#include "h5_utils.hpp" #include #include #include #include using namespace std; h5_group* get_format_definition(){ auto format = new h5_group("entry", { new h5_attr("NX_class", "NXentry", NX_CHAR), new h5_dataset("start_time", "entry/start_time", NX_DATE_TIME, { new h5_attr("NX_class", "NX_DATE_TIME", NX_CHAR) }), new h5_dataset("end_time", "entry/end_time", NX_DATE_TIME, { new h5_attr("NX_class", "NX_DATE_TIME", NX_CHAR) }), new h5_dataset("definition", "entry/definition", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("title", "entry/title", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_group("control", { new h5_attr("NX_class", "NXmonitor", NX_CHAR), new h5_dataset("mode", "control/mode", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("note", "control/note", NXnote, { new h5_attr("NX_class", "NXnote", NX_CHAR) }), new h5_dataset("integral", "control/integral", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }) }), new h5_group("instrument", { new h5_attr("NX_class", "NXinstrument", NX_CHAR), new h5_dataset("name", "instrument/name", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_group("insertion_device", { new h5_attr("NX_class", "NXinsertion_device", NX_CHAR), new h5_dataset("gap", "insertion_device/gap", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("k", "insertion_device/k", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_DIMENSIONLESS", "True", NX_CHAR) }), new h5_dataset("harmonic", "insertion_device/harmonic", NX_INT, { new h5_attr("NX_UNITLESS", "true", NX_CHAR), new h5_attr("NX_class", "NX_INT", NX_CHAR) }), new h5_dataset("length", "insertion_device/length", NX_FLOAT, { new h5_attr("NX_LENGTH", "mm", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("type", "insertion_device/type", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }) }), new h5_group("XBPM5", { new h5_attr("NX_class", "NXdetector_group", NX_CHAR), new h5_dataset("group_parent", "XBPM5/group_parent", NX_INT, { new h5_attr("NX_class", "NX_INT", NX_CHAR) }), new h5_dataset("group_names", "XBPM5/group_names", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("group_index", "XBPM5/group_index", NX_INT, { new h5_attr("NX_class", "NX_INT", NX_CHAR) }), new h5_group("XBPM5_x", { new h5_attr("NX_class", "NX_detector", NX_CHAR), new h5_dataset("data", "XBPM5_x/data", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("description", "XBPM5_x/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }) }), new h5_group("XBPM5_y", { new h5_attr("NX_class", "NX_detector", NX_CHAR), new h5_dataset("description", "XBPM5_y/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("data", "XBPM5_y/data", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }) }), new h5_group("XBPM5_sum", { new h5_attr("NX_class", "NX_detector", NX_CHAR), new h5_dataset("data", "XBPM5_sum/data", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("description", "XBPM5_sum/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("saturation_value", "XBPM5_sum/saturation_value", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }) }), new h5_group("XBPM5_skew", { new h5_attr("NX_class", "NX_detector", NX_CHAR), new h5_dataset("description", "XBPM5_skew/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("data", "XBPM5_skew/data", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }) }), new h5_group("XBPM5", { new h5_attr("NX_class", "NX_detector", NX_CHAR), new h5_dataset("description", "XBPM5/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("distance", "XBPM5/distance", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("count_time", "XBPM5/count_time", NX_NUMBER, { new h5_attr("NX_class", "NX_NUMBER", NX_CHAR), new h5_attr("NX_TIME", "s", NX_CHAR) }), new h5_dataset("calibration_date", "XBPM5/calibration_date", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("type", "XBPM5/type", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("gain_setting", "XBPM5/gain_setting", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }) }) }), new h5_group("XBPM4", { new h5_attr("NX_class", "NXdetector_group", NX_CHAR), new h5_dataset("group_names", "XBPM4/group_names", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("group_index", "XBPM4/group_index", NX_INT, { new