def __init__(self):
self._lines = []
self._tnsStack = TnsnamesStack()
self._enteredAlias = False
self._enteredAddressList = False
self._enteredDescriptionList = False
self._enteredDescription = False
def test_contains(self):
the_stack = TnsnamesStack()
self.assertEquals(the_stack.contains_entry("DOESNOTEXIST"), False, "Should not have found element")
the_stack.push(self._first_element)
the_stack.push(self._second_element)
self.assertEqual(the_stack.contains_entry(self._first_element), True, "Should contain first element")
self.assertEqual(the_stack.contains_entry(self._second_element), True, "Should contain 2nd element")
self.assertEquals(the_stack.contains_entry(self._third_element), False, "Should not have found 3rd element")
def test_contains(self):
the_stack = TnsnamesStack()
self.assertEquals(the_stack.contains_entry("DOESNOTEXIST"), False,
"Should not have found element")
the_stack.push(self._first_element)
the_stack.push(self._second_element)
self.assertEqual(the_stack.contains_entry(self._first_element), True,
"Should contain first element")
self.assertEqual(the_stack.contains_entry(self._second_element), True,
"Should contain 2nd element")
self.assertEquals(the_stack.contains_entry(self._third_element), False,
"Should not have found 3rd element")
def test_is_ontop(self):
the_stack = TnsnamesStack()
self.assertEquals(the_stack.is_ontop_of(self._first_element, self._second_element), False,
"Should not have found element")
the_stack.push(self._first_element)
the_stack.push(self._second_element)
self.assertEquals(the_stack.is_ontop_of(self._second_element, self._first_element), False,
"2nd should be on top of 1st")
self.assertEquals(the_stack.is_ontop_of(self._first_element, self._second_element), True,
"2nd should be on top of 1st")
self.assertEquals(the_stack.is_ontop_of(self._first_element, self._first_element), False,
"element cannot be on top of itself")
def __init__(self):
self._lines = []
self._tnsStack = TnsnamesStack()
self._enteredAlias = False
self._enteredAddressList = False
self._enteredDescriptionList = False
self._enteredDescription = False
def test_is_ontop(self):
the_stack = TnsnamesStack()
self.assertEquals(
the_stack.is_ontop_of(self._first_element, self._second_element),
False, "Should not have found element")
the_stack.push(self._first_element)
the_stack.push(self._second_element)
self.assertEquals(
the_stack.is_ontop_of(self._second_element, self._first_element),
False, "2nd should be on top of 1st")
self.assertEquals(
the_stack.is_ontop_of(self._first_element, self._second_element),
True, "2nd should be on top of 1st")
self.assertEquals(
the_stack.is_ontop_of(self._first_element, self._first_element),
False, "element cannot be on top of itself")
def test_push_pop(self):
the_stack = TnsnamesStack()
the_stack.push(self._first_element)
self.assertEqual(the_stack.stack_size, 1, "The size should be 1, because one element was put on top")
self.assertEqual(the_stack.get_top, self._first_element, "Wrong element on top")
self.assertEqual(the_stack.stack_size, 1, "The size should still be 1 after get_top")
self.assertEqual(the_stack.pop, self._first_element, "Wrong element on top")
self.assertEqual(the_stack.stack_size, 0, "The size should 0 after pop")
the_stack.push(self._first_element)
the_stack.push(self._second_element)
the_stack.push(self._third_element)
self.assertEqual(the_stack.stack_size, 3, "The size should be 3")
def test_push_pop(self):
the_stack = TnsnamesStack()
the_stack.push(self._first_element)
self.assertEqual(
the_stack.stack_size, 1,
"The size should be 1, because one element was put on top")
self.assertEqual(the_stack.get_top, self._first_element,
"Wrong element on top")
self.assertEqual(the_stack.stack_size, 1,
"The size should still be 1 after get_top")
self.assertEqual(the_stack.pop, self._first_element,
"Wrong element on top")
self.assertEqual(the_stack.stack_size, 0,
"The size should 0 after pop")
the_stack.push(self._first_element)
the_stack.push(self._second_element)
the_stack.push(self._third_element)
self.assertEqual(the_stack.stack_size, 3, "The size should be 3")
class TnsnamesFormatter(TnsnamesListener):
def __init__(self):
self._lines = []
self._tnsStack = TnsnamesStack()
self._enteredAlias = False
self._enteredAddressList = False
self._enteredDescriptionList = False
self._enteredDescription = False
@property
def get_lines(self):
return self._lines
# Enter a parse tree produced by tnsnamesParser#tnsnames.
def enterTnsnames(self, ctx: tnsnamesParser.TnsnamesContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#tnsnames.
def exitTnsnames(self, ctx: tnsnamesParser.TnsnamesContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#tns_entry.
def enterTns_entry(self, ctx: tnsnamesParser.Tns_entryContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#tns_entry.
def exitTns_entry(self, ctx: tnsnamesParser.Tns_entryContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#ifile.
def enterIfile(self, ctx: tnsnamesParser.IfileContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#ifile.
def exitIfile(self, ctx: tnsnamesParser.IfileContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#lsnr_entry.
def enterLsnr_entry(self, ctx: tnsnamesParser.Lsnr_entryContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#lsnr_entry.
def exitLsnr_entry(self, ctx: tnsnamesParser.Lsnr_entryContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#lsnr_description.
