diff options
Diffstat (limited to 'src/devices')
24 files changed, 146 insertions, 146 deletions
diff --git a/src/devices/base/device_group.cpp b/src/devices/base/device_group.cpp index fa26d19..db70264 100644 --- a/src/devices/base/device_group.cpp +++ b/src/devices/base/device_group.cpp @@ -232,8 +232,8 @@ TQString Device::htmlInfo(const Device::Data &data, const TQString &deviceHref, if ( i!=0 ) s += ", "; if ( deviceHref.isEmpty() ) s += data.alternatives()[i].upper(); else { - TQString href = deviceHref.tqarg(data.alternatives()[i].upper()); - s += TQString("<a href=\"%1\">%2</a>").tqarg(href).tqarg(data.alternatives()[i].upper()); + TQString href = deviceHref.arg(data.alternatives()[i].upper()); + s += TQString("<a href=\"%1\">%2</a>").arg(href).arg(data.alternatives()[i].upper()); } } doc += htmlTableRow(i18n("Alternatives"), s); @@ -247,7 +247,7 @@ TQString Device::htmlInfo(const Device::Data &data, const TQString &deviceHref, TQString s; for (uint i=0; i<data.packages().count(); i++) for (uint k=0; k<data.packages()[i].types.count(); k++) - s += i18n(Package::TYPE_DATA[data.packages()[i].types[k]].label) + TQString("[%1] ").tqarg(data.packages()[i].pins.count()); + s += i18n(Package::TYPE_DATA[data.packages()[i].types[k]].label) + TQString("[%1] ").arg(data.packages()[i].pins.count()); doc += htmlTableRow(i18n("Packaging"), s); doc += "</table>"; @@ -260,7 +260,7 @@ TQString Device::htmlPinDiagrams(const Device::Data &data, const TQString &image // pins const Package *package = 0; for (uint i=0; Package::TYPE_DATA[i].name; i++) { - if ( Package::TYPE_DATA[i].tqshape!=Package::Bar ) continue; + if ( Package::TYPE_DATA[i].shape!=Package::Bar ) continue; package = barPackage(Package::TYPE_DATA[i].name, data); if (package) break; } diff --git a/src/devices/base/generic_device.h b/src/devices/base/generic_device.h index 4b52060..373601c 100644 --- a/src/devices/base/generic_device.h +++ b/src/devices/base/generic_device.h @@ -70,7 +70,7 @@ public: enum { MAX_NB = 9 }; struct TypeData { const char *name, *label; - Shape tqshape; + Shape shape; uint nbPins[MAX_NB]; }; static const TypeData TYPE_DATA[]; diff --git a/src/devices/base/generic_memory.cpp b/src/devices/base/generic_memory.cpp index 54190f5..6430497 100644 --- a/src/devices/base/generic_memory.cpp +++ b/src/devices/base/generic_memory.cpp @@ -31,7 +31,7 @@ Device::Memory::WarningTypes Device::Memory::fromHexBuffer(const HexBuffer &hb, if ( !it.data().isInitialized() || inRange[it.key()] ) continue; if ( !(result & ValueOutsideRange) ) { result |= ValueOutsideRange; - warnings += i18n("At least one value (at address %1) is defined outside memory ranges.").tqarg(toHexLabel(it.key(), 8)); + warnings += i18n("At least one value (at address %1) is defined outside memory ranges.").arg(toHexLabel(it.key(), 8)); } break; } diff --git a/src/devices/base/hex_buffer.cpp b/src/devices/base/hex_buffer.cpp index f389c92..3307f79 100644 --- a/src/devices/base/hex_buffer.cpp +++ b/src/devices/base/hex_buffer.cpp @@ -136,10 +136,10 @@ bool HexBuffer::fetchNextBlock(const_iterator& it, const const_iterator &end, in TQString HexBuffer::ErrorData::message() const { switch (type) { - case UnrecognizedFormat: return i18n("Unrecognized format (line %1).").tqarg(line); + case UnrecognizedFormat: return i18n("Unrecognized format (line %1).").arg(line); case UnexpectedEOF: return i18n("Unexpected end-of-file."); - case UnexpectedEOL: return i18n("Unexpected end-of-line (line %1).").tqarg(line); - case WrongCRC: return i18n("CRC mismatch (line %1).").tqarg(line); + case UnexpectedEOL: return i18n("Unexpected end-of-line (line %1).").arg(line); + case WrongCRC: return i18n("CRC mismatch (line %1).").arg(line); } Q_ASSERT(false); return TQString(); diff --git a/src/devices/base/register.cpp b/src/devices/base/register.cpp index 946f668..d6ff59c 100644 --- a/src/devices/base/register.cpp +++ b/src/devices/base/register.cpp @@ -48,7 +48,7 @@ Register::Type Register::TypeData::type() const TQString Register::TypeData::toString() const { - return TQString("%1 %2 %3").tqarg(toLabel(_address)).tqarg(_nbChars).tqarg(_name); + return TQString("%1 %2 %3").arg(toLabel(_address)).arg(_nbChars).arg(_name); } Register::TypeData Register::TypeData::fromString(const TQString &s) diff --git a/src/devices/gui/register_view.cpp b/src/devices/gui/register_view.cpp index b59fbb3..bd444c9 100644 --- a/src/devices/gui/register_view.cpp +++ b/src/devices/gui/register_view.cpp @@ -43,7 +43,7 @@ void Register::PortBitListViewItem::updateView() else text += (pdata[_bit].drivenState==Device::IoHigh ? "1" : "0"); } setText(2, text); - tqrepaint(); + repaint(); } void Register::PortBitListViewItem::paintCell(TQPainter *p, const TQColorGroup &cg, int column, int width, int align) @@ -114,7 +114,7 @@ void Register::ListViewItem::updateView() if ( _data.type()!=Special ) setText(0, toHexLabel(_data.address(), nbCharsAddress()) + ":"); setText(1, label()); setText(2, text()); - tqrepaint(); + repaint(); for (uint i=0; i<_items.count(); i++) _items[i]->updateView(); } @@ -145,8 +145,8 @@ TQString Register::ListViewItem::tooltip(int col) const if ( isprint(c) ) s = c + s; else s = "." + s; } - return TQString("%1 - %2 - \"%3\"").tqarg(toHexLabel(value, _data.nbChars())) - .tqarg(toLabel(NumberBase::Bin, value, 4*_data.nbChars())).tqarg(s); + return TQString("%1 - %2 - \"%3\"").arg(toHexLabel(value, _data.nbChars())) + .arg(toLabel(NumberBase::Bin, value, 4*_data.nbChars())).arg(s); } TQWidget *Register::ListViewItem::editWidgetFactory(int col) const diff --git a/src/devices/mem24/mem24/mem24_group.cpp b/src/devices/mem24/mem24/mem24_group.cpp index f396027..00ca072 100644 --- a/src/devices/mem24/mem24/mem24_group.cpp +++ b/src/devices/mem24/mem24/mem24_group.cpp @@ -18,7 +18,7 @@ Device::Memory *Mem24::Group::createMemory(const Device::Data &data) const TQString Mem24::Group::informationHtml(const Device::Data &data) const { const Mem24::Data &mdata = static_cast<const Mem24::Data &>(data); - TQString tmp = i18n("%1 bytes").tqarg(formatNumber(mdata.nbBytes())); + TQString tmp = i18n("%1 bytes").arg(formatNumber(mdata.nbBytes())); return htmlTableRow(i18n("Memory Size"), tmp); } @@ -35,7 +35,7 @@ TQPixmap Mem24::Group::memoryGraph(const Device::Data &data) const data.endAddress = offset - 1; data.start = toHexLabel(data.startAddress, mdata.nbCharsAddress()); data.end = toHexLabel(data.endAddress, mdata.nbCharsAddress()); - data.label = i18n("Block #%1").tqarg(i+1); + data.label = i18n("Block #%1").arg(i+1); ranges.append(data); } return Device::memoryGraph(ranges); diff --git a/src/devices/mem24/mem24/mem24_memory.cpp b/src/devices/mem24/mem24/mem24_memory.cpp index f3ce758..aba1cbf 100644 --- a/src/devices/mem24/mem24/mem24_memory.cpp +++ b/src/devices/mem24/mem24/mem24_memory.cpp @@ -84,7 +84,7 @@ void Mem24::Memory::fromHexBuffer(const HexBuffer &hb, WarningTypes &result, if ( !(result & ValueTooLarge) && !