qt6windows7/tests/auto/other/qcomplextext/tst_qcomplextext.cpp

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2023-10-30 06:33:08 +08:00
// Copyright (C) 2016 The Qt Company Ltd.
// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only WITH Qt-GPL-exception-1.0
#include <QTest>
#include <QtGui/QtGui>
#include <private/qtextengine_p.h>
#include "bidireorderstring.h"
class tst_QComplexText : public QObject
{
Q_OBJECT
private slots:
void bidiReorderString_data();
void bidiReorderString();
void bidiCursor_qtbug2795();
void bidiCursor_PDF();
void bidiCursorMovement_data();
void bidiCursorMovement();
void bidiCursorLogicalMovement_data();
void bidiCursorLogicalMovement();
void bidiInvalidCursorNoMovement_data();
void bidiInvalidCursorNoMovement();
void bidiCharacterTest();
void bidiTest();
};
void tst_QComplexText::bidiReorderString_data()
{
QTest::addColumn<QString>("logical");
QTest::addColumn<QString>("VISUAL");
QTest::addColumn<int>("basicDir");
const LV *data = logical_visual;
while ( data->name ) {
//next we fill it with data
QTest::newRow( data->name )
<< QString::fromUtf8( data->logical )
<< QString::fromUtf8( data->visual )
<< (int) data->basicDir;
QTest::newRow( QByteArray(data->name) + " (doubled)" )
<< (QString::fromUtf8( data->logical ) + QChar(QChar::ParagraphSeparator) + QString::fromUtf8( data->logical ))
<< (QString::fromUtf8( data->visual ) + QChar(QChar::ParagraphSeparator) + QString::fromUtf8( data->visual ))
<< (int) data->basicDir;
data++;
}
QString isolateAndBoundary = QString(QChar(0x2068 /* DirFSI */)) + QChar(0x1c /* DirB */) + QChar(0x2069 /* DirPDI */);
QTest::newRow( "isolateAndBoundary" )
<< QString::fromUtf8( data->logical )
<< QString::fromUtf8( data->visual )
<< (int) QChar::DirL;
}
void tst_QComplexText::bidiReorderString()
{
QFETCH( QString, logical );
QFETCH( int, basicDir );
// replace \n with Unicode newline. The new algorithm ignores \n
logical.replace(QChar('\n'), QChar(0x2028));
QTextEngine e(logical, QFont());
e.option.setTextDirection((QChar::Direction)basicDir == QChar::DirL ? Qt::LeftToRight : Qt::RightToLeft);
e.itemize();
quint8 levels[256];
int visualOrder[256];
int nitems = e.layoutData->items.size();
int i;
for (i = 0; i < nitems; ++i) {
//qDebug("item %d bidiLevel=%d", i, e.items[i].analysis.bidiLevel);
levels[i] = e.layoutData->items[i].analysis.bidiLevel;
}
e.bidiReorder(nitems, levels, visualOrder);
QString visual;
for (i = 0; i < nitems; ++i) {
QScriptItem &si = e.layoutData->items[visualOrder[i]];
QString sub = logical.mid(si.position, e.length(visualOrder[i]));
if (si.analysis.bidiLevel % 2) {
// reverse sub
QChar *a = sub.data();
QChar *b = a + sub.size() - 1;
while (a < b) {
QChar tmp = *a;
*a = *b;
*b = tmp;
++a;
--b;
}
a = (QChar *)sub.unicode();
b = a + sub.size();
while (a<b) {
*a = a->mirroredChar();
++a;
}
}
visual += sub;
}
// replace Unicode newline back with \n to compare.
