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**
** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies).
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** Contact: Nokia Corporation (qt-info@nokia.com)
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** This file is part of the test suite module of the Qt Toolkit.
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** This file contains pre-release code and may not be distributed.
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** contained in the Technology Preview License Agreement accompanying
** this package.
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** GNU Lesser General Public License Usage
** Alternatively, this file may be used under the terms of the GNU Lesser
** General Public License version 2.1 as published by the Free Software
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****************************************************************************/
// Select one of the scenarios below
#define SCENARIO 1
#if SCENARIO == 1
// this is the "no harm done" version. Only operator% is active,
// with NO_CAST * defined
#define P %
#undef QT_USE_FAST_OPERATOR_PLUS
#undef QT_USE_FAST_CONCATENATION
#define QT_NO_CAST_FROM_ASCII
#define QT_NO_CAST_TO_ASCII
#endif
#if SCENARIO == 2
// this is the "full" version. Operator+ is replaced by a QStringBuilder
// based version
// with NO_CAST * defined
#define P +
#define QT_USE_FAST_OPERATOR_PLUS
#define QT_USE_FAST_CONCATENATION
#define QT_NO_CAST_FROM_ASCII
#define QT_NO_CAST_TO_ASCII
#endif
#if SCENARIO == 3
// this is the "no harm done" version. Only operator% is active,
// with NO_CAST * _not_ defined
#define P %
#undef QT_USE_FAST_OPERATOR_PLUS
#undef QT_USE_FAST_CONCATENATION
#undef QT_NO_CAST_FROM_ASCII
#undef QT_NO_CAST_TO_ASCII
#endif
#if SCENARIO == 4
// this is the "full" version. Operator+ is replaced by a QStringBuilder
// based version
// with NO_CAST * _not_ defined
#define P +
#define QT_USE_FAST_OPERATOR_PLUS
#define QT_USE_FAST_CONCATENATION
#undef QT_NO_CAST_FROM_ASCII
#undef QT_NO_CAST_TO_ASCII
#endif
#include <qbytearray.h>
#include <qdebug.h>
#include <qstring.h>
#include <qstringbuilder.h>
#include <qtest.h>
#include <string>
#define COMPARE(a, b) QCOMPARE(a, b)
//#define COMPARE(a, b)
#define SEP(s) qDebug() << "\n\n-------- " s " ---------";
#define LITERAL "some string literal"
class tst_qstringbuilder : public QObject
{
Q_OBJECT
public:
tst_qstringbuilder()
: l1literal(LITERAL),
l1string(LITERAL),
ba(LITERAL),
string(l1string),
stdstring(LITERAL),
stringref(&string, 2, 10),
achar('c'),
r2(QLatin1String(LITERAL LITERAL)),
r3(QLatin1String(LITERAL LITERAL LITERAL)),
r4(QLatin1String(LITERAL LITERAL LITERAL LITERAL)),
r5(QLatin1String(LITERAL LITERAL LITERAL LITERAL LITERAL))
{}
public:
enum { N = 10000 };
int run_traditional()
{
int s = 0;
for (int i = 0; i < N; ++i) {
#if 0
s += QString(l1string + l1string).size();
s += QString(l1string + l1string + l1string).size();
s += QString(l1string + l1string + l1string + l1string).size();
s += QString(l1string + l1string + l1string + l1string + l1string).size();
#endif
s += QString(achar + l1string + achar).size();
}
return s;
}
int run_builder()
{
int s = 0;
for (int i = 0; i < N; ++i) {
#if 0
s += QString(l1literal P l1literal).size();
s += QString(l1literal P l1literal P l1literal).size();
s += QString(l1literal P l1literal P l1literal P l1literal).size();
