Beispiel #1
0
def read_new_metadata(filename,
                      module_name,
                      table_name,
                      scheme_name=None,
                      subroutine_name=None):
    """Read metadata in new format and convert output to ccpp_prebuild metadata dictionary"""
    if not os.path.isfile(filename):
        raise Exception("New metadata file {0} not found".format(filename))

    # Save metadata, because this routine new_metadata
    # is called once for every table in that file
    if filename in NEW_METADATA_SAVE.keys():
        new_metadata_headers = NEW_METADATA_SAVE[filename]
    else:
        new_metadata_headers = MetadataHeader.parse_metadata_file(filename)
        NEW_METADATA_SAVE[filename] = new_metadata_headers

    # Convert new metadata for requested table to old metadata dictionary
    metadata = collections.OrderedDict()
    for new_metadata_header in new_metadata_headers:
        if not scheme_name:
            if not new_metadata_header.title == table_name:
                # Skip this table, since it is not requested right now
                continue
            if new_metadata_header.title == module_name:
                container = encode_container(module_name)
            else:
                container = encode_container(module_name,
                                             new_metadata_header.title)
        else:
            if not new_metadata_header.title == table_name:
                # Skip this table, since it is not requested right now
                continue
            container = encode_container(module_name, scheme_name, table_name)
        for new_var in new_metadata_header.variable_list():
            standard_name = new_var.get_prop_value('standard_name')
            rank = len(new_var.get_prop_value('dimensions'))
            var = Var(
                standard_name=standard_name,
                long_name=new_var.get_prop_value('long_name'),
                units=new_var.get_prop_value('units'),
                local_name=new_var.get_prop_value('local_name'),
                type=new_var.get_prop_value('type'),
                container=container,
                kind=new_var.get_prop_value('kind'),
                intent=new_var.get_prop_value('intent'),
                optional='T' if new_var.get_prop_value('optional') else 'F',
            )
            # Set rank using integer-setter method
            var.rank = rank
            # Check for duplicates in same table
            if standard_name in metadata.keys():
                raise Exception(
                    "Error, multiple definitions of standard name {0} in new metadata table {1}"
                    .format(standard_name, table_name))
            metadata[standard_name] = [var]
    return metadata
Beispiel #2
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def parse_preamble_data(statements, pobj, spec_name, endmatch, logger):
    """Parse module variables or DDT definitions from a module preamble
    or parse program variables from the beginning of a program.
    """
    inspec = True
    mheaders = list()
    var_dict = VarDictionary(spec_name)
    psrc = ParseSource(spec_name, 'MODULE', pobj)
    active_table = None
    while inspec and (statements is not None):
        while len(statements) > 0:
            statement = statements.pop(0)
            # End program or module
            pmatch = endmatch.match(statement)
            asmatch = arg_table_start_re.match(statement)
            type_def = fortran_type_definition(statement)
            if asmatch is not None:
                active_table = asmatch.group(1).lower()
            elif (pmatch is not None) or is_contains_statement(
                    statement, inspec):
                # We are done with the specification
                inspec = False
                if len(var_dict.variable_list()) > 0:
                    mheader = MetadataHeader(title=spec_name,
                                             type_in='MODULE',
                                             module=spec_name,
                                             var_dict=var_dict,
                                             logger=logger)
                    mheaders.append(mheader)
                # End if
                break
            elif (type_def is not None) and (type_def[0].lower()
                                             == active_table):
                statements, ddt = parse_type_def(statements, type_def,
                                                 spec_name, pobj, logger)
                mheaders.append(ddt)
                active_table = None
            else:
                # We should have a variable definition to add
                if ((not is_comment_statement(statement, logger)) and
                    (not parse_use_statement({}, statement, pobj, logger))
                        and (active_table == spec_name)):
                    vars = parse_fortran_var_decl(statement,
                                                  psrc,
                                                  logger=logger)
                    for var in vars:
                        var_dict.add_variable(var)
                    # End for
                # End if
            # End if
        # End while
        if inspec and (len(statements) == 0):
            statements = read_statements(pobj)
        # End if
    # End while
    return statements, mheaders
Beispiel #3
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def convert_to_html(filename_in, outdir, logger):
    """Convert a metadata file into html (one html file for each table)"""
    if not os.path.isfile(filename_in):
        raise Exception("Metadata file {} not found".format(filename_in))
    logger.info("Converting file {} to HTML".format(filename_in))
    metadata_headers = MetadataHeader.parse_metadata_file(filename_in)
    for metadata_header in metadata_headers:
        filename_out = metadata_header.to_html(outdir, ATTRIBUTES)
        if filename_out:
            logger.info("  ... wrote {}".format(filename_out))
Beispiel #4
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def test_MetadataHeader_parse_table(tmpdir):
    path = str(tmpdir.join("table.meta"))
    with open(path, "w") as f:
        f.write(example_table)