_data[k].isInside(mask) ) { result |= ValueTooLarge; warnings += i18n("At least one word (at offset %1) is larger (%2) than the corresponding mask (%3).") - .tqarg(toHexLabel(k, 8)).tqarg(toHexLabel(_data[k], 8)).tqarg(toHexLabel(mask, 8)); + .arg(toHexLabel(k, 8)).arg(toHexLabel(_data[k], 8)).arg(toHexLabel(mask, 8)); } _data[k] = _data[k].maskWith(mask); } diff --git a/src/devices/mem24/prog/mem24_prog.cpp b/src/devices/mem24/prog/mem24_prog.cpp index 82c596c..4c4b201 100644 --- a/src/devices/mem24/prog/mem24_prog.cpp +++ b/src/devices/mem24/prog/mem24_prog.cpp @@ -38,9 +38,9 @@ bool Programmer::Mem24DeviceSpecific::verifyByte(uint index, BitValue d, const V Address address = index; if ( vdata.actions & BlankCheckVerify ) log(Log::LineType::Error, i18n("Device memory is not blank (at address %1: reading %2 and expecting %3).") - .tqarg(toHexLabel(address, device().nbCharsAddress())).tqarg(toHexLabel(d, 2)).tqarg(toHexLabel(v, 2))); + .arg(toHexLabel(address, device().nbCharsAddress())).arg(toHexLabel(d, 2)).arg(toHexLabel(v, 2))); else log(Log::LineType::Error, i18n("Device memory doesn't match hex file (at address %1: reading %2 and expecting %3).") - .tqarg(toHexLabel(address, device().nbCharsAddress())).tqarg(toHexLabel(d, 2)).tqarg(toHexLabel(v, 2))); + .arg(toHexLabel(address, device().nbCharsAddress())).arg(toHexLabel(d, 2)).arg(toHexLabel(v, 2))); return false; } diff --git a/src/devices/mem24/xml/mem24_xml_to_data.cpp b/src/devices/mem24/xml/mem24_xml_to_data.cpp index 81fd7bb..6e41c7b 100644 --- a/src/devices/mem24/xml/mem24_xml_to_data.cpp +++ b/src/devices/mem24/xml/mem24_xml_to_data.cpp @@ -49,7 +49,7 @@ virtual void checkPins(const TQMap<TQString, uint> &pinLabels) const if ( !pinLabels.contains("VSS") ) qFatal("No VSS pin specified"); TQMap<TQString, uint>::const_iterator it; for (it=pinLabels.begin(); it!=pinLabels.end(); ++it) - if ( it.data()!=1 ) qFatal(TQString("Duplicated pin %1").tqarg(it.key())); + if ( it.data()!=1 ) qFatal(TQString("Duplicated pin %1").arg(it.key())); } }; // class diff --git a/src/devices/pic/base/pic.cpp b/src/devices/pic/base/pic.cpp index 94267e2..75e6bf4 100644 --- a/src/devices/pic/base/pic.cpp +++ b/src/devices/pic/base/pic.cpp @@ -212,17 +212,17 @@ TQStringList Pic::Data::idNames(const TQMap<TQString, Device::IdData> &ids) cons case Architecture::P18C: case Architecture::P18F: case Architecture::P18J: - list += i18n("%1 (rev. %2)").tqarg(it.key()).tqarg(toLabel(it.data().revision)); + list += i18n("%1 (rev. %2)").arg(it.key()).arg(toLabel(it.data().revision)); break; case Architecture::P24F: - list += i18n("%1 (rev. %2.%3)").tqarg(it.key()).tqarg(toLabel(it.data().revision)).tqarg(toLabel(it.data().minorRevision)); + list += i18n("%1 (rev. %2.%3)").arg(it.key()).arg(toLabel(it.data().revision)).arg(toLabel(it.data().minorRevision)); break; case Architecture::P30F: - list += i18n("%1 (proc. %2; rev. %3.%4)").tqarg(it.key()).tqarg(toLabel(it.data().process)).tqarg(toLabel(it.data().revision)).tqarg(toLabel(it.data().minorRevision)); + list += i18n("%1 (proc. %2; rev. %3.%4)").arg(it.key()).arg(toLabel(it.data().process)).arg(toLabel(it.data().revision)).arg(toLabel(it.data().minorRevision)); break; case Architecture::P24H: case Architecture::P33F: - list += i18n("%1 (rev. %2)").tqarg(it.key()).tqarg(toLabel(it.data().revision)); + list += i18n("%1 (rev. %2)").arg(it.key()).arg(toLabel(it.data().revision)); break; case Architecture::Nb_Types: Q_ASSERT(false); break; } @@ -236,14 +236,14 @@ bool Pic::Data::checkCalibration(const Device::Array &data, TQString *message) c for (uint i=0; i<data.count(); i++) { TQString address = toHexLabel(range(MemoryRangeType::Cal).start + i*addressIncrement(MemoryRangeType::Cal), nbCharsAddress()); if ( data[i]==mask(MemoryRangeType::Cal) ) { - if (message) *message = i18n("Calibration word at address %1 is blank.").tqarg(address); + if (message) *message = i18n("Calibration word at address %1 is blank.").arg(address); return false; } } if ( data.count()==1 ) { if ( data[0].maskWith(_calibration.opcodeMask)!=_calibration.opcode ) { if (message) *message = i18n("Calibration word is not a compatible opcode (%2).") - .tqarg(toHexLabel(_calibration.opcode, nbCharsWord(MemoryRangeType::Code))); + .arg(toHexLabel(_calibration.opcode, nbCharsWord(MemoryRangeType::Code))); return false; } } diff --git a/src/devices/pic/base/pic_config.cpp b/src/devices/pic/base/pic_config.cpp index 39c865f..f18955d 100644 --- a/src/devices/pic/base/pic_config.cpp +++ b/src/devices/pic/base/pic_config.cpp @@ -289,7 +289,7 @@ TQMap<TQString, Pic::Config::MapData> &Pic::Config::masks() (*_masks)[DATA[i].mask.name] = MapData(i, -1); if ( DATA[i].type==MemoryRange ) { for (uint k=0; k<Protection::MAX_NB_BLOCKS; k++) - (*_masks)[TQString("%1_%2").tqarg(DATA[i].mask.name).tqarg(k)] = MapData(i, k); + (*_masks)[TQString("%1_%2").arg(DATA[i].mask.name).arg(k)] = MapData(i, k); } } } @@ -305,7 +305,7 @@ TQString Pic::Config::maskLabel(const TQString &mask) { const MapData &mp = masks()[mask]; TQString s = i18n(DATA[mp.index].mask.label); - if ( mp.block>=0 ) return i18n("%1 for block %2").tqarg(s).tqarg(mp.block); + if ( mp.block>=0 ) return i18n("%1 for block %2").arg(s).arg(mp.block); return s; } diff --git a/src/devices/pic/base/pic_protection.cpp b/src/devices/pic/base/pic_protection.cpp index d91f1f7..8fac920 100644 --- a/src/devices/pic/base/pic_protection.cpp +++ b/src/devices/pic/base/pic_protection.cpp @@ -30,7 +30,7 @@ Pic::Protection::Family Pic::Protection::family() const { if ( _config.findMask("WRTBS") ) return CodeGuard; TQString mask = maskName(ProgramProtected, MemoryRangeType::Code); - if ( _config.findMask(TQString("%1_%2").tqarg(mask).tqarg(0)) ) return BlockProtection; + if ( _config.findMask(TQString("%1_%2").arg(mask).arg(0)) ) return BlockProtection; if ( _config.findMask(mask) ) return BasicProtection; return NoProtection; } @@ -79,7 +79,7 @@ TQString Pic::Protection::blockMaskName(Type type, uint block) const if ( type==StandardSecurity || type==HighSecurity ) return (block==0 ? "SSSEC" : "GSSEC"); return TQString(); } - return TQString("%1_%2").tqarg(maskName(type, MemoryRangeType::Code)).tqarg(block); + return TQString("%1_%2").arg(maskName(type, MemoryRangeType::Code)).arg(block); } TQString Pic::Protection::maskName(Type type, MemoryRangeType mtype) const @@ -341,7 +341,7 @@ uint Pic::Protection::nbBlocks() const { if ( family()==CodeGuard ) return 2; // codeguard : secure segment + general segment for (uint i=0; i<MAX_NB_BLOCKS; i++) - if ( _config.findMask(TQString("CP_%1").tqarg(i))==0 ) return i; + if ( _config.findMask(TQString("CP_%1").arg(i))==0 ) return i; return MAX_NB_BLOCKS; } @@ -357,5 +357,5 @@ TQString Pic::Protection::blockLabel(uint i) const if ( i==0 ) return i18n("Secure Segment"); return i18n("General Segment"); } - return i18n("Block #%1").tqarg(i); + return i18n("Block #%1").arg(i); } diff --git a/src/devices/pic/base/pic_register.cpp b/src/devices/pic/base/pic_register.cpp index 8316805..97ff6c5 100644 --- a/src/devices/pic/base/pic_register.cpp +++ b/src/devices/pic/base/pic_register.cpp @@ -73,7 +73,7 @@ TQString Pic::RegistersData::label(Address address) const { switch ( type(address) ) { case UnusedRegister: return "---"; - case Mirrored: return i18n("Mirror of %1").tqarg(toHexLabel(mirroredAddress(address), nbCharsAddress())); + case Mirrored: return i18n("Mirror of %1").arg(toHexLabel(mirroredAddress(address), nbCharsAddress())); case Gpr: return "<GPR>"; case Sfr: return sfrNames[address]; } diff --git a/src/devices/pic/gui/pic_group_ui.cpp b/src/devices/pic/gui/pic_group_ui.cpp index fa4aa56..d2ff2f4 100644 --- a/src/devices/pic/gui/pic_group_ui.cpp +++ b/src/devices/pic/gui/pic_group_ui.cpp @@ -56,7 +56,7 @@ void Pic::GroupUI::fillWatchListContainer(ListContainer *container, TQValueVecto list = Pic::gprList(data, coff); for (uint k=0; k<rdata.nbBanks; k++) { if ( !rdata.isBankUsed(k) ) continue; - ListContainer *bbranch = (rdata.nbBanks==1 ? branch : branch->appendBranch(i18n("Bank %1").tqarg(k))); + ListContainer *bbranch = (rdata.nbBanks==1 ? branch : branch->appendBranch(i18n("Bank %1").arg(k))); uint nb = 0; for (uint i=0; i<list.count(); i++) { if ( rdata.bankFromAddress(list[i].data().address())!