def enterLsnr_description(self, ctx: tnsnamesParser.Lsnr_descriptionContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#lsnr_description.
def exitLsnr_description(self, ctx: tnsnamesParser.Lsnr_descriptionContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#alias_list.
def enterAlias_list(self, ctx: tnsnamesParser.Alias_listContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#alias_list.
def exitAlias_list(self, ctx: tnsnamesParser.Alias_listContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#alias.
def enterAlias(self, ctx: tnsnamesParser.AliasContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
self._enteredAlias = True
# Exit a parse tree produced by tnsnamesParser#alias.
def exitAlias(self, ctx: tnsnamesParser.AliasContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
self._enteredAlias = False
# Enter a parse tree produced by tnsnamesParser#description_list.
def enterDescription_list(self, ctx: tnsnamesParser.Description_listContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
self._enteredDescriptionList = True
# Exit a parse tree produced by tnsnamesParser#description_list.
def exitDescription_list(self, ctx: tnsnamesParser.Description_listContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
self._enteredDescriptionList = False
# Enter a parse tree produced by tnsnamesParser#dl_params.
def enterDl_params(self, ctx: tnsnamesParser.Dl_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#dl_params.
def exitDl_params(self, ctx: tnsnamesParser.Dl_paramsContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#dl_parameter.
def enterDl_parameter(self, ctx: tnsnamesParser.Dl_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#dl_parameter.
def exitDl_parameter(self, ctx: tnsnamesParser.Dl_parameterContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#description.
def enterDescription(self, ctx: tnsnamesParser.DescriptionContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
self._enteredDescription = True
# Exit a parse tree produced by tnsnamesParser#description.
def exitDescription(self, ctx: tnsnamesParser.DescriptionContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
self._enteredDescription = False
# Enter a parse tree produced by tnsnamesParser#d_params.
def enterD_params(self, ctx: tnsnamesParser.D_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_params.
def exitD_params(self, ctx: tnsnamesParser.D_paramsContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_parameter.
def enterD_parameter(self, ctx: tnsnamesParser.D_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_parameter.
def exitD_parameter(self, ctx: tnsnamesParser.D_parameterContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_enable.
def enterD_enable(self, ctx: tnsnamesParser.D_enableContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_enable.
def exitD_enable(self, ctx: tnsnamesParser.D_enableContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_sdu.
def enterD_sdu(self, ctx: tnsnamesParser.D_sduContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_sdu.
def exitD_sdu(self, ctx: tnsnamesParser.D_sduContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_recv_buf.
def enterD_recv_buf(self, ctx: tnsnamesParser.D_recv_bufContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_recv_buf.
def exitD_recv_buf(self, ctx: tnsnamesParser.D_recv_bufContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_send_buf.
def enterD_send_buf(self, ctx: tnsnamesParser.D_send_bufContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_send_buf.
def exitD_send_buf(self, ctx: tnsnamesParser.D_send_bufContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_service_type.
def enterD_service_type(self, ctx: tnsnamesParser.D_service_typeContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_service_type.
def exitD_service_type(self, ctx: tnsnamesParser.D_service_typeContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_security.
def enterD_security(self, ctx: tnsnamesParser.D_securityContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_security.
def exitD_security(self, ctx: tnsnamesParser.D_securityContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_conn_timeout.
def enterD_conn_timeout(self, ctx: tnsnamesParser.D_conn_timeoutContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_conn_timeout.
def exitD_conn_timeout(self, ctx: tnsnamesParser.D_conn_timeoutContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_retry_count.
def enterD_retry_count(self, ctx: tnsnamesParser.D_retry_countContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_retry_count.
def exitD_retry_count(self, ctx: tnsnamesParser.D_retry_countContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_tct.
def enterD_tct(self, ctx: tnsnamesParser.D_tctContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_tct.
def exitD_tct(self, ctx: tnsnamesParser.D_tctContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#ds_parameter.
def enterDs_parameter(self, ctx: tnsnamesParser.Ds_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#ds_parameter.
def exitDs_parameter(self, ctx: tnsnamesParser.Ds_parameterContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#address_list.
def enterAddress_list(self, ctx: tnsnamesParser.Address_listContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
self._enteredAddressList = True
# Exit a parse tree produced by tnsnamesParser#address_list.
def exitAddress_list(self, ctx: tnsnamesParser.Address_listContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
self._enteredAddressList = False
# Enter a parse tree produced by tnsnamesParser#al_params.
def enterAl_params(self, ctx: tnsnamesParser.Al_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#al_params.
def exitAl_params(self, ctx: tnsnamesParser.Al_paramsContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#al_parameter.
def enterAl_parameter(self, ctx: tnsnamesParser.Al_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#al_parameter.
def exitAl_parameter(self, ctx: tnsnamesParser.Al_parameterContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#al_failover.
def enterAl_failover(self, ctx: tnsnamesParser.Al_failoverContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#al_failover.
def exitAl_failover(self, ctx: tnsnamesParser.Al_failoverContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#al_load_balance.
def enterAl_load_balance(self, ctx: tnsnamesParser.Al_load_balanceContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#al_load_balance.
def exitAl_load_balance(self, ctx: tnsnamesParser.Al_load_balanceContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#al_source_route.
def enterAl_source_route(self, ctx: tnsnamesParser.Al_source_routeContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#al_source_route.
