void PrettyPrinter::special_print(const Store* store,
std::ostream& outStream,
const std::string tableName,
const size_t& limit,
const size_t& start) {
ftprinter::FTPrinter tp(tableName, outStream);
tp.addColumn("#rowid", 6);
const size_t columns = store->columnCount();
// TODO: how about using limit=0 as parameter to print whole table instead of strange -1 for unsigned?
auto prepareLimit = (limit < (size_t) - 1) ? std::min(limit, store->size()) : store->size();
for (size_t column_index = 0; column_index < columns; ++column_index) {
// Auto adjusting widths means iterating over the table twice, but we use it for
// debugging purposes only, anyways, so we'll go with beauty of output here
auto name = store->nameOfColumn(column_index);
size_t width = std::accumulate(RangeIter(0),
RangeIter(prepareLimit),
// minimum width is 4
name.size() > 4 ? name.size() : 4,
[&](size_t max, const size_t row)->size_t {
size_t sz = generateValue(store, column_index, row).size();
return sz > max ? sz : max;
});
tp.addColumn(name, width);
}
tp.addColumn("$tid", 6);
tp.addColumn("$cidbeg", 6);
tp.addColumn("$cidend", 6);
if (limit < (size_t) - 1) {
outStream << "(showing first " << limit << " rows)" << std::endl;
}
if (tableName.size() > 0)
tp.printTableName();
tp.printHeader();
for (size_t row = start; row < store->size() && row < limit; ++row) {
tp << row;
for (size_t column = 0; column < columns; ++column) {
tp << generateValue(store, column, row);
}
writeTid(tp, store->_tidVector[row]);
writeCid(tp, store->_cidBeginVector[row]);
writeCid(tp, store->_cidEndVector[row]);
}
tp.printFooter();
}
int main (void) {
int arraySize;
printf("Enter the array size: ");
scanf("%d", &arraySize);
int matrix[arraySize][arraySize];
for (int i = 0; i < arraySize; i++) {
for (int j = 0; j < arraySize; j++) {
matrix[i][j] = generateValue(i, j, matrix);
}
}
for (int i = 0; i < arraySize; i++) {
for (int ii = 0; ii < arraySize; ii++) {
printf("\t%d", matrix[i][ii]);
}
printf("\n");
}
return 0;
}
double Oscillator::tick()
{
generateValue();
curAngle += angleDelta;
if (curAngle > 2.0 * double_Pi) {
curAngle -= 2.0 * double_Pi;
}
return value;
}
void PrettyPrinter::special_print(T& input,
std::ostream& outStream,
const std::string tableName,
const size_t& limit,
const size_t& start) {
ftprinter::FTPrinter tp(tableName, outStream);
tp.addColumn("#rowid", 6);
auto prepareLimit = (limit < (size_t) - 1) ? std::min(limit, input->size()) : input->size();
const size_t columns = input->columnCount();
for (size_t column_index = 0; column_index < columns; ++column_index) {
// Auto adjusting widths means iterating over the table twice, but we use it for
// debugging purposes only, anyways, so we'll go with beauty of output here
auto name = input->nameOfColumn(column_index);
size_t width = std::accumulate(RangeIter(0),
RangeIter(prepareLimit),
// minimum width is 4
name.size() > 4 ? name.size() : 4,
[&](size_t max, const size_t & row)->size_t {
size_t sz = generateValue(input, column_index, row).size();
return sz > max ? sz : max;
});
tp.addColumn(name, width);
}
if (limit < (size_t) - 1) {
outStream << "(showing first " << limit << " of " << input->size() << " rows)" << std::endl;
}
if (tableName.size() > 0)
tp.printTableName();
tp.printHeader();
for (size_t row = start; row < input->size() && row < limit; ++row) {
tp << row;
for (size_t column = 0; column < columns; ++column) {
tp << generateValue(input, column, row);
}
}
tp.printFooter();
}
int generateP_A(str a){
if(isNumber(a)){
generateValue(a);
}else{
int AvarIndex=variableManager.getItemIndex(a);
if(AvarIndex==-1){
// jezeli nie istnieje zmienna a
AvarIndex=constantManager.getItemIndex(a);
if(AvarIndex==-1){
if(ERR)printf("*******ARITH OP NIE ZNALEZIONO");
return -1;
}else{
generateValue(constantManager.getItemValue(AvarIndex));
// generuj wartosc stalej
}
}else{ // jezeli istnieje zmienna
char temp[50];
sprintf(temp, "LOAD %d", AvarIndex);
addCodeLine(temp);
}
}
return 0;
}
void PrettyPrinter::printDiff(const c_atable_ptr_t& input,
const TableDiff& diff,
std::ostream& outStream,
const std::string tableName,
const size_t& limit,
const size_t& start) {
ftprinter::FTPrinter tp(tableName, outStream);
tp.addColumn("#rowid", 6);
const size_t columns = input->columnCount();
for (size_t column_index = 0; column_index < columns; ++column_index) {
// Auto adjusting widths means iterating over the table twice, but we use it for
// debugging purposes only, anyways, so we'll go with beauty of output here
auto name = input->nameOfColumn(column_index);
size_t width = std::accumulate(RangeIter(0),
RangeIter(input->size()),
// minimum width is 4
name.size() > 4 ? name.size() : 4,
[&](size_t max, const size_t & row)->size_t {
size_t sz = generateValue(input, column_index, row).size();
return sz > max ? sz : max;
});
ftprinter::PrintFormat format = ftprinter::format::basic;
if (diff.fields[column_index] == TableDiff::FieldWrong)
format = ftprinter::format::red;
else if (diff.fields[column_index] == TableDiff::FieldWrongType)
format = ftprinter::format::magenta;
tp.addColumn(name, width, format);
}
outStream << std::endl;
if (limit < (size_t) - 1) {
outStream << "(showing first " << limit << " rows)" << std::endl;
}
auto iWrong = diff.wrongRows.begin();
auto iFalsePos = diff.falsePositionRows.begin();
while (iWrong != diff.wrongRows.end() && *iWrong < start)
iWrong++;
while (iFalsePos != diff.falsePositionRows.end() && (*iFalsePos).first < start)
iFalsePos++;
if (tableName.size() > 0)
tp.printTableName();
tp.printHeader();
for (size_t row = start; row < input->size() && row < limit; ++row) {
tp << row;
if (iWrong != diff.wrongRows.end() && *iWrong == row) {
tp << ftprinter::format::red;
iWrong++;
}
if (iFalsePos != diff.falsePositionRows.end() && (*iFalsePos).first == row) {
tp << ftprinter::format::yellow;
iFalsePos++;
}
for (field_t column = 0; column < columns; ++column) {
tp << generateValue(input, column, row);
}
}
tp.printFooter();
};
