bool ApplicationList::addComputer(Computer* comp)
{
typedef Gtk::TreeModel::Children type_children;
//type_children children = m_refTreeModel->children();
type_children reschild = m_resRow->children();
for(type_children::iterator itr = reschild.begin(); itr!= reschild.end(); ++itr)
{
Gtk::TreeModel::Row childrow = *itr;
if(childrow[m_appColumns.m_col_name] == Glib::ustring(comp->getName()))
return false;
}
Gtk::TreeModel::Row childrow = *(m_refTreeModel->append(m_resRow.children()));
childrow[m_appColumns.m_col_type] = RESOURCE;
childrow[m_appColumns.m_col_name] = comp->getName();
childrow[m_appColumns.m_col_filename] = comp->getXmlFile();
if(comp->getDisable())
childrow.set_value(0, Gdk::Pixbuf::create_from_data(computer_disable_ico.pixel_data,
Gdk::COLORSPACE_RGB,
true,
8,
computer_disable_ico.width,
computer_disable_ico.height,
computer_disable_ico.bytes_per_pixel*computer_disable_ico.width));
else
childrow.set_value(0, Gdk::Pixbuf::create_from_data(computer_ico.pixel_data,
Gdk::COLORSPACE_RGB,
true,
8,
computer_ico.width,
computer_ico.height,
computer_ico.bytes_per_pixel*computer_ico.width));
string fname;
string fpath = comp->getXmlFile();
size_t pos = fpath.rfind(PATH_SEPERATOR);
if(pos!=string::npos)
fname = fpath.substr(pos+1);
else
fname = fpath;
fname = fname + string(" (") + fpath + string(")");
Gtk::TreeModel::Row descrow = *(m_refTreeModel->append(childrow.children()));
descrow[m_appColumns.m_col_type] = NODE_FILENAME;
descrow[m_appColumns.m_col_name] = fname;
descrow[m_appColumns.m_col_filename] = comp->getXmlFile();
descrow.set_value(0, Gdk::Pixbuf::create_from_data(document_ico.pixel_data,
Gdk::COLORSPACE_RGB,
true,
8,
document_ico.width,
document_ico.height,
document_ico.bytes_per_pixel*document_ico.width));
return true;
}
bool ApplicationList::addApplication(Application* app)
{
typedef Gtk::TreeModel::Children type_children;
type_children children = m_refTreeModel->children();
for(type_children::iterator iter = children.begin(); iter != children.end(); ++iter)
{
Gtk::TreeModel::Row row = *iter;
if(row[m_appColumns.m_col_name] == Glib::ustring("Applications"))
{
type_children appchild = row->children();
for(type_children::iterator itrapp = appchild.begin(); itrapp!= appchild.end(); ++itrapp)
{
Gtk::TreeModel::Row childrow = *itrapp;
if(childrow[m_appColumns.m_col_name] == Glib::ustring(app->getName()))
return false;
}
}
}
Gtk::TreeModel::Row childrow = *(m_refTreeModel->append(m_appRow.children()));
childrow[m_appColumns.m_col_type] = APPLICATION;
childrow[m_appColumns.m_col_name] = app->getName();
childrow[m_appColumns.m_col_filename] = app->getXmlFile();
childrow.set_value(0, Gdk::Pixbuf::create_from_data(application_ico.pixel_data,
Gdk::COLORSPACE_RGB,
true,
8,
application_ico.width,
application_ico.height,
application_ico.bytes_per_pixel*application_ico.width));
string fname;
string fpath = app->getXmlFile();
size_t pos = fpath.rfind(PATH_SEPERATOR);
if(pos!=string::npos)
fname = fpath.substr(pos+1);
else
fname = fpath;
fname = fname + string(" (") + fpath + string(")");
Gtk::TreeModel::Row descrow = *(m_refTreeModel->append(childrow.children()));
descrow[m_appColumns.m_col_type] = NODE_FILENAME;
descrow[m_appColumns.m_col_name] = fname;
descrow[m_appColumns.m_col_filename] = app->getXmlFile();
descrow.set_value(0, Gdk::Pixbuf::create_from_data(document_ico.pixel_data,
Gdk::COLORSPACE_RGB,
true,
8,
document_ico.width,
document_ico.height,
document_ico.bytes_per_pixel*document_ico.width));
return true;
}
void setup_model(){
{
//treeview
treemodel = Gtk::ListStore::create(columns);
treeview1->set_model(treemodel);
treeview1->append_column("Filename", columns.Filename);
treeview1->append_column("Url", columns.url);
treeview1->append_column("Size", columns.size);