def exitAl_source_route(self, ctx: tnsnamesParser.Al_source_routeContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#address.
def enterAddress(self, ctx: tnsnamesParser.AddressContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#address.
def exitAddress(self, ctx: tnsnamesParser.AddressContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#a_params.
def enterA_params(self, ctx: tnsnamesParser.A_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#a_params.
def exitA_params(self, ctx: tnsnamesParser.A_paramsContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#a_parameter.
def enterA_parameter(self, ctx: tnsnamesParser.A_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#a_parameter.
def exitA_parameter(self, ctx: tnsnamesParser.A_parameterContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#protocol_info.
def enterProtocol_info(self, ctx: tnsnamesParser.Protocol_infoContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#protocol_info.
def exitProtocol_info(self, ctx: tnsnamesParser.Protocol_infoContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#tcp_protocol.
def enterTcp_protocol(self, ctx: tnsnamesParser.Tcp_protocolContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#tcp_protocol.
def exitTcp_protocol(self, ctx: tnsnamesParser.Tcp_protocolContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#tcp_params.
def enterTcp_params(self, ctx: tnsnamesParser.Tcp_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#tcp_params.
def exitTcp_params(self, ctx: tnsnamesParser.Tcp_paramsContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#tcp_parameter.
def enterTcp_parameter(self, ctx: tnsnamesParser.Tcp_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#tcp_parameter.
def exitTcp_parameter(self, ctx: tnsnamesParser.Tcp_parameterContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#tcp_host.
def enterTcp_host(self, ctx: tnsnamesParser.Tcp_hostContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#tcp_host.
def exitTcp_host(self, ctx: tnsnamesParser.Tcp_hostContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#tcp_port.
def enterTcp_port(self, ctx: tnsnamesParser.Tcp_portContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#tcp_port.
def exitTcp_port(self, ctx: tnsnamesParser.Tcp_portContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#tcp_tcp.
def enterTcp_tcp(self, ctx: tnsnamesParser.Tcp_tcpContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#tcp_tcp.
def exitTcp_tcp(self, ctx: tnsnamesParser.Tcp_tcpContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#host.
def enterHost(self, ctx: tnsnamesParser.HostContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#host.
def exitHost(self, ctx: tnsnamesParser.HostContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#port.
def enterPort(self, ctx: tnsnamesParser.PortContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#port.
def exitPort(self, ctx: tnsnamesParser.PortContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#ipc_protocol.
def enterIpc_protocol(self, ctx: tnsnamesParser.Ipc_protocolContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#ipc_protocol.
def exitIpc_protocol(self, ctx: tnsnamesParser.Ipc_protocolContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#ipc_params.
def enterIpc_params(self, ctx: tnsnamesParser.Ipc_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#ipc_params.
def exitIpc_params(self, ctx: tnsnamesParser.Ipc_paramsContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#ipc_parameter.
def enterIpc_parameter(self, ctx: tnsnamesParser.Ipc_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#ipc_parameter.
def exitIpc_parameter(self, ctx: tnsnamesParser.Ipc_parameterContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#ipc_ipc.
def enterIpc_ipc(self, ctx: tnsnamesParser.Ipc_ipcContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#ipc_ipc.
def exitIpc_ipc(self, ctx: tnsnamesParser.Ipc_ipcContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#ipc_key.
def enterIpc_key(self, ctx: tnsnamesParser.Ipc_keyContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#ipc_key.
def exitIpc_key(self, ctx: tnsnamesParser.Ipc_keyContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#spx_protocol.
def enterSpx_protocol(self, ctx: tnsnamesParser.Spx_protocolContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#spx_protocol.
def exitSpx_protocol(self, ctx: tnsnamesParser.Spx_protocolContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#spx_params.
def enterSpx_params(self, ctx: tnsnamesParser.Spx_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#spx_params.
def exitSpx_params(self, ctx: tnsnamesParser.Spx_paramsContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#spx_parameter.
def enterSpx_parameter(self, ctx: tnsnamesParser.Spx_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#spx_parameter.
def exitSpx_parameter(self, ctx: tnsnamesParser.Spx_parameterContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#spx_spx.
def enterSpx_spx(self, ctx: tnsnamesParser.Spx_spxContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#spx_spx.
def exitSpx_spx(self, ctx: tnsnamesParser.Spx_spxContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#spx_service.
def enterSpx_service(self, ctx: tnsnamesParser.Spx_serviceContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#spx_service.
def exitSpx_service(self, ctx: tnsnamesParser.Spx_serviceContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#nmp_protocol.
def enterNmp_protocol(self, ctx: tnsnamesParser.Nmp_protocolContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#nmp_protocol.
def exitNmp_protocol(self, ctx: tnsnamesParser.Nmp_protocolContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#nmp_params.
def enterNmp_params(self, ctx: tnsnamesParser.Nmp_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#nmp_params.
def exitNmp_params(self, ctx: tnsnamesParser.Nmp_paramsContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#nmp_parameter.
def enterNmp_parameter(self, ctx: tnsnamesParser.Nmp_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#nmp_parameter.
def exitNmp_parameter(self, ctx: tnsnamesParser.Nmp_parameterContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#nmp_nmp.
def enterNmp_nmp(self, ctx: tnsnamesParser.Nmp_nmpContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#nmp_nmp.