=k ) continue; diff --git a/src/devices/pic/gui/pic_memory_editor.cpp b/src/devices/pic/gui/pic_memory_editor.cpp index a964988..ced7e11 100644 --- a/src/devices/pic/gui/pic_memory_editor.cpp +++ b/src/devices/pic/gui/pic_memory_editor.cpp @@ -112,14 +112,14 @@ void Pic::MemoryEditorLegend::updateDisplay() if (_boot.label) { AddressRange r = memory().bootRange(); if ( r.isEmpty() ) _boot.label->setText(i18n("not present")); - else _boot.label->setText(TQString("[%1:%2]").tqarg(toHex(r.start, nbChars)).tqarg(toHex(r.end, nbChars))); + else _boot.label->setText(TQString("[%1:%2]").arg(toHex(r.start, nbChars)).arg(toHex(r.end, nbChars))); _boot.button->setEnabled(!r.isEmpty()); _boot.setProtected(memory().isBootProtected(ptype)); } for (uint i=0; i<_blocks.count(); i++) { AddressRange r = memory().blockRange(i); if ( r.isEmpty() ) _blocks[i].label->setText(i18n("not present")); - else _blocks[i].label->setText(TQString("[%1:%2]").tqarg(toHex(r.start, nbChars)).tqarg(toHex(r.end, nbChars))); + else _blocks[i].label->setText(TQString("[%1:%2]").arg(toHex(r.start, nbChars)).arg(toHex(r.end, nbChars))); _blocks[i].button->setEnabled(!r.isEmpty()); _blocks[i].setProtected(memory().isBlockProtected(ptype, i)); } @@ -251,10 +251,10 @@ void Pic::MemoryTypeEditor::init(bool first) uint nbChars = device().nbCharsWord(type()); TQString add; - if ( type()==MemoryRangeType::UserId ) add = i18n(" - recommended mask: %1").tqarg(toHexLabel(device().userIdRecommendedMask(), nbChars)); + if ( type()==MemoryRangeType::UserId ) add = i18n(" - recommended mask: %1").arg(toHexLabel(device().userIdRecommendedMask(), nbChars)); if ( type()==MemoryRangeType::Cal && _hexview ) add = i18n(" - not programmed by default"); TQString comment = i18n("%1-bit words - mask: %2") - .tqarg(device().nbBitsWord(type())).tqarg(toHexLabel(device().mask(type()), nbChars)); + .arg(device().nbBitsWord(type())).arg(toHexLabel(device().mask(type()), nbChars)); _comment->setText(comment + add); } diff --git a/src/devices/pic/gui/pic_prog_group_ui.cpp b/src/devices/pic/gui/pic_prog_group_ui.cpp index 6e350ed..565ec93 100644 --- a/src/devices/pic/gui/pic_prog_group_ui.cpp +++ b/src/devices/pic/gui/pic_prog_group_ui.cpp @@ -36,6 +36,6 @@ void Programmer::PicAdvancedDialog::updateDisplay() if ( !base().group().canReadVoltage(Pic::VoltageType(i)) ) continue; double v = base().voltage(Pic::VoltageType(i)); if ( v==::Programmer::UNKNOWN_VOLTAGE ) _voltages[i]->setText("---"); - else _voltages[i]->setText(TQString("%1 V").tqarg(v)); + else _voltages[i]->setText(TQString("%1 V").arg(v)); } } diff --git a/src/devices/pic/gui/pic_register_view.cpp b/src/devices/pic/gui/pic_register_view.cpp index 1cba9c9..820da6b 100644 --- a/src/devices/pic/gui/pic_register_view.cpp +++ b/src/devices/pic/gui/pic_register_view.cpp @@ -51,14 +51,14 @@ Pic::BankWidget::BankWidget(uint i, TQWidget *parent) } else { _bankCombo = new TQComboBox(this); for (uint k=1; k<2*rdata.nbBanks-1; k++) { - _bankCombo->insertItem((k%2)==0 ? i18n("Bank %1 (low)").tqarg(k/2) : i18n("Bank %1 (high)").tqarg(k/2)); + _bankCombo->insertItem((k%2)==0 ? i18n("Bank %1 (low)").arg(k/2) : i18n("Bank %1 (high)").arg(k/2)); } if ( _bindex==3 ) _bankCombo->setCurrentItem(1); connect(_bankCombo, TQT_SIGNAL(activated(int)), TQT_SLOT(bankChanged())); top->addMultiCellWidget(_bankCombo, row,row, 0,6, AlignHCenter); } } else { - TQLabel *label = new TQLabel(i18n("Bank %1").tqarg(i), this); + TQLabel *label = new TQLabel(i18n("Bank %1").arg(i), this); label->setAlignment(AlignCenter); top->addMultiCellWidget(label, row,row, 0,6, AlignHCenter); } diff --git a/src/devices/pic/pic/pic_group.cpp b/src/devices/pic/pic/pic_group.cpp index 311bff3..2ae250f 100644 --- a/src/devices/pic/pic/pic_group.cpp +++ b/src/devices/pic/pic/pic_group.cpp @@ -27,14 +27,14 @@ TQString Pic::Group::informationHtml(const Device::Data &data) const TQString s = htmlTableRow(i18n("Memory Type"), data.memoryTechnology().label()); if ( pdata.isPresent(MemoryRangeType::Code) ) { uint nbw = pdata.nbWords(MemoryRangeType::Code); - TQString tmp = i18n("%1 words").tqarg(formatNumber(nbw)); - tmp += i18n(" (%2 bits)").tqarg(pdata.nbBitsWord(MemoryRangeType::Code)); + TQString tmp = i18n("%1 words").arg(formatNumber(nbw)); + tmp += i18n(" (%2 bits)").arg(pdata.nbBitsWord(MemoryRangeType::Code)); s += htmlTableRow(MemoryRangeType(MemoryRangeType::Code).label(), tmp); } if ( pdata.isPresent(MemoryRangeType::Eeprom) ) { uint nbw = pdata.nbWords(MemoryRangeType::Eeprom); - TQString tmp = i18n("%1 bytes").tqarg(formatNumber(nbw)); - tmp += i18n(" (%2 bits)").tqarg(pdata.nbBitsWord(MemoryRangeType::Eeprom)); + TQString tmp = i18n("%1 bytes").arg(formatNumber(nbw)); + tmp += i18n(" (%2 bits)").arg(pdata.nbBitsWord(MemoryRangeType::Eeprom)); if ( !(pdata.range(MemoryRangeType::Eeprom).properties & Programmable) ) tmp += i18n(" (not programmable)"); s += htmlTableRow(MemoryRangeType(MemoryRangeType::Eeprom).label(), tmp); } diff --git a/src/devices/pic/pic/pic_memory.cpp b/src/devices/pic/pic/pic_memory.cpp index 5f86517..5ffb663 100644 --- a/src/devices/pic/pic/pic_memory.cpp +++ b/src/devices/pic/pic/pic_memory.cpp @@ -543,7 +543,7 @@ void Pic::Memory::fromHexBuffer(MemoryRangeType type, const HexBuffer &hb, Warni if ( !(result & ValueTooLarge) && _ranges[type][wOffset].maskWith(mask)!=_ranges[type][wOffset] ) { result |= ValueTooLarge; warnings += i18n("At least one word (at offset %1) is larger (%2) than the corresponding mask (%3).") - .tqarg(toHexLabel(offset, 8)).tqarg(toHexLabel(_ranges[type][wOffset], 8)).tqarg(toHexLabel(mask, 8)); + .arg(toHexLabel(offset, 8)).arg(toHexLabel(_ranges[type][wOffset], 8)).arg(toHexLabel(mask, 8)); } _ranges[type][wOffset] = _ranges[type][wOffset].maskWith(mask); } diff --git a/src/devices/pic/prog/pic_debug.cpp b/src/devices/pic/prog/pic_debug.cpp index 7dda5c2..eef84cc 100644 --- a/src/devices/pic/prog/pic_debug.cpp +++ b/src/devices/pic/prog/pic_debug.cpp @@ -86,9 +86,9 @@ TQString Debugger::P16FSpecific::statusString() const uint bank = (status.bit(5) ? 1 : 0) + (status.bit(6) ? 2 : 0); BitValue wreg = Register::list().value(wregTypeData()); return TQString("W:%1 %2 %3 %4 PC:%5 Bank:%6") - .tqarg(toHexLabel(wreg, rdata.nbChars())).tqarg(status.bit(2) ? "Z" : "z") - .tqarg(status.bit(1) ? "DC" : "dc").tqarg(status.bit(0) ? "C" : "c") - .tqarg(toHexLabel(_base.pc(), device().nbCharsAddress())).tqarg(bank); + .arg(toHexLabel(wreg, rdata.nbChars())).arg(status.bit(2) ? "Z" : "z") + .arg(status.bit(1) ? "DC" : "dc").arg(status.bit(0) ? "C" : "c") + .arg(toHexLabel(_base.pc(), device().nbCharsAddress())).arg(bank); } //---------------------------------------------------------------------------- @@ -111,8 +111,8 @@ TQString Debugger::P18FSpecific::statusString() const BitValue bsr = Register::list().value(base().registerTypeData("BSR")); BitValue wreg = Register::list().value(wregTypeData()); return TQString("W:%1 %2 %3 %4 %5 %6 PC:%7 Bank:%8") - .tqarg(toHexLabel(wreg, rdata.nbChars())).tqarg(status.bit(4) ? "N" : "n") - .tqarg(status.bit(3) ? "OV" : "ov").tqarg(status.bit(2) ? "Z" : "z") - .tqarg(status.bit(1) ? "DC" : "dc").tqarg(status.bit(0) ? "C" : "c") - .tqarg(toHexLabel(base().pc(), device().nbCharsAddress())).tqarg(toLabel(bsr)); + .arg(toHexLabel(wreg, rdata.nbChars())).arg(status.bit(4) ? "N" : "n") + .arg(status.bit(3) ? "OV" : "ov").arg(status.bit(2) ? "Z" : "z") + .arg(status.bit(1) ? "DC" : "dc").arg(status.bit(0) ? "C" : "c") + .arg(toHexLabel(base().pc(), device().nbCharsAddress())).arg(toLabel(bsr)); } diff --git a/src/devices/pic/prog/pic_prog.cpp b/src/devices/pic/prog/pic_prog.cpp index f0c917d..b134303 100644 --- a/src/devices/pic/prog/pic_prog.cpp +++ b/src/devices/pic/prog/pic_prog.cpp @@ -106,9 +106,9 @@ bool Programmer::PicBase::readVoltages() if ( !group().canReadVoltage(Pic::VoltageType(i)) ) continue; if ( _voltages[i].error==true ) { ok = false; - log(Log::LineType::Error, i18n(" %1 = %2 V: error in voltage level.").tqarg(i18n(Pic::VOLTAGE_TYPE_LABELS[i])).tqarg(_voltages[i].value)); + log(Log::LineType::Error, i18n(" %1 = %2 V: error in voltage level.").arg(i18n(Pic::VOLTAGE_TYPE_LABELS[i])).arg(_voltages[i].value)); } else if ( _voltages[i].value!