treeview1->append_column("%", columns.percentage_complete);
treeview1->append_column("Time Left", columns.time_left);
treeview1->append_column("Action", columns.action);
//make all columns resizeable and set width
std::vector<Gtk::TreeViewColumn*> tv_columns = treeview1->get_columns();
std::vector<Gtk::TreeViewColumn*>::iterator iter = tv_columns.begin();
int count = 0;
for (; iter!=tv_columns.end(); iter++, count++){
Gtk::TreeViewColumn* col = *iter;
col->set_resizable(true);
col->set_fixed_width(column_widths[count]);
}
Gtk::TreeModel::Row row = *(treemodel->append());
row[columns.Filename] = "33";
row[columns.url] = "SFDSD";
Gtk::TreeModel::Children children = treemodel->children();
for(Gtk::TreeModel::Children::iterator iter = children.begin(); iter != children.end(); ++iter){
Gtk::TreeModel::Row row = *iter;
row->set_value(0, (Glib::ustring)"asdfaksdhfakshdfklasjdfhklsafdhlaskjdhflksajdhfasdfads");
row->set_value(4, (Glib::ustring)"asdfads");
}
}
{
comboboxmodel = Gtk::ListStore::create(combo_columns);
combobox_size->set_model(comboboxmodel);
Gtk::TreeModel::Row row = *(comboboxmodel->append());
combobox_size->set_id_column(0);
Gtk::CellRendererText *cell = new Gtk::CellRendererText();
combobox_size->pack_start(*cell);
combobox_size->add_attribute(*cell, "text", combo_columns.size);
row[combo_columns.size] = "kB";
(*(comboboxmodel->append()))[combo_columns.size] = "MB";
combobox_size->set_active(0);
}
}
void MessagesList::addWarning( const char* warning)
{
OSTRINGSTREAM msg;
msg<<"[WAR]: "<<warning;
Gtk::TreeModel::Row row = *(m_refListStore->append());
row.set_value(0, Glib::ustring(msg.str()));
row[m_Columns.m_col_color] = Gdk::Color("#FFF6C8");
m_TreeView.scroll_to_row( m_refListStore->get_path(row));
}
void MessagesList::addError(const char* error)
{
OSTRINGSTREAM msg;
msg<<"[ERR]: "<<error;
Gtk::TreeModel::Row row = *(m_refListStore->append());
row.set_value(0, Glib::ustring(msg.str()));
row[m_Columns.m_col_color] = Gdk::Color("#F9CCCA");
m_TreeView.scroll_to_row( m_refListStore->get_path(row));
}
bool ApplicationList::addAppTemplate(AppTemplate* temp)
{
typedef Gtk::TreeModel::Children type_children;
string fname = temp->name + string(" (") + temp->tmpFileName + string(")");
Gtk::TreeModel::Row descrow = *(m_refTreeModel->append(m_tempRow.children()));
descrow[m_appColumns.m_col_type] = NODE_APPTEMPLATE;
descrow[m_appColumns.m_col_name] = fname;
descrow[m_appColumns.m_col_filename] = temp->tmpFileName;
descrow.set_value(0, Gdk::Pixbuf::create_from_data(apptemplate_ico.pixel_data,
Gdk::COLORSPACE_RGB,
true,
8,
apptemplate_ico.width,
apptemplate_ico.height,
apptemplate_ico.bytes_per_pixel*apptemplate_ico.width));
return true;
}
void ResourceWindow::updateWidget()
{
m_refTreeModel->clear();
Gtk::TreeModel::Row row;
Gtk::TreeModel::Row childrow;
// Gtk::TreeModel::Row cchildrow;
row = *(m_refTreeModel->append());
row[m_Columns.m_col_name] = "Name";
row[m_Columns.m_col_value] = m_pComputer->getName();
row = *(m_refTreeModel->append());
row[m_Columns.m_col_name] = "Description";
row[m_Columns.m_col_value] = m_pComputer->getDescription();
row = *(m_refTreeModel->append());
row[m_Columns.m_col_name] = "Disable";
if(!m_pComputer->getDisable())
{
row[m_Columns.m_col_value] = "No";
row.set_value(0, Gdk::Pixbuf::create_from_data(computer_ico.pixel_data,
Gdk::COLORSPACE_RGB,
true,
8,
computer_ico.width,
computer_ico.height,
computer_ico.bytes_per_pixel*computer_ico.width));
}
else
{
row[m_Columns.m_col_value] = "Yes";
row.set_value(0, Gdk::Pixbuf::create_from_data(computer_disable_ico.pixel_data,
Gdk::COLORSPACE_RGB,
true,
8,
computer_disable_ico.width,
computer_disable_ico.height,
computer_disable_ico.bytes_per_pixel*computer_disable_ico.width));
}
row = *(m_refTreeModel->append());