def exitNmp_nmp(self, ctx: tnsnamesParser.Nmp_nmpContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#nmp_server.
def enterNmp_server(self, ctx: tnsnamesParser.Nmp_serverContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#nmp_server.
def exitNmp_server(self, ctx: tnsnamesParser.Nmp_serverContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#nmp_pipe.
def enterNmp_pipe(self, ctx: tnsnamesParser.Nmp_pipeContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#nmp_pipe.
def exitNmp_pipe(self, ctx: tnsnamesParser.Nmp_pipeContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#beq_protocol.
def enterBeq_protocol(self, ctx: tnsnamesParser.Beq_protocolContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#beq_protocol.
def exitBeq_protocol(self, ctx: tnsnamesParser.Beq_protocolContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#beq_params.
def enterBeq_params(self, ctx: tnsnamesParser.Beq_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#beq_params.
def exitBeq_params(self, ctx: tnsnamesParser.Beq_paramsContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#beq_parameter.
def enterBeq_parameter(self, ctx: tnsnamesParser.Beq_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#beq_parameter.
def exitBeq_parameter(self, ctx: tnsnamesParser.Beq_parameterContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#beq_beq.
def enterBeq_beq(self, ctx: tnsnamesParser.Beq_beqContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#beq_beq.
def exitBeq_beq(self, ctx: tnsnamesParser.Beq_beqContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#beq_program.
def enterBeq_program(self, ctx: tnsnamesParser.Beq_programContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#beq_program.
def exitBeq_program(self, ctx: tnsnamesParser.Beq_programContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#beq_argv0.
def enterBeq_argv0(self, ctx: tnsnamesParser.Beq_argv0Context):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#beq_argv0.
def exitBeq_argv0(self, ctx: tnsnamesParser.Beq_argv0Context):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#beq_args.
def enterBeq_args(self, ctx: tnsnamesParser.Beq_argsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#beq_args.
def exitBeq_args(self, ctx: tnsnamesParser.Beq_argsContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#ba_parameter.
def enterBa_parameter(self, ctx: tnsnamesParser.Ba_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#ba_parameter.
def exitBa_parameter(self, ctx: tnsnamesParser.Ba_parameterContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#ba_description.
def enterBa_description(self, ctx: tnsnamesParser.Ba_descriptionContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#ba_description.
def exitBa_description(self, ctx: tnsnamesParser.Ba_descriptionContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#bad_params.
def enterBad_params(self, ctx: tnsnamesParser.Bad_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#bad_params.
def exitBad_params(self, ctx: tnsnamesParser.Bad_paramsContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#bad_parameter.
def enterBad_parameter(self, ctx: tnsnamesParser.Bad_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#bad_parameter.
def exitBad_parameter(self, ctx: tnsnamesParser.Bad_parameterContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#bad_local.
def enterBad_local(self, ctx: tnsnamesParser.Bad_localContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#bad_local.
def exitBad_local(self, ctx: tnsnamesParser.Bad_localContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#bad_address.
def enterBad_address(self, ctx: tnsnamesParser.Bad_addressContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#bad_address.
def exitBad_address(self, ctx: tnsnamesParser.Bad_addressContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#connect_data.
def enterConnect_data(self, ctx: tnsnamesParser.Connect_dataContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#connect_data.
def exitConnect_data(self, ctx: tnsnamesParser.Connect_dataContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_params.
def enterCd_params(self, ctx: tnsnamesParser.Cd_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_params.
def exitCd_params(self, ctx: tnsnamesParser.Cd_paramsContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_parameter.
def enterCd_parameter(self, ctx: tnsnamesParser.Cd_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_parameter.
def exitCd_parameter(self, ctx: tnsnamesParser.Cd_parameterContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_service_name.
def enterCd_service_name(self, ctx: tnsnamesParser.Cd_service_nameContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_service_name.
def exitCd_service_name(self, ctx: tnsnamesParser.Cd_service_nameContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_sid.
def enterCd_sid(self, ctx: tnsnamesParser.Cd_sidContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_sid.
def exitCd_sid(self, ctx: tnsnamesParser.Cd_sidContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_instance_name.
def enterCd_instance_name(self, ctx: tnsnamesParser.Cd_instance_nameContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_instance_name.
def exitCd_instance_name(self, ctx: tnsnamesParser.Cd_instance_nameContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_failover_mode.
def enterCd_failover_mode(self, ctx: tnsnamesParser.Cd_failover_modeContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_failover_mode.
def exitCd_failover_mode(self, ctx: tnsnamesParser.Cd_failover_modeContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_global_name.
def enterCd_global_name(self, ctx: tnsnamesParser.Cd_global_nameContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_global_name.
def exitCd_global_name(self, ctx: tnsnamesParser.Cd_global_nameContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_hs.
def enterCd_hs(self, ctx: tnsnamesParser.Cd_hsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_hs.
def exitCd_hs(self, ctx: tnsnamesParser.Cd_hsContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_rdb_database.
def enterCd_rdb_database(self, ctx: tnsnamesParser.Cd_rdb_databaseContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_rdb_database.
def exitCd_rdb_database(self, ctx: tnsnamesParser.Cd_rdb_databaseContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_server.