=UNKNOWN_VOLTAGE ) - log(Log::DebugLevel::Normal, TQString(" %1 = %2 V").tqarg(i18n(Pic::VOLTAGE_TYPE_LABELS[i])).tqarg(_voltages[i].value)); + log(Log::DebugLevel::Normal, TQString(" %1 = %2 V").arg(i18n(Pic::VOLTAGE_TYPE_LABELS[i])).arg(_voltages[i].value)); } return ok; } @@ -136,10 +136,10 @@ bool Programmer::PicBase::initProgramming(Task) const Pic::VoltageData &tvpp = device()->voltage(Pic::Vpp); if ( vpp()<tvpp.min ) log(Log::LineType::Warning, i18n("Vpp (%1 V) is lower than the minimum required voltage (%2 V).") - .tqarg(vpp()).tqarg(tvpp.min)); + .arg(vpp()).arg(tvpp.min)); if ( vpp()>tvpp.max ) { TQString s = i18n("Vpp (%1 V) is higher than the maximum voltage (%2 V). You may damage the device.") - .tqarg(vpp()).tqarg(tvpp.max); + .arg(vpp()).arg(tvpp.max); log(Log::LineType::Warning, s); if ( !askContinue(s) ) { logUserAbort(); @@ -153,15 +153,15 @@ bool Programmer::PicBase::initProgramming(Task) if ( vdd()<tvdd.min ) { if ( type==Pic::VddBulkErase && device()->voltage(Pic::VddWrite).min!=tvdd.min ) log(Log::LineType::Warning, i18n("Vdd (%1 V) is too low for high-voltage programming\n(piklab only supports high-voltage programming at the moment).\nMinimum required is %2 V.") - .tqarg(vdd()).tqarg(tvdd.min)); + .arg(vdd()).arg(tvdd.min)); else if ( type==Pic::VddRead && device()->voltage(Pic::VddWrite).min!=tvdd.min ) log(Log::LineType::Warning, i18n("Vdd (%1 V) is too low for reading\nMinimum required is %2 V.") - .tqarg(vdd()).tqarg(tvdd.min)); + .arg(vdd()).arg(tvdd.min)); else log(Log::LineType::Warning, i18n("Vdd (%1 V) is too low for programming\nMinimum required is %2 V.") - .tqarg(vdd()).tqarg(tvdd.min)); + .arg(vdd()).arg(tvdd.min)); } else if ( vdd()>tvdd.max ) { TQString s = i18n("Vdd (%1 V) is higher than the maximum voltage (%2 V). You may damage the device.") - .tqarg(vdd()).tqarg(tvdd.max); + .arg(vdd()).arg(tvdd.max); log(Log::LineType::Warning, s); if ( !askContinue(s) ) { logUserAbort(); @@ -178,7 +178,7 @@ bool Programmer::PicBase::initProgramming(Task) _hasProtectedCode = _deviceMemory->isProtected(Pic::Protection::ProgramProtected, Pic::MemoryRangeType::Code); _hasProtectedEeprom = _deviceMemory->isProtected(Pic::Protection::ProgramProtected, Pic::MemoryRangeType::Eeprom); log(Log::DebugLevel::Normal, TQString(" protected: code=%1 data=%2") - .tqarg(_hasProtectedCode ? "true" : "false").tqarg(_hasProtectedEeprom ? "true" : "false")); + .arg(_hasProtectedCode ? "true" : "false").arg(_hasProtectedEeprom ? "true" : "false")); // read calibration if ( !readCalibration() ) return false; } @@ -250,14 +250,14 @@ bool Programmer::PicBase::verifyDeviceId() { if ( !specific()->canReadRange(Pic::MemoryRangeType::DeviceId ) ) return true; if ( !device()->isReadable(Pic::MemoryRangeType::DeviceId) ) { - log(Log::LineType::Information, i18n("Device not autodetectable: continuing with the specified device name \"%1\"...").tqarg(device()->name())); + log(Log::LineType::Information, i18n("Device not autodetectable: continuing with the specified device name \"%1\"...").arg(device()->name())); return true; } BitValue rawId = readDeviceId(); if ( hasError() ) return false; uint nbChars = device()->nbWords(Pic::MemoryRangeType::DeviceId) * device()->nbCharsWord(Pic::MemoryRangeType::DeviceId); if ( rawId==0x0 || rawId==device()->mask(Pic::MemoryRangeType::DeviceId) ) { - log(Log::LineType::Error, i18n("Missing or incorrect device (Read id is %1).").tqarg(toHexLabel(rawId, nbChars))); + log(Log::LineType::Error, i18n("Missing or incorrect device (Read id is %1).").arg(toHexLabel(rawId, nbChars))); return false; } TQMap<TQString, Device::IdData> ids; @@ -270,18 +270,18 @@ bool Programmer::PicBase::verifyDeviceId() } TQString message; if ( ids.count()!=0 ) { - log(Log::LineType::Information, i18n("Read id: %1").tqarg(device()->idNames(ids).join("; "))); + log(Log::LineType::Information, i18n("Read id: %1").arg(device()->idNames(ids).join("; "))); if ( ids.contains(device()->name()) ) return true; - message = i18n("Read id does not match the specified device name \"%1\".").tqarg(device()->name()); + message = i18n("Read id does not match the specified device name \"%1\".").arg(device()->name()); } else { - log(Log::LineType::Warning, i18n(" Unknown or incorrect device (Read id is %1).").tqarg(toHexLabel(rawId, nbChars))); + log(Log::LineType::Warning, i18n(" Unknown or incorrect device (Read id is %1).").arg(toHexLabel(rawId, nbChars))); message = i18n("Unknown device."); } if ( !askContinue(message) ) { logUserAbort(); return false; } - log(Log::LineType::Information, i18n("Continue with the specified device name: \"%1\"...").tqarg(device()->name())); + log(Log::LineType::Information, i18n("Continue with the specified device name: \"%1\"...").arg(device()->name())); return true; } @@ -306,7 +306,7 @@ bool Programmer::PicBase::readCalibration() Device::Array data; if ( !specific()->read(Pic::MemoryRangeType::Cal, data, 0) ) return false; _deviceMemory->setArray(Pic::MemoryRangeType::Cal, data); - log(Log::DebugLevel::Normal, TQString(" Read osccal: %1").tqarg(prettyCalibration(data))); + log(Log::DebugLevel::Normal, TQString(" Read osccal: %1").arg(prettyCalibration(data))); TQString message; if ( !device()->checkCalibration(data, &message) ) log(Log::LineType::Warning, " " + message); if ( device()->isReadable(Pic::MemoryRangeType::CalBackup) ) { @@ -316,7 +316,7 @@ bool Programmer::PicBase::readCalibration() } if ( !specific()->read(Pic::MemoryRangeType::CalBackup, data, 0) ) return false; _deviceMemory->setArray(Pic::MemoryRangeType::CalBackup, data); - log(Log::DebugLevel::Normal, TQString(" Read osccal backup: %1").tqarg(prettyCalibration(data))); + log(Log::DebugLevel::Normal, TQString(" Read osccal backup: %1").arg(prettyCalibration(data))); if ( !device()->checkCalibration(data, &message) ) log(Log::LineType::Warning, " " + message); } } @@ -381,7 +381,7 @@ bool Programmer::PicBase::restoreBandGapBits() log(Log::LineType::Warning, i18n("Could not restore band gap bits because programmer does not support writing config bits.")); return true; } - log(Log::DebugLevel::Normal, TQString(" Write config with band gap bits: %2").tqarg(toHexLabel(cdata[0], device()->nbCharsWord(Pic::MemoryRangeType::Config)))); + log(Log::DebugLevel::Normal, TQString(" Write config with band gap bits: %2").arg(toHexLabel(cdata[0], device()->nbCharsWord(Pic::MemoryRangeType::Config)))); if ( !programRange(Pic::MemoryRangeType::Config, cdata) ) return false; if ( !specific()->read(Pic::MemoryRangeType::Config, data, 0) ) return false; if ( data==cdata ) log(Log::LineType::Information, i18n(" Band gap bits have been preserved.")); @@ -464,7 +464,7 @@ bool Programmer::PicBase::internalEraseRange(Pic::MemoryRangeType type) log(Log::LineType::SoftError, i18n("Cannot erase specified range because of programmer limitations.")); return false; } - if ( !askContinue(i18n("%1: Erasing this range only is not supported with this programmer. This will erase the whole chip and restore the other memory ranges.").tqarg(type.label())) ) { + if ( !askContinue(i18n("%1: Erasing this range only is not supported with this programmer. This will erase the whole chip and restore the other memory ranges.").arg(type.label())) ) { logUserAbort(); return false; } @@ -497,19 +497,19 @@ bool Programmer::PicBase::readRange(Pic::MemoryRangeType type, Pic::Memory *memo { if ( !device()->isReadable(type) ) return true; if ( !specific()->canReadRange(type) ) { - log(Log::LineType::Information, i18n("The selected programmer cannot read %1: operation skipped.").tqarg(type.label())); + log(Log::LineType::Information, i18n("The selected programmer cannot read %1: operation skipped.").arg(type.label())); return true; } VerifyData *vdata = (vd ? new VerifyData(vd->actions, vd->memory) : 0); if (vdata) { - log(Log::LineType::Information, i18n(" Verify memory: %1").tqarg(type.label())); + log(Log::LineType::Information, i18n(" Verify memory: %1").arg(type.label())); if ( !