h5_attr("NX_class", "NX_INT", NX_CHAR) }), new h5_dataset("group_parent", "XBPM4/group_parent", NX_INT, { new h5_attr("NX_class", "NX_INT", NX_CHAR) }), new h5_group("XBPM4_sum", { new h5_attr("NX_class", "NX_detector", NX_CHAR), new h5_dataset("data", "XBPM4_sum/data", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("saturation_value", "XBPM4_sum/saturation_value", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("description", "XBPM4_sum/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }) }), new h5_group("XBPM4_skew", { new h5_attr("NX_class", "NX_detector", NX_CHAR), new h5_dataset("data", "XBPM4_skew/data", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("description", "XBPM4_skew/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }) }), new h5_group("XBPM4_x", { new h5_attr("NX_class", "NX_detector", NX_CHAR), new h5_dataset("description", "XBPM4_x/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("data", "XBPM4_x/data", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }) }), new h5_group("XBPM4", { new h5_attr("NX_class", "NX_detector", NX_CHAR), new h5_dataset("distance", "XBPM4/distance", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("calibration_date", "XBPM4/calibration_date", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("description", "XBPM4/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("type", "XBPM4/type", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("gain_setting", "XBPM4/gain_setting", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("count_time", "XBPM4/count_time", NX_NUMBER, { new h5_attr("NX_TIME", "s", NX_CHAR), new h5_attr("NX_class", "NX_NUMBER", NX_CHAR) }) }), new h5_group("XBPM4_y", { new h5_attr("NX_class", "NX_detector", NX_CHAR), new h5_dataset("data", "XBPM4_y/data", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("description", "XBPM4_y/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }) }) }), new h5_group("beam_stop_2", { new h5_attr("NX_class", "NX_beamstop", NX_CHAR), new h5_dataset("y", "beam_stop_2/y", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("status", "beam_stop_2/status", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("size_x", "beam_stop_2/size_x", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("data", "beam_stop_2/data", NX_FLOAT, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("description", "beam_stop_2/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("size_y", "beam_stop_2/size_y", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("x", "beam_stop_2/x", NX_FLOAT, { new h5_attr("NX_LENGTH", "mm", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("distance_to_detector", "beam_stop_2/distance_to_detector", NX_FLOAT, { new h5_attr("NX_LENGTH", "mm", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }) }), new h5_group("beam_stop_1", { new h5_attr("NX_class", "NX_beamstop", NX_CHAR), new h5_dataset("size", "beam_stop_1/size", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("y", "beam_stop_1/y", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("description", "beam_stop_1/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("distance_to_detector", "beam_stop_1/distance_to_detector", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("x", "beam_stop_1/x", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("status", "beam_stop_1/status", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }) }), new h5_group("filter_set", { new h5_attr("NX_class", "NXattenuator", NX_CHAR), new h5_dataset("type", "filter_set/type", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("distance", "filter_set/distance", NX_FLOAT, { new h5_attr("NX_LENGTH", "mm", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("description", "filter_set/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("attenuator_transmission", "filter_set/attenuator_transmission", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }) }), new h5_group("slit_4", { new h5_attr("NX_class", "NXslit", NX_CHAR), new h5_dataset("height", "slit_4/height", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("distance", "slit_4/distance", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("x_gap", "slit_4/x_gap", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("description", "slit_4/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("y_gap", "slit_4/y_gap", NX_FLOAT, { new