def enterCd_server(self, ctx: tnsnamesParser.Cd_serverContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_server.
def exitCd_server(self, ctx: tnsnamesParser.Cd_serverContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_ur.
def enterCd_ur(self, ctx: tnsnamesParser.Cd_urContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_ur.
def exitCd_ur(self, ctx: tnsnamesParser.Cd_urContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#fo_params.
def enterFo_params(self, ctx: tnsnamesParser.Fo_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#fo_params.
def exitFo_params(self, ctx: tnsnamesParser.Fo_paramsContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#fo_parameter.
def enterFo_parameter(self, ctx: tnsnamesParser.Fo_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#fo_parameter.
def exitFo_parameter(self, ctx: tnsnamesParser.Fo_parameterContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#fo_type.
def enterFo_type(self, ctx: tnsnamesParser.Fo_typeContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#fo_type.
def exitFo_type(self, ctx: tnsnamesParser.Fo_typeContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#fo_backup.
def enterFo_backup(self, ctx: tnsnamesParser.Fo_backupContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#fo_backup.
def exitFo_backup(self, ctx: tnsnamesParser.Fo_backupContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#fo_method.
def enterFo_method(self, ctx: tnsnamesParser.Fo_methodContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#fo_method.
def exitFo_method(self, ctx: tnsnamesParser.Fo_methodContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#fo_retries.
def enterFo_retries(self, ctx: tnsnamesParser.Fo_retriesContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#fo_retries.
def exitFo_retries(self, ctx: tnsnamesParser.Fo_retriesContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#fo_delay.
def enterFo_delay(self, ctx: tnsnamesParser.Fo_delayContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#fo_delay.
def exitFo_delay(self, ctx: tnsnamesParser.Fo_delayContext):
assert tnsnamesParser.ruleNames[ctx.getRuleIndex()] == self._tnsStack.pop
class TnsnamesFormatter(TnsnamesListener):
def __init__(self):
self._lines = []
self._tnsStack = TnsnamesStack()
self._enteredAlias = False
self._enteredAddressList = False
self._enteredDescriptionList = False
self._enteredDescription = False
@property
def get_lines(self):
return self._lines
# Enter a parse tree produced by tnsnamesParser#tnsnames.
def enterTnsnames(self, ctx: tnsnamesParser.TnsnamesContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#tnsnames.
def exitTnsnames(self, ctx: tnsnamesParser.TnsnamesContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#tns_entry.
def enterTns_entry(self, ctx: tnsnamesParser.Tns_entryContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#tns_entry.
def exitTns_entry(self, ctx: tnsnamesParser.Tns_entryContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#ifile.
def enterIfile(self, ctx: tnsnamesParser.IfileContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#ifile.
def exitIfile(self, ctx: tnsnamesParser.IfileContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#lsnr_entry.
def enterLsnr_entry(self, ctx: tnsnamesParser.Lsnr_entryContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#lsnr_entry.
def exitLsnr_entry(self, ctx: tnsnamesParser.Lsnr_entryContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#lsnr_description.
def enterLsnr_description(self,
ctx: tnsnamesParser.Lsnr_descriptionContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#lsnr_description.
def exitLsnr_description(self,
ctx: tnsnamesParser.Lsnr_descriptionContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#alias_list.
def enterAlias_list(self, ctx: tnsnamesParser.Alias_listContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#alias_list.
def exitAlias_list(self, ctx: tnsnamesParser.Alias_listContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#alias.
def enterAlias(self, ctx: tnsnamesParser.AliasContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
self._enteredAlias = True
# Exit a parse tree produced by tnsnamesParser#alias.
def exitAlias(self, ctx: tnsnamesParser.AliasContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
self._enteredAlias = False
# Enter a parse tree produced by tnsnamesParser#description_list.
def enterDescription_list(self,
ctx: tnsnamesParser.Description_listContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
self._enteredDescriptionList = True
# Exit a parse tree produced by tnsnamesParser#description_list.
def exitDescription_list(self,
ctx: tnsnamesParser.Description_listContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
self._enteredDescriptionList = False
# Enter a parse tree produced by tnsnamesParser#dl_params.
def enterDl_params(self, ctx: tnsnamesParser.Dl_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#dl_params.
def exitDl_params(self, ctx: tnsnamesParser.Dl_paramsContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#dl_parameter.
def enterDl_parameter(self, ctx: tnsnamesParser.Dl_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#dl_parameter.
def exitDl_parameter(self, ctx: tnsnamesParser.Dl_parameterContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#description.
def enterDescription(self, ctx: tnsnamesParser.DescriptionContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
self._enteredDescription = True
# Exit a parse tree produced by tnsnamesParser#description.
def exitDescription(self, ctx: tnsnamesParser.DescriptionContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
self._enteredDescription = False
# Enter a parse tree produced by tnsnamesParser#d_params.
def enterD_params(self, ctx: tnsnamesParser.D_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_params.
def exitD_params(self, ctx: tnsnamesParser.D_paramsContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_parameter.
def enterD_parameter(self, ctx: tnsnamesParser.D_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_parameter.
def exitD_parameter(self, ctx: tnsnamesParser.D_parameterContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_enable.
def enterD_enable(self, ctx: tnsnamesParser.D_enableContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_enable.
def exitD_enable(self, ctx: tnsnamesParser.D_enableContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_sdu.
