Exemplo n.º 1
0
def parse(argv):
    """
    This function accept a list of strings, create and fill a parser istance 
    and return a populated namespace

    Parameters
    ----------
    argv: list of strings
    list to be parsed

    output: namespace
    ---------
    """

    import argparse as ap
    import argparse_custom as apc

    description = """Subtract from the first three columns of the input files the
    three floats. If they are not provided they will be computed from the files
    themselves. """

    p = ap.ArgumentParser(description=description,
                          formatter_class=ap.ArgumentDefaultsHelpFormatter)

    p.add_argument(
        "ifname",
        action="store",
        nargs='+',
        type=ap.FileType('r'),
        help="Input file name(s), containing z in one of the columns")

    p = apc.version_verbose(p, '1')

    p, group = apc.insert_or_replace(p)
    p, group = apc.overwrite_or_skip(p)

    p.add_argument("--rescale",
                   action="store",
                   type=float,
                   nargs=3,
                   help="""Values to subtract from the first three columns""")
    p.add_argument("-o",
                   "--offset",
                   action="store",
                   type=float,
                   default=0,
                   help="""Extra offset to add to 'rescale'""")

    p.add_argument("--fmt",
                   default="%7.6e",
                   action=apc.StoreFmt,
                   nargs='+',
                   help="Format of the output files")

    description = """Parameters related to the parallel computation"""
    p, parallel = apc.parallel_group(p, description=description)

    return p.parse_args(args=argv)
Exemplo n.º 2
0
def parse(argv):
    """
    This function accept a list of strings, create and fill a parser istance 
    and return a populated namespace

    Parameters
    ----------
    argv: list of strings
    list to be parsed

    output: namespace
    ---------
    """
    import argparse as ap
    import argparse_custom as apc

    description = """  Read one or more files and extract a part of the file according to the constraints given.
        Examples: 
        %(prog)s 'c3 < 4' filename
        %(prog)s '(c3 < 4) | (c3 > 8)' filename
        %(prog)s '(c4 > 8) & (c4 < 4)' filename
        WARNING: The constraint is evaluated with 'eval' and no check is done upon local or global variables."""

    p = ap.ArgumentParser(description=description,
                          formatter_class=ap.RawDescriptionHelpFormatter)

    #p.add_argument("column", action="store", type=int, help="Column to check")
    p.add_argument("constr",
                   action="store",
                   help="""Constraints to be applied to the desired column""")
    p.add_argument("ifname",
                   nargs='+',
                   action=apc.file_exists(),
                   help="Input file name(s)")

    p = apc.version_verbose(p, '1.0')

    p, group = apc.insert_or_replace(p, print_def=True)
    p, group = apc.overwrite_or_skip(p)

    p, pandas = apc.pandas_group(p)

    p.add_argument("--fmt",
                   default="%7.6e",
                   action=apc.StoreFmt,
                   nargs='+',
                   help="Format of the output files. (default: %(default)s)")

    description = """Parameters related to the parallel computation"""
    p, parallel = apc.parallel_group(p, description=description)

    return p.parse_args(args=argv)
Exemplo n.º 3
0
def parse(argv):
    """
    This function accept a list of strings, create and fill a parser istance 
    and return a populated namespace

    Parameters
    ----------
    argv: list of strings
    list to be parsed

    output: namespace
    ---------
    """
    import argparse as ap
    import argparse_custom as apc

    description = "Move or swap some column in a (list of) file(s)."

    p = ap.ArgumentParser(description=description, )

    p.add_argument("from_cols", action="store", type=apc.int_or_list, 
            help="""Column(s) to copy. (if more than one, give them as a string
            of integers separated by spaces)""")
    p.add_argument("to_cols", action="store", type=apc.int_or_list,
            help="""Where to copy the column(s). (if more than one, give them
            as a string of integers separated by spaces)""")
    p.add_argument("ifname", action=apc.file_exists(), nargs='+', 
            help="""Input file name(s)""")

    p = apc.version_verbose(p, '0.1')

    p.add_argument("-s", "--swap", action="store_true", 
            help="Swap 'from' with 'to'")
    p.add_argument("--substitute", action="store", type=float,
            help="""If given, substitutes the content of the columns
            'from_cols' not contained in 'to_cols' with '%(dest)s'. This is
            executed only if 'swap' is *False* and after moving""")

    p, group = apc.insert_or_replace(p, print_def=True)
    p, group = apc.overwrite_or_skip(p)

    p, pandas = apc.pandas_group(p)
    
    p.add_argument("--fmt", default="%7.6e", action=apc.StoreFmt, nargs='+', 
        help="Format of the output files. (default: %(default)s)")

    description = """Parameters related to the parallel computation"""
    p, parallel = apc.parallel_group( p, description=description )

    return p.parse_args(args=argv)
def parse(argv):
    """
    This function accept a list of strings, create and fill a parser istance 
    and return a populated namespace

