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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [tools/] [src/] [libcdl/] [component.cxx] - Rev 801
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//{{{ Banner //============================================================================ // // component.cxx // // Implementation of the CdlComponent class // //============================================================================ //####COPYRIGHTBEGIN#### // // ---------------------------------------------------------------------------- // Copyright (C) 2002 Bart Veer // Copyright (C) 1999, 2000 Red Hat, Inc. // // This file is part of the eCos host tools. // // This program is free software; you can redistribute it and/or modify it // under the terms of the GNU General Public License as published by the Free // Software Foundation; either version 2 of the License, or (at your option) // any later version. // // This program is distributed in the hope that it will be useful, but WITHOUT // ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for // more details. // // You should have received a copy of the GNU General Public License along with // this program; if not, write to the Free Software Foundation, Inc., // 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. // // ---------------------------------------------------------------------------- // //####COPYRIGHTEND#### //============================================================================ //#####DESCRIPTIONBEGIN#### // // Author(s): bartv // Contact(s): bartv // Date: 1999/03/01 // Version: 0.02 // //####DESCRIPTIONEND#### //============================================================================ //}}} //{{{ #include's // ---------------------------------------------------------------------------- #include "cdlconfig.h" // Get the infrastructure types, assertions, tracing and similar // facilities. #include <cyg/infra/cyg_ass.h> #include <cyg/infra/cyg_trac.h> // <cdl.hxx> defines everything implemented in this module. // It implicitly supplies <string>, <vector> and <map> because // the class definitions rely on these headers. #include <cdl.hxx> //}}} //{{{ Statics // ---------------------------------------------------------------------------- CYGDBG_DEFINE_MEMLEAK_COUNTER(CdlComponentBody); //}}} //{{{ Constructor // ---------------------------------------------------------------------------- CdlComponentBody::CdlComponentBody(std::string name_arg) : CdlNodeBody(name_arg), CdlContainerBody(), CdlUserVisibleBody(), CdlValuableBody(), CdlParentableBody(), CdlBuildableBody(), CdlDefinableBody() { CYG_REPORT_FUNCNAME("CdlComponentBody:: constructor"); CYG_REPORT_FUNCARG1XV(this); cdlcomponentbody_cookie = CdlComponentBody_Magic; CYGDBG_MEMLEAK_CONSTRUCTOR(); CYG_POSTCONDITION_THISC(); CYG_REPORT_RETURN(); } //}}} //{{{ Destructor // ---------------------------------------------------------------------------- CdlComponentBody::~CdlComponentBody() { CYG_REPORT_FUNCNAME("CdlComponentBody:: destructor"); CYG_REPORT_FUNCARG1XV(this); CYG_PRECONDITION_THISC(); cdlcomponentbody_cookie = CdlComponentBody_Invalid; CYGDBG_MEMLEAK_DESTRUCTOR(); CYG_REPORT_RETURN(); } //}}} //{{{ parse_component() // ---------------------------------------------------------------------------- // Parsing a component definition. This routine gets invoked directly from the // Tcl interpreter. int CdlComponentBody::parse_component(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAMETYPE("CdlComponentBody::parse_component", "result %d"); CYG_REPORT_FUNCARG1("argc %d", argc); CYG_PRECONDITION_CLASSC(interp); std::string diag_argv0 = CdlParse::get_tcl_cmd_name(argv[0]); CdlLoadable loadable = interp->get_loadable(); CdlPackage package = dynamic_cast<CdlPackage>(loadable); CdlContainer parent = interp->get_container(); CdlToplevel toplevel = interp->get_toplevel(); CYG_ASSERT_CLASSC(loadable); // There should always be a loadable during parsing CYG_ASSERT_CLASSC(package); // And packages are the only loadable for software CDL. CYG_ASSERT_CLASSC(parent); CYG_ASSERT_CLASSC(toplevel); // The new component should be created and added to the package // early on. If there is a parsing error it will get cleaned up // automatically as a consequence of the package destructor. // However it is necessary to validate the name first. Errors // should be reported via CdlParse::report_error(), // which may result in an exception. CdlComponent new_component = 0; bool ok = true; int result = TCL_OK; try { // Currently there are no options. This may change in future. if (3 != argc) { CdlParse::report_error(interp, "", std::string("Incorrect number of arguments to `") + diag_argv0 + "'\nExpecting name and properties list."); ok = false; goto done; } if (!Tcl_CommandComplete(CDL_TCL_CONST_CAST(char*, argv[2]))) { CdlParse::report_error(interp, "", std::string("Invalid property list for cdl_component `") + argv[1] + "'."); ok = false; goto done; } if (0 != toplevel->lookup(argv[1])) { CdlParse::report_error(interp, "", std::string("Component `") + argv[1] + "' cannot be loaded.