    table1, table2 = MetadataHeader.parse_metadata_file(path)

    # check first table
    assert table1.name == "<name>"
    assert table1.type == "scheme"
    assert table1.dependencies == ["path/a.f", "path/b.f"]

    # check second table
    assert table2.name == "<name>"
    assert table2.type == "scheme"
    (im_data,) = table2.variable_list()
    assert isinstance(im_data, Var)
    assert im_data.get_dimensions() == []
Beispiel #5
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def parse_type_def(statements, type_def, mod_name, pobj, logger):
    psrc = ParseSource(mod_name, 'DDT', pobj)
    seen_contains = False
    mheader = None
    var_dict = VarDictionary(type_def[0])
    inspec = True
    while inspec and (statements is not None):
        while len(statements) > 0:
            statement = statements.pop(0)
            # End program or module
            pmatch = end_type_re.match(statement)
            if pmatch is not None:
                # We hit the end of the type, make a header
                mheader = MetadataHeader(title=type_def[0],
                                         type_in='DDT',
                                         module=mod_name,
                                         var_dict=var_dict,
                                         logger=logger)
                inspec = False
            elif is_contains_statement(statement, inspec):
                seen_contains = True
            elif not seen_contains:
                # Comment of variable
                if ((not is_comment_statement(statement, logger)) and
                    (not parse_use_statement({}, statement, pobj, logger))):
                    vars = parse_fortran_var_decl(statement,
                                                  psrc,
                                                  logger=logger)
                    for var in vars:
                        var_dict.add_variable(var)
                    # End for
                # End if
            else:
                # We are just skipping lines until the end type
                pass
            # End if
        # End while
        if inspec and (len(statements) == 0):
            statements = read_statements(pobj)
        # End if
    # End while
    return statements, mheader
Beispiel #6
0
def read_new_metadata(filename,
                      module_name,
                      table_name,
                      scheme_name=None,
                      subroutine_name=None):
    """Read metadata in new format and convert output to ccpp_prebuild metadata dictionary"""
    if not os.path.isfile(filename):
        raise Exception("New metadata file {0} not found".format(filename))

    # Save metadata, because this routine new_metadata
    # is called once for every table in that file
    if filename in NEW_METADATA_SAVE.keys():
        new_metadata_headers = NEW_METADATA_SAVE[filename]
    else:
        new_metadata_headers = MetadataHeader.parse_metadata_file(filename)
        NEW_METADATA_SAVE[filename] = new_metadata_headers

    # Record dependencies for the metadata table (only applies to schemes)
    has_property_table = False
    dependencies = []

