void handleCounterEvent() { Time *time = 0; timerCounter = 0; temperature = getTemperature(); displayTemperature(1, 10, temperature); testResult = testTemperature(temperature, minTemp, maxTemp); time = RTC_displayTime(1, 1); if(Feeder_test(time)) { //Lcd_Out(1, 1, msgFeedTime); feed(); //Lcd_Out(1, 1, " "); } if(testResult < 0) { ALARM_COLD_TRIS &= ~ALARM_COLD_BIT; ALARM_COLD_PORT |= ALARM_COLD_BIT; } else { ALARM_COLD_TRIS &= ~ALARM_COLD_BIT; ALARM_COLD_PORT &= ~ALARM_COLD_BIT; } if(testResult > 0) { ALARM_WARM_TRIS &= ~ALARM_WARM_BIT; ALARM_WARM_PORT |= ALARM_WARM_BIT; } else { ALARM_WARM_TRIS &= ~ALARM_WARM_BIT; ALARM_WARM_PORT &= ~ALARM_WARM_BIT; } }
QVariant DiveItem::data(int column, int role) const { QVariant retVal; switch (role) { case Qt::TextAlignmentRole: switch (column) { case DATE: /* fall through */ case SUIT: /* fall through */ case LOCATION: retVal = Qt::AlignLeft; break; default: retVal = Qt::AlignRight; break; } break; case DiveTripModel::SORT_ROLE: switch (column) { case NR: retVal = (qulonglong) dive->when; break; case DATE: retVal = (qulonglong) dive->when; break; case RATING: retVal = dive->rating; break; case DEPTH: retVal = dive->maxdepth.mm; break; case DURATION: retVal = dive->duration.seconds; break; case TEMPERATURE: retVal = dive->watertemp.mkelvin; break; case TOTALWEIGHT: retVal = total_weight(dive); break; case SUIT: retVal = QString(dive->suit); break; case CYLINDER: retVal = QString(dive->cylinder[0].type.description); break; case NITROX: retVal = nitrox_sort_value(dive); break; case SAC: retVal = dive->sac; break; case OTU: retVal = dive->otu; break; case MAXCNS: retVal = dive->maxcns; break; case LOCATION: retVal = QString(dive->location); break; } break; case Qt::DisplayRole: switch (column) { case NR: retVal = dive->number; break; case DATE: retVal = displayDate(); break; case DEPTH: retVal = displayDepth(); break; case DURATION: retVal = displayDuration(); break; case TEMPERATURE: retVal = displayTemperature(); break; case TOTALWEIGHT: retVal = displayWeight(); break; case SUIT: retVal = QString(dive->suit); break; case CYLINDER: retVal = QString(dive->cylinder[0].type.description); break; case NITROX: retVal = QString(get_nitrox_string(dive)); break; case SAC: retVal = displaySac(); break; case OTU: retVal = dive->otu; break; case MAXCNS: retVal = dive->maxcns; break; case LOCATION: retVal = QString(dive->location); break; } break; } if (role == DiveTripModel::STAR_ROLE) retVal = dive->rating; if (role == DiveTripModel::DIVE_ROLE) retVal = QVariant::fromValue<void*>(dive); if(role == DiveTripModel::DIVE_IDX){ retVal = get_divenr(dive); } return retVal; }
MainWindow::MainWindow(QWidget *parent) : QMainWindow(parent), ui(new Ui::MainWindow), temp_samples(SAMPLE_STORE_SIZE), currentTempsensorIndex(0), temp_poll_interval(DEFAULT_TEMP_POLL_INTERVAL_MS), logging_enabled(false), log_visible_only(false) { int ret; ret = thermaldInterface.initialize(); if (ret < 0) { sensor_visibility = NULL; sensor_temp = NULL; window = NULL; layout = NULL; QMessageBox msgBox; QString str; str = QString("Can't establish link with thermal daemon." " Make sure that thermal daemon started with --dbus-enable option.