row[m_Columns.m_col_name] = "Availablity";
if(m_pComputer->getAvailability())
{
row[m_Columns.m_col_value] = "Yes";
row.set_value(0, Gdk::Pixbuf::create_from_data(yesres_ico.pixel_data,
Gdk::COLORSPACE_RGB,
true,
8,
yesres_ico.width,
yesres_ico.height,
yesres_ico.bytes_per_pixel*yesres_ico.width));
}
else
{
row[m_Columns.m_col_value] = "No";
row.set_value(0, Gdk::Pixbuf::create_from_data(nores_ico.pixel_data,
Gdk::COLORSPACE_RGB,
true,
8,
nores_ico.width,
nores_ico.height,
nores_ico.bytes_per_pixel*nores_ico.width));
return;
}
// platform
row = *(m_refTreeModel->append());
row[m_Columns.m_col_name] = "Platform";
row[m_Columns.m_col_value] = "";
row.set_value(0, Gdk::Pixbuf::create_from_data(module_ico.pixel_data,
Gdk::COLORSPACE_RGB,
true,
8,
module_ico.width,
module_ico.height,
module_ico.bytes_per_pixel*module_ico.width));
childrow = *(m_refTreeModel->append(row.children()));
childrow[m_Columns.m_col_name] = "Name";
childrow[m_Columns.m_col_value] = m_pComputer->getPlatform().getName();
childrow = *(m_refTreeModel->append(row.children()));
childrow[m_Columns.m_col_name] = "Distribution";
childrow[m_Columns.m_col_value] = m_pComputer->getPlatform().getDistribution();
childrow = *(m_refTreeModel->append(row.children()));
childrow[m_Columns.m_col_name] = "Release";
childrow[m_Columns.m_col_value] = m_pComputer->getPlatform().getRelease();
// processor
row = *(m_refTreeModel->append());
row[m_Columns.m_col_name] = "Processor";
row[m_Columns.m_col_value] = "";
row.set_value(0, Gdk::Pixbuf::create_from_data(processor_ico.pixel_data,
Gdk::COLORSPACE_RGB,
true,
8,
processor_ico.width,
processor_ico.height,
processor_ico.bytes_per_pixel*processor_ico.width));
childrow = *(m_refTreeModel->append(row.children()));
childrow[m_Columns.m_col_name] = "Model";
childrow[m_Columns.m_col_value] = m_pComputer->getProcessor().getModel();
childrow = *(m_refTreeModel->append(row.children()));
childrow[m_Columns.m_col_name] = "Architecture";
childrow[m_Columns.m_col_value] = m_pComputer->getProcessor().getArchitecture();
char buff[64];
childrow = *(m_refTreeModel->append(row.children()));
childrow[m_Columns.m_col_name] = "Cores";
sprintf(buff, "%d", (int)m_pComputer->getProcessor().getCores());
childrow[m_Columns.m_col_value] = Glib::ustring(buff);
childrow = *(m_refTreeModel->append(row.children()));
childrow[m_Columns.m_col_name] = "Siblings";
sprintf(buff, "%d", (int)m_pComputer->getProcessor().getSiblings());
childrow[m_Columns.m_col_value] = Glib::ustring(buff);
childrow = *(m_refTreeModel->append(row.children()));
childrow[m_Columns.m_col_name] = "Frequency";
sprintf(buff, "%.2f", (float)m_pComputer->getProcessor().getFrequency());
childrow[m_Columns.m_col_value] = Glib::ustring(buff);
// CPU Load
row = *(m_refTreeModel->append());
row[m_Columns.m_col_name] = "CPU Load";
row[m_Columns.m_col_value] = "";
row.set_value(0, Gdk::Pixbuf::create_from_data(cpuload_ico.pixel_data,
Gdk::COLORSPACE_RGB,
true,
8,
cpuload_ico.width,
cpuload_ico.height,
cpuload_ico.bytes_per_pixel*cpuload_ico.width));
childrow = *(m_refTreeModel->append(row.children()));
childrow[m_Columns.m_col_name] = "Load instant";
if(compareString(m_pComputer->getPlatform().getName(), "WINDOWS"))
sprintf(buff, "%.1f%%", (float)m_pComputer->getProcessor().getCPULoad().loadAverageInstant);
else
{
float sibling = (float)m_pComputer->getProcessor().getSiblings();
if(!sibling) sibling = 1.0F;
float loadP = (float)(m_pComputer->getProcessor().getCPULoad().loadAverageInstant / sibling)*100.0F;
if(loadP > 100.0F) loadP = 100.0F;
sprintf(buff, "%.1f%%", loadP);
}
childrow[m_Columns.m_col_value] = Glib::ustring(buff);
float sibling = (float)m_pComputer->getProcessor().getSiblings();
if(!sibling) sibling = 1.0F;