    # Convert new metadata for requested table to old metadata dictionary
    metadata = collections.OrderedDict()
    for new_metadata_header in new_metadata_headers:
        # Module or DDT tables
        if not scheme_name:
            # Module property tables
            if new_metadata_header.property_table and new_metadata_header.title == module_name:
                # If this is a ccpp-table-properties table for a module, it can only contain dependencies;
                # ensure that for module tables, the header type is "module"
                if not new_metadata_header.header_type == 'module':
                    raise Exception(
                        "Unsupported header_type '{}' for table properties for modules"
                        .format(new_metadata_header.header_type))
                dependencies += new_metadata_header.dependencies
                has_property_table = True
                continue
            # DDT property tables
            elif new_metadata_header.property_table:
                # If this is a ccpp-table-properties table for a DDT, it can only contain dependencies;
                # ensure that for DDT tables, the header type is "ddt"
                if not new_metadata_header.header_type == 'ddt':
                    raise Exception(
                        "Unsupported header_type '{}' for table properties for DDTs"
                        .format(new_metadata_header.header_type))
                dependencies += new_metadata_header.dependencies
                has_property_table = True
                continue
            # Module or DDT argument tables
            else:
                if not new_metadata_header.title == table_name:
                    # Skip this table, since it is not requested right now
                    continue
                # Distinguish between module argument tables and DDT argument tables
                if new_metadata_header.title == module_name:
                    container = encode_container(module_name)
                else:
                    container = encode_container(module_name,
                                                 new_metadata_header.title)
        else:
            # Scheme property tables
            if new_metadata_header.property_table and new_metadata_header.title == scheme_name:
                # If this is a ccpp-table-properties table for a scheme, it can only contain dependencies;
                # ensure that for scheme tables, the header type is "scheme"
                if not new_metadata_header.header_type == 'scheme':
                    raise Exception(
                        "Unsupported header_type '{}' for table properties for schemes"
                        .format(new_metadata_header.header_type))
                dependencies += new_metadata_header.dependencies
                has_property_table = True
                continue
            # Scheme argument tables
            else:
                if not new_metadata_header.title == table_name:
                    # Skip this table, since it is not requested right now
                    continue
                container = encode_container(module_name, scheme_name,
                                             table_name)
        for new_var in new_metadata_header.variable_list():
            standard_name = new_var.get_prop_value('standard_name')
            # DH* 2020-05-26
            # Legacy extension for inconsistent metadata (use of horizontal_dimension versus horizontal_loop_extent).
            # Since horizontal_dimension and horizontal_loop_extent have the same attributes (otherwise it doesn't
            # make sense), we swap the standard name and add a note to the long name
            legacy_note = ''
            if standard_name == 'horizontal_loop_extent' and scheme_name and \
                    (table_name.endswith("_init") or table_name.endswith("_finalize")):
                logging.warn("Legacy extension - replacing variable 'horizontal_loop_extent'" + \
                             " with 'horizontal_dimension' in table {}".format(table_name))
                standard_name = 'horizontal_dimension'
                legacy_note = ' replaced by horizontal dimension (legacy extension)'
            elif standard_name == 'horizontal_dimension' and scheme_name and table_name.endswith(
                    "_run"):
                logging.warn("Legacy extension - replacing variable 'horizontal_dimension' " + \
                             "with 'horizontal_loop_extent' in table {}".format(table_name))
                standard_name = 'horizontal_loop_extent'
                legacy_note = ' replaced by horizontal loop extent (legacy extension)'
            # Adjust dimensions
            dimensions = new_var.get_prop_value('dimensions')
            if scheme_name and (table_name.endswith("_init") or table_name.endswith("_finalize")) \
                    and 'horizontal_loop_extent' in dimensions:
                logging.warn("Legacy extension - replacing dimension 'horizontal_loop_extent' with 'horizontal_dimension' " + \
                             "for variable {} in table {}".format(standard_name,table_name))
                dimensions = [
                    'horizontal_dimension'
                    if x == 'horizontal_loop_extent' else x for x in dimensions
                ]
            elif scheme_name and table_name.endswith(
                    "_run") and 'horizontal_dimension' in dimensions:
                logging.warn("Legacy extension - replacing dimension 'horizontal_dimension' with 'horizontal_loop_extent' " + \
                             "for variable {} in table {}".format(standard_name,table_name))
                dimensions = [
                    'horizontal_loop_extent'
                    if x == 'horizontal_dimension' else x for x in dimensions
                ]
            # *DH  2020-05-26
            if new_var.get_prop_value('active').lower() == '.true.':
                active = 'T'
            elif new_var.get_prop_value('active').lower() == '.false.':
                active = 'F'
            else:
                # Replace multiple whitespaces, preserve case
                active = ' '.join(new_var.get_prop_value('active').split())
            var = Var(
                standard_name=standard_name,
                long_name=new_var.get_prop_value('long_name') + legacy_note,
                units=new_var.get_prop_value('units'),
                local_name=new_var.get_prop_value('local_name'),
                type=new_var.get_prop_value('type'),
                dimensions=dimensions,
                container=container,
                kind=new_var.get_prop_value('kind'),
                intent=new_var.get_prop_value('intent'),
                optional='T' if new_var.get_prop_value('optional') else 'F',
                active=active,
            )
            # Check for duplicates in same table
            if standard_name in metadata.keys():
                raise Exception(
                    "Error, multiple definitions of standard name {} in new metadata table {}"
                    .format(standard_name, table_name))
            metadata[standard_name] = [var]