\n"); msgBox.setText(str); msgBox.setStandardButtons(QMessageBox::Abort); int ret = msgBox.exec(); switch (ret) { case QMessageBox::Abort: // Abort was clicked abort(); break; default: // should never be reached qFatal("main: unexpected button result"); break; } delete ui; return; } // Build up a color vector for holding a good variety colors.append(Qt::red); colors.append(Qt::green); colors.append(Qt::blue); colors.append(Qt::cyan); colors.append(Qt::magenta); colors.append(Qt::yellow); colors.append(Qt::black); colors.append(QColor(200,200,00)); colors.append(QColor(220,20,60)); colors.append(QColor(255,20,147)); colors.append(QColor(145,44,238)); colors.append(QColor(0,255,127)); colors.append(QColor(127,255,0)); colors.append(QColor(255,215,0)); colors.append(QColor(255,193,37)); colors.append(QColor(255,153,18)); colors.append(QColor(255,69,0)); colors.append(Qt::gray); ui->setupUi(this); resoreSettings(); for (int i = 0; i < SAMPLE_STORE_SIZE; ++i) { temp_samples[i] = i; } displayTemperature(ui->customPlot); window = new QWidget; layout = new QVBoxLayout; layout->addWidget(ui->customPlot, 90); // 90% to this widget, 10% to tab widget window->setLayout(layout); setCentralWidget(window); }
QVariant DiveItem::data(int column, int role) const { QVariant retVal; struct dive *dive = get_dive_by_uniq_id(diveId); if (!dive) return QVariant(); switch (role) { case Qt::TextAlignmentRole: retVal = dive_table_alignment(column); break; case DiveTripModel::SORT_ROLE: Q_ASSERT(dive != NULL); switch (column) { case NR: retVal = (qulonglong)dive->when; break; case DATE: retVal = (qulonglong)dive->when; break; case RATING: retVal = dive->rating; break; case DEPTH: retVal = dive->maxdepth.mm; break; case DURATION: retVal = dive->duration.seconds; break; case TEMPERATURE: retVal = dive->watertemp.mkelvin; break; case TOTALWEIGHT: retVal = total_weight(dive); break; case SUIT: retVal = QString(dive->suit); break; case CYLINDER: retVal = QString(dive->cylinder[0].type.description); break; case GAS: retVal = nitrox_sort_value(dive); break; case SAC: retVal = dive->sac; break; case OTU: retVal = dive->otu; break; case MAXCNS: retVal = dive->maxcns; break; case LOCATION: retVal = QString(get_dive_location(dive)); break; } break; case Qt::DisplayRole: Q_ASSERT(dive != NULL); switch (column) { case NR: retVal = dive->number; break; case DATE: retVal = displayDate(); break; case DEPTH: retVal = displayDepth(); break; case DURATION: retVal = displayDuration(); break; case TEMPERATURE: retVal = displayTemperature(); break; case TOTALWEIGHT: retVal = displayWeight(); break; case SUIT: retVal = QString(dive->suit); break; case CYLINDER: retVal = QString(dive->cylinder[0].type.description); break; case SAC: retVal = displaySac(); break; case OTU: retVal = dive->otu; break; case MAXCNS: retVal = dive->maxcns; break; case LOCATION: retVal = QString(get_dive_location(dive)); break; case GAS: const char *gas_string = get_dive_gas_string(dive); retVal = QString(gas_string); free((void*)gas_string); break; } break; case Qt::DecorationRole: if (column == LOCATION) if (dive_has_gps_location(dive)) { IconMetrics im = defaultIconMetrics(); retVal = QIcon(":satellite").pixmap(im.sz_small, im.sz_small); } break; case Qt::ToolTipRole: switch (column) { case NR: retVal = tr("#"); break; case DATE: retVal = tr("Date"); break; case RATING: retVal = tr("Rating"); break; case DEPTH: retVal = tr("Depth(%1)").arg((get_units()->length == units::METERS) ? tr("m") : tr("ft")); break; case DURATION: retVal = tr("Duration"); break; case TEMPERATURE: retVal = tr("Temp(%1%2)").arg(UTF8_DEGREE).arg((get_units()->temperature == units::CELSIUS) ? "C" : "F"); break; case TOTALWEIGHT: retVal = tr("Weight(%1)").arg((get_units()->weight == units::KG) ? tr("kg") : tr("lbs")); break; case SUIT: retVal = tr("Suit"); break; case CYLINDER: retVal = tr("Cyl"); break; case GAS: retVal = tr("Gas"); break; case SAC: const char *unit; get_volume_units(0, NULL, &unit); retVal = tr("SAC(%1)").arg(QString(unit).append(tr("/min"))); break; case OTU: retVal = tr("OTU"); break; case MAXCNS: retVal = tr("Max CNS"); break; case LOCATION: retVal = tr("Location"); break; } break; } if (role == DiveTripModel::STAR_ROLE) { Q_ASSERT(dive != NULL); retVal = dive->rating; } if (role == DiveTripModel::DIVE_ROLE) { retVal = QVariant::fromValue<void *>(dive); } if (role == DiveTripModel::DIVE_IDX) { Q_ASSERT(dive != NULL); retVal = get_divenr(dive); } return retVal; }