s += QString(l1literal P l1literal P l1literal P l1literal P l1literal).size();
#endif
s += QString(achar % l1literal % achar).size();
}
return s;
}
private slots:
void separator_0() {
qDebug() << "\nIn each block the QStringBuilder based result appear first "
"(with a 'b_' prefix), QStringBased second ('q_' prefix), std::string "
"last ('s_' prefix)\n";
}
void separator_1() { SEP("literal + literal (builder first)"); }
void b_2_l1literal() {
QBENCHMARK { r = l1literal P l1literal; }
COMPARE(r, r2);
}
#ifndef QT_NO_CAST_FROM_ASCII
void b_l1literal_LITERAL() {
QBENCHMARK { r = l1literal P LITERAL; }
COMPARE(r, r2);
}
#endif
void q_2_l1string() {
QBENCHMARK { r = l1string + l1string; }
COMPARE(r, r2);
}
void separator_2() { SEP("2 strings"); }
void b_2_string() {
QBENCHMARK { r = string P string; }
COMPARE(r, r2);
}
void q_2_string() {
QBENCHMARK { r = string + string; }
COMPARE(r, r2);
}
void s_2_string() {
QBENCHMARK { stdr = stdstring + stdstring; }
COMPARE(stdr, stdstring + stdstring);
}
void separator_2c() { SEP("2 string refs"); }
void b_2_stringref() {
QBENCHMARK { r = stringref % stringref; }
COMPARE(r, QString(stringref.toString() + stringref.toString()));
}
void q_2_stringref() {
QBENCHMARK { r = stringref.toString() + stringref.toString(); }
COMPARE(r, QString(stringref % stringref));
}
void separator_2b() { SEP("3 strings"); }
void b_3_string() {
QBENCHMARK { r = string P string P string; }
COMPARE(r, r3);
}
void q_3_string() {
QBENCHMARK { r = string + string + string; }
COMPARE(r, r3);
}
void s_3_string() {
QBENCHMARK { stdr = stdstring + stdstring + stdstring; }
COMPARE(stdr, stdstring + stdstring + stdstring);
}
void separator_2e() { SEP("4 strings"); }
void b_4_string() {
QBENCHMARK { r = string P string P string P string; }
COMPARE(r, r4);
}
void q_4_string() {
QBENCHMARK { r = string + string + string + string; }
COMPARE(r, r4);
}
void s_4_string() {
QBENCHMARK { stdr = stdstring + stdstring + stdstring + stdstring; }
COMPARE(stdr, stdstring + stdstring + stdstring + stdstring);
}
void separator_2a() { SEP("string + literal (builder first)"); }
void b_string_l1literal() {
QBENCHMARK { r = string % l1literal; }
COMPARE(r, r2);
}
#ifndef QT_NO_CAST_FROM_ASCII
void b_string_LITERAL() {
QBENCHMARK { r = string P LITERAL; }
COMPARE(r, r2);
}
void b_LITERAL_string() {
QBENCHMARK { r = LITERAL P string; }
COMPARE(r, r2);
}
#endif
void b_string_l1string() {
QBENCHMARK { r = string P l1string; }
COMPARE(r, r2);
}
void q_string_l1literal() {
QBENCHMARK { r = string + l1string; }
COMPARE(r, r2);
}
void q_string_l1string() {
QBENCHMARK { r = string + l1string; }
COMPARE(r, r2);
}
void s_LITERAL_string() {
QBENCHMARK { stdr = LITERAL + stdstring; }
COMPARE(stdr, stdstring + stdstring);
}
void separator_3() { SEP("3 literals"); }
void b_3_l1literal() {
QBENCHMARK { r = l1literal P l1literal P l1literal; }
COMPARE(r, r3);
}
void q_3_l1string() {
QBENCHMARK { r = l1string + l1string + l1string; }
COMPARE(r, r3);
}
void s_3_l1string() {
QBENCHMARK { stdr = stdstring + LITERAL + LITERAL; }
COMPARE(stdr, stdstring + stdstring + stdstring);
}
void separator_4() { SEP("4 literals"); }
void b_4_l1literal() {
QBENCHMARK { r = l1literal P l1literal P l1literal P l1literal; }
COMPARE(r, r4);
}
void q_4_l1string() {
QBENCHMARK { r = l1string + l1string + l1string + l1string; }
COMPARE(r, r4);
}
void separator_5() { SEP("5 literals"); }