def enterD_sdu(self, ctx: tnsnamesParser.D_sduContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_sdu.
def exitD_sdu(self, ctx: tnsnamesParser.D_sduContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_recv_buf.
def enterD_recv_buf(self, ctx: tnsnamesParser.D_recv_bufContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_recv_buf.
def exitD_recv_buf(self, ctx: tnsnamesParser.D_recv_bufContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_send_buf.
def enterD_send_buf(self, ctx: tnsnamesParser.D_send_bufContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_send_buf.
def exitD_send_buf(self, ctx: tnsnamesParser.D_send_bufContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_service_type.
def enterD_service_type(self, ctx: tnsnamesParser.D_service_typeContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_service_type.
def exitD_service_type(self, ctx: tnsnamesParser.D_service_typeContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_security.
def enterD_security(self, ctx: tnsnamesParser.D_securityContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_security.
def exitD_security(self, ctx: tnsnamesParser.D_securityContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_conn_timeout.
def enterD_conn_timeout(self, ctx: tnsnamesParser.D_conn_timeoutContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_conn_timeout.
def exitD_conn_timeout(self, ctx: tnsnamesParser.D_conn_timeoutContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_retry_count.
def enterD_retry_count(self, ctx: tnsnamesParser.D_retry_countContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_retry_count.
def exitD_retry_count(self, ctx: tnsnamesParser.D_retry_countContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#d_tct.
def enterD_tct(self, ctx: tnsnamesParser.D_tctContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#d_tct.
def exitD_tct(self, ctx: tnsnamesParser.D_tctContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#ds_parameter.
def enterDs_parameter(self, ctx: tnsnamesParser.Ds_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#ds_parameter.
def exitDs_parameter(self, ctx: tnsnamesParser.Ds_parameterContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#address_list.
def enterAddress_list(self, ctx: tnsnamesParser.Address_listContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
self._enteredAddressList = True
# Exit a parse tree produced by tnsnamesParser#address_list.
def exitAddress_list(self, ctx: tnsnamesParser.Address_listContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
self._enteredAddressList = False
# Enter a parse tree produced by tnsnamesParser#al_params.
def enterAl_params(self, ctx: tnsnamesParser.Al_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#al_params.
def exitAl_params(self, ctx: tnsnamesParser.Al_paramsContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#al_parameter.
def enterAl_parameter(self, ctx: tnsnamesParser.Al_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#al_parameter.
def exitAl_parameter(self, ctx: tnsnamesParser.Al_parameterContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#al_failover.
def enterAl_failover(self, ctx: tnsnamesParser.Al_failoverContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#al_failover.
def exitAl_failover(self, ctx: tnsnamesParser.Al_failoverContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#al_load_balance.
def enterAl_load_balance(self, ctx: tnsnamesParser.Al_load_balanceContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#al_load_balance.
def exitAl_load_balance(self, ctx: tnsnamesParser.Al_load_balanceContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#al_source_route.
def enterAl_source_route(self, ctx: tnsnamesParser.Al_source_routeContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#al_source_route.
def exitAl_source_route(self, ctx: tnsnamesParser.Al_source_routeContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#address.
def enterAddress(self, ctx: tnsnamesParser.AddressContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#address.
def exitAddress(self, ctx: tnsnamesParser.AddressContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#a_params.
def enterA_params(self, ctx: tnsnamesParser.A_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#a_params.
def exitA_params(self, ctx: tnsnamesParser.A_paramsContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#a_parameter.
def enterA_parameter(self, ctx: tnsnamesParser.A_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#a_parameter.
def exitA_parameter(self, ctx: tnsnamesParser.A_parameterContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#protocol_info.
def enterProtocol_info(self, ctx: tnsnamesParser.Protocol_infoContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#protocol_info.
def exitProtocol_info(self, ctx: tnsnamesParser.Protocol_infoContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#tcp_protocol.
def enterTcp_protocol(self, ctx: tnsnamesParser.Tcp_protocolContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#tcp_protocol.
def exitTcp_protocol(self, ctx: tnsnamesParser.Tcp_protocolContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#tcp_params.
def enterTcp_params(self, ctx: tnsnamesParser.Tcp_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#tcp_params.
def exitTcp_params(self, ctx: tnsnamesParser.Tcp_paramsContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#tcp_parameter.
def enterTcp_parameter(self, ctx: tnsnamesParser.Tcp_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#tcp_parameter.
def exitTcp_parameter(self, ctx: tnsnamesParser.Tcp_parameterContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#tcp_host.
def enterTcp_host(self, ctx: tnsnamesParser.Tcp_hostContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#tcp_host.
def exitTcp_host(self, ctx: tnsnamesParser.Tcp_hostContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#tcp_port.
def enterTcp_port(self, ctx: tnsnamesParser.Tcp_portContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#tcp_port.
def exitTcp_port(self, ctx: tnsnamesParser.Tcp_portContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#tcp_tcp.
def enterTcp_tcp(self, ctx: tnsnamesParser.Tcp_tcpContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#tcp_tcp.
def exitTcp_tcp(self, ctx: tnsnamesParser.Tcp_tcpContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#host.
def enterHost(self, ctx: tnsnamesParser.HostContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#host.
def exitHost(self, ctx: tnsnamesParser.HostContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#port.