    # CCPP property tables are mandatory
    if not has_property_table:
        if scheme_name:
            raise Exception("Metadata file {} for scheme {} does not have a [ccpp-table-properties] section,".format(filename, scheme_name) + \
                                                                      " or the 'name = ...' attribute in the [ccpp-table-properties] is wrong")
        else:
            raise Exception("Metadata file {} for table {} does not have a [ccpp-table-properties] section,".format(filename, table_name) + \
                                                                      " or the 'name = ...' attribute in the [ccpp-table-properties] is wrong")

    return (metadata, dependencies)
def parse_metadata_tables_typedefs(model):
    # Lookup table local_name -> dimensions
    dimensions = {
        'ccpp_error_flag': [],
        'ccpp_error_message': [],
        'ccpp_loop_counter': [],
        'ccpp_block_number': [],
        'ccpp_thread_number': [],
        'ccpp_t': [],
    }
    for filename in METADATA_TYPEDEFS[model]:
        metadata_headers = MetadataHeader.parse_metadata_file(filename)
        for metadata_header in metadata_headers:
            for var in metadata_header.variable_list():
                standard_name = var.get_prop_value('standard_name')
                if standard_name in dimensions.keys():
                    raise ValueError(
                        "Duplicate standard name {} in type/variable definition metadata tables"
                        .format(standard_name))
                dimensions[standard_name] = var.get_prop_value('dimensions')
    #
    # Add missing variables (not used by FV3)
    dimensions['lw_heating_rate_spectral'] = [
        'horizontal_dimension',
        'adjusted_vertical_layer_dimension_for_radiation',
        'number_of_aerosol_bands_for_longwave_radiation'
    ]
    dimensions['lw_fluxes'] = [
        'horizontal_dimension',
        'adjusted_vertical_level_dimension_for_radiation'
    ]
    dimensions['cloud_optical_depth'] = [
        'horizontal_dimension',
        'adjusted_vertical_layer_dimension_for_radiation'
    ]
    #
    dimensions['sw_heating_rate_spectral'] = [
        'horizontal_dimension',
        'adjusted_vertical_layer_dimension_for_radiation',
        'number_of_aerosol_bands_for_shortwave_radiation'
    ]
    dimensions['sw_fluxes'] = [
        'horizontal_dimension',
        'adjusted_vertical_level_dimension_for_radiation'
    ]
    dimensions['cloud_single_scattering_albedo'] = [
        'horizontal_dimension',
        'adjusted_vertical_layer_dimension_for_radiation'
    ]
    dimensions['cloud_asymmetry_parameter'] = [
        'horizontal_dimension',
        'adjusted_vertical_layer_dimension_for_radiation'
    ]
    #
    dimensions['specified_kinematic_surface_upward_sensible_heat_flux'] = [
        'horizontal_dimension'
    ]
    dimensions['specified_kinematic_surface_upward_latent_heat_flux'] = [
        'horizontal_dimension'
    ]
    dimensions['vonKarman_constant'] = []
    #
    return dimensions
Beispiel #8
0
def parse_scheme_metadata(statements, pobj, spec_name, table_name, logger):
    "Parse dummy argument information from a subroutine"
    psrc = None
    mheader = None
    var_dict = None
    scheme_name = None
    # Find the subroutine line, should be first executable statement
    inpreamble = False
    insub = True
    while insub and (statements is not None):
        while len(statements) > 0:
            statement = statements.pop(0)
            smatch = subroutine_re.match(statement)
            esmatch = end_subroutine_re.match(statement)
            pmatch = endmodule_re.match(statement)