h5_attr("NX_LENGTH", "mm", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("material", "slit_4/material", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("x_translation", "slit_4/x_translation", NX_FLOAT, { new h5_attr("NX_LENGTH", "mm", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }) }), new h5_group("slit_2", { new h5_attr("NX_class", "NXslit", NX_CHAR), new h5_dataset("y_gap", "slit_2/y_gap", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("distance", "slit_2/distance", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("x_gap", "slit_2/x_gap", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("x_translation", "slit_2/x_translation", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("description", "slit_2/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("height", "slit_2/height", NX_FLOAT, { new h5_attr("NX_LENGTH", "mm", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("material", "slit_2/material", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }) }), new h5_group("source", { new h5_attr("NX_class", "NXsource", NX_CHAR), new h5_dataset("divergence_y", "source/divergence_y", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_ANGLE", "radians", NX_CHAR) }), new h5_dataset("divergence_x", "source/divergence_x", NX_FLOAT, { new h5_attr("NX_ANGLE", "radians", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("current", "source/current", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_CURRENT", "mA", NX_CHAR) }), new h5_dataset("distance", "source/distance", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("sigma_x", "source/sigma_x", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("type", "source/type", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("probe", "source/probe", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("sigma_y", "source/sigma_y", NX_FLOAT, { new h5_attr("NX_LENGTH", "mm", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("name", "source/name", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }) }), new h5_group("mirror", { new h5_attr("NX_class", "NXmirror", NX_CHAR), new h5_dataset("description", "mirror/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("substrate_material", "mirror/substrate_material", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("distance", "mirror/distance", NX_FLOAT, { new h5_attr("NX_LENGTH", "mm", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("bend_y", "mirror/bend_y", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_ANY", "", NX_CHAR) }), new h5_dataset("incident_angle", "mirror/incident_angle", NX_FLOAT, { new h5_attr("NX_ANGLE", "degrees", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("coating_material", "mirror/coating_material", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("type", "mirror/type", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }) }), new h5_group("slit_3", { new h5_attr("NX_class", "NXslit", NX_CHAR), new h5_dataset("y_gap", "slit_3/y_gap", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("distance", "slit_3/distance", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("height", "slit_3/height", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("x_translation", "slit_3/x_translation", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("material", "slit_3/material", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("description", "slit_3/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("x_gap", "slit_3/x_gap", NX_FLOAT, { new h5_attr("NX_LENGTH", "mm", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }) }), new h5_group("slit_1", { new h5_attr("NX_class", "NXslit", NX_CHAR), new h5_dataset("x_gap", "slit_1/x_gap", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("x_translation", "slit_1/x_translation", NX_FLOAT, { new h5_attr("NX_LENGTH", "mm", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("y_gap", "slit_1/y_gap", NX_FLOAT, { new h5_attr("NX_LENGTH", "mm", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("description", "slit_1/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("material", "slit_1/material", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("distance", "slit_1/distance", NX_FLOAT, { new