    Parameters
    ----------
    argv: list of strings
    list to be parsed

    output: namespace
    ---------
    """
    import argparse as ap
    import argparse_custom as apc

    description = """Execute operations between columns and save in a column.
    Example: 
        c3+c6-1: add column 3 to column 6 and subtract 1.
    """

    p = ap.ArgumentParser(
        description=description,
        #formatter_class=apc.RawDescrArgDefHelpFormatter)
        formatter_class=ap.ArgumentDefaultsHelpFormatter)

    p.add_argument("operation",
                   action="store",
                   help="""Operation to execute between columns.""")
    p.add_argument(
        "to_col",
        action="store",
        type=int,
        help="""Column where the operation is saved. If it is larger than
            the number of columns, the result is appended""")
    p.add_argument("ifname",
                   nargs='+',
                   action=apc.file_exists(),
                   help="""Input file name(s)""")

    p = apc.version_verbose(p, '0.1')

    p.add_argument(
        "-s",
        "--substitute",
        action="store",
        type=float,
        help="""If given, substitutes the content of the columns used for
            the operation with '%(dest)s'. This is executed before copying the
            result of the operation to the desired column""")

    p, group = apc.insert_or_replace(p)
    p, group = apc.overwrite_or_skip(p)

    p, pandas = apc.pandas_group(p)

    p.add_argument("--fmt",
                   default="%7.6e",
                   action=apc.StoreFmt,
                   nargs='+',
                   help="Format of the output files.")

    description = """Parameters related to the parallel computation"""
    p, parallel = apc.parallel_group(p, description=description)

    return p.parse_args(args=argv)
Exemplo n.º 5
0
def parse(argv):
    """
    This function accept a list of strings, create and fill a parser istance 
    and return a populated namespace

    Parameters
    ----------
    argv: list of strings
        list to be parsed

    output: namespace
    ---------
    """

    import argparse as ap
    import argparse_custom as apc

    description = """Given a table of 'z,n(z)', subsitute a column in the
    catalogue(s) with the value of n(z), using the values of z from an other
    column of the same file """

    p = ap.ArgumentParser(description=description,
                          formatter_class=ap.ArgumentDefaultsHelpFormatter)

    p.add_argument("noz",
                   action="store",
                   type=ap.FileType('r'),
                   help="File containing a table of z, n(z)")

    p.add_argument(
        "ifname",
        nargs='+',
        action=apc.file_exists(),
        help="""Input file name(s), containing z in one of the columns""")

    p = apc.version_verbose(p, '1')

    p, group = apc.insert_or_replace(p)
    p, group = apc.overwrite_or_skip(p)

    p.add_argument("-z",
                   "--z-column",
                   action="store",
                   type=int,
                   default="-1",
                   help="Column in the catalogue with the redshift.")
    p.add_argument("-n",
                   "--nz-column",
                   action="store",
                   type=int,
                   default="5",
                   help="Column in the catalogue in which n(z) is saved.")
    p.add_argument("--zn-file-col",
                   action="store",
                   type=int,
                   nargs=2,
                   default=[0, 1],
                   help="""Columns in 'noz' containing z and n(z).""")

    p.add_argument("--fmt",
                   default="%7.6e",
                   action=apc.StoreFmt,
                   nargs='+',
                   help="Format of the output files")

    description = """Parameters related to the parallel computation"""
    p, parallel = apc.parallel_group(p, description=description)

    return p.parse_args(args=argv)
Exemplo n.º 6
0
def parse(argv):
    """
    This function accept a list of strings, create and fill a parser istance 
    and return a populated namespace

