You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
piklab/src/devices/gui/memory_editor.cpp

370 lines
12 KiB

/***************************************************************************
* Copyright (C) 2005-2006 Nicolas Hadacek <hadacek@kde.org> *
* Copyright (C) 2003-2004 Alain Gibaud <alain.gibaud@free.fr> *
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
***************************************************************************/
#include "memory_editor.h"
#include <tqlabel.h>
#include <tqscrollbar.h>
#include <tqlayout.h>
#include <tqgrid.h>
#include <tqtimer.h>
#include <tqpopupmenu.h>
#include <klocale.h>
#include <kpushbutton.h>
#include <kaction.h>
#include "common/common/misc.h"
#include "hex_word_editor.h"
#include "device_group_ui.h"
#include "libgui/toplevel.h"
#include "libgui/main_global.h"
#include "hex_view.h"
#include "libgui/gui_prog_manager.h"
//-----------------------------------------------------------------------------
Device::MemoryEditor::MemoryEditor(Device::Memory *memory, TQWidget *tqparent, const char *name)
: TQFrame(tqparent, name), _memory(memory)
{
_top = new TQVBoxLayout(this, 5, 10);
}
//-----------------------------------------------------------------------------
Device::MemoryRangeEditor::MemoryRangeEditor(Device::Memory &memory,
uint nbLines, uint nbCols, uint offset, int nb,
TQWidget *tqparent, const char *name)
: MemoryEditor(&memory, tqparent, name),
_nbLines(nbLines), _nbCols(nbCols), _offset(offset), _nb(nb)
{}
void Device::MemoryRangeEditor::init()
{
if ( _nb==-1 ) _nb = nbWords();
uint totalNbLines = _nb / _nbCols;
if ( (_nb % _nbCols)!=0 ) totalNbLines++;
TQHBoxLayout *hbox = new TQHBoxLayout(_top);
TQVBoxLayout *vbox = new TQVBoxLayout(hbox);
TQFrame *frame = new TQFrame(this);
frame->setFrameStyle(TQFrame::Panel | TQFrame::Raised);
frame->setMargin(5);
vbox->addWidget(frame);
vbox->addStretch(1);
TQHBoxLayout *fbox = new TQHBoxLayout(frame, 5, 5);
TQGrid *grid = new TQGrid(3+_nbCols, Qt::Horizontal, frame, "memory_range_editor_grid");
fbox->addWidget(grid);
grid->setSpacing(0);
grid->setMargin(3);
TQFont f("courier", font().pointSize());
grid->setFont(f);
for (uint k=0; k<_nbLines; ++k) {
// addresses
TQWidget *w = new TQWidget(grid);
w->setFixedWidth(10);
_blocks.append(w);
TQLabel *label = new TQLabel(toHex(0, 2*_memory->device().nbBytesAddress()), grid, "address_label");
_addresses.append(label);
label = new TQLabel(":", grid);
// memory
for (uint i = 0; i<_nbCols; ++i) {
HexWordEditor *h = createHexWordEditor(grid);
_editors.append(h);
connect(h, TQT_SIGNAL(modified()), TQT_SIGNAL(modified()));
connect(h, TQT_SIGNAL(moveNext()), TQT_SLOT(moveNext()));
connect(h, TQT_SIGNAL(movePrev()), TQT_SLOT(movePrev()));
connect(h, TQT_SIGNAL(moveFirst()), TQT_SLOT(moveFirst()));
connect(h, TQT_SIGNAL(moveLast()), TQT_SLOT(moveLast()));
connect(h, TQT_SIGNAL(moveUp()), TQT_SLOT(moveUp()));
connect(h, TQT_SIGNAL(moveDown()), TQT_SLOT(moveDown()));
connect(h, TQT_SIGNAL(moveNextPage()), TQT_SLOT(moveNextPage()));
connect(h, TQT_SIGNAL(movePrevPage()), TQT_SLOT(movePrevPage()));
}
}
// scrollbar if there are more lines to display than visible
_scrollbar = new TQScrollBar(0, TQMAX(_nbLines, totalNbLines)-_nbLines, 1, _nbLines, 0,
Qt::Vertical, frame, "memory_range_editor_scrollbar");
connect(_scrollbar, TQT_SIGNAL(valueChanged(int)), TQT_SLOT(setIndex(int))) ;
if ( totalNbLines<=_nbLines ) _scrollbar->hide();
fbox->addWidget(_scrollbar);
fbox->addStretch(1);
vbox->addStretch(1);
TQVBoxLayout *vboxc = new TQVBoxLayout(hbox);
vboxc->setSpacing(0);
_comment = new TQLabel(this);
_comment->hide();
vboxc->addWidget(_comment);