h5_attr("NX_LENGTH", "mm", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("height", "slit_1/height", NX_FLOAT, { new h5_attr("NX_LENGTH", "mm", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }) }), new h5_group("monochromator", { new h5_attr("NX_class", "NXmonochromator", NX_CHAR), new h5_dataset("wavelength", "monochromator/wavelength", NX_FLOAT, { new h5_attr("NX_WAVELENGTH", "Angstrom", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("wavelength_spread", "monochromator/wavelength_spread", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("distance", "monochromator/distance", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("energy", "monochromator/energy", NX_FLOAT, { new h5_attr("NX_ENERGY", "keV", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("type", "monochromator/type", NXnote, { new h5_attr("NX_class", "NXnote", NX_CHAR) }), new h5_group("crystal_2", { new h5_attr("NX_class", "NXcrystal", NX_CHAR), new h5_dataset("bragg_angle", "crystal_2/bragg_angle", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_ANGLE", "degrees", NX_CHAR) }), new h5_dataset("type", "crystal_2/type", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("temperature", "crystal_2/temperature", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("reflection", "crystal_2/reflection", NX_INT, { new h5_attr("NX_class", "NX_INT", NX_CHAR), new h5_attr("NX_UNITLESS", "", NX_CHAR) }), new h5_dataset("order_no", "crystal_2/order_no", NX_INT, { new h5_attr("NX_class", "NX_INT", NX_CHAR) }), new h5_dataset("usage", "crystal_2/usage", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("bend_x", "crystal_2/bend_x", NX_FLOAT, { new h5_attr("NX_ANY", "", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }) }), new h5_group("crystal_1", { new h5_attr("NX_class", "NXcrystal", NX_CHAR), new h5_dataset("type", "crystal_1/type", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("temperature", "crystal_1/temperature", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("usage", "crystal_1/usage", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("bragg_angle", "crystal_1/bragg_angle", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_ANGLE", "degrees", NX_CHAR) }), new h5_dataset("order_no", "crystal_1/order_no", NX_INT, { new h5_attr("NX_class", "NX_INT", NX_CHAR) }), new h5_dataset("reflection", "crystal_1/reflection", NX_INT, { new h5_attr("NX_UNITLESS", "", NX_CHAR), new h5_attr("NX_class", "NX_INT", NX_CHAR) }) }) }), new h5_group("XBPM6", { new h5_attr("NX_class", "NXdetector_group", NX_CHAR), new h5_dataset("group_index", "XBPM6/group_index", NX_INT, { new h5_attr("NX_class", "NX_INT", NX_CHAR) }), new h5_dataset("group_names", "XBPM6/group_names", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("group_parent", "XBPM6/group_parent", NX_INT, { new h5_attr("NX_class", "NX_INT", NX_CHAR) }), new h5_group("XBPM6_skew", { new h5_attr("NX_class", "NX_detector", NX_CHAR), new h5_dataset("data", "XBPM6_skew/data", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("description", "XBPM6_skew/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }) }), new h5_group("XBPM6", { new h5_attr("NX_class", "NX_detector", NX_CHAR), new h5_dataset("distance", "XBPM6/distance", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("gain_setting", "XBPM6/gain_setting", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("calibration_date", "XBPM6/calibration_date", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("description", "XBPM6/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("count_time", "XBPM6/count_time", NX_NUMBER, { new h5_attr("NX_TIME", "s", NX_CHAR), new h5_attr("NX_class", "NX_NUMBER", NX_CHAR) }), new h5_dataset("type", "XBPM6/type", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }) }), new h5_group("XBPM6_sum", { new h5_attr("NX_class", "NX_detector", NX_CHAR), new h5_dataset("description", "XBPM6_sum/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("data", "XBPM6_sum/data", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("saturation_value", "XBPM6_sum/saturation_value", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }) }), new