float load1P = ((float)m_pComputer->getProcessor().getCPULoad().loadAverage1 / sibling)*100.0F;
if(load1P > 100.0F) load1P = 100.0F;
float load5P = ((float)m_pComputer->getProcessor().getCPULoad().loadAverage5 / sibling)*100.0F;
if(load5P > 100.0F) load5P = 100.0F;
float load15P = ((float)m_pComputer->getProcessor().getCPULoad().loadAverage15 / sibling)*100.0F;
if(load15P > 100.0F) load15P = 100.0F;
childrow = *(m_refTreeModel->append(row.children()));
childrow[m_Columns.m_col_name] = "Load average 1";
sprintf(buff, "%.1f%%", load1P);
childrow[m_Columns.m_col_value] = Glib::ustring(buff);
childrow = *(m_refTreeModel->append(row.children()));
childrow[m_Columns.m_col_name] = "Load average 5";
sprintf(buff, "%.1f%%", load5P);
childrow[m_Columns.m_col_value] = Glib::ustring(buff);
childrow = *(m_refTreeModel->append(row.children()));
childrow[m_Columns.m_col_name] = "Load average 15";
sprintf(buff, "%.1f%%", load15P);
childrow[m_Columns.m_col_value] = Glib::ustring(buff);
m_TreeView.expand_row(m_refTreeModel->get_path(row), true);
// Memory
row = *(m_refTreeModel->append());
row[m_Columns.m_col_name] = "Memory";
row[m_Columns.m_col_value] = "";
row.set_value(0, Gdk::Pixbuf::create_from_data(memory_ico.pixel_data,
Gdk::COLORSPACE_RGB,
true,
8,
memory_ico.width,
memory_ico.height,
memory_ico.bytes_per_pixel*memory_ico.width));
childrow = *(m_refTreeModel->append(row.children()));
childrow[m_Columns.m_col_name] = "Total space";
sprintf(buff, "%ldKB", (long)m_pComputer->getMemory().getTotalSpace());
childrow[m_Columns.m_col_value] = Glib::ustring(buff);
childrow = *(m_refTreeModel->append(row.children()));
childrow[m_Columns.m_col_name] = "Free space";
sprintf(buff, "%ldKB", (long)m_pComputer->getMemory().getFreeSpace());
childrow[m_Columns.m_col_value] = Glib::ustring(buff);
// Storage
row = *(m_refTreeModel->append());
row[m_Columns.m_col_name] = "Storage";
row[m_Columns.m_col_value] = "";
row.set_value(0, Gdk::Pixbuf::create_from_data(storage_ico.pixel_data,
Gdk::COLORSPACE_RGB,
true,
8,
storage_ico.width,
storage_ico.height,
storage_ico.bytes_per_pixel*storage_ico.width));
childrow = *(m_refTreeModel->append(row.children()));
childrow[m_Columns.m_col_name] = "Total space";
sprintf(buff, "%ldKB", (long)m_pComputer->getStorage().getTotalSpace());
childrow[m_Columns.m_col_value] = Glib::ustring(buff);
childrow = *(m_refTreeModel->append(row.children()));
childrow[m_Columns.m_col_name] = "Free space";
sprintf(buff, "%ldKB", (long)m_pComputer->getStorage().getFreeSpace());
childrow[m_Columns.m_col_value] = Glib::ustring(buff);
// Peripherals
row = *(m_refTreeModel->append());
row[m_Columns.m_col_name] = "Peripheral devices";
row[m_Columns.m_col_value] = "";
row.set_value(0, Gdk::Pixbuf::create_from_data(device_ico.pixel_data,
Gdk::COLORSPACE_RGB,
true,
8,
device_ico.width,
device_ico.height,
device_ico.bytes_per_pixel*device_ico.width));
for(int i=0; i<m_pComputer->peripheralCount(); i++)
{
childrow = *(m_refTreeModel->append(row.children()));
childrow[m_Columns.m_col_name] = m_pComputer->getPeripheralAt(i).getTypeName();
childrow[m_Columns.m_col_value] = m_pComputer->getPeripheralAt(i).getName();
}
// Processes
row = *(m_refTreeModel->append());
row[m_Columns.m_col_name] = "Processes";
row[m_Columns.m_col_value] = "";
row.set_value(0, Gdk::Pixbuf::create_from_data(process_ico.pixel_data,
Gdk::COLORSPACE_RGB,
true,
8,
process_ico.width,
process_ico.height,
process_ico.bytes_per_pixel*process_ico.width));
ProcessContainer processes = m_pComputer->getProcesses();
for(unsigned int i=0; i<processes.size(); i++)
{
childrow = *(m_refTreeModel->append(row.children()));
char buff[64];
sprintf(buff, "%d", processes[i].pid);
childrow[m_Columns.m_col_name] = Glib::ustring(buff);
childrow[m_Columns.m_col_value] = processes[i].command;
}
}