visual.replace(QChar(0x2028), QChar('\n'));
QTEST(visual, "VISUAL");
}
void tst_QComplexText::bidiCursor_qtbug2795()
{
QString str = QString::fromUtf8("الجزيرة نت");
QTextLayout l1(str);
l1.beginLayout();
l1.setCacheEnabled(true);
QTextLine line1 = l1.createLine();
l1.endLayout();
qreal x1 = line1.cursorToX(0) - line1.cursorToX(str.size());
str.append("1");
QTextLayout l2(str);
l2.setCacheEnabled(true);
l2.beginLayout();
QTextLine line2 = l2.createLine();
l2.endLayout();
qreal x2 = line2.cursorToX(0) - line2.cursorToX(str.size());
// The cursor should remain at the same position after a digit is appended
QCOMPARE(x1, x2);
}
void tst_QComplexText::bidiCursorMovement_data()
{
QTest::addColumn<QString>("logical");
QTest::addColumn<int>("basicDir");
const LV *data = logical_visual;
while ( data->name ) {
//next we fill it with data
QTest::newRow( data->name )
<< QString::fromUtf8( data->logical )
<< (int) data->basicDir;
data++;
}
}
void tst_QComplexText::bidiCursorMovement()
{
QFETCH(QString, logical);
QFETCH(int, basicDir);
QTextLayout layout(logical);
layout.setCacheEnabled(true);
QTextOption option = layout.textOption();
option.setTextDirection(basicDir == QChar::DirL ? Qt::LeftToRight : Qt::RightToLeft);
layout.setTextOption(option);
layout.setCursorMoveStyle(Qt::VisualMoveStyle);
bool moved;
int oldPos, newPos = 0;
qreal x, newX;
layout.beginLayout();
QTextLine line = layout.createLine();
layout.endLayout();
newX = line.cursorToX(0);
do {
oldPos = newPos;
x = newX;
newX = line.cursorToX(oldPos);
if (basicDir == QChar::DirL) {
QVERIFY(newX >= x);
newPos = layout.rightCursorPosition(oldPos);
} else
{
QVERIFY(newX <= x);
newPos = layout.leftCursorPosition(oldPos);
}
moved = (oldPos != newPos);
} while (moved);
}
void tst_QComplexText::bidiCursorLogicalMovement_data()
{
bidiCursorMovement_data();
}
void tst_QComplexText::bidiCursorLogicalMovement()
{
QFETCH(QString, logical);
QFETCH(int, basicDir);
QTextLayout layout(logical);
QTextOption option = layout.textOption();
option.setTextDirection(basicDir == QChar::DirL ? Qt::LeftToRight : Qt::RightToLeft);
layout.setTextOption(option);
bool moved;
int oldPos, newPos = 0;
do {
oldPos = newPos;
newPos = layout.nextCursorPosition(oldPos);
QVERIFY(newPos >= oldPos);
moved = (oldPos != newPos);
} while (moved);
do {
oldPos = newPos;
newPos = layout.previousCursorPosition(oldPos);
QVERIFY(newPos <= oldPos);
moved = (oldPos != newPos);
} while (moved);
}
void tst_QComplexText::bidiInvalidCursorNoMovement_data()
{
bidiCursorMovement_data();
}
void tst_QComplexText::bidiInvalidCursorNoMovement()
{
QFETCH(QString, logical);
QFETCH(int, basicDir);
QTextLayout layout(logical);
QTextOption option = layout.textOption();
option.setTextDirection(basicDir == QChar::DirL ? Qt::LeftToRight : Qt::RightToLeft);
layout.setTextOption(option);
// visual
QCOMPARE(layout.rightCursorPosition(-1000), -1000);
QCOMPARE(layout.rightCursorPosition(1000), 1000);
QCOMPARE(layout.leftCursorPosition(-1000), -1000);
QCOMPARE(layout.leftCursorPosition(1000), 1000);
// logical
QCOMPARE(layout.nextCursorPosition(-1000), -1000);
QCOMPARE(layout.nextCursorPosition(1000), 1000);
QCOMPARE(layout.previousCursorPosition(-1000), -1000);
QCOMPARE(layout.previousCursorPosition(1000), 1000);
}
void tst_QComplexText::bidiCursor_PDF()
{
QString str = QString::fromUtf8("\342\200\252hello\342\200\254");
QTextLayout layout(str);
layout.setCacheEnabled(true);
layout.beginLayout();
QTextLine line = layout.createLine();
layout.endLayout();
int size = str.size();
QVERIFY(line.cursorToX(size) == line.cursorToX(size - 1));
}
static void testBidiString(const QString &data, int paragraphDirection,
const QList<int> &resolvedLevels, const QList<int> &visualOrder)
{
Q_UNUSED(resolvedLevels);
QTextEngine e(data, QFont());
Qt::LayoutDirection pDir = Qt::LeftToRight;
if (paragraphDirection == 1)
pDir = Qt::RightToLeft;
else if (paragraphDirection == 2)
pDir = Qt::LayoutDirectionAuto;
e.option.setTextDirection(pDir);
e.itemize();
quint8 levels[1024];
int visual[1024];
int nitems = e.layoutData->items.size();
int i;
for (i = 0; i < nitems; ++i) {
//qDebug("item %d bidiLevel=%d", i, e.items[i].analysis.bidiLevel);
levels[i] = e.layoutData->items[i].analysis.bidiLevel;
}
e.bidiReorder(nitems, levels, visual);
QString visualString;
for (i = 0; i < nitems; ++i) {
QScriptItem &si = e.layoutData->items[visual[i]];
QString sub;
for (int j = si.position; j < si.position + e.length(visual[i]); ++j) {
