ESGRAF48/source/SubTests/V2Svk/V2SvkModel.cpp

348 lines
12 KiB
C++

#include "V2SvkModel.h"
#include <QTextTable>
V2SvkModel::V2SvkModel(QObject *parent)
: CheckableTestModel(parent)
{
m_tests = {
{"W-Fragen",
{"Affe", "Affe", "Affe", "Affe", "Schwein", "Schwein", "Schwein", "Schwein", "Gans",
"Gans", "Gans", "Gans"}},
{"Verbtrennung", {"", "Affe", "", "", "", "", "", "Schwein", "", "", "Gans", ""}},
{"SVK: /-st/",
{"Affe", "Affe", "Affe", "Affe", "Schwein", "Schwein", "Schwein", "Schwein", "Gans",
"Gans", "Gans", "Gans"}},
{"Objekt-Topikalisierung",
{"Affe", "Affe", "Affe", "Affe", "Schwein", "Schwein", "Schwein", "Schwein", "Gans",
"Gans", "Gans", "Gans"}},
{"SVK: Stamm",
{"Affe", "Affe", "Affe", "Affe", "Schwein", "Schwein", "Schwein", "Schwein", "Gans",
"Gans", "Gans", "Gans"}},
{"Temporaladverb Präsens", {"Affe", "Affe", "Schwein", "Schwein", "Gans", "Gans"}},
{"SKV: /-e/ o. Stamm", {"Affe", "Affe", "Schwein", "Schwein", "Gans", "Gans"}},
{"Temporaladverb Perfekt", {"Affe", "Affe", "Schwein", "Schwein", "Gans", "Gans"}},
{"Verbtrennung", {"Affe", "Affe", "Schwein", "Schwein", "Gans", "Gans"}},
{"SVK: /-e/ o. Stamm", {"Affe", "Affe", "Schwein", "Schwein", "Gans", "Gans"}},
{"Partizip", {"Affe", "Affe", "Schwein", "Schwein", "Gans", "Gans"}},
};
}
unsigned int V2SvkModel::getV2Points() const
{
unsigned int points = 0;
for (auto testIndex : {0, 1, 3, 5, 7, 8})
{
const auto &test = m_tests.at(testIndex);
for (const auto &item : test.items())
{
if (item.isChecked())
{
points++;
}
}
}
return points;
}
unsigned int V2SvkModel::getSvkPoints() const
{
unsigned int points = 0;
for (auto testIndex : {2, 4, 6, 9, 10})
{
const auto &test = m_tests.at(testIndex);
for (const auto &item : test.items())
{
if (item.isChecked())
{
points++;
}
}
}
return points;
}
bool V2SvkModel::isValidIndex(const QModelIndex &index) const
{
switch (index.row())
{
case 1:
return index.column() == 1 || index.column() == 7 || index.column() == 10;
case 5:
case 6:
case 7:
case 8:
case 9:
case 10:
return index.column() < 6;
default:
return CheckableTestModel::isValidIndex(index);
}
}
void V2SvkModel::write(ESGRAF48::V2SvkModel &model) const
{
auto writeOneVal = [&](ESGRAF48::V2SvkModel::OneEach *modelData, int testIndex) {
if (modelData != nullptr)
{
const auto &testItems = m_tests.at(testIndex).items();
modelData->set_affe(testItems[1].isChecked());
modelData->set_schwein(testItems[7].isChecked());
modelData->set_gans(testItems[10].isChecked());
}
};
auto writeTwoVals = [&](ESGRAF48::V2SvkModel::TwoEach *modelData, int testIndex) {
if (modelData != nullptr)
{
const auto &testItems = m_tests.at(testIndex).items();
modelData->set_affe1(testItems[0].isChecked());
modelData->set_affe2(testItems[1].isChecked());
modelData->set_schwein1(testItems[2].isChecked());
modelData->set_schwein2(testItems[3].isChecked());
modelData->set_gans1(testItems[4].isChecked());
modelData->set_gans2(testItems[5].isChecked());
}
};
auto writeFourVals = [&](ESGRAF48::V2SvkModel::FourEach *modelData, int testIndex) {
if (modelData != nullptr)
{
const auto &testItems = m_tests.at(testIndex).items();
modelData->set_affe1(testItems[0].isChecked());
modelData->set_affe2(testItems[1].isChecked());
modelData->set_affe3(testItems[2].isChecked());
modelData->set_affe4(testItems[3].isChecked());
modelData->set_schwein1(testItems[4].isChecked());
modelData->set_schwein2(testItems[5].isChecked());
