
return val.str();
}
struct ScalarPrint
{
Result value;
string name;
string desc;
Flags flags;
bool descriptions;
int precision;
Result pdf;
Result cdf;
void update(Result val, Result total);
void operator()(ostream &stream) const;
};
void
ScalarPrint::update(Result val, Result total)
{
value = val;
if (total) {
pdf = val / total;
cdf += pdf;
}
}
void
ScalarPrint::operator()(ostream &stream) const
{
if ((flags.isSet(nozero) && value == 0.0) ||
(flags.isSet(nonan) && std::isnan(value)))
return;
stringstream pdfstr, cdfstr;
if (!std::isnan(pdf))
ccprintf(pdfstr, "%.2f%%", pdf * 100.0);
if (!std::isnan(cdf))
ccprintf(cdfstr, "%.2f%%", cdf * 100.0);
ccprintf(stream, "%-40s %12s %10s %10s", name,
ValueToString(value, precision), pdfstr, cdfstr);
if (descriptions) {
if (!desc.empty())
ccprintf(stream, " # %s", desc);
}
stream << endl;
}
struct VectorPrint
{
string name;
string separatorString;
string desc;
vector<string> subnames;
vector<string> subdescs;
Flags flags;
bool descriptions;
int precision;
VResult vec;
Result total;
void operator()(ostream &stream) const;
};
void
VectorPrint::operator()(std::ostream &stream) const
{
size_type _size = vec.size();
Result _total = 0.0;
if (flags.isSet(pdf | cdf)) {
for (off_type i = 0; i < _size; ++i) {
_total += vec[i];
}
}
string base = name + separatorString;
ScalarPrint print;
print.name = name;
print.desc = desc;
print.precision = precision;
print.descriptions = descriptions;
print.flags = flags;
print.pdf = _total ? 0.0 : NAN;
print.cdf = _total ? 0.0 : NAN;
bool havesub = !subnames.empty();
if (_size == 1) {
print.value = vec[0];
print(stream);
return;
}
for (off_type i = 0; i < _size; ++i) {
if (havesub && (i >= subnames.size() || subnames[i].empty()))
continue;
print.name = base + (havesub ? subnames[i] : to_string(i));
print.desc = subdescs.empty() ? desc : subdescs[i];
print.update(vec[i], _total);
print(stream);
}
if (flags.isSet(::Stats::total)) {
print.pdf = NAN;
print.cdf = NAN;
print.name = base + "total";
print.desc = desc;
print.value = total;
print(stream);
}
}
struct DistPrint
{
string name;
string separatorString;
string desc;
Flags flags;
bool descriptions;
int precision;
const DistData &data;
DistPrint(const Text *text, const DistInfo &info);
DistPrint(const Text *text, const VectorDistInfo &info, int i);
void init(const Text *text, const Info &info);
void operator()(ostream &stream) const;
};
DistPrint::DistPrint(const Text *text, const DistInfo &info)
: data(info.data)
{
init(text, info);
}
DistPrint::DistPrint(const Text *text, const VectorDistInfo &info, int i)
: data(info.data[i])
{
init(text, info);
name = info.name + "_" +
(info.subnames[i].empty() ? (to_string(i)) : info.subnames[i]);
if (!info.subdescs[i].empty())
desc = info.subdescs[i];
}
void
DistPrint::init(const Text *text, const Info &info)
{
name = info.name;
separatorString = info.separatorString;
desc = info.desc;
flags = info.flags;
precision = info.precision;
descriptions = text->descriptions;
}
void
DistPrint::operator()(ostream &stream) const
{
string base = name + separatorString;
ScalarPrint print;
print.precision = precision;
print.flags = flags;
print.descriptions = descriptions;
print.desc = desc;
print.pdf = NAN;
print.cdf = NAN;
print.name = base + "samples";
print.value = data.samples;
print(stream);
print.name = base + "mean";
print.value = data.samples ? data.sum / data.samples : NAN;
print(stream);
if (data.type == Hist) {
print.name = base + "gmean";
print.value = data.samples ? exp(data.logs / data.samples) : NAN;
print(stream);
}
Result stdev = NAN;
if (data.samples)
stdev = sqrt((data.samples * data.squares - data.sum * data.sum) /
(data.samples * (data.samples - 1.0)));
print.name = base + "stdev";
print.value = stdev;
print(stream);
if (data.type == Deviation)
return;
size_t size = data.cvec.size();
Result total = 0.0;
if (data.type == Dist && data.underflow != NAN)
total += data.underflow;
for (off_type i = 0; i < size; ++i)
total += data.cvec[i];
if (data.type == Dist && data.overflow != NAN)
total += data.overflow;
if (total) {
print.pdf = 0.0;
print.cdf = 0.0;
}
if (data.type == Dist && data.underflow != NAN) {
print.name = base + "underflows";
print.update(data.underflow, total);
print(stream);
}
for (off_type i = 0; i < size; ++i) {
stringstream namestr;
namestr << base;
Counter low = i * data.bucket_size + data.min;
Counter high = ::min(low + data.bucket_size - 1.0, data.max);
namestr << low;
if (low < high)
namestr << "-" << high;
print.name = namestr.str();
print.update(data.cvec[i], total);
print(stream);
}
if (data.type == Dist && data.overflow != NAN) {
print.name = base + "overflows";
print.update(data.overflow, total);
print(stream);
}
print.pdf = NAN;
print.cdf = NAN;
if (data.type == Dist && data.min_val != NAN) {
print.name = base + "min_value";
print.value = data.min_val;