def enterPort(self, ctx: tnsnamesParser.PortContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#port.
def exitPort(self, ctx: tnsnamesParser.PortContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#ipc_protocol.
def enterIpc_protocol(self, ctx: tnsnamesParser.Ipc_protocolContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#ipc_protocol.
def exitIpc_protocol(self, ctx: tnsnamesParser.Ipc_protocolContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#ipc_params.
def enterIpc_params(self, ctx: tnsnamesParser.Ipc_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#ipc_params.
def exitIpc_params(self, ctx: tnsnamesParser.Ipc_paramsContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#ipc_parameter.
def enterIpc_parameter(self, ctx: tnsnamesParser.Ipc_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#ipc_parameter.
def exitIpc_parameter(self, ctx: tnsnamesParser.Ipc_parameterContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#ipc_ipc.
def enterIpc_ipc(self, ctx: tnsnamesParser.Ipc_ipcContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#ipc_ipc.
def exitIpc_ipc(self, ctx: tnsnamesParser.Ipc_ipcContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#ipc_key.
def enterIpc_key(self, ctx: tnsnamesParser.Ipc_keyContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#ipc_key.
def exitIpc_key(self, ctx: tnsnamesParser.Ipc_keyContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#spx_protocol.
def enterSpx_protocol(self, ctx: tnsnamesParser.Spx_protocolContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#spx_protocol.
def exitSpx_protocol(self, ctx: tnsnamesParser.Spx_protocolContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#spx_params.
def enterSpx_params(self, ctx: tnsnamesParser.Spx_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#spx_params.
def exitSpx_params(self, ctx: tnsnamesParser.Spx_paramsContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#spx_parameter.
def enterSpx_parameter(self, ctx: tnsnamesParser.Spx_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#spx_parameter.
def exitSpx_parameter(self, ctx: tnsnamesParser.Spx_parameterContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#spx_spx.
def enterSpx_spx(self, ctx: tnsnamesParser.Spx_spxContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#spx_spx.
def exitSpx_spx(self, ctx: tnsnamesParser.Spx_spxContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#spx_service.
def enterSpx_service(self, ctx: tnsnamesParser.Spx_serviceContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#spx_service.
def exitSpx_service(self, ctx: tnsnamesParser.Spx_serviceContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#nmp_protocol.
def enterNmp_protocol(self, ctx: tnsnamesParser.Nmp_protocolContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#nmp_protocol.
def exitNmp_protocol(self, ctx: tnsnamesParser.Nmp_protocolContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#nmp_params.
def enterNmp_params(self, ctx: tnsnamesParser.Nmp_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#nmp_params.
def exitNmp_params(self, ctx: tnsnamesParser.Nmp_paramsContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#nmp_parameter.
def enterNmp_parameter(self, ctx: tnsnamesParser.Nmp_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#nmp_parameter.
def exitNmp_parameter(self, ctx: tnsnamesParser.Nmp_parameterContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#nmp_nmp.
def enterNmp_nmp(self, ctx: tnsnamesParser.Nmp_nmpContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#nmp_nmp.
def exitNmp_nmp(self, ctx: tnsnamesParser.Nmp_nmpContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#nmp_server.
def enterNmp_server(self, ctx: tnsnamesParser.Nmp_serverContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#nmp_server.
def exitNmp_server(self, ctx: tnsnamesParser.Nmp_serverContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#nmp_pipe.
def enterNmp_pipe(self, ctx: tnsnamesParser.Nmp_pipeContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#nmp_pipe.
def exitNmp_pipe(self, ctx: tnsnamesParser.Nmp_pipeContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#beq_protocol.
def enterBeq_protocol(self, ctx: tnsnamesParser.Beq_protocolContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#beq_protocol.
def exitBeq_protocol(self, ctx: tnsnamesParser.Beq_protocolContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#beq_params.
def enterBeq_params(self, ctx: tnsnamesParser.Beq_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#beq_params.
def exitBeq_params(self, ctx: tnsnamesParser.Beq_paramsContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#beq_parameter.
def enterBeq_parameter(self, ctx: tnsnamesParser.Beq_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#beq_parameter.
def exitBeq_parameter(self, ctx: tnsnamesParser.Beq_parameterContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#beq_beq.
def enterBeq_beq(self, ctx: tnsnamesParser.Beq_beqContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#beq_beq.
def exitBeq_beq(self, ctx: tnsnamesParser.Beq_beqContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#beq_program.
def enterBeq_program(self, ctx: tnsnamesParser.Beq_programContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#beq_program.
def exitBeq_program(self, ctx: tnsnamesParser.Beq_programContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#beq_argv0.
def enterBeq_argv0(self, ctx: tnsnamesParser.Beq_argv0Context):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#beq_argv0.
def exitBeq_argv0(self, ctx: tnsnamesParser.Beq_argv0Context):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#beq_args.
def enterBeq_args(self, ctx: tnsnamesParser.Beq_argsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#beq_args.
def exitBeq_args(self, ctx: tnsnamesParser.Beq_argsContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#ba_parameter.
def enterBa_parameter(self, ctx: tnsnamesParser.Ba_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#ba_parameter.
def exitBa_parameter(self, ctx: tnsnamesParser.Ba_parameterContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#ba_description.