\nThe name is already in use."); ok = false; } else { new_component = new CdlComponentBody(argv[1]); toplevel->add_node(package, parent, new_component); } done: if (!ok) { // Just because this component cannot be created, that is no // reason to abort the whole parsing process. CYG_REPORT_RETVAL(TCL_OK); return TCL_OK; } } catch(std::bad_alloc e) { interp->set_result(CdlParse::construct_diagnostic(interp, "internal error", "", "Out of memory")); result = TCL_ERROR; } catch(CdlParseException e) { interp->set_result(e.get_message()); result = TCL_ERROR; } catch(...) { interp->set_result(CdlParse::construct_diagnostic(interp, "internal error", "", "Unexpected C++ exception")); result = TCL_ERROR; } if (TCL_OK != result) { CYG_REPORT_RETVAL(result); return result; } // At this stage new_component has been created and added to the hierarchy. // The main work now is to add the properties. // Push the component as the current node early on. This aids // diagnostics. Also make it the new container. CdlNode old_node = interp->push_node(new_component); CdlContainer old_container = interp->push_container(new_component); std::string old_context; CYG_ASSERTC(parent == old_container); // Declare these outside the scope of the try statement, to allow // goto calls for the error handling. std::string tcl_result; std::vector<CdlInterpreterCommandEntry> new_commands; std::vector<CdlInterpreterCommandEntry>* old_commands = 0; static CdlInterpreterCommandEntry commands[] = { CdlInterpreterCommandEntry("script", &CdlComponentBody::parse_script ), CdlInterpreterCommandEntry("cdl_component", &CdlComponentBody::parse_component ), CdlInterpreterCommandEntry("cdl_option", &CdlOptionBody::parse_option ), CdlInterpreterCommandEntry("cdl_interface", &CdlInterfaceBody::parse_interface ), CdlInterpreterCommandEntry("cdl_dialog", &CdlDialogBody::parse_dialog ), CdlInterpreterCommandEntry("cdl_wizard", &CdlWizardBody::parse_wizard ), CdlInterpreterCommandEntry("", 0 ) }; static CdlInterpreterCommandEntry script_commands[] = { CdlInterpreterCommandEntry("cdl_component", &CdlComponentBody::parse_component ), CdlInterpreterCommandEntry("cdl_option", &CdlOptionBody::parse_option ), CdlInterpreterCommandEntry("cdl_interface", &CdlInterfaceBody::parse_interface ), CdlInterpreterCommandEntry("cdl_dialog", &CdlDialogBody::parse_dialog ), CdlInterpreterCommandEntry("cdl_wizard", &CdlWizardBody::parse_wizard ), CdlInterpreterCommandEntry("", 0 ), }; int i; // All parsing errors may result in an exception, under the control of // application code. This exception must not pass through the Tcl interpreter. try { for (i = 0; 0 != commands[i].command; i++) { new_commands.push_back(commands[i]); } CdlBuildableBody::add_property_parsers(new_commands); CdlDefinableBody::add_property_parsers(new_commands); CdlParentableBody::add_property_parsers(new_commands); CdlValuableBody::add_property_parsers(new_commands); CdlUserVisibleBody::add_property_parsers(new_commands); CdlNodeBody::add_property_parsers(new_commands); // Now evaluate the body. If an error occurs then typically // this will be reported via CdlParse::report_error(), // but any exceptions will have been intercepted and // turned into a Tcl error. old_commands = interp->push_commands(new_commands); result = interp->eval(argv[2], tcl_result); interp->pop_commands(old_commands); if (TCL_OK != result) { // No point in taking any further action, just go with the flow goto done2; } // Even if there were errors, they were not fatal. There may // now be a number of properties for this component, and some // validation should take place. Start with the base classes. new_component->CdlNodeBody::check_properties(interp); new_component->CdlUserVisibleBody::check_properties(interp); new_component->CdlValuableBody::check_properties(interp); new_component->CdlParentableBody::check_properties(interp); new_component->CdlBuildableBody::check_properties(interp); new_component->CdlDefinableBody::check_properties(interp); // There should be at most one each of wizard and script. if (new_component->count_properties(CdlPropertyId_Wizard) > 