(vdata->actions & IgnoreProtectedVerify) ) { vdata->protectedRanges = static_cast<const Pic::Memory &>(vdata->memory).protectedRanges(Pic::Protection::ProgramProtected, type); if ( !vdata->protectedRanges.isEmpty() ) log(Log::LineType::Warning, i18n(" Part of device memory is protected (in %1) and cannot be verified.") - .tqarg(type.label())); + .arg(type.label())); } else vdata->protectedRanges.clear(); } else { - log(Log::LineType::Information, i18n(" Read memory: %1").tqarg(type.label())); + log(Log::LineType::Information, i18n(" Read memory: %1").arg(type.label())); CRASH_ASSERT(memory); } Device::Array data; @@ -562,7 +562,7 @@ bool Programmer::PicBase::programSingle(Pic::MemoryRangeType type, const Pic::Me bool Programmer::PicBase::programRange(Pic::MemoryRangeType mtype, const Device::Array &data) { - log(Log::LineType::Information, i18n(" Write memory: %1").tqarg(mtype.label())); + log(Log::LineType::Information, i18n(" Write memory: %1").arg(mtype.label())); bool only = ( readConfigEntry(Config::OnlyProgramNonMask).toBool() && (mtype==Pic::MemoryRangeType::Code || mtype==Pic::MemoryRangeType::Eeprom) ); return specific()->write(mtype, data, !only); @@ -672,15 +672,15 @@ bool Programmer::PicBase::checkProgramCalibration(const Device::Array &data) { TQString message, s = prettyCalibration(data); if ( !device()->checkCalibration(data, &message) ) { - sorry(i18n("The calibration word %1 is not valid.").tqarg(s), message); + sorry(i18n("The calibration word %1 is not valid.").arg(s), message); return false; } - return askContinue(i18n("Do you want to overwrite the device calibration with %1?").tqarg(s)); + return askContinue(i18n("Do you want to overwrite the device calibration with %1?").arg(s)); } bool Programmer::PicBase::tryProgramCalibration(const Device::Array &data, bool &success) { - log(Log::LineType::Information, i18n(" Write memory: %1").tqarg(Pic::MemoryRangeType(Pic::MemoryRangeType::Cal).label())); + log(Log::LineType::Information, i18n(" Write memory: %1").arg(Pic::MemoryRangeType(Pic::MemoryRangeType::Cal).label())); success = true; if ( !specific()->write(Pic::MemoryRangeType::Cal, data, true) ) return false; Device::Array read; @@ -691,7 +691,7 @@ bool Programmer::PicBase::tryProgramCalibration(const Device::Array &data, bool if ( device()->isWritable(Pic::MemoryRangeType::CalBackup) ) { if ( !specific()->read(Pic::MemoryRangeType::CalBackup, read, 0) ) return false; if ( device()->checkCalibration(read) ) return true; // do not overwrite correct backup value - log(Log::LineType::Information, i18n(" Write memory: %1").tqarg(Pic::MemoryRangeType(Pic::MemoryRangeType::CalBackup).label())); + log(Log::LineType::Information, i18n(" Write memory: %1").arg(Pic::MemoryRangeType(Pic::MemoryRangeType::CalBackup).label())); if ( !specific()->write(Pic::MemoryRangeType::CalBackup, data, true) ) return false; if ( !specific()->read(Pic::MemoryRangeType::CalBackup, read, 0) ) return false; for (uint i=0; i<data.count(); i++) diff --git a/src/devices/pic/prog/pic_prog_specific.cpp b/src/devices/pic/prog/pic_prog_specific.cpp index c8d958b..b37febb 100644 --- a/src/devices/pic/prog/pic_prog_specific.cpp +++ b/src/devices/pic/prog/pic_prog_specific.cpp @@ -29,10 +29,10 @@ uint Programmer::PicDeviceSpecific::findNonMaskStart(Pic::MemoryRangeType type, uint start = 0; for (; start<data.count(); start++) if ( data[start]!=device().mask(type) ) break; - const_cast<PicDeviceSpecific *>(this)->log(Log::DebugLevel::Normal, TQString("start before align: %1").tqarg(start)); + const_cast<PicDeviceSpecific *>(this)->log(Log::DebugLevel::Normal, TQString("start before align: %1").arg(start)); uint align = device().nbWordsWriteAlignment(type); start -= start % align; - const_cast<PicDeviceSpecific *>(this)->log(Log::DebugLevel::Normal, TQString("start after align: %1 (align=%2)").tqarg(start).tqarg(align)); + const_cast<PicDeviceSpecific *>(this)->log(Log::DebugLevel::Normal, TQString("start after align: %1 (align=%2)").arg(start).arg(align)); return start; } @@ -41,10 +41,10 @@ uint Programmer::PicDeviceSpecific::findNonMaskEnd(Pic::MemoryRangeType type, co uint end = data.count()-1; for (; end>0; end--) if ( data[end]!=device().mask(type) ) break; - const_cast<PicDeviceSpecific *>(this)->log(Log::DebugLevel::Normal, TQString("end before align: %1").tqarg(end)); + const_cast<PicDeviceSpecific *>(this)->log(Log::DebugLevel::Normal, TQString("end before align: %1").arg(end)); uint align = device().nbWordsWriteAlignment(type); if ( (end+1) % align ) end += align - (end+1) % align; - const_cast<PicDeviceSpecific *>(this)->log(Log::DebugLevel::Normal, TQString("end after align: %1 (align=%2)").tqarg(end).tqarg(align)); + const_cast<PicDeviceSpecific *>(this)->log(Log::DebugLevel::Normal, TQString("end after align: %1 (align=%2)").arg(end).arg(align)); Q_ASSERT(end<data.count()); return end; } @@ -99,11 +99,11 @@ bool Programmer::PicHardware::compareWords(Pic::MemoryRangeType type, uint index Address address = device().range(type).start + inc * index; if ( actions & ::Programmer::BlankCheckVerify ) log(Log::LineType::SoftError, i18n("Device memory is not blank (in %1 at address %2: reading %3 and expecting %4).") - .tqarg(type.label()).tqarg(toHexLabel(address, device().nbCharsAddress())) - .tqarg(toHexLabel(d, device().nbCharsWord(type))).tqarg(toHexLabel(v, device().nbCharsWord(type)))); + .arg(type.label()).arg(toHexLabel(address, device().nbCharsAddress())) + .arg(toHexLabel(d, device().nbCharsWord(type))).arg(toHexLabel(v, device().nbCharsWord(type)))); else log(Log::LineType::SoftError, i18n("Device memory does not match hex file (in %1 at address %2: reading %3 and expecting %4).") - .tqarg(type.label()).tqarg(toHexLabel(address, device().nbCharsAddress())) - .tqarg(toHexLabel(d, device().nbCharsWord(type))).tqarg(toHexLabel(v, device().nbCharsWord(type)))); + .arg(type.label()).arg(toHexLabel(address, device().nbCharsAddress())) + .arg(toHexLabel(d, device().nbCharsWord(type))).arg(toHexLabel(v, device().nbCharsWord(type)))); return false; } diff --git a/src/devices/pic/xml/pic_xml_to_data.cpp b/src/devices/pic/xml/pic_xml_to_data.cpp index 85eed73..9c14879 100644 --- a/src/devices/pic/xml/pic_xml_to_data.cpp +++ b/src/devices/pic/xml/pic_xml_to_data.cpp @@ -29,7 +29,7 @@ bool getVoltages(ProgVoltageType type, TQDomElement element) data()->_voltages[type].min = voltages.attribute("min").toDouble(&ok1); data()->_voltages[type].max = voltages.attribute("max").toDouble(&ok2); data()->_voltages[type].nominal = voltages.attribute("nominal").toDouble(&ok3); - if ( !ok1 || !ok2 || !ok3 ) qFatal(TQString("Cannot extract voltage value for \"%1\"").tqarg(type.key())); + if ( !ok1 || !ok2 || !ok3 ) qFatal(TQString("Cannot extract voltage value for \"%1\"").arg(type.key())); if ( data()->_voltages[type].min>data()->_voltages[type].max || data()->_voltages[type].nominal<data()->_voltages[type].min || data()->_voltages[type].nominal>data()->_voltages[type].max ) @@ -50,11 +50,11 @@ bool getMemoryRange(MemoryRangeType type, TQDomElement element) if ( !ok ) qFatal("Cannot extract end address"); if ( data()->_ranges[type].end<data()->_ranges[type].start ) qFatal("Memory range end is before its start"); uint nbCharsWord = data()->nbCharsWord(type); - if ( data()->nbBitsWord(type)==0 ) qFatal(TQString("Architecture doesn't contain memory range %1").tqarg(type.key())); + if ( data()->nbBitsWord(type)==0 ) qFatal(TQString("Architecture doesn't contain memory range %1").arg(type.key())); if ( type==MemoryRangeType::UserId ) { data()->_userIdRecommendedMask = fromHexLabel(range.attribute("rmask"), nbCharsWord, &ok); if ( !ok ) qFatal("Cannot extract rmask value for user id"); - if ( !data()->_userIdRecommendedMask.isInside(data()->mask(type)) ) qFatal(TQString("rmask is not inside mask %1 (%2)").tqarg(toHexLabel(data()->_userIdRecommendedMask, 8)).tqarg(toHexLabel(data()->mask(type), 8))); + if ( !data()->_userIdRecommendedMask.isInside(data()->mask(type)) ) qFatal(TQString("rmask is not inside mask %1 (%2)").arg(toHexLabel(data()->_userIdRecommendedMask, 8)).arg(toHexLabel(data()->mask(type), 8))); } if ( range.attribute("hexfile_offset")!="?" ) { data()->_ranges[type].properties |= Programmable; @@ -100,19 +100,19 @@ void processName(const Pic::Config::Mask &cmask, BitValue pmask, Pic::Config::Va TQStringList &cnames = cvalue.configNames[Pic::ConfigNameType::Default]; if ( cvalue.name=="invalid" ) { cvalue.name = TQString(); - if ( !cnames.isEmpty() ) qFatal(TQString("No cname should be defined for invalid value in mask %1").tqarg(cmask.name)); + if ( !cnames.isEmpty() ) qFatal(TQString("No cname should be defined for invalid value in mask %1").arg(cmask.name)); return; } - if ( cvalue.name.isEmpty() ) qFatal(TQString("Empty value name in mask %1").tqarg(cmask.name)); + if ( cvalue.name.isEmpty() ) qFatal(TQString("Empty value name in mask %1").arg(cmask.name)); if ( cmask.value.isInside(pmask) ) { // protected bits - if ( !cnames.isEmpty() ) qFatal(TQString("Config name should be null for protected config mask \"%1\"").tqarg(cmask.name)); + if ( !cnames.isEmpty() ) qFatal(TQString("Config name should be null for protected config mask \"%1\"").arg(cmask.name)); } else { if ( cnames.isEmpty() && cmask.name!="BSSEC" && cmask.name!="BSSIZ" && cmask.name!="SSSEC" && cmask.name!="SSSIZ" ) { // ### FIXME: 18J 24H 30F1010/202X if ( data()->architecture()!=Pic::Architecture::P18J && data()->architecture()!=Pic::Architecture::P24H && data()->architecture()!=Pic::Architecture::P24F && data()->architecture()!=Pic::Architecture::P33F && data()->name()!="30F1010" && data()->name()!="30F2020" && data()->name()!="30F2023" ) - qFatal(TQString("cname not defined for \"%1\" (%2)").tqarg(cvalue.name).tqarg(cmask.name)); + qFatal(TQString("cname not defined for \"%1\" (%2)").arg(cvalue.name).arg(cmask.name)); } if ( cnames.count()==1 && cnames[0]=="_" ) cnames.clear(); for (uint i=0; i<uint(cnames.count()); i++) { @@ -124,11 +124,11 @@ void processName(const Pic::Config::Mask &cmask, BitValue pmask, Pic::Config::Va BitValue mask = cmask.value.complementInMask(maxValue(NumberBase::Hex, nbChars)); if ( ok && v==(mask | cvalue.value) ) continue; } else if ( XOR(cnames[i].startsWith("_"), data()->architecture()==Pic::Architecture::P30F) ) continue; - qFatal(TQString("Invalid config name for \"%1\"/\"%2\"").tqarg(cmask.name).tqarg(cvalue.name)); + qFatal(TQString("Invalid config name for \"%1\"/\"%2\"").arg(cmask.name).arg(cvalue.name)); } TQStringList &ecnames = cvalue.configNames[Pic::ConfigNameType::Extra]; for (uint i=0; i<uint(ecnames.count()); i++) - if ( ecnames[i][0]!='_' ) qFatal(TQString("Invalid extra config name for %1").tqarg(cvalue.name)); + if ( ecnames[i][0]!='_' ) qFatal(TQString("Invalid extra config name for %1").arg(cvalue.name)); } } @@ -140,30 +140,30 @@ Pic::Config::Mask toConfigMask(TQDomElement mask, BitValue pmask) TQMap<Pic::ConfigNameType, TQStringList> defConfigNames; Config::Mask cmask; cmask.name = mask.attribute("name"); - if ( !Config::hasMaskName(cmask.name) ) qFatal(TQString("Unknown mask name %1").tqarg(cmask.name)); + if ( !Config::hasMaskName(cmask.name) ) qFatal(TQString("Unknown mask name %1").arg(cmask.name)); cmask.value = fromHexLabel(mask.attribute("value"), nbChars, &ok); if ( !ok || cmask.value==0 || cmask.value>data()->mask(MemoryRangeType::Config) ) - qFatal(TQString("Malformed mask value in mask %1").tqarg(mask.attribute("name"))); + qFatal(TQString("Malformed mask value in mask %1").arg(mask.attribute("name"))); //TQStringList names; TQDomNode child = mask.firstChild(); while ( !child.isNull() ) { TQDomElement value = child.toElement(); child = child.nextSibling(); if ( value.isNull() ) continue; - if ( value.nodeName()!="value" ) qFatal(TQString("Non value child in mask %1").tqarg(cmask.name)); + if ( value.nodeName()!="value" ) qFatal(TQString("Non value child in mask %1").arg(cmask.name)); if ( value.attribute("value")=="default" ) { - if ( !defName.isEmpty() ) qFatal(TQString("Default value already defined for mask %1").tqarg(cmask.name)); + if ( !defName.isEmpty() ) qFatal(TQString("Default value already defined for mask %1").arg(cmask.name)); defName = value.attribute("name"); - //if ( names.contains(defName) ) qFatal(TQString("Value name duplicated in mask %1").tqarg(cmask.name)); + //if ( names.contains(defName) ) qFatal(TQString("Value name duplicated in mask %1").arg(cmask.name)); //names.append(defName); FOR_EACH(Pic::ConfigNameType, type) defConfigNames[type] = TQStringList::split(' ', value.attribute(type.data().key)); continue; } Config::Value cvalue; cvalue.value = fromHexLabel(value.attribute("value"), nbChars, &ok); - if ( !ok || !cvalue.value.isInside(cmask.value) ) qFatal(TQString("Malformed value in mask %1").tqarg(cmask.name)); + if ( !ok || !cvalue.value.isInside(cmask.value) ) qFatal(TQString("Malformed value in mask %1").arg(cmask.name)); cvalue.name = value.attribute("name"); - //if ( names.contains(cvalue.name) ) qFatal(TQString("Value name duplicated in mask %1").tqarg(cmask.name)); + //if ( names.contains(cvalue.name) ) qFatal(TQString("Value name duplicated in mask %1").arg(cmask.name)); //names.append(cvalue.name); FOR_EACH(Pic::ConfigNameType, type) cvalue.configNames[type] = TQStringList::split(' ', value.attribute(type.data().key)); processName(cmask, pmask, cvalue); @@ -183,7 +183,7 @@ Pic::Config::Mask toConfigMask(TQDomElement mask, BitValue pmask) processName(cmask, pmask, cvalue); cmask.values.append(cvalue); } - if ( nb<=1 ) qFatal(TQString("Default value used less than twice in mask %1").tqarg(cmask.name)); + if ( nb<=1 ) qFatal(TQString("Default value used less than twice in mask %1").arg(cmask.name)); } qHeapSort(cmask.values); return cmask; @@ -198,9 +198,9 @@ Pic::Config::Word toConfigWord(TQDomElement config) bool ok; cword.wmask = fromHexLabel(config.attribute("wmask"), nbChars, &ok); BitValue gmask = data()->mask(MemoryRangeType::Config); - if ( !ok || cword.wmask>gmask ) qFatal(TQString("Missing or malformed config wmask \"%1\"").tqarg(config.attribute("wmask"))); + if ( !ok || cword.wmask>gmask ) qFatal(TQString("Missing or malformed config wmask \"%1\"").arg(config.attribute("wmask"))); cword.bvalue = fromHexLabel(config.attribute("bvalue"), nbChars, &ok); - if ( !ok ) qFatal(TQString("Missing or malformed config bvalue \"%1\"").tqarg(config.attribute("bvalue"))); + if ( !ok ) qFatal(TQString("Missing or malformed config bvalue \"%1\"").arg(config.attribute("bvalue"))); if ( config.attribute("pmask").isEmpty() ) cword.pmask = 0; else { bool ok; @@ -209,19 +209,19 @@ Pic::Config::Word toConfigWord(TQDomElement config) } cword.ignoredCNames = TQStringList::split(' ', config.attribute("icnames")); for (uint i=0; i<uint(cword.ignoredCNames.count()); i++) - if ( cword.ignoredCNames[i][0]!