switch (data.at(j).direction()) {
case QChar::DirLRE:
case QChar::DirRLE:
case QChar::DirLRO:
case QChar::DirRLO:
case QChar::DirPDF:
case QChar::DirBN:
continue;
default:
break;
}
sub += data.at(j);
}
// remove explicit embedding characters, as the test data has them removed as well
sub.remove(QChar(0x202a));
sub.remove(QChar(0x202b));
sub.remove(QChar(0x202c));
sub.remove(QChar(0x202d));
sub.remove(QChar(0x202e));
if (si.analysis.bidiLevel % 2) {
// reverse sub
QChar *a = sub.data();
QChar *b = a + sub.size() - 1;
while (a < b) {
QChar tmp = *a;
*a = *b;
*b = tmp;
++a;
--b;
}
a = (QChar *)sub.unicode();
b = a + sub.size();
// while (a<b) {
// *a = a->mirroredChar();
// ++a;
// }
}
visualString += sub;
}
QString expected;
// qDebug() << "expected visual order";
for (int i : visualOrder) {
// qDebug() << " " << i << hex << data[i].unicode();
expected.append(data[i]);
}
QCOMPARE(visualString, expected);
}
void tst_QComplexText::bidiCharacterTest()
{
QString testFile = QFINDTESTDATA("data/BidiCharacterTest.txt");
QFile f(testFile);
QVERIFY(f.exists());
f.open(QIODevice::ReadOnly);
int linenum = 0;
while (!f.atEnd()) {
linenum++;
QByteArray line = f.readLine().simplified();
if (line.startsWith('#') || line.isEmpty())
continue;
QVERIFY(!line.contains('#'));
QList<QByteArray> parts = line.split(';');
QVERIFY(parts.size() == 5);
QString data;
QList<QByteArray> dataParts = parts.at(0).split(' ');
for (const auto &p : dataParts) {
bool ok;
data += QChar((ushort)p.toInt(&ok, 16));
QVERIFY(ok);
}
int paragraphDirection = parts.at(1).toInt();
// int resolvedParagraphLevel = parts.at(2).toInt();
QList<int> resolvedLevels;
QList<QByteArray> levelParts = parts.at(3).split(' ');
for (const auto &p : levelParts) {
if (p == "x") {
resolvedLevels += -1;
} else {
bool ok;
resolvedLevels += p.toInt(&ok);
QVERIFY(ok);
}
}
QList<int> visualOrder;
QList<QByteArray> orderParts = parts.at(4).split(' ');
for (const auto &p : orderParts) {
bool ok;
visualOrder += p.toInt(&ok);
QVERIFY(ok);
}
const QByteArray nm = "line #" + QByteArray::number(linenum);
testBidiString(data, paragraphDirection, resolvedLevels, visualOrder);
}
}
ushort unicodeForDirection(const QByteArray &direction)
{
struct {
const char *string;
ushort unicode;
} dirToUnicode[] = {
{ "L", 0x41 },
{ "R", 0x5d0 },
{ "EN", 0x30 },
{ "ES", 0x2b },
{ "ET", 0x24 },
{ "AN", 0x660 },
{ "CS", 0x2c },
{ "B", '\n' },
{ "S", 0x9 },
{ "WS", 0x20 },
{ "ON", 0x2a },
{ "LRE", 0x202a },
{ "LRO", 0x202d },
{ "AL", 0x627 },
{ "RLE", 0x202b },
{ "RLO", 0x202e },
{ "PDF", 0x202c },
{ "NSM", 0x300 },
{ "BN", 0xad },
{ "LRI", 0x2066 },
{ "RLI", 0x2067 },
{ "FSI", 0x2068 },
{ "PDI", 0x2069 }
};
for (const auto &e : dirToUnicode) {
if (e.string == direction)
return e.unicode;
}
Q_UNREACHABLE();
}
void tst_QComplexText::bidiTest()
{
QString testFile = QFINDTESTDATA("data/BidiTest.txt");
QFile f(testFile);
QVERIFY(f.exists());
f.open(QIODevice::ReadOnly);
int linenum = 0;
QList<int> resolvedLevels;
QList<int> visualOrder;
while (!f.atEnd()) {
linenum++;
QByteArray line = f.readLine().simplified();
if (line.startsWith('#') || line.isEmpty())
continue;
QVERIFY(!line.contains('#'));
if (line.startsWith("@Levels:")) {
line = line.mid(strlen("@Levels:")).simplified();
resolvedLevels.clear();
QList<QByteArray> levelParts = line.split(' ');
for (const auto &p : levelParts) {
if (p == "x") {
resolvedLevels += -1;
} else {
bool ok;
resolvedLevels += p.toInt(&ok);
QVERIFY(ok);
}
}
continue;
} else if (line.startsWith("@Reorder:")) {
line = line.mid(strlen("@Reorder:")).simplified();
visualOrder.clear();
QList<QByteArray> orderParts = line.split(' ');
for (const auto &p : orderParts) {
if (p.isEmpty())
continue;
bool ok;
visualOrder += p.toInt(&ok);
QVERIFY(ok);
}
continue;
}
QList<QByteArray> parts = line.split(';');
Q_ASSERT(parts.size() == 2);
QString data;
QList<QByteArray> dataParts = parts.at(0).split(' ');
for (const auto &p : dataParts) {
ushort uc = unicodeForDirection(p);
data += QChar(uc);
}
int paragraphDirections = parts.at(1).toInt();
const QByteArray nm = "line #" + QByteArray::number(linenum);
if (paragraphDirections & 1)
testBidiString(data, 2, resolvedLevels, visualOrder);
if (paragraphDirections & 2)
testBidiString(data, 0, resolvedLevels, visualOrder);
if (paragraphDirections & 4)
testBidiString(data, 1, resolvedLevels, visualOrder);
}
}
QTEST_MAIN(tst_QComplexText)
#include "tst_qcomplextext.moc"