void main () { int rc; unsigned long next_wake_utt; unsigned long delta_wake_utt; vBSP430platformInitialize_ni(); (void)iBSP430consoleInitialize(); cprintf("\n\nadc demo, " __DATE__ " " __TIME__ "\n"); delta_wake_utt = 2 * ulBSP430uptimeConversionFrequency_Hz(); rc = initializeADC(); cprintf("%s initialized, returned %d, ADC cal at %p, REF cal at %p\n", #if defined(__MSP430_HAS_ADC10__) "ADC10" #elif defined(__MSP430_HAS_ADC10_A__) "ADC10_A" #elif defined(__MSP430_HAS_ADC10_B__) "ADC10_B" #elif defined(__MSP430_HAS_ADC10_B4__) "ADC10_B (FR4xx)" #elif defined(__MSP430_HAS_ADC12__) "ADC12" #elif defined(__MSP430_HAS_ADC12_B__) "ADC12_B" #elif defined(__MSP430_HAS_ADC12_PLUS__) "ADC12_PLUS" #endif /* ADC */ , rc, cal_adc, cal_ref); #if HAVE_REF if (cal_ref) { cprintf("Reference factors:\n" "\t" REF_1pX_STR "V %u (0x%04x)\n" "\t2.0V %u (0x%04x)\n" "\t2.5V %u (0x%04x)\n", cal_ref->cal_adc_15vref_factor, cal_ref->cal_adc_15vref_factor, cal_ref->cal_adc_20vref_factor, cal_ref->cal_adc_20vref_factor, cal_ref->cal_adc_25vref_factor, cal_ref->cal_adc_25vref_factor); } #endif /* HAVE_REF */ if (cal_adc) { cprintf("ADC gain factor %d (0x%04x), offset %d\n", cal_adc->cal_adc_gain_factor, cal_adc->cal_adc_gain_factor, cal_adc->cal_adc_offset); cprintf("Temperature ranges:\n"); cprintf("\t" REF_1pX_STR "V T30 %u T85 %u\n", cal_adc->cal_adc_15t30, cal_adc->cal_adc_15t85); #if BSP430_TLV_IS_5XX cprintf("\t2.0V T30 %u T85 %u\n", cal_adc->cal_adc_20t30, cal_adc->cal_adc_20t85); #endif /* BSP430_TLV_IS_5XX */ cprintf("\t2.5V T30 %u T85 %u\n", cal_adc->cal_adc_25t30, cal_adc->cal_adc_25t85); } cprintf("Vmid channel %u, Temp channel %u" #ifdef INCH_AUX ", Aux channel %u" #endif /* INCH_AUX */ "\n", INCH_VMID / INCH_BASE, INCH_TEMP / INCH_BASE #ifdef INCH_AUX , INCH_AUX / INCH_BASE #endif /* INCH_AUX */ ); next_wake_utt = ulBSP430uptime_ni(); while (1) { char timestamp[BSP430_UPTIME_AS_TEXT_LENGTH]; static const int refv[] = { REF_1pX, REF_2p0, REF_2p5 }; static const char * const refv_str[] = { REF_1pX_STR, "2.0", "2.5" }; static const int const nrefv = sizeof(refv)/sizeof(*refv); static const int inch[] = { INCH_TEMP, INCH_VMID, #if defined(INCH_AUX) INCH_AUX, #endif /* INCH_AUX */ }; static const int const ninch = sizeof(inch)/sizeof(*inch); int valid = 0; sSample sample[sizeof(refv)/sizeof(*refv)][sizeof(inch)/sizeof(*inch)]; int ri; int ii; #define VALID(_ri,_ii) ((1 << (_ii)) << ((_ri) * nrefv)) #define ANY_VALID(_ri) (((1 << nrefv)-1) << ((_ri) * nrefv)) for (ri = 0; ri < nrefv; ++ri) { if (0 == setReferenceVoltage(refv[ri])) { for (ii = 0; ii < ninch; ++ii) { if (0 == getSample(sample[ri]+ii, refv[ri], inch[ii])) { valid |= VALID(ri, ii); } } } } cprintf("%s: valid %x", xBSP430uptimeAsText(ulBSP430uptime_ni(), timestamp), valid); for (ri = 0; ri < nrefv; ++ri) { if (valid & ANY_VALID(ri)) { cprintf("\n\t%sV: ", refv_str[ri]); for (ii = 0; ii < ninch; ++ii) { if (VALID(ri, ii) & valid) { if (INCH_TEMP == inch[ii]) { displayTemperature(sample[ri] + ii); } else if (INCH_VMID == inch[ii]) { displayVmid(sample[ri] + ii); } else { displayVoltage(sample[ri] + ii); } } } } } cputchar('\n'); next_wake_utt += delta_wake_utt; while (0 < lBSP430uptimeSleepUntil(next_wake_utt, LPM3_bits)) { /* nop */ } } }