.. _physics-mergerTreeOutputter: Merger Tree Outputters ====================== Class providing outputters for merger trees---objects that write merger tree and galaxy data to persistent storage at each requested output time. An outputter traverses the nodes of a merger tree and serializes the desired set of galaxy/halo properties to HDF5 or other formats. It also handles reduction across MPI processes (combining partial outputs from different CPU ranks) and finalization at the end of the simulation. The standard outputter writes node properties as defined by the active :galacticus-class:`nodePropertyExtractorClass` instances. **Default implementation:** ``mergerTreeOutputterStandard`` Methods ------- ``outputTree`` → ``void`` Serialize all galaxy and halo properties from the given ``tree`` to the output dataset corresponding to output index ``indexOutput`` at cosmic time ``time``. Optionally provide an ``outputType`` describing the type of output. * ``type (mergerTree ), intent(inout), target :: tree`` * ``integer (c_size_t ), intent(in ) :: indexOutput`` * ``double precision , intent(in ) :: time`` * ``type (enumerationOutputGroupTypeType), intent(in ), optional :: outputType`` ``outputNode`` → ``void`` Serialize galaxy and halo properties of the given individual ``node`` to the output dataset corresponding to output index ``indexOutput``. * ``type (treeNode ), intent(inout) :: node`` * ``integer(c_size_t ), intent(in ) :: indexOutput`` * ``type (enumerationOutputGroupTypeType), intent(in ), optional :: outputType`` ``finalize`` → ``void`` Finalize the output of merger trees, flushing any buffered data to persistent storage and performing any post-processing required after all trees have been serialized. Optionally provide an ``outputType`` describing the type of output. ``reduce`` → ``void`` Reduce the object onto another object of the class. * ``class(mergerTreeOutputterClass), intent(inout) :: reduced`` .. _physics-mergerTreeOutputterAnalyzer: ``mergerTreeOutputterAnalyzer`` ------------------------------- A merger tree outputter class which performs analyzes on the trees. .. _physics-mergerTreeOutputterFullState: ``mergerTreeOutputterFullState`` -------------------------------- A merger tree outputter class that outputs the full state of merger trees to allow later postprocessing. Complete tree data in output in raw binary format to the file specified as ``[fileName]``. This can be later re-read and post-processed using the :galacticus-class:`taskPostprocessForests` task class. **Parameters** * ``[fileName]`` (string) — The name of the file to which state should be stored. .. _physics-mergerTreeOutputterHaloFourierProfiles: ``mergerTreeOutputterHaloFourierProfiles`` ------------------------------------------ A merger tree outputter class which outputs :math:`k`-space density profiles as needed for halo model calculations. A "``haloModel``" group is created in the Galacticus output file. This group contains the following: ``wavenumber`` A dataset giving the wavenumbers (in units of Mpc\ :math:`^{-1}`) at which all output power spectra are tabulated. The minimum and maximum wavenumbers to tabulate are determined by the ``[haloModelWavenumberMinimum]`` and ``[haloModelWavenumberMaximum]`` parameters respectively, while the number of points to tabulate in each decade of wavenumber is determined by the ``[haloModelWavenumberPointsPerDecade]`` parameter. ``powerSpectrum`` A dataset giving the linear theory power spectrum (in units of Mpc\ :math:`^3` normalized to :math:`z=0`) at each wavenumber specified in the ``wavenumber`` dataset. ``Output{i}/mergerTree{j}/fourierProfile{k}`` A dataset giving the Fourier transform of the dark matter halo density profile (dimensionless and normalized to unity at small wavenumber) for the node with index ``k`` in merger tree with index ``j`` at output number ``i``. Profiles are written only for nodes which are isolated, and are tabulated at the wavenumbers given in the ``wavenumber`` group. Note that wavenumbers are assumed to be comoving. Finally, each numbered output group is given two additional attributes, ``linearGrowthFactor`` and ``linearGrowthFactorLogDerivative`` which give the growth factor, :math:`D`, and its logarithmic derivative, :math:`\d \ln D / \d \ln a` at the output time. **Parameters** * ``[wavenumberPointsPerDecade]`` (integer; default ``10``) — The number of points per decade in wavenumber at which to tabulate power spectra for the halo model. * ``[wavenumberMinimum]`` (real; default ``1.0d-3``) — The minimum wavenumber (in Mpc\ :math:`{^-1}`) at which to tabulate power spectra for the halo model. * ``[wavenumberMaximum]`` (real; default ``1.0d4``) — The maximum wavenumber (in Mpc\ :math:`{^-1}`) at which to tabulate power spectra for the halo model. .. _physics-mergerTreeOutputterMulti: ``mergerTreeOutputterMulti`` ---------------------------- A merger tree outputter which combines multiple other outputters. **Methods** * ``columnDescriptions`` — Return a description of the columns. * ``elementCount`` — Return the number of properties in the tuple. * ``extractDouble`` — Extract the double properties from the given ``node``. * ``extractInteger`` — Extract the integer properties from the given ``node``. * ``names`` — Return the names of the properties extracted. * ``descriptions`` — Return descriptions of the properties extracted. * ``unitsInSI`` — Return the units of the properties extracted in the SI system. * ``units`` — Return an object containing units metadata for the properties. * ``ranks`` — Return the ranks of the properties extracted. * ``metaData`` — Populate a hash with meta-data for the property. .. _physics-mergerTreeOutputterNull: ``mergerTreeOutputterNull`` --------------------------- A merger tree outputter which does no output. .. _physics-mergerTreeOutputterStandard: ``mergerTreeOutputterStandard`` ------------------------------- The standard merger tree outputter which writes galaxy and halo properties to HDF5 output files at each requested output time during galaxy evolution. Output is organized into groups named by ``[outputsGroupName]``, with optional dataset reference output controlled by the ``[outputReferences]`` parameter. **(Default implementation)** **Methods** * ``factors`` — Compute factors needed for tidal tensor calculation. * ``tidalTensorGet`` — Get the tidal tensor. **Parameters** * ``[outputsGroupName]`` (string; default ``Outputs``) — The name of the HDF5 group to which outputs will be written. * ``[outputReferences]`` (boolean; default ``.false.``) — Specifies whether or not references to individual merger tree datasets should be output.