_spacer = new TQLabel(this);
_spacer->setFixedHeight(10);
_spacer->hide();
vboxc->addWidget(_spacer);
addLegend(vboxc);
vboxc->addStretch(1);
hbox->addStretch(1);
setReadOnly(false);
setIndex(0);
}
void Device::MemoryRangeEditor::setComment(const TQString &text)
{
_comment->setText(text);
_comment->show();
_spacer->show();
}
void Device::MemoryRangeEditor::setReadOnly(bool readOnly)
{
for (uint i=0; i<_editors.count(); i++)
_editors[i]->setReadOnly(readOnly || isRangeReadOnly());
}
void Device::MemoryRangeEditor::updateDisplay()
{
setIndex(_scrollbar->value());
}
void Device::MemoryRangeEditor::setStartWord(int index)
{
setIndex(index / _nbCols / addressIncrement());
}
void Device::MemoryRangeEditor::setEndWord(int index)
{
uint i = index / _nbCols / addressIncrement();
i = (i<_nbLines ? 0 : i - _nbLines + 1);
setIndex(i);
}
void Device::MemoryRangeEditor::setIndex(int index)
{
_scrollbar->blockSignals(true);
_scrollbar->setValue(index);
_scrollbar->blockSignals(false);
// memory
for (uint i=0; i<_editors.count(); i++) {
int offset = wordOffset() + i;
_editors[i]->setOffset(offset<int(nbWords()) ? offset : -1);
}
// adresses
uint inc = addressIncrement();
Address address = startAddress() + inc * wordOffset();
for (uint i=0; i<_addresses.count(); i++) {
_addresses[i]->setText(toHex(address, 2*_memory->device().nbBytesAddress()));
updateAddressColor(i, address);
address += inc * _nbCols;
}
}
void Device::MemoryRangeEditor::moveNext()
{
TQValueList<HexWordEditor *>::iterator it = _editors.tqfind((HexWordEditor *)sender());
++it;
if ( it==_editors.end() || (*it)->offset()==-1 ) {
if ( current()==uint(_scrollbar->maxValue()) ) return; // at end
setIndex(current()+1);
_editors[_editors.count()-_nbCols]->setFocus();
} else (*it)->setFocus();
}
void Device::MemoryRangeEditor::movePrev()
{
TQValueList<HexWordEditor *>::iterator it = _editors.tqfind((HexWordEditor *)sender());
if ( it==_editors.begin() ) {
if ( current()==0 ) return; // at beginning
setIndex(current()-1);
_editors[_nbCols-1]->setFocus();
} else {
--it;
(*it)->setFocus();
}
}
void Device::MemoryRangeEditor::moveFirst()
{
if ( _editors[0]==0 ) return;
setIndex(0);
_editors[0]->setFocus();
}
void Device::MemoryRangeEditor::moveLast()
{
if ( _editors.count()==0 ) return;
setIndex(_scrollbar->maxValue());
for (uint i=1; i<=_nbCols; i++) {
if ( _editors[_editors.count()-i]->offset()==-1 ) continue;
_editors[_editors.count()-i]->setFocus();
break;
}
}
void Device::MemoryRangeEditor::moveUp()
{
int i = _editors.tqfindIndex((HexWordEditor *)sender());
uint line = i / _nbCols;
if ( line==0 ) {
if ( current()==0 ) return; // on first line
setIndex(current()-1);
_editors[i]->setFocus();
} else _editors[i-_nbCols]->setFocus();
}
void Device::MemoryRangeEditor::moveDown()
{
int i = _editors.tqfindIndex((HexWordEditor *)sender());
uint line = i / _nbCols;
if ( line+1==_nbLines ) {
if ( current()==uint(_scrollbar->maxValue()) ) return; // on last line
setIndex(current()+1);
if ( _editors[i]->offset()==-1 ) _editors[i-_nbCols]->setFocus();
else _editors[i]->setFocus();
} else _editors[i+_nbCols]->setFocus();
}
void Device::MemoryRangeEditor::moveNextPage()
{
int i = _editors.tqfindIndex((HexWordEditor *)sender());
if ( _nbLines>(uint(_scrollbar->maxValue()) - current()) ) i = (_nbLines-1) * _nbCols + (i % _nbCols);
else setIndex(current()+_nbLines);
if ( _editors[i]->offset()==-1 ) _editors[i-_nbCols]->setFocus();
else _editors[i]->setFocus();
}
void Device::MemoryRangeEditor::movePrevPage()
{
int i = _editors.tqfindIndex((HexWordEditor *)sender());
if ( current()<_nbLines ) i = (i % _nbCols);
else setIndex(current()-_nbLines);
_editors[i]->setFocus();