    Parameters
    ----------
    argv: list of strings
        list to be parsed

    output: namespace
    ---------
    """

    import argparse as ap 
    import argparse_custom as apc

    description = """ Convert the file from ra, dec, redshift into cartesian coordinates assuming a cosmology.
    The name of the output file name is derived from the input one and the modification 
    can be set with the options. ra, dec and redshift are by default assumed to be in the first three columns,
    and all the following columns are by default copied after x, y and z. If the number of columns in 
    the input file (or in the ones read) is more than 8 the exceding ones are cut.
    Redshift is copied in the last column. 
    The output file has the structure
    x	y	z	w	bias	n(x,y,z)	n_b(z)	M	redshift
    (The columns that are not present in the input file are filled with 1, except the redshift)"""
    p = ap.ArgumentParser(description=description,
            formatter_class=ap.ArgumentDefaultsHelpFormatter)

    p.add_argument("ifname", nargs='+', action=apc.file_exists(),
            help="""Input file name(s), containing ra and dec in the first two
            columns""")

    p = apc.version_verbose( p, '1' )

    p, group = apc.insert_or_replace(p)
    p, group = apc.overwrite_or_skip(p)

    p, pandas = apc.pandas_group(p)

    description="""Cosmology to use to convert ra, dec and z in distances. h0=1
    is equivalent to have the distance in Mpc/h with any other value of h0"""
    p, cosmo = apc.cosmology_group( p, description=description, h0_def=1. )
    cosmo.add_argument("--zrange", action="store", nargs=2, type=float,
            help="""Lower and upper limit for the redshift. If this option is
            given the distance is computed only ones and then interpolated in
            the values in the files""")
    cosmo.add_argument("--nbins", action="store", type=int, default='500',
            help='Number of bins in redshift.')

    p.add_argument('--negative-z', action='store', choices=[None, 'skip', 'tozero'],
            default=None, help="""If *None* no check on negative redshifts,
            otherwise either skip the corresponding lines or set to 0""")

    p.add_argument("--fmt", default="%7.6e", action=apc.StoreFmt, nargs='+',
            help="Format of the output files")

    p.add_argument("--usecols", action="store", nargs="+", type=int,
            help="""Read the selected columns. By default read all the
            columns.If thi option is used, make sure the the first three
            columns read in are ra, dec and redshift.""") 

    description = """Parameters related to the parallel computation"""
    p, parallel = apc.parallel_group( p, description=description )

    return p.parse_args(args=argv)  
Exemplo n.º 7
0
def parse(argv):
    """
    This function accept a list of strings, create and fill a parser istance 
    and return a populated namespace

    Parameters
    ----------
    argv: list of strings
        list to be parsed

    output: namespace
    ---------
    """
    import argparse as ap
    import argparse_custom as apc

    description = """
    Computes N(z) and n(z) from one column in a (set of) file(s) and save it
    (them) for each file and/or computes the mean and save it. Weights can be
    applied. 
    When the 'area' is not specified, a standard histogram is produced.
    The output files have the following structure:
        bin_center  bin_lower  bin_upper  hist (std)
    std is added only if the mean is required
    """
    p = ap.ArgumentParser(description=description,
                          formatter_class=apc.RawDescrArgDefHelpFormatter)

    int_or_oper = """If integer, the given column is considered. Operations
    between columns can be performed preceding the column number with a c: e.g.
    c3+c6-1 add columns 3 and 6 and subtract 1 from the result. only after the
    histogram is created"""

    p.add_argument("column",
                   action="store",
                   type=apc.int_or_str,
                   help="""Columns
            containing the redshift (or whatever variable for the histogram).
            """ + int_or_oper)
    p.add_argument("ifname",
                   nargs='+',
                   action=apc.file_exists(),
                   help="""Input file name(s)""")

    p, group = apc.insert_or_replace(p)
    p, group = apc.overwrite_or_skip(p)

    p = apc.version_verbose(p, '0.1')

    p.add_argument(
        "-w",
        "--weight",
        action="store",
        type=apc.int_or_str,
        help="""Weight for the histogram. Operation permitted as for 'column'
            If boolean expressions like '(c3==1)&(c6==0)', the weight is interpreted 
            as 1 if *True*, as 0 if *False*""")

    p.add_argument("-n",
                   "--nbins",
                   action="store",
                   type=int,
                   default='50',
                   help="Number of bins per histogram.")
    p.add_argument(
        "--range",
        action="store",
        nargs=2,
        type=float,
        help="""Lower and upper range of the bins. Computed from the first
            file if any of the following are required: 
                i) the mean; 
                ii) n(z) [so the area needs to be computed];
                iii) pandas and chunks
            """)

    p.add_argument("--mean",
                   action="store",
                   type=apc.outfile,
                   help="""Save the mean in file '%(dest)s'""")
    p.add_argument("--mean-only",
                   action="store_true",
                   help="Only the mean of the histograms is saved")

    p, pandas = apc.pandas_group(p)

