/** * * @param detectorInfo A reference to the workspace's detector info * @param detIndex The index of the detector whose parameters should be updated * @param pmap A reference to the ParameterMap instance to update * @param l2 The new l2 value * @param theta The new theta value * @param phi The new phi value * @param delay The new delay time * @param pressure The new pressure value * @param thickness The new thickness value */ void LoadDetectorInfo::updateParameterMap(Geometry::DetectorInfo &detectorInfo, const size_t detIndex, Geometry::ParameterMap &pmap, const double l2, const double theta, const double phi, const double delay, const double pressure, const double thickness) const { const auto detCompID = detectorInfo.detector(detIndex).getComponentID(); // store detector params that are different to instrument level if (fabs(delay - m_instDelta) > 1e-06) pmap.addDouble(detCompID, DELAY_PARAM, delay); if (fabs(pressure - m_instPressure) > 1e-06) pmap.addDouble(detCompID, PRESSURE_PARAM, pressure); if (fabs(thickness - m_instThickness) > 1e-06) pmap.addDouble(detCompID, THICKNESS_PARAM, thickness); // move if (m_moveDets) { V3D newPos; newPos.spherical(l2, theta, phi); // The sample position may not be at 0,0,0 newPos += m_samplePos; detectorInfo.setPosition(detIndex, newPos); } }
void IntegrateEllipsoids::calculateE1( const Geometry::DetectorInfo &detectorInfo) { for (size_t i = 0; i < detectorInfo.size(); ++i) { if (detectorInfo.isMonitor(i)) continue; // skip monitor if (!detectorInfo.isMasked(i)) continue; // edge is masked so don't check if not masked const auto &det = detectorInfo.detector(i); double tt1 = det.getTwoTheta(V3D(0, 0, 0), V3D(0, 0, 1)); // two theta double ph1 = det.getPhi(); // phi V3D E1 = V3D(-std::sin(tt1) * std::cos(ph1), -std::sin(tt1) * std::sin(ph1), 1. - std::cos(tt1)); // end of trajectory E1 = E1 * (1. / E1.norm()); // normalize E1Vec.push_back(E1); } }