}
//-----------------------------------------------------------------------------
Device::MemoryEditorGroup::MemoryEditorGroup(Device::Memory *memory, TQWidget *tqparent, const char *name)
: MemoryEditor(memory, tqparent, name)
{}
void Device::MemoryEditorGroup::addEditor(MemoryEditor *editor)
{
connect(editor, TQT_SIGNAL(modified()), TQT_SIGNAL(modified()));
_editors.append(editor);
}
void Device::MemoryEditorGroup::setReadOnly(bool readOnly)
{
for (uint i=0; i<_editors.count(); i++)
_editors[i]->setReadOnly(readOnly);
}
void Device::MemoryEditorGroup::updateDisplay()
{
for (uint i=0; i<_editors.count(); i++)
_editors[i]->updateDisplay();
}
//-----------------------------------------------------------------------------
const Device::ActionData Device::ACTION_DATA[Nb_Actions] = {
{ I18N_NOOP("&Clear"), "fileclose", NeedWrite },
{ I18N_NOOP("&Zero"), 0, NeedWrite },
{ I18N_NOOP("For checksum check"), 0, NeedWrite },
{ I18N_NOOP("Re&load"), "reload", SeparatorAfter | NeedModified },
{ I18N_NOOP("&Program"), "piklab_burnchip", NeedProgrammer },
{ I18N_NOOP("&Verify"), "piklab_verifychip", NeedProgrammer },
{ I18N_NOOP("&Read"), "piklab_readchip", NeedProgrammer | NeedWrite },
{ I18N_NOOP("&Erase"), "piklab_erasechip", NeedProgrammer },
{ I18N_NOOP("&Blank Check"), "piklab_blankcheck", NeedProgrammer }
};
Device::MemoryTypeEditor::MemoryTypeEditor(const HexView *hexview, Device::Memory &memory,
TQWidget *tqparent, const char *name)
: MemoryEditorGroup(&memory, tqparent, name),
_title(0), _comment(0), _hexview(hexview)
{
for (uint i=0; i<Nb_Actions; i++) _actions[i] = 0;
}
void Device::MemoryTypeEditor::init(bool first)
{
if ( !first ) _top->addWidget(new SeparatorWidget(this));
TQHBoxLayout *hbox = new TQHBoxLayout(_top);
_title = new PopupButton(this);
for (uint i=0; i<Nb_Actions; i++) {
if ( hasAction(Action(i)) ) {
_actions[i] = new KAction(i18n(ACTION_DATA[i].label), ACTION_DATA[i].icon, 0,
TQT_TQOBJECT(this), TQT_SLOT(doAction()), Main::toplevel().actionCollection());
addAction(_actions[i]);
}
if ( ACTION_DATA[i].properties & SeparatorAfter ) _title->appendSeparator();
}
_title->appendSeparator();
hbox->addWidget(_title);
_comment = new TQLabel(this);
hbox->addWidget(_comment);
hbox->addStretch(1);
connect(&Main::toplevel(), TQT_SIGNAL(stateChanged()), TQT_SLOT(stateChanged()));
}
void Device::MemoryTypeEditor::addAction(KAction *action)
{
_title->appendAction(action);
}
void Device::MemoryTypeEditor::doAction()
{
for (uint i=0; i<Nb_Actions; i++) {
if ( sender()==_actions[i] ) {
doAction(Action(i));
break;
}
}
}
void Device::MemoryTypeEditor::doAction(Action action)
{
if ( (ACTION_DATA[action].properties & NeedProgrammer)
&& !Programmer::manager->initProgramming(false) ) return;
bool ok = internalDoAction(action);
if ( ACTION_DATA[action].properties & NeedProgrammer )
Programmer::manager->endProgramming();
if (ok) {
updateDisplay();
modified();
}
}
void Device::MemoryTypeEditor::stateChanged()
{
bool idle = ( Main::state()==Main::Idle );
for (uint i=0; i<Nb_Actions; i++) {
if ( _actions[i]==0 ) continue;
bool on = true;
if ( (ACTION_DATA[i].properties & NeedProgrammer) && !idle ) on = false;
if ( (ACTION_DATA[i].properties & NeedWrite) && _readOnly ) on = false;
if ( (ACTION_DATA[i].properties & NeedModified) && (_hexview==0 || !_hexview->isModified()) ) on = false;
_actions[i]->setEnabled(on);
}
}
void Device::MemoryTypeEditor::setReadOnly(bool readOnly)
{
_readOnly = readOnly;
MemoryEditorGroup::setReadOnly(readOnly);
stateChanged();
}
const Device::Memory *Device::MemoryTypeEditor::originalMemory() const
{
return (_hexview ? _hexview->originalMemory() : 0);
}