void Sun::advanceTime( F32 timeDelta ) { if (mAnimateSun) { if (mCurrTime >= mTotalTime) { mAnimateSun = false; mCurrTime = 0.0f; } else { mCurrTime += timeDelta; F32 fract = mCurrTime / mTotalTime; F32 inverse = 1.0f - fract; F32 newAzimuth = mStartAzimuth * inverse + mEndAzimuth * fract; F32 newElevation = mStartElevation * inverse + mEndElevation * fract; if (newAzimuth > 360.0f) newAzimuth -= 360.0f; if (newElevation > 360.0f) newElevation -= 360.0f; setAzimuth(newAzimuth); setElevation(newElevation); } } }
caScriptButton::caScriptButton(QWidget *parent) : QWidget(parent) { QGridLayout *l = new QGridLayout; l->setMargin(0); displayScript = new QCheckBox(); displayScript->setText(""); displayScript->setGeometry(0,0,15,15); displayScript->setSizePolicy(QSizePolicy::Fixed, QSizePolicy::Fixed); buttonScript = new EPushButton( "Action", this ); buttonScript->setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding); setFontScaleModeL(EPushButton::WidthAndHeight); l->addWidget(buttonScript, 0, 0); l->addWidget(displayScript, 0, 1); setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding); setLayout(l); thisForeColor = Qt::black; thisBackColor = Qt::gray; thisShowExecution = false; connect(displayScript, SIGNAL(clicked()), this, SLOT(buttonToggled()) ); connect(buttonScript, SIGNAL(clicked()), this, SLOT(scriptButtonClicked()) ); installEventFilter(this); setAccessW(true); setElevation(on_top); setCheckboxDisplay(true); }
caChoice::caChoice(QWidget *parent) : QWidget(parent) { numCells = 2; labels << "1" << "2" << "3" << "4" << "5" << "6" << "7" << "8" << "9" << "10" << "11" << "12" << "13" << "14" << "15" << "16"; texts << "1" << "2" << "3" << "4" << "5" << "6" << "7" << "8" << "9" << "10" << "11" << "12" << "13" << "14" << "15" << "16"; signalMapper = new QSignalMapper(this); setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding); grid = new QGridLayout(this); grid->setMargin(0); grid->setSpacing(2); thisStacking = Row; thisStartBit = 0; thisEndBit = 15; thisColorMode = Default; thisForeColor = QColor(0,0,0); thisBackColor = QColor(155,255,255); thisBorderColor = QColor(0,0,176); thisAlignment = center; thisScaleMode = EPushButton::WidthAndHeight; setAccessW(true); installEventFilter(this); populateCells(labels, -1); setColorMode(thisColorMode); setElevation(on_top); }
bool WeatherDataModel::readLocation(QString line) { QStringList list = line.split(','); // Require 10 items in the list if(list.size() > 10) { LOG(warning) << "Location: Expected 10 entries, got " << list.size(); } else if(list.size() != 10) { LOG(error) << "Location: Expected 10 entries, got " << list.size(); return false; } setCity(list[1].toStdString()); setStateProvinceRegion(list[2].toStdString()); setCountry(list[3].toStdString()); setSource(list[4].toStdString()); setWMO(list[5].toStdString()); if(!setLatitude(list[6].toStdString())) { LOG(error) << QString("Location: Bad latitude value '%1'").arg(list[6]).toStdString(); return false; } if(!setLongitude(list[7].toStdString())) { LOG(error) << QString("Location: Bad latitude value '%1'").arg(list[7]).toStdString(); return false; } if(!setTimeZone(list[8].toStdString())) { LOG(error) << QString("Location: Bad time zone value '%1'").arg(list[8]).toStdString(); return false; } if(!setElevation(list[9].toStdString())) { LOG(error) << QString("Location: Bad elevation value '%1'").arg(list[9]).toStdString(); return false; } return true; }