h5_group("XBPM6_y", { new h5_attr("NX_class", "NX_detector", NX_CHAR), new h5_dataset("data", "XBPM6_y/data", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("description", "XBPM6_y/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }) }), new h5_group("XBPM6_x", { new h5_attr("NX_class", "NX_detector", NX_CHAR), new h5_dataset("description", "XBPM6_x/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("data", "XBPM6_x/data", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }) }) }), new h5_group("slit_0", { new h5_attr("NX_class", "NXslit", NX_CHAR), new h5_dataset("distance", "slit_0/distance", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("material", "slit_0/material", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("x_translation", "slit_0/x_translation", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR), new h5_attr("NX_LENGTH", "mm", NX_CHAR) }), new h5_dataset("x_gap", "slit_0/x_gap", NX_FLOAT, { new h5_attr("NX_LENGTH", "mm", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("description", "slit_0/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }) }) }), new h5_group("plottable_data", { new h5_attr("NX_class", "NXdata", NX_CHAR) }), new h5_group("sample", { new h5_attr("NX_class", "NXsample", NX_CHAR), new h5_dataset("x_translation", "sample/x_translation", NX_FLOAT, { new h5_attr("NX_LENGTH", "mm", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("temperature_log", "sample/temperature_log", NX_FLOAT, { new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("description", "sample/description", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("name", "sample/name", NX_CHAR, { new h5_attr("NX_class", "NX_CHAR", NX_CHAR) }), new h5_dataset("y_translation", "sample/y_translation", NX_FLOAT, { new h5_attr("NX_LENGTH", "mm", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }), new h5_dataset("aequatorial_angle", "sample/aequatorial_angle", NX_FLOAT, { new h5_attr("NX_ANGLE", "deg", NX_CHAR), new h5_attr("NX_class", "NX_FLOAT", NX_CHAR) }) }) }); return format; } map* get_default_values(){ auto default_values = new std::map, boost::any>( { {"filter_set/description", "The filter set consists of 4 linear stages, each with five filter positions. Additionally each one allows for an out position to allow no filtering."}, {"XBPM4/calibration_date", "???"}, {"crystal_2/type", "Si"}, {"beam_stop_2/size_y", 2.25}, {"source/name", "Swiss Light Source"}, {"beam_stop_2/size_x", 5.0}, {"slit_1/material", "OFHC Cu"}, {"monochromator/type", "Double crystal fixed exit monochromator"}, {"XBPM4_skew/description", "Normalized difference of counts between diagonal quadrants"}, {"XBPM6/type", "???"}, {"XBPM6/description", "Four quadrant x-ray beam position monitor"}, {"slit_3/material", "Si"}, {"XBPM5/group_index", 3}, {"crystal_1/type", "Si"}, {"insertion_device/length", 1820.0}, {"XBPM5_skew/description", "Normalized difference of counts between diagonal quadrants"}, {"XBPM5_y/description", "Normalized difference of counts between high and low quadrants"}, {"source/sigma_x", 0.202}, {"XBPM5/type", "???"}, {"XBPM4_x/description", "Normalized difference of counts between left and right quadrants"}, {"XBPM4/group_names", "XBPM4, XBPM4_sum, XBPM4_x, XBPM4_y, XBPM4_skew"}, {"slit_2/description", "Slit 2, optics hutch"}, {"mirror/substrate_material", "SiO2"}, {"XBPM5/group_names", "XBPM5, XBPM5_sum, XBPM5_x, XBPM5_y, XBPM5_skew"}, {"control/note", "monitor"}, {"monochromator/wavelength_spread", 0.0001}, {"XBPM6/calibration_date", "???"}, {"source/divergence_x", 0.000135}, {"XBPM4_y/description", "Normalized difference of counts between high and low quadrants"}, {"XBPM6_sum/description", "Sum of counts for the four quadrants"}, {"crystal_1/order_no", 1}, {"slit_3/description", "Slit 3, experimental hutch, exposure box"}, {"XBPM5_sum/description", "Sum of counts for the four quadrants"}, {"insertion_device/k", 2.46}, {"insertion_device/type", "undulator"}, {"XBPM6/group_index", 4}, {"entry/definition", "NXsas"}, {"crystal_2/usage", "Bragg"}, {"entry/end_time", "???"