void b_5_l1literal() {
QBENCHMARK { r = l1literal P l1literal P l1literal P l1literal P l1literal; }
COMPARE(r, r5);
}
void q_5_l1string() {
QBENCHMARK { r = l1string + l1string + l1string + l1string + l1string; }
COMPARE(r, r5);
}
void separator_6() { SEP("4 chars"); }
void b_string_4_char() {
QBENCHMARK { r = string + achar + achar + achar + achar; }
COMPARE(r, QString(string P achar P achar P achar P achar));
}
void q_string_4_char() {
QBENCHMARK { r = string + achar + achar + achar + achar; }
COMPARE(r, QString(string P achar P achar P achar P achar));
}
void s_string_4_char() {
QBENCHMARK { stdr = stdstring + 'c' + 'c' + 'c' + 'c'; }
COMPARE(stdr, stdstring + 'c' + 'c' + 'c' + 'c');
}
void separator_7() { SEP("char + string + char"); }
void b_char_string_char() {
QBENCHMARK { r = achar + string + achar; }
COMPARE(r, QString(achar P string P achar));
}
void q_char_string_char() {
QBENCHMARK { r = achar + string + achar; }
COMPARE(r, QString(achar P string P achar));
}
void s_char_string_char() {
QBENCHMARK { stdr = 'c' + stdstring + 'c'; }
COMPARE(stdr, 'c' + stdstring + 'c');
}
void separator_8() { SEP("string.arg"); }
void b_string_arg() {
const QString pattern = l1string + QString::fromLatin1("%1") + l1string;
QBENCHMARK { r = l1literal P string P l1literal; }
COMPARE(r, r3);
}
void q_string_arg() {
const QString pattern = l1string + QLatin1String("%1") + l1string;
QBENCHMARK { r = pattern.arg(string); }
COMPARE(r, r3);
}
void q_bytearray_arg() {
QByteArray result;
QBENCHMARK { result = ba + ba + ba; }
}
void separator_9() { SEP("QString::reserve()"); }
void b_reserve() {
QBENCHMARK {
r.clear();
r = string P string P string P string;
}
COMPARE(r, r4);
}
void b_reserve_lit() {
QBENCHMARK {
r.clear();
r = string P l1literal P string P string;
}
COMPARE(r, r4);
}
void s_reserve() {
QBENCHMARK {
r.clear();
r.reserve(string.size() + string.size() + string.size() + string.size());
r += string;
r += string;
r += string;
r += string;
}
COMPARE(r, r4);
}
void s_reserve_lit() {
QBENCHMARK {
r.clear();
//r.reserve(string.size() + qstrlen(l1string.latin1())
// + string.size() + string.size());
r.reserve(1024);
r += string;
r += l1string;
r += string;
r += string;
}
COMPARE(r, r4);
}
private:
const QLatin1Literal l1literal;
const QLatin1String l1string;
const QByteArray ba;
const QString string;
const std::string stdstring;
const QStringRef stringref;
const QLatin1Char achar;
const QString r2, r3, r4, r5;
// short cuts for results
QString r;
std::string stdr;
};
//void operator%(QString, int) {}
int main(int argc, char *argv[])
{
//qDebug() << (QString("xx") * QLatin1String("y")).toString();
//42 % 3; // Sanity test, should always work.
//QString("x") % 2; // Sanity test, should only compile when the
// operator%(QString, int) is visible.
if (argc == 2 && (QLatin1String(argv[1]) == QLatin1String("--run-builder")
|| QLatin1String(argv[1]) == QLatin1String("-b"))) {
tst_qstringbuilder test;
return test.run_builder();
}
if (argc == 2 && (QLatin1String(argv[1]) == QLatin1String("--run-traditional")
|| QLatin1String(argv[1]) == QLatin1String("-t"))) {
tst_qstringbuilder test;
return test.run_traditional();
}
if (argc == 1) {
QCoreApplication app(argc, argv);
QStringList args = app.arguments();
tst_qstringbuilder test;
return QTest::qExec(&test, argc, argv);
}
qDebug() << "Usage: " << argv[0] << " [--run-builder|-r|--run-traditional|-t]";
}
#include "main.moc"