modelData->set_schwein3(testItems[6].isChecked());
modelData->set_schwein4(testItems[7].isChecked());
modelData->set_gans1(testItems[8].isChecked());
modelData->set_gans2(testItems[9].isChecked());
modelData->set_gans3(testItems[10].isChecked());
modelData->set_gans4(testItems[11].isChecked());
}
};
writeFourVals(model.mutable_wfrage(), 0);
writeOneVal(model.mutable_verbtrennung1(), 1);
writeFourVals(model.mutable_svkst(), 2);
writeFourVals(model.mutable_objtop(), 3);
writeFourVals(model.mutable_svkstamm(), 4);
writeTwoVals(model.mutable_temppraes(), 5);
writeTwoVals(model.mutable_svke1(), 6);
writeTwoVals(model.mutable_tempperf(), 7);
writeTwoVals(model.mutable_verbtrennung2(), 8);
writeTwoVals(model.mutable_svke2(), 9);
writeTwoVals(model.mutable_partizip(), 10);
}
void V2SvkModel::read(const ESGRAF48::V2SvkModel &model)
{
auto readOneVal = [&](const ESGRAF48::V2SvkModel::OneEach &modelData, int testIndex) {
auto &testItems = m_tests.at(testIndex).items();
testItems[1].setState(modelData.affe());
testItems[7].setState(modelData.schwein());
testItems[10].setState(modelData.gans());
};
auto readTwoVals = [&](const ESGRAF48::V2SvkModel::TwoEach &modelData, int testIndex) {
auto &testItems = m_tests.at(testIndex).items();
testItems[0].setState(modelData.affe1());
testItems[1].setState(modelData.affe2());
testItems[2].setState(modelData.schwein1());
testItems[3].setState(modelData.schwein2());
testItems[4].setState(modelData.gans1());
testItems[5].setState(modelData.gans2());
};
auto readFourVals = [&](const ESGRAF48::V2SvkModel::FourEach &modelData, int testIndex) {
auto &testItems = m_tests.at(testIndex).items();
testItems[0].setState(modelData.affe1());
testItems[1].setState(modelData.affe2());
testItems[2].setState(modelData.affe3());
testItems[3].setState(modelData.affe4());
testItems[4].setState(modelData.schwein1());
testItems[5].setState(modelData.schwein2());
testItems[6].setState(modelData.schwein3());
testItems[7].setState(modelData.schwein4());
testItems[8].setState(modelData.gans1());
testItems[9].setState(modelData.gans2());
testItems[10].setState(modelData.gans3());
testItems[11].setState(modelData.gans4());
};
readFourVals(model.wfrage(), 0);
readOneVal(model.verbtrennung1(), 1);
readFourVals(model.svkst(), 2);
readFourVals(model.objtop(), 3);
readFourVals(model.svkstamm(), 4);
readTwoVals(model.temppraes(), 5);
readTwoVals(model.svke1(), 6);
readTwoVals(model.tempperf(), 7);
readTwoVals(model.verbtrennung2(), 8);
readTwoVals(model.svke2(), 9);
readTwoVals(model.partizip(), 10);
emit dataChanged(index(0, 0), index(rowCount() - 1, columnCount() - 1));
}
std::string V2SvkModel::getName() const
{
return "Subtest 1: Verbzweitstellungsregel (V2) und Subjekt-Verb-Kontrollregel (SVK)";
}
void V2SvkModel::printTableTo(QTextCursor &cursor) const
{
QTextTableFormat tableFormat12 = defaultTableFormat();
tableFormat12.setColumnWidthConstraints({QTextLength(QTextLength::PercentageLength, 20),
QTextLength(QTextLength::PercentageLength, 5),
QTextLength(QTextLength::PercentageLength, 5),
QTextLength(QTextLength::PercentageLength, 5),
QTextLength(QTextLength::PercentageLength, 5),
QTextLength(QTextLength::PercentageLength, 5),
QTextLength(QTextLength::PercentageLength, 5),
QTextLength(QTextLength::PercentageLength, 5),
QTextLength(QTextLength::PercentageLength, 5),
QTextLength(QTextLength::PercentageLength, 5),
QTextLength(QTextLength::PercentageLength, 5),