def enterBa_description(self, ctx: tnsnamesParser.Ba_descriptionContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#ba_description.
def exitBa_description(self, ctx: tnsnamesParser.Ba_descriptionContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#bad_params.
def enterBad_params(self, ctx: tnsnamesParser.Bad_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#bad_params.
def exitBad_params(self, ctx: tnsnamesParser.Bad_paramsContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#bad_parameter.
def enterBad_parameter(self, ctx: tnsnamesParser.Bad_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#bad_parameter.
def exitBad_parameter(self, ctx: tnsnamesParser.Bad_parameterContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#bad_local.
def enterBad_local(self, ctx: tnsnamesParser.Bad_localContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#bad_local.
def exitBad_local(self, ctx: tnsnamesParser.Bad_localContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#bad_address.
def enterBad_address(self, ctx: tnsnamesParser.Bad_addressContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#bad_address.
def exitBad_address(self, ctx: tnsnamesParser.Bad_addressContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#connect_data.
def enterConnect_data(self, ctx: tnsnamesParser.Connect_dataContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#connect_data.
def exitConnect_data(self, ctx: tnsnamesParser.Connect_dataContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_params.
def enterCd_params(self, ctx: tnsnamesParser.Cd_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_params.
def exitCd_params(self, ctx: tnsnamesParser.Cd_paramsContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_parameter.
def enterCd_parameter(self, ctx: tnsnamesParser.Cd_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_parameter.
def exitCd_parameter(self, ctx: tnsnamesParser.Cd_parameterContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_service_name.
def enterCd_service_name(self, ctx: tnsnamesParser.Cd_service_nameContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_service_name.
def exitCd_service_name(self, ctx: tnsnamesParser.Cd_service_nameContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_sid.
def enterCd_sid(self, ctx: tnsnamesParser.Cd_sidContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_sid.
def exitCd_sid(self, ctx: tnsnamesParser.Cd_sidContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_instance_name.
def enterCd_instance_name(self,
ctx: tnsnamesParser.Cd_instance_nameContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_instance_name.
def exitCd_instance_name(self,
ctx: tnsnamesParser.Cd_instance_nameContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_failover_mode.
def enterCd_failover_mode(self,
ctx: tnsnamesParser.Cd_failover_modeContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_failover_mode.
def exitCd_failover_mode(self,
ctx: tnsnamesParser.Cd_failover_modeContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_global_name.
def enterCd_global_name(self, ctx: tnsnamesParser.Cd_global_nameContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_global_name.
def exitCd_global_name(self, ctx: tnsnamesParser.Cd_global_nameContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_hs.
def enterCd_hs(self, ctx: tnsnamesParser.Cd_hsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_hs.
def exitCd_hs(self, ctx: tnsnamesParser.Cd_hsContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_rdb_database.
def enterCd_rdb_database(self, ctx: tnsnamesParser.Cd_rdb_databaseContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_rdb_database.
def exitCd_rdb_database(self, ctx: tnsnamesParser.Cd_rdb_databaseContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_server.
def enterCd_server(self, ctx: tnsnamesParser.Cd_serverContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_server.
def exitCd_server(self, ctx: tnsnamesParser.Cd_serverContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#cd_ur.
def enterCd_ur(self, ctx: tnsnamesParser.Cd_urContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#cd_ur.
def exitCd_ur(self, ctx: tnsnamesParser.Cd_urContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#fo_params.
def enterFo_params(self, ctx: tnsnamesParser.Fo_paramsContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#fo_params.
def exitFo_params(self, ctx: tnsnamesParser.Fo_paramsContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#fo_parameter.
def enterFo_parameter(self, ctx: tnsnamesParser.Fo_parameterContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#fo_parameter.
def exitFo_parameter(self, ctx: tnsnamesParser.Fo_parameterContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#fo_type.
def enterFo_type(self, ctx: tnsnamesParser.Fo_typeContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#fo_type.
def exitFo_type(self, ctx: tnsnamesParser.Fo_typeContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#fo_backup.
def enterFo_backup(self, ctx: tnsnamesParser.Fo_backupContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#fo_backup.
def exitFo_backup(self, ctx: tnsnamesParser.Fo_backupContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#fo_method.
def enterFo_method(self, ctx: tnsnamesParser.Fo_methodContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#fo_method.
def exitFo_method(self, ctx: tnsnamesParser.Fo_methodContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#fo_retries.
def enterFo_retries(self, ctx: tnsnamesParser.Fo_retriesContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#fo_retries.
def exitFo_retries(self, ctx: tnsnamesParser.Fo_retriesContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
# Enter a parse tree produced by tnsnamesParser#fo_delay.
def enterFo_delay(self, ctx: tnsnamesParser.Fo_delayContext):
self._tnsStack.push(tnsnamesParser.ruleNames[ctx.getRuleIndex()])
# Exit a parse tree produced by tnsnamesParser#fo_delay.
def exitFo_delay(self, ctx: tnsnamesParser.Fo_delayContext):
assert tnsnamesParser.ruleNames[
ctx.getRuleIndex()] == self._tnsStack.pop
def test_stack_pop_empty(self):
the_stack = TnsnamesStack()
self.assertEqual(the_stack.stack_size, 0, "Length should be 0")
self.assertEqual(the_stack.pop, None, "Should be none ")