='_' ) qFatal(TQString("Invalid ignored config name for %1").tqarg(cword.name)); + if ( cword.ignoredCNames[i][0]!='_' ) qFatal(TQString("Invalid ignored config name for %1").arg(cword.name)); TQDomNode child = config.firstChild(); while ( !child.isNull() ) { TQDomElement mask = child.toElement(); child = child.nextSibling(); if ( mask.isNull() ) continue; - if ( mask.nodeName()!="mask" ) qFatal(TQString("Non mask child in config %1").tqarg(cword.name)); - if ( mask.attribute("name").isEmpty() ) qFatal(TQString("Empty mask name in config %1").tqarg(cword.name)); + if ( mask.nodeName()!="mask" ) qFatal(TQString("Non mask child in config %1").arg(cword.name)); + if ( mask.attribute("name").isEmpty() ) qFatal(TQString("Empty mask name in config %1").arg(cword.name)); Config::Mask cmask = toConfigMask(mask, cword.pmask); - if ( !cmask.value.isInside(gmask) ) qFatal(TQString("Mask value not inside mask in config %1").tqarg(cword.name)); + if ( !cmask.value.isInside(gmask) ) qFatal(TQString("Mask value not inside mask in config %1").arg(cword.name)); for (uint i=0; i<uint(cword.masks.count()); i++) { - if ( cword.masks[i].name==cmask.name ) qFatal(TQString("Duplicated mask name %1 in config %2").tqarg(cmask.name).tqarg(cword.name)); - if ( cmask.value.isOverlapping(cword.masks[i].value) ) qFatal(TQString("Overlapping masks in config %1").tqarg(cword.name)); + if ( cword.masks[i].name==cmask.name ) qFatal(TQString("Duplicated mask name %1 in config %2").arg(cmask.name).arg(cword.name)); + if ( cmask.value.isOverlapping(cword.masks[i].value) ) qFatal(TQString("Overlapping masks in config %1").arg(cword.name)); } cword.masks.append(cmask); } @@ -234,8 +234,8 @@ Pic::Config::Word toConfigWord(TQDomElement config) bool ok; cword.cmask = fromHexLabel(config.attribute("cmask"), nbChars, &ok); if ( !ok || cword.cmask>gmask ) qFatal("Missing or malformed config cmask"); - //if ( data()->_architecture==Pic::Architecture::P30X &&cword.cmask==cword.wmask ) qFatal(TQString("Redundant cmask in %1").tqarg(cword.name)); - if ( cword.cmask==mask ) qFatal(TQString("Redundant cmask in %1").tqarg(cword.name)); + //if ( data()->_architecture==Pic::Architecture::P30X &&cword.cmask==cword.wmask ) qFatal(TQString("Redundant cmask in %1").arg(cword.name)); + if ( cword.cmask==mask ) qFatal(TQString("Redundant cmask in %1").arg(cword.name)); } if ( !cword.pmask.isInside(cword.usedMask()) ) qFatal("pmask should be inside or'ed mask values."); return cword; @@ -255,11 +255,11 @@ TQValueVector<Pic::Config::Word> getConfigWords(TQDomElement element) if ( !ok ) qFatal("Missing or malformed config offset"); if ( (offset % data()->addressIncrement(MemoryRangeType::Config))!=0 ) qFatal("Config offset not aligned"); offset /= data()->addressIncrement(MemoryRangeType::Config); - if ( offset>=nbWords ) qFatal(TQString("Offset too big %1/%2").tqarg(offset).tqarg(nbWords)); - if ( !configWords[offset].name.isNull() ) qFatal(TQString("Config offset %1 is duplicated").tqarg(offset)); + if ( offset>=nbWords ) qFatal(TQString("Offset too big %1/%2").arg(offset).arg(nbWords)); + if ( !configWords[offset].name.isNull() ) qFatal(TQString("Config offset %1 is duplicated").arg(offset)); for (uint i=0; i<nbWords; i++) { if ( !configWords[i].name.isNull() && configWords[i].name==config.attribute("name") ) - qFatal(TQString("Duplicated config name %1").tqarg(configWords[i].name)); + qFatal(TQString("Duplicated config name %1").arg(configWords[i].name)); } configWords[offset] = toConfigWord(config); } @@ -320,13 +320,13 @@ TQString getChecksumData(TQDomElement checksum) TQStringList list = TQStringList::split(" ", s); for (uint i=0; i<uint(list.count()); i++) { const Config::Mask *mask = data()->config().findMask(list[i]); - if ( mask==0 ) qFatal(TQString("Not valid mask name for \"protected\" tag in checksum: %1").tqarg(list[i])); + if ( mask==0 ) qFatal(TQString("Not valid mask name for \"protected\" tag in checksum: %1").arg(list[i])); if ( mask->values.count()==2 ) continue; for (uint k=0; k<uint(mask->values.count()); k++) { TQString valueName = mask->values[k].name; if ( valueName.isEmpty() ) continue; if ( !protection.isNoneProtectedValueName(valueName) && !protection.isAllProtectedValueName(valueName) ) - qFatal(TQString("Not switch protection from mask name for \"protected\" tag in checksum: %1").tqarg(list[i])); + qFatal(TQString("Not switch protection from mask name for \"protected\" tag in checksum: %1").arg(list[i])); } } cdata.protectedMaskNames = list; @@ -358,7 +358,7 @@ virtual void processDevice(TQDomElement device) TQString arch = device.attribute("architecture"); data()->_architecture = Architecture::fromKey(arch); - if ( data()->_architecture==Architecture::Nb_Types ) qFatal(TQString("Unrecognized architecture \"%1\"").tqarg(arch)); + if ( data()->_architecture==Architecture::Nb_Types ) qFatal(TQString("Unrecognized architecture \"%1\"").arg(arch)); if ( (data()->_architecture==Architecture::P18F && data()->_name.contains("C")) || (data()->_architecture==Architecture::P18F && data()->_name.contains("J")) ) qFatal("Not matching family"); @@ -396,7 +396,7 @@ virtual void processDevice(TQDomElement device) if ( !getVoltages(vtype, device) ) { switch (vtype.type()) { case ProgVoltageType::Vpp: - case ProgVoltageType::VddBulkErase: qFatal(TQString("Voltage \"%1\" not defined").tqarg(vtype.key())); + case ProgVoltageType::VddBulkErase: qFatal(TQString("Voltage \"%1\" not defined").arg(vtype.key())); case ProgVoltageType::VddWrite: data()->_voltages[ProgVoltageType::VddWrite] = data()->_voltages[ProgVoltageType::VddBulkErase]; break; case ProgVoltageType::Nb_Types: Q_ASSERT(false); break; } @@ -426,7 +426,7 @@ virtual void processDevice(TQDomElement device) Address start2 = data()->_ranges[i].start + data()->_ranges[i].hexFileOffset; Address end2 = data()->_ranges[i].end + data()->_ranges[i].hexFileOffset; if ( end1>=start2 && start1<=end2 ) - qFatal(TQString("Overlapping memory ranges (%1 and %2)").tqarg(k.key()).tqarg(i.key())); + qFatal(TQString("Overlapping memory ranges (%1 and %2)").arg(k.key()).arg(i.key())); } } checkTagNames(device, "memory", names); @@ -440,7 +440,7 @@ virtual void processDevice(TQDomElement device) FOR_EACH(Pic::ConfigNameType, type) { TQMap<TQString, TQString> cnames; // cname -> mask name for (uint i=0; i<nbWords; i++) { - if ( cwords[i].name.isNull() ) qFatal(TQString("Config word #%1 not defined").tqarg(i)); + if ( cwords[i].name.isNull() ) qFatal(TQString("Config word #%1 not defined").arg(i)); data()->_config->_words[i] = cwords[i]; const Config::Word &word = data()->_config->_words[i]; for (uint j=0; j<uint(word.masks.count()); j++) { @@ -450,7 +450,7 @@ virtual void processDevice(TQDomElement device) for (uint l=0; l<uint(vcnames.count()); l++) { if ( vcnames[l].startsWith("0x") ) continue; if ( cnames.contains(vcnames[l]) && cnames[vcnames[l]]!=mask.name ) - qFatal(TQString("Duplicated config name for %1/%2").tqarg(mask.name).tqarg(mask.values[k].name)); + qFatal(TQString("Duplicated config name for %1/%2").arg(mask.name).arg(mask.values[k].name)); cnames[vcnames[l]] = word.masks[j].name; } } @@ -466,7 +466,7 @@ virtual void processDevice(TQDomElement device) const Config::Value &value = mask.values[k]; if ( !value.isValid() ) continue; if ( !data()->_config->checkValueName(mask.name, value.name) ) - qFatal(TQString("Malformed value name \"%1\" in mask %2").tqarg(value.name).tqarg(mask.name)); + qFatal(TQString("Malformed value name \"%1\" in mask %2").arg(value.name).arg(mask.name)); } } } @@ -477,7 +477,7 @@ virtual void processDevice(TQDomElement device) const Config::Mask &mask = word.masks[j]; BitValue::const_iterator it; for (it=mask.value.begin(); it!