QTextLength(QTextLength::PercentageLength, 5),
QTextLength(QTextLength::PercentageLength, 5),
QTextLength(QTextLength::PercentageLength, 13),
QTextLength(QTextLength::PercentageLength, 3),
QTextLength(QTextLength::PercentageLength, 1),
QTextLength(QTextLength::PercentageLength, 3)});
QTextTableFormat tableFormat6 = defaultTableFormat();
tableFormat6.setColumnWidthConstraints({QTextLength(QTextLength::PercentageLength, 20),
QTextLength(QTextLength::PercentageLength, 10),
QTextLength(QTextLength::PercentageLength, 10),
QTextLength(QTextLength::PercentageLength, 10),
QTextLength(QTextLength::PercentageLength, 10),
QTextLength(QTextLength::PercentageLength, 10),
QTextLength(QTextLength::PercentageLength, 10),
QTextLength(QTextLength::PercentageLength, 13),
QTextLength(QTextLength::PercentageLength, 3),
QTextLength(QTextLength::PercentageLength, 1),
QTextLength(QTextLength::PercentageLength, 3)});
auto writeHeader = [](QTextTable *table, const CheckableTest &test, int colSpan) {
table->mergeCells(0, 0, 2, 1);
int column = 1;
for (auto it = std::begin(test.items()); it != std::end(test.items());
std::advance(it, colSpan))
{
table->mergeCells(0, column, 1, colSpan);
setCellText(*table, 0, column, it->getText().c_str());
column += colSpan;
}
};
auto writeLine = [](QTextTable *table, const CheckableTest &test, int row, int resultColumn) {
int column = 0;
setCellText(*table, row, column, test.name());
for (const auto item : test.items())
{
column++;
if (item.getText().empty())
{
setCellBackground(*table, row, column, QColor(92, 92, 92));
}
else
{
setCellChecked(*table, row, column, item.isChecked());
}
}
setCellNumber(*table, row, resultColumn, test.getPoints());
};
{
QTextTable *table = cursor.insertTable(4, 17, tableFormat12);
writeHeader(table, m_tests[0], 4);
writeLine(table, m_tests[0], 1, 14);
writeLine(table, m_tests[1], 2, 14);
writeLine(table, m_tests[2], 3, 16);
}
cursor.movePosition(QTextCursor::End);
cursor.insertBlock();
cursor.insertText("\n");
{
QTextTable *table = cursor.insertTable(3, 17, tableFormat12);
writeHeader(table, m_tests[3], 4);
writeLine(table, m_tests[3], 1, 14);
writeLine(table, m_tests[4], 2, 16);
}
cursor.movePosition(QTextCursor::End);
cursor.insertBlock();
cursor.insertText("\n");
{
QTextTable *table = cursor.insertTable(3, 11, tableFormat6);
writeHeader(table, m_tests[5], 2);
writeLine(table, m_tests[5], 1, 8);
writeLine(table, m_tests[6], 2, 10);
}
cursor.movePosition(QTextCursor::End);
cursor.insertBlock();
cursor.insertText("\n");
{
QTextTable *table = cursor.insertTable(5, 11, tableFormat6);
writeHeader(table, m_tests[7], 2);
writeLine(table, m_tests[7], 1, 8);
writeLine(table, m_tests[8], 2, 8);
writeLine(table, m_tests[9], 3, 10);
writeLine(table, m_tests[10], 4, 10);
}
}
void V2SvkModel::printSummaryTo(QTextCursor &cursor) const
{
QTextTableFormat tableFormat = defaultTableFormat();
tableFormat.setColumnWidthConstraints({QTextLength(QTextLength::PercentageLength, 72),
QTextLength(QTextLength::PercentageLength, 20),
QTextLength(QTextLength::PercentageLength, 1),
QTextLength(QTextLength::PercentageLength, 3),
QTextLength(QTextLength::PercentageLength, 1),
QTextLength(QTextLength::PercentageLength, 3)});
QTextTable *table = cursor.insertTable(1, 6, tableFormat);
setCellText(*table, 0, 1, "Rohwertpunkte Total:");
setCellNumber(*table, 0, 3, getV2Points());
setCellNumber(*table, 0, 5, getSvkPoints());
}