    description = """
    If the area of the survey is given, the effective volume per bin is
    computed and the histogram of n(z) is returned. 'h0=1' is equivalent to
    requiring the volume to be in (Mpc/h)^3. For performance reasons, if the
    range is not given it will be computed as for when the mean is requested"""
    p, cosmo = apc.cosmology_group(p, description=description, h0_def=1)
    cosmo.add_argument("-a",
                       "--area",
                       type=float,
                       action="store",
                       help="Area of the survey in steradians")

    p.add_argument("--fmt",
                   default="%7.6e",
                   action=apc.StoreFmt,
                   nargs='+',
                   help="Format of the output files")

    description = """Parameters related to the parallel computation"""
    p, parallel = apc.parallel_group(p, description=description)

    return p.parse_args(args=argv)
Exemplo n.º 8
0
def parse(argv):
    """
    This function accept a list of strings, create and fill a parser istance 
    and return a populated namespace

    Parameters
    ----------
    argv: list of strings
    list to be parsed

    output: namespace
    ---------
    """
    import argparse as ap
    import argparse_custom as apc

    description = """Read two columns c1, c2 from 'replacement' file, then
    replace in 'column' of the input file(s) c1 -> c2."""

    p = ap.ArgumentParser(description=description,
                          formatter_class=ap.ArgumentDefaultsHelpFormatter)

    p.add_argument("column",
                   action="store",
                   type=int,
                   help="Column to substitute")
    p.add_argument("replacement",
                   action=apc.file_exists(),
                   help="""File containing the substitution to do.""")
    p.add_argument("ifname",
                   nargs='+',
                   action=apc.file_exists(),
                   help="Input file name(s)")

    p = apc.version_verbose(p, '1.0')

    p, group = apc.insert_or_replace(p, print_def=True)
    p, group = apc.overwrite_or_skip(p)

    p.add_argument("-c",
                   "--repl-columns",
                   nargs='+',
                   action=apc.required_length(1, 2),
                   type=int,
                   default=[0, 1],
                   help="""Columns to read from 'replacement'
            file. If only one column is read, the content of 'column' in
            'ifname' is casted to int.""")

    p, pandas = apc.pandas_group(p)

    p.add_argument("--fmt",
                   default="%7.6e",
                   action=apc.StoreFmt,
                   nargs='+',
                   help="Format of the output files. (default: %(default)s)")

    description = """Parameters related to the parallel computation"""
    p, parallel = apc.parallel_group(p, description=description)

    return p.parse_args(args=argv)
Exemplo n.º 9
0
def parse(argv):
    """
    This function accept a list of strings, create and fill a parser istance 
    and return a populated namespace

    Parameters
    ----------
    argv: list of strings
        list to be parsed

    output: namespace
    ---------
    """

    import argparse as ap
    import argparse_custom as apc

    description = """Give a list of fits files, read some of the
    columns into a numpy array and then save them into ascii files. Operations
    between colums permitted but numbers are interpreted as such and not
    columns. Permitted operations: {0}
    """.format(permitted_operations)

    p = ap.ArgumentParser(description=description,
                          formatter_class=ap.ArgumentDefaultsHelpFormatter)

    p.add_argument(
        "ifname",
        nargs='+',
        action=apc.file_exists(),
        help="Input file name(s), containing z in one of the columns")

    p = apc.version_verbose(p, '1')

    p, group = apc.insert_or_replace(p)
    p, group = apc.overwrite_or_skip(p)

    finfo = p.add_argument_group(title="file information",
                                 description="""Get
            information from the fits files""")
    finfo.add_argument("--show-columns",
                       action="store_true",
                       help="""Print on
            screen the info for the first file in 'ifname'""")
    finfo.add_argument("--all-files",
                       action="store_true",
                       help="""Show the info of all
            the files. Ignored if '--show-columns' not used.""")
    finfo.add_argument(
        "--tofile",
        action="store",
        type=ap.FileType("w"),
        help="""Write the output to file '%(dest)s' instead than to
            stdout. Ignored if '--show-columns' not used.""")

    p.add_argument(
        "-c",
        "--columns",
        nargs='+',
        default=["RA", "DEC", "Z"],
        help="""Read the given column(s). Can be: integer, string and lists.
            Operations permitted for string entry like 'a+b-1': 'a' and 'b' are column
            name and '1' a number.""")

    p.add_argument("--fmt",
                   action=apc.StoreFmt,
                   nargs='+',
                   default="%7.6e",
                   help="Format of the output files.")

    description = """Parameters related to the parallel computation"""
    p, parallel = apc.parallel_group(p, description=description)

    return p.parse_args(args=argv)