}, {"XBPM6_skew/description", "Normalized difference of counts between diagonal quadrants"}, {"XBPM6_y/description", "Normalized difference of counts between high and low quadrants"}, {"crystal_2/order_no", 2}, {"XBPM6_x/description", "Normalized difference of counts between left and right quadrants"}, {"mirror/type", "single"}, {"sample/aequatorial_angle", 1.0}, {"XBPM6/group_names", "XBPM6, XBPM6_sum, XBPM6_x, XBPM6_y, XBPM6_skew"}, {"slit_4/material", "Si"}, {"beam_stop_1/description", "circular"}, {"source/sigma_y", 0.018}, {"XBPM5/description", "Four quadrant x-ray beam position monitor"}, {"slit_2/material", "Ag"}, {"XBPM4/distance", 0.0}, {"beam_stop_1/size", 3.0}, {"XBPM5_x/description", "Normalized difference of counts between left and right quadrants"}, {"XBPM5/calibration_date", "???"}, {"XBPM4/type", "???"}, {"XBPM4_sum/description", "Sum of counts for the four quadrants"}, {"slit_0/description", "Horizontal secondary source slit"}, {"source/divergence_y", 2.5e-05}, {"crystal_1/usage", "Bragg"}, {"slit_4/description", "Slit 4, experimental hutch, exposure box"}, {"control/mode", "Value from bpm4s"}, {"XBPM4/description", "Four quadrant x-ray beam position monitor"}, {"XBPM5/distance", 0.0}, {"XBPM6/distance", 0.0}, {"source/probe", "x-ray"}, {"slit_1/description", "Slit 1, optics hutch"}, {"instrument/name", "cSAXS beamline"}, {"XBPM4/group_index", 2}, {"mirror/description", "Grazing incidence mirror to reject high-harmonic wavelengths from the monochromator. There are three coating options available that are used depending on the X-ray energy, no coating (SiO2), rhodium (Rh) or platinum (Pt)."}, {"slit_0/material", "OFHC Cu"}, {"beam_stop_2/description", "rectangular"}, {"source/type", "Synchrotron X-ray Source"}, // TODO: This are temp for dataset arrays. Implement size based on type. {"crystal_1/reflection", 1}, {"crystal_2/reflection", 1}, {"XBPM4/group_parent", 1}, {"XBPM5/group_parent", 1}, {"XBPM6/group_parent", 1}, } ); return default_values; } void add_calculated_values(map& values){ map input_mapping = { {"source/distance", "input/samz"}, {"slit_0/distance", "input/samz"}, {"slit_1/distance", "input/samz"}, {"monochromator/distance", "input/samz"}, {"mirror/distance", "input/samz"}, {"slit_2/distance", "input/samz"}, {"slit_3/distance", "input/samz"}, {"filter_set/distance", "input/samz"}, {"slit_4/distance", "input/samz"}, {"monochromator/wavelength", "monochromator/energy"}, {"filter_set/attenuator_transmission", "input/ftrans"}, }; map> functions = { {"source/distance", [](double x) -> double { return -33800 - x;}}, {"slit_0/distance", [](double x) -> double { return -33800 + 12100 - x;}}, {"slit_1/distance", [](double x) -> double { return -33800 + 26000 - x;}}, {"monochromator/distance", [](double x) -> double { return -33800 - x;}}, {"mirror/distance", [](double x) -> double { return -33800 + 29430 - x;}}, {"slit_2/distance", [](double x) -> double { return -33800 + 30660 - x;}}, {"slit_3/distance", [](double x) -> double { return 0 - x;}}, {"filter_set/distance", [](double x) -> double { return 0 - x;}}, {"slit_4/distance", [](double x) -> double { return 0 - x;}}, {"monochromator/wavelength", [](double x) -> double { return 12.3984193 / x;}}, {"filter_set/attenuator_transmission", [](double x) -> double { return pow(10.0, x);}}, }; for (auto pair : functions) { string input_name; try{ input_name = input_mapping.at(pair.first); } catch (const out_of_range& exception){ stringstream error_message; error_message << "Cannot find input_name for calculated value " << pair.first << "." << endl; throw runtime_error(error_message.str()); } try { auto input_value = values.at(input_name); values[pair.first] = pair.second(boost::any_cast(input_value)); } catch (const boost::bad_any_cast& exception) { stringstream error_message; error_message << "Cannot convert input_name " << input_name << " to double for calculated value " << pair.first << "." << endl; throw runtime_error(error_message.str()); } catch (const out_of_range& exception){ stringstream error_message; error_message << "No input value " << input_name << " found in values for calculated value " << pair.first << "." << endl; throw runtime_error(error_message.str()); } } } void add_input_values(map& values, map& input_values) { map> input_mapping = { {"sl2wv", {"slit_2/y_gap"}}, {"sl0ch", {"slit_0/x_translation"}}, {"sl2wh", {"slit_2/x_gap"}}, {"temp_mono_cryst_1", {"crystal_1/temperature"}}, {"harmonic", {"insertion_device/harmonic"}}, {"mokev", {"monochromator/energy"}}, {"sl2cv", {"slit_2/height"}}, {"bpm4_gain_setting", {"XBPM4/gain_setting"}}, {"mirror_coating", {"mirror/coating_material"}}, {"samx", {"sample/x_translation"}}, {"sample_name", {"sample/name"}}, {"bpm5y", {"XBPM5_y/data"}}, {"sl2ch", {"slit_2/x_translation"}}, {"curr", {"source/current"}}, {"bs2_status", {"beam_stop_2/status"}}, {"bs2y", {"beam_stop_2/y"}}, {"diode", {"beam_stop_2/data"}}, {"samy", {"sample/y_translation"}}, {"sl4ch", {"slit_4/x_translation"}}, {"sl4wh", {"slit_4/x_gap"}}, {"temp_mono_cryst_2", {"crystal_2/temperature"}}, {"sl3wh", {"slit_3/x_gap"}}, {"mith", {"mirror/incident_angle"}}, {"bs1_status", {"beam_stop_1/status"}}, {"bpm4s", {"XBPM4_sum/data", "control/integral"}}, {"sl0wh", {"slit_0/x_gap"}}, {"bpm6z", {"XBPM6_skew/data"}}, {"bs1y", {"beam_stop_1/y"}}, {"scan", {"entry/title"}}, {"bpm5_gain_setting", {"XBPM5/gain_setting"}}, {"bpm4z", {"XBPM4_skew/data"}}, {"bpm4x", {"XBPM4_x/data"}}, {"date", {"entry/start_time"}}, {"mibd", {"mirror/bend_y"}}, {"temp", {"sample/temperature_log"}}, {"idgap", {"insertion_device/gap"}}, {"sl4cv", {"slit_4/height"}}, {"sl1wv", {"slit_1/y_gap"}}, {"sl3wv", {"slit_3/y_gap"}}, {"sl1ch", {"slit_1/x_translation"}}, {"bs2x", {"beam_stop_2/x"}}, {"bpm6_gain_setting", {"XBPM6/gain_setting"}}, {"bpm4y", {"XBPM4_y/data"}}, {"bpm6s", {"XBPM6_sum/data"}}, {"sample_description", {"sample/description"}}, {"bpm5z", {"XBPM5_skew/data"}}, {"moth1", {"crystal_1/bragg_angle", "crystal_2/bragg_angle"}}, {"sec", {"XBPM4/count_time", "XBPM5/count_time", "XBPM6/count_time"}}, {"sl3cv", {"slit_3/height"}}, {"bs1x", {"beam_stop_1/x"}}, {"bpm6_saturation_value", {"XBPM6_sum/saturation_value"}}, {"bpm5s", {"XBPM5_sum/data"}}, {"mobd", {"crystal_2/bend_x"}}, {"sl1wh", {"slit_1/x_gap"}}, {"sl4wv", {"slit_4/y_gap"}}, {"bs2_det_dist", {"beam_stop_2/distance_to_detector"}}, {"bpm5_saturation_value", {"XBPM5_sum/saturation_value"}}, {"fil_comb_description", {"filter_set/type"}}, {"bpm5x", {"XBPM5_x/data"}}, {"bpm4_saturation_value", {"XBPM4_sum/saturation_value"}}, {"bs1_det_dist", {"beam_stop_1/distance_to_detector"}}, {"sl3ch", {"slit_3/x_translation"}}, {"bpm6y", {"XBPM6_y/data"}}, {"sl1cv", {"slit_1/height"}}, {"bpm6x", {"XBPM6_x/data"}}, {"ftrans", {"input/ftrans"}}, {"samz", {"input/samz"}}, }; for (auto input : input_mapping) { for (auto destination_name : input.second) { values[destination_name] = input_values[input.first]; } } } std::map* get_input_value_type() { auto input_value_types = new std::map({ {"sl2wv", NX_FLOAT}, {"sl0ch", NX_FLOAT}, {"sl2wh", NX_FLOAT}, {"temp_mono_cryst_1", NX_FLOAT}, {"harmonic", NX_INT}, {"mokev", NX_FLOAT}, {"sl2cv", NX_FLOAT}, {"bpm4_gain_setting", NX_FLOAT}, {"mirror_coating", NX_CHAR}, {"samx", NX_FLOAT}, {"sample_name", NX_CHAR}, {"bpm5y", NX_FLOAT}, {"sl2ch", NX_FLOAT}, {"curr", NX_FLOAT}, {"bs2_status", NX_CHAR}, {"bs2y", NX_FLOAT}, {"diode", NX_FLOAT}, {"samy", NX_FLOAT}, {"sl4ch", NX_FLOAT}, {"sl4wh", NX_FLOAT}, {"temp_mono_cryst_2", NX_FLOAT}, {"sl3wh", NX_FLOAT}, {"mith", NX_FLOAT}, {"bs1_status", NX_CHAR}, {"bpm4s", NX_FLOAT}, {"sl0wh", NX_FLOAT}, {"bpm6z", NX_FLOAT}, {"bs1y", NX_FLOAT}, {"scan", NX_CHAR}, {"bpm5_gain_setting", NX_FLOAT}, {"bpm4z", NX_FLOAT}, {"bpm4x", NX_FLOAT}, {"date", NX_DATE_TIME}, {"mibd", NX_FLOAT}, {"temp", NX_FLOAT}, {"idgap", NX_FLOAT}, {"sl4cv", NX_FLOAT}, {"sl1wv", NX_FLOAT}, {"sl3wv", NX_FLOAT}, {"sl1ch", NX_FLOAT}, {"bs2x", NX_FLOAT}, {"bpm6_gain_setting", NX_FLOAT}, {"bpm4y", NX_FLOAT}, {"bpm6s", NX_FLOAT}, {"sample_description", NX_CHAR}, {"bpm5z", NX_FLOAT}, {"moth1", NX_FLOAT}, {"sec", NX_NUMBER}, {"sl3cv", NX_FLOAT}, {"bs1x", NX_FLOAT}, {"bpm6_saturation_value", NX_FLOAT}, {"bpm5s", NX_FLOAT}, {"mobd", NX_FLOAT}, {"sl1wh", NX_FLOAT}, {"sl4wv", NX_FLOAT}, {"bs2_det_dist", NX_FLOAT}, {"bpm5_saturation_value", NX_FLOAT}, {"fil_comb_description", NX_CHAR}, {"bpm5x", NX_FLOAT}, {"bpm4_saturation_value", NX_FLOAT}, {"bs1_det_dist", NX_FLOAT}, {"sl3ch", NX_FLOAT}, {"bpm6y", NX_FLOAT}, {"sl1cv", NX_FLOAT}, {"bpm6x", NX_FLOAT}, {"ftrans", NX_FLOAT}, {"samz", NX_FLOAT}, }); return input_value_types; }