print(stream);
}
if (data.type == Dist && data.max_val != NAN) {
print.name = base + "max_value";
print.value = data.max_val;
print(stream);
}
print.name = base + "total";
print.value = total;
print(stream);
}
void
Text::visit(const ScalarInfo &info)
{
if (noOutput(info))
return;
ScalarPrint print;
print.value = info.result();
print.name = info.name;
print.desc = info.desc;
print.flags = info.flags;
print.descriptions = descriptions;
print.precision = info.precision;
print.pdf = NAN;
print.cdf = NAN;
print(*stream);
}
void
Text::visit(const VectorInfo &info)
{
if (noOutput(info))
return;
size_type size = info.size();
VectorPrint print;
print.name = info.name;
print.separatorString = info.separatorString;
print.desc = info.desc;
print.flags = info.flags;
print.descriptions = descriptions;
print.precision = info.precision;
print.vec = info.result();
print.total = info.total();
if (!info.subnames.empty()) {
for (off_type i = 0; i < size; ++i) {
if (!info.subnames[i].empty()) {
print.subnames = info.subnames;
print.subnames.resize(size);
for (off_type i = 0; i < size; ++i) {
if (!info.subnames[i].empty() &&
!info.subdescs[i].empty()) {
print.subdescs = info.subdescs;
print.subdescs.resize(size);
break;
}
}
break;
}
}
}
print(*stream);
}
void
Text::visit(const Vector2dInfo &info)
{
if (noOutput(info))
return;
bool havesub = false;
VectorPrint print;
if (!info.y_subnames.empty()) {
for (off_type i = 0; i < info.y; ++i) {
if (!info.y_subnames[i].empty()) {
print.subnames = info.y_subnames;
}
break;
}
}
print.flags = info.flags;
print.separatorString = info.separatorString;
print.descriptions = descriptions;
print.precision = info.precision;
if (!info.subnames.empty()) {
for (off_type i = 0; i < info.x; ++i)
if (!info.subnames[i].empty())
havesub = true;
}
VResult tot_vec(info.y);
Result super_total = 0.0;
for (off_type i = 0; i < info.x; ++i) {
if (havesub && (i >= info.subnames.size() || info.subnames[i].empty()))
continue;
off_type iy = i * info.y;
VResult yvec(info.y);
Result total = 0.0;
for (off_type j = 0; j < info.y; ++j) {
yvec[j] = info.cvec[iy + j];
tot_vec[j] += yvec[j];
total += yvec[j];
super_total += yvec[j];
}
print.name = info.name + "_" +
(havesub ? info.subnames[i] : to_string(i));
print.desc = info.desc;
print.vec = yvec;
print.total = total;
print(*stream);
}
if (info.flags.isSet(::Stats::total) && (info.x > 1)) {
print.name = info.name;
print.desc = info.desc;
print.vec = tot_vec;
print.total = super_total;
print(*stream);
}
}
void
Text::visit(const DistInfo &info)
{
if (noOutput(info))
return;
DistPrint print(this, info);
print(*stream);
}
void
Text::visit(const VectorDistInfo &info)
{
if (noOutput(info))
return;
for (off_type i = 0; i < info.size(); ++i) {
DistPrint print(this, info, i);
print(*stream);
}
}
void
Text::visit(const FormulaInfo &info)
{
visit((const VectorInfo &)info);
}
/*
This struct implements the output methods for the sparse
histogram stat
*/
struct SparseHistPrint
{
string name;
string separatorString;
string desc;
Flags flags;
bool descriptions;
int precision;
const SparseHistData &data;
SparseHistPrint(const Text *text, const SparseHistInfo &info);
void init(const Text *text, const Info &info);
void operator()(ostream &stream) const;
};
/* Call initialization function */
SparseHistPrint::SparseHistPrint(const Text *text, const SparseHistInfo &info)
: data(info.data)
{
init(text, info);
}
/* Initialization function */
void
SparseHistPrint::init(const Text *text, const Info &info)
{
name = info.name;
separatorString = info.separatorString;
desc = info.desc;
flags = info.flags;
precision = info.precision;
descriptions = text->descriptions;
}
/* Grab data from map and write to output stream */
void
SparseHistPrint::operator()(ostream &stream) const
{
string base = name + separatorString;
ScalarPrint print;
print.precision = precision;
print.flags = flags;
print.descriptions = descriptions;
print.desc = desc;
print.pdf = NAN;
print.cdf = NAN;
print.name = base + "samples";
print.value = data.samples;
print(stream);
MCounter::const_iterator it;
for (it = data.cmap.begin(); it != data.cmap.end(); it++) {
stringstream namestr;
namestr << base;
namestr <<(*it).first;
print.name = namestr.str();
print.value = (*it).second;
print(stream);
}
print.pdf = NAN;
print.cdf = NAN;
print.name = base + "total";
print.value = total;
print(stream);
}
void
Text::visit(const SparseHistInfo &info)
{
if (noOutput(info))
return;
SparseHistPrint print(this, info);
print(*stream);
}
Output *
initText(const string &filename, bool desc)
{
static Text text;
static bool connected = false;
if (!connected) {
ostream *os = simout.find(filename);
if (!os)
os = simout.create(filename);
text.open(*os);
text.descriptions = desc;
connected = true;
}
return &text;
}
} // namespace Stats
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