//------------------------------------------------------------------------------ // Event handlers //------------------------------------------------------------------------------ bool TdElevPtr::onUpdateValue(const Basic::Number* const msg) { bool ok = false; if (msg != 0) { ok = setElevation(msg->getReal()); } return ok; }
caMessageButton::caMessageButton(QWidget *parent) : EPushButton(parent) { setAccessW(true); thisColorMode = Static; thisForeColor = Qt::black; thisDisabledForeColor = Qt::gray; setBackground(QColor(0xe8, 0xe8, 0xe8)); installEventFilter(this); setElevation(on_top); }
void Camera::dragMouse( int x, int y ) { Vec3f mouseDelta = Vec3f(x,y,0.0f) - mLastMousePosition; mLastMousePosition = Vec3f(x,y,0.0f); switch(mCurrentMouseAction) { case kActionTranslate: { calculateViewingTransformParameters(); double xTrack = -mouseDelta[0] * kMouseTranslationXSensitivity; double yTrack = mouseDelta[1] * kMouseTranslationYSensitivity; Vec3f transXAxis = mUpVector ^ (mPosition - mLookAt); transXAxis /= sqrt((transXAxis*transXAxis)); Vec3f transYAxis = (mPosition - mLookAt) ^ transXAxis; transYAxis /= sqrt((transYAxis*transYAxis)); setLookAt(getLookAt() + transXAxis*xTrack + transYAxis*yTrack); break; } case kActionRotate: { float dAzimuth = -mouseDelta[0] * kMouseRotationSensitivity; float dElevation = mouseDelta[1] * kMouseRotationSensitivity; setAzimuth(getAzimuth() + dAzimuth); setElevation(getElevation() + dElevation); if (getAzimuth() > M_PI) mAzimuth -= 2.0*M_PI; if (getElevation() > M_PI) mElevation -= 2.0*M_PI; fprintf(stderr, "az %f, elev %f\n", mAzimuth, mElevation); break; } case kActionZoom: { float dDolly = -mouseDelta[1] * kMouseZoomSensitivity; setDolly(getDolly() + dDolly); break; } case kActionTwist: // Not implemented default: break; } }
int main() { char buffer[200]; int devfilefd, fd, i; float elevation, azimuth; readconfig(); /* open the pseudo terminal device */ fd=getpt(); if (fd<0) { fprintf(stderr, "Unable to open serial line!\n"); return -1; } unlockpt(fd); /* write the device file */ devfilefd = open(PSEUDODEVICEFILE, O_WRONLY|O_CREAT, 0666); write(devfilefd, (char*)ptsname(fd), strlen((char*)ptsname(fd))); close(devfilefd); /* open the fodtrack device */ openfodtrack(fodtrackdev); /* print informations about the devices */ printf("Using %s as pseudo terminal device.\n", ptsname(fd)); printf("Using %s as port for the fodtrack device.\n", fodtrackdev); /* going for the background */ daemon(0,0); /* Main loop - reads from the device, and sets the antenna on the output */ for(;;) { usleep(100); i=read(fd, buffer, 199); if(i>0) { sscanf(buffer, "AZ%f EL%f", &azimuth, &elevation); /*printf("New Data:\nElevation: %f\nAzimuth: %f\n\n", elevation, azimuth);*/ setElevation(elevation); setAzimuth(azimuth); } } }
void Opcode80A9::_run() { Logger::debug("SCRIPT") << "[80A9] [+] void override_map_start(int x, int y, int elevation, int orientation)" << std::endl; auto orientation = _script->dataStack()->popInteger(); auto elevation = _script->dataStack()->popInteger(); auto y = _script->dataStack()->popInteger(); auto x = _script->dataStack()->popInteger(); auto position = y*200 + x; auto game = Game::Game::getInstance(); auto player = game->player(); auto hexagon = game->locationState()->hexagonGrid()->at(position); Game::getInstance()->locationState()->moveObjectToHexagon(player, hexagon); //player->setPosition(position); player->setOrientation(orientation); player->setElevation(elevation); Game::Game::getInstance()->locationState()->centerCameraAtHexagon(player->hexagon()); }