            asmatch = arg_table_start_re.match(statement)
            if asmatch is not None:
                # We have run off the end of something, hope that is okay
                # Put this statement back for the caller to deal with
                statements.insert(0, statement)
                insub = False
                break
            elif (pmatch is not None):
                # We have run off the end of the module, hope that is okay
                pobj.leave_region('MODULE', region_name=spec_name)
                insub = False
                break
            elif smatch is not None:
                scheme_name = smatch.group(1)
                inpreamble = scheme_name == table_name
                if inpreamble:
                    if smatch.group(2) is not None:
                        scheme_args = [
                            x.strip().lower()
                            for x in smatch.group(2).split(',')
                        ]
                    else:
                        scheme_args = list()
                    # End if
                    scheme_set = set(scheme_args)
                    var_dict = VarDictionary(scheme_name)
                    psrc = ParseSource(scheme_name, 'SCHEME', pobj)
                # End if
            elif inpreamble:
                # Process a preamble statement (use or argument declaration)
                if esmatch is not None:
                    inpreamble = False
                    insub = False
                elif ((not is_comment_statement(statement, logger)) and
                      (not parse_use_statement({}, statement, pobj, logger))
                      and ('intent' in statement.lower())):
                    vars = parse_fortran_var_decl(statement,
                                                  psrc,
                                                  logger=logger)
                    for var in vars:
                        lname = var.get_prop_value('local_name').lower()
                        if lname in scheme_set:
                            scheme_set.remove(lname)
                        else:
                            raise ParseSyntaxError('dummy argument',
                                                   token=lname,
                                                   context=pobj)
                        # End if
                        var_dict.add_variable(var)
                    # End for
                # End if
            # End if
        # End while
        if insub and (len(statements) == 0):
            statements = read_statements(pobj)
        # End if
    # End while
    if (scheme_name is not None) and (var_dict is not None):
        mheader = MetadataHeader(title=scheme_name,
                                 type_in='SCHEME',
                                 module=spec_name,
                                 var_dict=var_dict,
                                 logger=logger)
    # End if
    return statements, mheader
def read_new_metadata(filename,
                      module_name,
                      table_name,
                      scheme_name=None,
                      subroutine_name=None):
    """Read metadata in new format and convert output to ccpp_prebuild metadata dictionary"""
    if not os.path.isfile(filename):
        raise Exception("New metadata file {0} not found".format(filename))

    # Save metadata, because this routine new_metadata
    # is called once for every table in that file
    if filename in NEW_METADATA_SAVE.keys():
        new_metadata_headers = NEW_METADATA_SAVE[filename]
    else:
        new_metadata_headers = MetadataHeader.parse_metadata_file(filename)
        NEW_METADATA_SAVE[filename] = new_metadata_headers

