def x_show_all_files(self): res = [] for fe in range(1, files_map.Get_Last_Source_File_Entry() + 1): doc = self._fe_map.get(fe, None) res.append({'fe': fe, 'uri': doc.uri if doc is not None else None, 'name': pyutils.name_image(files_map.Get_File_Name(fe)), 'dir': pyutils.name_image(files_map.Get_Directory_Name(fe))}) return res
def sfe_to_document(self, sfe): """Get the document correspond to :param sfe: source file. Can create the document if needed.""" assert sfe != 0 doc = self._fe_map.get(sfe, None) if doc is None: # Could be a document from outside... filename = pyutils.name_image(files_map.Get_File_Name(sfe)) if not os.path.isabs(filename): dirname = pyutils.name_image(files_map.Get_Directory_Name(sfe)) filename = os.path.join(dirname, filename) doc = self.create_document_from_sfe(sfe, filename) return doc
def obsolete_dependent_units(self, unit, antideps): """Obsolete units that depends of :param unit:""" udeps = antideps.get(unit, None) if udeps is None: # There are no units. return # Avoid infinite recursion antideps[unit] = None for un in udeps: log.debug("obsolete %d %s", un, pyutils.name_image(nodes.Get_Identifier(un))) # Recurse self.obsolete_dependent_units(un, antideps) if nodes.Set_Date_State(un) == nodes.Date_State.Disk: # Already obsolete! continue # FIXME: just de-analyze ? nodes.Set_Date_State(un, nodes.Date_State.Disk) sem_lib.Free_Dependence_List(un) loc = nodes.Get_Location(un) fil = files_map.Location_To_File(loc) pos = files_map.Location_File_To_Pos(loc, fil) line = files_map.Location_File_To_Line(loc, fil) col = files_map.Location_File_Line_To_Offset(loc, fil, line) nodes.Set_Design_Unit_Source_Pos(un, pos) nodes.Set_Design_Unit_Source_Line(un, line) nodes.Set_Design_Unit_Source_Col(un, col)
def x_get_all_entities(self): res = [] lib = libraries.Get_Libraries_Chain() while lib != nodes.Null_Iir: files = nodes.Get_Design_File_Chain(lib) ents = [] while files != nodes.Null_Iir: units = nodes.Get_First_Design_Unit(files) while units != nodes.Null_Iir: unitlib = nodes.Get_Library_Unit(units) if nodes.Get_Kind(unitlib) == nodes.Iir_Kind.Entity_Declaration: ents.append(unitlib) units = nodes.Get_Chain(units) files = nodes.Get_Chain(files) ents = [pyutils.name_image(nodes.Get_Identifier(e)) for e in ents] lib_name = pyutils.name_image(nodes.Get_Identifier(lib)) res.extend([{"name": n, "library": lib_name} for n in ents]) lib = nodes.Get_Chain(lib) return res
def get_symbols(fe, n): if n == nodes.Null_Iir: return None k = nodes.Get_Kind(n) if k == nodes.Iir_Kind.Design_Unit: return get_symbols(fe, nodes.Get_Library_Unit(n)) m = SYMBOLS_MAP.get(k, None) if m is None: raise AssertionError("get_symbol: unhandled {}".format( pyutils.kind_image(k))) kind = m['kind'] if kind is None: return None if k in [ nodes.Iir_Kind.Procedure_Declaration, nodes.Iir_Kind.Function_Declaration ]: # Discard implicit declarations. if nodes.Get_Implicit_Definition(n) < nodes.Iir_Predefined.PNone: return None if nodes.Get_Has_Body(n): # Use the body instead. # FIXME: but get interface from the spec! return None res = {'kind': kind} detail = m.get('detail') if detail is not None: res['detail'] = detail # Get the name if k in [nodes.Iir_Kind.Function_Body, nodes.Iir_Kind.Procedure_Body]: nid = nodes.Get_Identifier(nodes.Get_Subprogram_Specification(n)) else: nid = nodes.Get_Identifier(n) if nid == name_table.Null_Identifier: name = None else: name = pyutils.name_image(nid) # Get the range. Use elocations when possible. if k in (nodes.Iir_Kind.Architecture_Body, nodes.Iir_Kind.Entity_Declaration, nodes.Iir_Kind.Package_Declaration, nodes.Iir_Kind.Package_Body, nodes.Iir_Kind.Component_Declaration, nodes.Iir_Kind.Process_Statement, nodes.Iir_Kind.Sensitized_Process_Statement, nodes.Iir_Kind.If_Generate_Statement, nodes.Iir_Kind.For_Generate_Statement): start_loc = elocations.Get_Start_Location(n) end_loc = elocations.Get_End_Location(n) if end_loc == files_map.No_Location: # Can happen in case of parse error end_loc = start_loc else: start_loc = nodes.Get_Location(n) end_loc = start_loc + name_table.Get_Name_Length(nid) res['range'] = { 'start': location_to_position(fe, start_loc), 'end': location_to_position(fe, end_loc) } # Gather children. # FIXME: should we use a list of fields to inspect ? children = [] #if nodes_meta.Has_Generic_Chain(k): # children.extend(get_symbols_chain(fe, nodes.Get_Generic_Chain(n))) #if nodes_meta.Has_Port_Chain(k): # children.extend(get_symbols_chain(fe, nodes.Get_Port_Chain(n))) #if nodes_meta.Has_Interface_Declaration_Chain(k): # children.extend(get_symbols_chain(fe, nodes.Get_Interface_Declaration_Chain(n))) if k in (nodes.Iir_Kind.Package_Declaration, nodes.Iir_Kind.Package_Body): children.extend(get_symbols_chain(fe, nodes.Get_Declaration_Chain(n))) if nodes_meta.Has_Concurrent_Statement_Chain(k): children.extend( get_symbols_chain(fe, nodes.Get_Concurrent_Statement_Chain(n))) if nodes_meta.Has_Generate_Statement_Body(k): children.extend( get_symbols_chain( fe, nodes.Get_Concurrent_Statement_Chain( nodes.Get_Generate_Statement_Body(n)))) if children: res['children'] = children else: # Discard anonymous symbols without children. if name is None: return None res['name'] = name if name is not None else '<anon>' return res