caNumeric::caNumeric(QWidget *parent) : ENumeric(parent) { setStyleSheet(""); setAccessW(true); setPrecisionMode(Channel); setLimitsMode(Channel); setMaxValue(100000.0); setMinValue(-100000.0); thisFixedFormat = false; thisColorMode = Static; setDigitsFontScaleEnabled(true); setForeground(Qt::black); renewStyleSheet = true; setBackground(QColor(230,230,230)); setElevation(on_top); }
void TerrainTile::decode(const int bitset) { clearFlags(); if (bitset & 0x1) { setTree(true); } if (bitset & 0x2) { setRock(true); } if (bitset & 0x4) { setWater(true); } if (bitset & 0x8) { setBuilding(true); } if (bitset & 0x10) { setTree(true); } if (bitset & 0x20) { setGarden(true); } if (bitset & 0x40) { setRoad(true); } if (bitset & 0x100) { setAqueduct(true); } if (bitset & 0x200) { setElevation(true); } if (bitset & 0x400) { setRock( true ); } if (bitset & 0x800) { setMeadow(true); } if (bitset & 0x4000) { setWall(true); } if (bitset & 0x8000) { setGateHouse(true); } }
void ScatterSky::_updateTimeOfDay( TimeOfDay *timeOfDay, F32 time ) { setElevation( timeOfDay->getElevationDegrees() ); setAzimuth( timeOfDay->getAzimuthDegrees() ); }
void ScatterSky::unpackUpdate(NetConnection *con, BitStream *stream) { Parent::unpackUpdate(con, stream); if ( stream->readFlag() ) // TimeMask { F32 temp = 0; stream->read( &temp ); setAzimuth( temp ); stream->read( &temp ); setElevation( temp ); } if ( stream->readFlag() ) // UpdateMask { stream->read( &mRayleighScattering ); stream->read( &mRayleighScattering4PI ); stream->read( &mMieScattering ); stream->read( &mMieScattering4PI ); stream->read( &mSunSize ); stream->read( &mSkyBrightness ); stream->read( &mMiePhaseAssymetry ); stream->read( &mSphereInnerRadius ); stream->read( &mSphereOuterRadius ); stream->read( &mScale ); ColorF tmpColor( 0, 0, 0 ); stream->read( &tmpColor ); stream->read( &mWavelength4[0] ); stream->read( &mWavelength4[1] ); stream->read( &mWavelength4[2] ); stream->read( &mRayleighScaleDepth ); stream->read( &mMieScaleDepth ); stream->read( &mNightColor ); stream->read( &mNightFogColor ); stream->read( &mAmbientScale ); stream->read( &mSunScale ); stream->read( &mFogScale ); F32 colorizeAmt; stream->read( &colorizeAmt ); if(mColorizeAmt != colorizeAmt) { mColorizeAmt = colorizeAmt; mShader = NULL; //forces shader refresh } stream->read( &mColorize ); if ( tmpColor != mWavelength ) { mWavelength = tmpColor; mWavelength4[0] = mPow(mWavelength[0], 4.0f); mWavelength4[1] = mPow(mWavelength[1], 4.0f); mWavelength4[2] = mPow(mWavelength[2], 4.0f); } stream->read( &mExposure ); stream->read( &mBrightness ); mCastShadows = stream->readFlag(); stream->read( &mFlareScale ); if ( stream->readFlag() ) { SimObjectId id = stream->readRangedU32( DataBlockObjectIdFirst, DataBlockObjectIdLast ); LightFlareData *datablock = NULL; if ( Sim::findObject( id, datablock ) ) mFlareData = datablock; else { con->setLastError( "ScatterSky::unpackUpdate() - invalid LightFlareData!" ); mFlareData = NULL; } } else mFlareData = NULL; mMoonEnabled = stream->readFlag(); stream->read( &mMoonMatName ); stream->read( &mMoonScale ); stream->read( &mMoonTint ); mUseNightCubemap = stream->readFlag(); stream->read( &mNightCubemapName ); stream->read( &mMoonAzimuth ); stream->read( &mMoonElevation ); mLight->unpackExtended( stream ); if ( isProperlyAdded() ) { mDirty = true; _initMoon(); Sim::findObject( mNightCubemapName, mNightCubemap ); } } }
void VisualBall::setDistanceEst(estimate ball_est) { setBearingWithSD(ball_est.bearing); setElevation(ball_est.elevation); setDistanceWithSD(ball_est.dist); }
void Baro::reset(const StateVector& state) { setElevation(state(POSITION_Z) + getElevation()); }
void ViewLightGL::setElevation(int elevation) { setElevation(double(elevation)); }