    # Convert new metadata for requested table to old metadata dictionary
    metadata = collections.OrderedDict()
    for new_metadata_header in new_metadata_headers:
        if not scheme_name:
            if not new_metadata_header.title == table_name:
                # Skip this table, since it is not requested right now
                continue
            if new_metadata_header.title == module_name:
                container = encode_container(module_name)
            else:
                container = encode_container(module_name,
                                             new_metadata_header.title)
        else:
            if not new_metadata_header.title == table_name:
                # Skip this table, since it is not requested right now
                continue
            container = encode_container(module_name, scheme_name, table_name)
        for new_var in new_metadata_header.variable_list():
            standard_name = new_var.get_prop_value('standard_name')
            # DH* 2020-05-26
            # Legacy extension for inconsistent metadata (use of horizontal_dimension versus horizontal_loop_extent).
            # Since horizontal_dimension and horizontal_loop_extent have the same attributes (otherwise it doesn't
            # make sense), we swap the standard name and add a note to the long name
            legacy_note = ''
            if standard_name == 'horizontal_loop_extent' and scheme_name and \
                    (table_name.endswith("_init") or table_name.endswith("finalize")):
                logging.warn("Legacy extension - replacing variable 'horizontal_loop_extent'" + \
                             " with 'horizontal_dimension' in table {}".format(table_name))
                standard_name = 'horizontal_dimension'
                legacy_note = ' replaced by horizontal dimension (legacy extension)'
            elif standard_name == 'horizontal_dimension' and scheme_name and table_name.endswith(
                    "_run"):
                logging.warn("Legacy extension - replacing variable 'horizontal_dimension' " + \
                             "with 'horizontal_loop_extent' in table {}".format(table_name))
                standard_name = 'horizontal_loop_extent'
                legacy_note = ' replaced by horizontal loop extent (legacy extension)'
            # Adjust dimensions
            dimensions = new_var.get_prop_value('dimensions')
            if scheme_name and (table_name.endswith("_init") or table_name.endswith("finalize")) \
                    and 'horizontal_loop_extent' in dimensions:
                logging.warn("Legacy extension - replacing dimension 'horizontal_loop_extent' with 'horizontal_dimension' " + \
                             "for variable {} in table {}".format(standard_name,table_name))
                dimensions = [
                    'horizontal_dimension'
                    if x == 'horizontal_loop_extent' else x for x in dimensions
                ]
            elif scheme_name and table_name.endswith(
                    "_run") and 'horizontal_dimension' in dimensions:
                logging.warn("Legacy extension - replacing dimension 'horizontal_dimension' with 'horizontal_loop_extent' " + \
                             "for variable {} in table {}".format(standard_name,table_name))
                dimensions = [
                    'horizontal_loop_extent'
                    if x == 'horizontal_dimension' else x for x in dimensions
                ]
            # *DH  2020-05-26
            if new_var.get_prop_value('active').lower() == '.true.':
                active = 'T'
            elif new_var.get_prop_value('active').lower() == '.false.':
                active = 'F'
            else:
                # Replace multiple whitespaces and use lowercase throughout
                active = ' '.join(
                    new_var.get_prop_value('active').lower().split())
            var = Var(
                standard_name=standard_name,
                long_name=new_var.get_prop_value('long_name') + legacy_note,
                units=new_var.get_prop_value('units'),
                local_name=new_var.get_prop_value('local_name'),
                type=new_var.get_prop_value('type'),
                dimensions=dimensions,
                container=container,
                kind=new_var.get_prop_value('kind'),
                intent=new_var.get_prop_value('intent'),
                optional='T' if new_var.get_prop_value('optional') else 'F',
                active=active,
            )
            # Check for duplicates in same table
            if standard_name in metadata.keys():
                raise Exception(
                    "Error, multiple definitions of standard name {0} in new metadata table {1}"
                    .format(standard_name, table_name))
            metadata[standard_name] = [var]
    return metadata
Beispiel #10
0
    print("Found {} files with arg tables".format(len(tfilenames)))
    total_headers = 0
    for tfile in tfilenames:
        try:
            tbase = os.path.basename(tfile)
            file = os.path.join(pdir, tbase)
            mbase = "{}.meta".format('.'.join(tbase.split('.')[:-1]))
            mdfile = os.path.join(pdir, mbase)
            if not os.path.exists(file):
                infile = tfile
                if not os.path.exists(infile):
                    print("WARNING: Cannot find '{}'".format(infile))
                else:
                    convert_metadata.convert_file(infile, file, mdfile, logger)
                # End if
            # End if
            if os.path.exists(mdfile):
                mh = MetadataHeader.parse_metadata_file(mdfile)
                print("{} metadata headers parsed in {}".format(
                    len(mh), mdfile))
                total_headers = total_headers + len(mh)
            else:
                print("{} not found!".format(mdfile))
            # End if
        except ValueError as ve:
            print("{}: {}".format(infile, ve))
        # End except
    # End for
    print("Found {} total metadata headers".format(total_headers))
# End if __main__