=mask.value.end(); ++it) - if ( !hasValue(mask, *it) ) qFatal(TQString("Value %1 not defined in mask %2").tqarg(toHexLabel(*it, data()->nbCharsWord(MemoryRangeType::Config))).tqarg(mask.name)); + if ( !hasValue(mask, *it) ) qFatal(TQString("Value %1 not defined in mask %2").arg(toHexLabel(*it, data()->nbCharsWord(MemoryRangeType::Config))).arg(mask.name)); } } @@ -507,7 +507,7 @@ virtual void processDevice(TQDomElement device) } TQMap<TQString, bool>::const_iterator it; for (it=valueNames.begin(); it!=valueNames.end(); ++it) - if ( !it.key().isEmpty() && !it.data() ) qFatal(TQString("Missing checksum \"%1\"").tqarg(it.key())); + if ( !it.key().isEmpty() && !it.data() ) qFatal(TQString("Missing checksum \"%1\"").arg(it.key())); } } @@ -552,13 +552,13 @@ void processSfr(TQDomElement e) qFatal("SFR name is duplicated"); bool ok; uint address = fromHexLabel(e.attribute("address"), &ok); - if ( !ok ) qFatal(TQString("SFR %1 address %2 is malformed").tqarg(name).tqarg(e.attribute("address"))); + if ( !ok ) qFatal(TQString("SFR %1 address %2 is malformed").arg(name).arg(e.attribute("address"))); uint rlength = data()->registersData().nbBanks * data()->architecture().data().registerBankLength; - if ( address>=rlength ) qFatal(TQString("Address %1 outside register range").tqarg(toHexLabel(address, 3))); + if ( address>=rlength ) qFatal(TQString("Address %1 outside register range").arg(toHexLabel(address, 3))); RegisterData rdata; rdata.address = address; uint nb = data()->registersData().nbBits(); - if ( nb>Device::MAX_NB_PORT_BITS ) qFatal(TQString("Need higher MAX_NB_PORT_BITS: %1").tqarg(nb)); + if ( nb>Device::MAX_NB_PORT_BITS ) qFatal(TQString("Need higher MAX_NB_PORT_BITS: %1").arg(nb)); TQString access = e.attribute("access"); if ( uint(access.length())!=nb ) qFatal("access is missing or malformed"); TQString mclr = e.attribute("mclr"); @@ -569,11 +569,11 @@ void processSfr(TQDomElement e) uint k = nb - i - 1; bool ok; rdata.bits[k].properties = RegisterBitProperties(fromHex(access[i].latin1(), &ok)); - if ( !ok || rdata.bits[k].properties>MaxRegisterBitProperty ) qFatal(TQString("Malformed access bit %1").tqarg(k)); + if ( !ok || rdata.bits[k].properties>MaxRegisterBitProperty ) qFatal(TQString("Malformed access bit %1").arg(k)); rdata.bits[k].mclr = RegisterBitState(fromHex(mclr[i].latin1(), &ok)); - if ( !ok || rdata.bits[k].mclr>Nb_RegisterBitStates ) qFatal(TQString("Malformed mclr bit %1").tqarg(k)); + if ( !ok || rdata.bits[k].mclr>Nb_RegisterBitStates ) qFatal(TQString("Malformed mclr bit %1").arg(k)); rdata.bits[k].por = RegisterBitState(fromHex(por[i].latin1(), &ok)); - if ( !ok || rdata.bits[k].por>Nb_RegisterBitStates ) qFatal(TQString("Malformed por bit %1").tqarg(k)); + if ( !ok || rdata.bits[k].por>Nb_RegisterBitStates ) qFatal(TQString("Malformed por bit %1").arg(k)); } static_cast<RegistersData *>(data()->_registersData)->sfrs[name] = rdata; } @@ -587,13 +587,13 @@ void processCombined(TQDomElement e) bool ok; CombinedData rdata; rdata.address = fromHexLabel(e.attribute("address"), &ok); - if ( !ok ) qFatal(TQString("Combined %1 address %2 is malformed").tqarg(name).tqarg(e.attribute("address"))); + if ( !ok ) qFatal(TQString("Combined %1 address %2 is malformed").arg(name).arg(e.attribute("address"))); uint rlength = data()->registersData().nbBanks * data()->architecture().data().registerBankLength; - if ( rdata.address>=rlength ) qFatal(TQString("Address %1 outside register range").tqarg(toHexLabel(rdata.address, 3))); + if ( rdata.address>=rlength ) qFatal(TQString("Address %1 outside register range").arg(toHexLabel(rdata.address, 3))); rdata.nbChars = 2*e.attribute("size").toUInt(&ok); - if ( !ok || rdata.nbChars<2 ) qFatal(TQString("Combined %1 size %2 is malformed").tqarg(name).tqarg(e.attribute("size"))); + if ( !ok || rdata.nbChars<2 ) qFatal(TQString("Combined %1 size %2 is malformed").arg(name).arg(e.attribute("size"))); Address end = rdata.address + rdata.nbChars/2 - 1; - if ( end>=rlength ) qFatal(TQString("Address %1 outside register range").tqarg(toHexLabel(end, 3))); + if ( end>=rlength ) qFatal(TQString("Address %1 outside register range").arg(toHexLabel(end, 3))); static_cast<RegistersData *>(data()->_registersData)->combined[name] = rdata; } @@ -601,7 +601,7 @@ void processDeviceRegisters(TQDomElement element) { TQString s = element.attribute("same_as"); if ( !s.isEmpty() ) { - if ( !_map.contains(s) ) qFatal(TQString("Registers same as unknown device %1").tqarg(s)); + if ( !_map.contains(s) ) qFatal(TQString("Registers same as unknown device %1").arg(s)); const Pic::Data *d = static_cast<const Pic::Data *>(_map[s]); data()->_registersData = d->_registersData; return; @@ -629,7 +629,7 @@ void processDeviceRegisters(TQDomElement element) else if ( e.nodeName()=="unused" ) processUnused(e); else if ( e.nodeName()=="combined" ) processCombined(e); else if ( e.nodeName()=="sfr" ) processSfr(e); - else qFatal(TQString("Node name \"%1\" is not recognized").tqarg(e.nodeName())); + else qFatal(TQString("Node name \"%1\" is not recognized").arg(e.nodeName())); child = child.nextSibling(); } @@ -640,11 +640,11 @@ void processDeviceRegisters(TQDomElement element) TQString trisname = rdata.trisName(i); if ( trisname.isEmpty() ) continue; bool hasTris = rdata.sfrs.contains(trisname); - if ( !hasPort && hasTris ) qFatal(TQString("%1 needs %2 to be present").tqarg(trisname).tqarg(portname)); + if ( !hasPort && hasTris ) qFatal(TQString("%1 needs %2 to be present").arg(trisname).arg(portname)); TQString latchname = rdata.latchName(i); if ( latchname.isEmpty() ) continue; bool hasLatch = rdata.sfrs.contains(latchname); - if ( !hasPort && hasLatch ) qFatal(TQString("%1 needs %2 to be present").tqarg(latchname).tqarg(portname)); + if ( !hasPort && hasLatch ) qFatal(TQString("%1 needs %2 to be present").arg(latchname).arg(portname)); } } @@ -660,7 +660,7 @@ void processRegistersFile(const TQString &filename, TQStringList &devices) if ( child.nodeName()!="device" ) qFatal("Device node should be named \"device\""); TQDomElement device = child.toElement(); TQString name = device.attribute("name"); - if ( devices.contains(name) ) qFatal(TQString("Registers already defined for %1").tqarg(name)); + if ( devices.contains(name) ) qFatal(TQString("Registers already defined for %1").arg(name)); if ( _map.contains(name) ) { _data = _map[name]; processDeviceRegisters(device); @@ -691,7 +691,7 @@ virtual void checkPins(const TQMap<TQString, uint> &pinLabels) const TQMap<TQString, uint>::const_iterator it; for (it=pinLabels.begin(); it!=pinLabels.end(); ++it) { if ( it.key()=="VDD" || it.key()=="VSS" || it.key().startsWith("CCP") ) continue; - if ( it.data()!=1 ) qFatal(TQString("Duplicated pin \"%1\"").tqarg(it.key())); + if ( it.data()!=1 ) qFatal(TQString("Duplicated pin \"%1\"").arg(it.key())); } const Pic::RegistersData &rdata = static_cast<const Pic::RegistersData &>(*_data->registersData()); for (uint i=0; i<Device::MAX_NB_PORTS; i++) { @@ -699,7 +699,7 @@ virtual void checkPins(const TQMap<TQString, uint> &pinLabels) const for (uint k=0; k<Device::MAX_NB_PORT_BITS; k++) { if ( !rdata.hasPortBit(i, k) ) continue; TQString name = rdata.portBitName(i, k); - if ( !pinLabels.contains(name) ) qFatal(TQString("Pin \"%1\" not present").tqarg(name)); + if ( !pinLabels.contains(name) ) qFatal(TQString("Pin \"%1\" not present").arg(name)); } } } |