Exemplo n.º 1
0
    def setup(cls, t_obj, tpg, err_func):
        tpg_obj = cls(t_obj, tag=tpg.get("tag", None))
        set_attributes(tpg_obj, tpg.get("attributes", {}), err_func)
        set_parameters(tpg_obj, tpg.get("parameters", {}), err_func)

        for lun in tpg.get("luns", []):
            LUN.setup(tpg_obj, lun, err_func)

        for p in tpg.get("portals", []):
            NetworkPortal.setup(tpg_obj, p, err_func)

        for acl in tpg.get("node_acls", []):
            NodeACL.setup(tpg_obj, acl, err_func)

        tpg_obj.enable = tpg.get("enable", True)
        dict_remove(tpg, ("luns", "portals", "node_acls", "tag", "attributes", "parameters", "enable"))
        for name, value in tpg.iteritems():
            if value:
                try:
                    setattr(tpg_obj, name, value)
                except:
                    err_func("Could not set tpg %s attribute '%s'" % (tpg_obj.tag, name))
Exemplo n.º 2
0
def ss_olg():
    # Set parameters of the model
    params = set_parameters()
    # Compute real wage and capital
    w, K_L = ss_production(params['r'], params['alpha'], params['delta'])
    K = K_L * params['workers']
    # Balance government budget
    tau, d = government(w, params['retirees'], tau=0.2)
    # Calibrate 'beta' such that A=K
    params['beta'] = opt.newton(error, x0=0.95, args=(K, params, r, w, tau, d))
    # Store steady-state objects at the calibrated 'beta'
    ss = household_ss_olg(params, params['r'], w, tau, d)

    return ss
Exemplo n.º 3
0
    def setup(cls, t_obj, tpg, err_func):
        tpg_obj = cls(t_obj, tag=tpg.get("tag", None))
        set_attributes(tpg_obj, tpg.get('attributes', {}), err_func)
        set_parameters(tpg_obj, tpg.get('parameters', {}), err_func)

        for lun in tpg.get('luns', []):
            LUN.setup(tpg_obj, lun, err_func)

        for p in tpg.get('portals', []):
            NetworkPortal.setup(tpg_obj, p, err_func)

        for acl in tpg.get('node_acls', []):
            NodeACL.setup(tpg_obj, acl, err_func)

        tpg_obj.enable = tpg.get('enable', True)
        dict_remove(tpg, ('luns', 'portals', 'node_acls', 'tag', 'attributes',
                          'parameters', 'enable'))
        for name, value in tpg.iteritems():
            if value:
                try:
                    setattr(tpg_obj, name, value)
                except:
                    err_func("Could not set tpg %s attribute '%s'" %
                             (tpg_obj.tag, name))
Exemplo n.º 4
0
    def setup(cls, t_obj, tpg, err_func):
        tpg_obj = cls(t_obj, tag=tpg.get("tag", None))
        tpg_obj.enable = tpg.get('enable', True)
        set_attributes(tpg_obj, tpg.get('attributes', {}))
        set_parameters(tpg_obj, tpg.get('parameters', {}))

        for lun in tpg.get('luns', []):
            LUN.setup(tpg_obj, lun, err_func)

        for p in tpg.get('portals', []):
            NetworkPortal.setup(tpg_obj, p, err_func)

        for acl in tpg.get('node_acls', []):
            NodeACL.setup(tpg_obj, acl, err_func)

        dict_remove(tpg, ('luns', 'portals', 'node_acls', 'tag',
                          'attributes', 'parameters', 'enable'))
        for name, value in tpg.iteritems():
            if value:
                try:
                    setattr(tpg_obj, name, value)
                except:
                    err_func("Could not set tpg %s attribute '%s'" %
                             (tpg_obj.tag, name))
# depth and number of agents
d = 1
na = 6

try:
    if len(sys.argv) == 2:
        raise ParameterError('wrong number of parameters.')

    if len(sys.argv) > 2:
        d = int(sys.argv[1])
        na = int(sys.argv[2])

    if d <= 0 or na <= 1:
        raise ParameterError('wrong value for <depth> or <number of agents>')

    set_parameters(d, na)

    print('Generating atoms for depth ' + str(depth()) + ' and ' +
          str(nb_agts()) + ' agents...')
    base = Goal()

    # negative goals
    if len(sys.argv) > 3:
        ast = parseSet(sys.argv[3])
        print('Generating negative goals ' + str(ast) + '...')
        update_negative_goals(base, ast)

except ParameterError as e:
    print('Error: ' + str(e))
    print('Usage: python gp_generator.py ' +
          '<depth> <number of agents> ["<description of negative goals>"] ' +
# depth and number of agents
d = 1
na = 6

try:
    if len(sys.argv) == 2:
        raise ParameterError('wrong number of parameters.')

    if len(sys.argv) > 2:
        d = int(sys.argv[1])
        na = int(sys.argv[2])

    if d <= 0 or na <= 1:
        raise ParameterError('wrong value for <depth> or <number of agents>')

    set_parameters(d, na)

    print('Generating atoms for depth ' + str(depth()) + ' and ' +
          str(nb_agts()) + ' agents...')
    base = Goal()

    # negative goals
    if len(sys.argv) > 3:
        ast = parseSet(sys.argv[3])
        print('Generating negative goals ' + str(ast) + '...')
        update_negative_goals(base, ast)

except ParameterError as e:
    print('Error: ' + str(e))
    print('Usage: python gp_generator.py ' +
          '<depth> <number of agents> ["<description of negative goals>"] ' +