/usr/bin/ad_config is in libadios-bin 1.9.0-7build2.
This file is owned by root:root, with mode 0o755.
The actual contents of the file can be viewed below.
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from __future__ import absolute_import, division, print_function, unicode_literals
import xml.dom.minidom
import type_mapper
class adiosConfig:
def __init__ (self, config_file_name):
self.config_file_name = config_file_name
#This would be a good time to parse the file...
doc = xml.dom.minidom.parse (config_file_name)
nodes = doc.childNodes
if (nodes.length != 1):
print('malformed adios config file, should contain only a single adios-config element')
raise SystemExit
self.config_node = nodes[0]
# for each of the groups, instantiate an adiosGroup object, and store in self.adios_groups
self.adios_groups = []
self.methods = []
self.buffer = None
for node in self.config_node.getElementsByTagName ('adios-group'):
self.adios_groups.append (adiosGroup (node) )
for node in self.config_node.getElementsByTagName ('method'):
self.methods.append (method (node) )
for node in self.config_node.getElementsByTagName ('buffer'):
# there should be only one of these... this code ignores all but the last one.
self.buffer = buffer (node)
# We are currently ignoring any analysis declarations
def get_filename (self):
return self.config_file_name
def get_groups (self):
return self.adios_groups
def get_buffer (self):
#return the buffer info
print('get_buffer is not yet implemented')
def get_host_language (self):
return self.config_node.getAttribute ('host-language')
class adiosGroup:
def __init__ (self, group_node):
self.group_node = group_node
self.time_index = self.group_node.getAttribute ('time-index')
self.vars = []
self.vardict = {}
self.vars_and_gwrites_and_attrs = []
self.attrs = []
self.attrdict = {}
for node in self.group_node.childNodes:
if node.localName == 'var':
newvar = var (node, self, self.time_index)
self.vars.append (newvar)
#print 'Add to dict local var ['+newvar.get_fullpath()+']'
self.vardict [newvar.get_fullpath()] = newvar
self.vars_and_gwrites_and_attrs.append (newvar)
#elif node.localName == 'attribute':
#handle attribute
elif node.localName == 'gwrite':
self.vars_and_gwrites_and_attrs.append (gwrite (node) )
elif node.localName == 'global-bounds':
for gb_node in node.childNodes:
if gb_node.localName == 'var':
newvar = var (gb_node, self, self.time_index)
self.vars.append (newvar)
#print 'Add to dict global var ['+newvar.get_fullpath()+']'
self.vardict [newvar.get_fullpath()] = newvar
self.vars_and_gwrites_and_attrs.append (newvar)
elif gb_node.localName == 'gwrite':
self.vars_and_gwrites_and_attrs.append (gwrite (node) )
elif node.localName == 'attribute':
newattr = attr (node)
self.attrs.append (newattr)
self.attrdict [newattr.get_name()] = newattr
self.vars_and_gwrites_and_attrs.append (newattr)
# Returns the name of the group
def get_name (self):
return self.group_node.getAttribute ('name')
# Returns a list of var objects for all of the variables in the group
def get_vars (self):
return self.vars
# Returns the variable from this group with the specified name, or None
def get_var (self, varfullpath):
#print ' get_var('+varfullpath+')'
if varfullpath in self.vardict:
return self.vardict [varfullpath]
return None
# Returns a list containing all of the vars and gwrites and attributes in the same order
# as was specified in the xml
def get_ordered_contents (self):
return self.vars_and_gwrites_and_attrs
class gwrite:
def __init__(self, gwrite_node):
self.gwrite_text = gwrite_node.getAttribute ('src')
def get_src (self):
return self.gwrite_text
class method:
def __init__ (self, method_node):
self.method_node = method_node
class buffer:
def __init__ (self, buffer_node):
self.buffer_node = buffer_node
class var:
def __init__ (self, var_node, group, time_index=None, global_bounds_node=None):
self.var_node = var_node
self.group = group
self.time_index = time_index
self.global_bounds_node = global_bounds_node
def get_path (self):
path = self.var_node.getAttribute ('path')
return path
def get_name (self):
name = self.var_node.getAttribute ('name')
return name
def get_fullpath (self):
path = self.get_path()
name = self.get_name()
if (path == ''):
fullpath = name
elif (path[-1:] == '/'):
fullpath = path + name
else:
fullpath = path + '/' + name
return fullpath
def get_gwrite (self):
gw = self.var_node.getAttribute ('gwrite')
if (gw == ''):
gw = self.get_name()
return gw
def get_group (self):
return self.group
def get_c_type (self):
return type_mapper.get_c_type (self.var_node.getAttribute ('type') )
def get_type (self):
return self.var_node.getAttribute ('type')
def get_dimensions (self):
if (self.var_node.getAttribute ('dimensions') == ''):
return None
else:
# place the dimensions in a list and remove the time-index if it is there.
dims = [x for x in self.var_node.getAttribute ('dimensions').split(',') if x != self.time_index]
cleandims = []
#print ' get_dimensions of var '+self.get_fullpath()
for d in dims:
#print ' dim "'+str(d)+'"'
if d.isdigit():
cleandims.append (d)
continue
# Here we need to translate the variable name for this dimension (if it's a var) into the gwrite
# for that variable
dim_var = self.get_group().get_var (d)
if dim_var != None:
#print ' dim var found, get name...'
d = dim_var.get_gwrite()
#else:
#print ' dim var NOT found'
cleandims.append (d)
return cleandims
def is_scalar (self):
return self.get_dimensions() == None
class attr:
def __init__ (self, attr_node):
self.attr_node = attr_node
def get_name (self):
return self.attr_node.getAttribute ('name')
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