1) { CdlParse::report_error(interp, "", "A component should have at most one `wizard' property."); } if (new_component->count_properties(CdlPropertyId_Script) > 1) { CdlParse::report_error(interp, "", "A component should have at most one `script' property."); } // If there is a script property, life gets more interesting. if (new_component->has_property(CdlPropertyId_Script)) { CdlProperty_String prop = dynamic_cast<CdlProperty_String>(new_component->get_property(CdlPropertyId_Script)); CYG_PRECONDITION_CLASSC(prop); std::string script_name = prop->get_string(); // Try to locate this script. std::string script_filename = package->find_absolute_file(script_name, "cdl", false); if ("" == script_filename) { CdlParse::report_error(interp, "", "Unable to find script `" + script_name + "'."); } else { // The script exists, so we need to try and execute it. // The current container is still set correctly, but we need // to change the filename and install a different set // of commands. old_context = interp->push_context(script_filename); new_commands.clear(); for (i = 0; 0 != script_commands[i].command; i++) { new_commands.push_back(script_commands[i]); } old_commands = interp->push_commands(new_commands); result = interp->eval_file(script_filename, tcl_result); interp->pop_commands(old_commands); interp->pop_context(old_context); } } done2: // Dummy command just to keep the compiler happy old_context = ""; } catch (std::bad_alloc e) { // Errors at this stage should be reported via Tcl, not via C++. // However there is no point in continuing with the parsing operation, // just give up. interp->set_result(CdlParse::construct_diagnostic(interp, "internal error", "", "Out of memory")); result = TCL_ERROR; } catch (CdlParseException e) { interp->set_result(e.get_message()); result = TCL_ERROR; } catch(...) { interp->set_result(CdlParse::construct_diagnostic(interp, "internal error", "", "Unexpected C++ exception")); result = TCL_ERROR; } // Restore the interpreter to its prior state. interp->pop_node(old_node); interp->pop_container(old_container); if (0 != old_commands) { interp->pop_commands(old_commands); } CYG_REPORT_RETVAL(result); return result; } // ---------------------------------------------------------------------------- // Syntax: script <filename> int CdlComponentBody::parse_script(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAMETYPE("parse_script", "result %d"); int result = CdlParse::parse_string_property(interp, argc, argv, CdlPropertyId_Script, 0, 0); CYG_REPORT_RETVAL(result); return result; } //}}} //{{{ Propagation support // ---------------------------------------------------------------------------- void CdlComponentBody::update(CdlTransaction transaction, CdlUpdate update) { CYG_REPORT_FUNCNAME("CdlComponent::update"); this->CdlValuableBody::update(transaction, update); this->CdlContainerBody::update(transaction, update); CYG_REPORT_RETURN(); } //}}} //{{{ Persistence support // ---------------------------------------------------------------------------- void CdlComponentBody::initialize_savefile_support(CdlToplevel toplevel) { CYG_REPORT_FUNCNAME("CdlComponent::initialize_savefile_support"); toplevel->add_savefile_command("cdl_component", 0, &savefile_component_command); CdlValuableBody::initialize_savefile_support(toplevel, "cdl_component"); CYG_REPORT_RETURN(); } void CdlComponentBody::save(CdlInterpreter interp, Tcl_Channel chan, int indentation, bool minimal) { CYG_REPORT_FUNCNAME("CdlComponent::save"); CYG_REPORT_FUNCARG5XV(this, interp, chan, indentation, minimal); CYG_PRECONDITION_THISC(); CYG_PRECONDITION_CLASSC(interp); if (!minimal || this->has_additional_savefile_information() || this->value_savefile_entry_needed()) { // Start with the UserVisible data, which will result in a suitable set // of comments before the package definition itself. this->CdlUserVisibleBody::save(interp, chan, indentation, minimal); // Now output the line "cdl_component <name> {" // The name is guaranteed to be a valid C preprocessor symbol, so it // is not going to need any quoting. std::string data = std::string(indentation, ' ') + "cdl_component " + get_name() + " {\n"; interp->write_data(chan, data); // Deal with the value bool modifiable = !(CdlValueFlavor_None == this->get_flavor()) && !this->has_property(CdlPropertyId_Calculated); this->CdlValuableBody::save(interp, chan, indentation + 4, modifiable, minimal); // And with any unrecognised data this->CdlNodeBody::save(interp, chan, indentation + 4, minimal); // Close the cdl_component body. A blank line is added here. interp->write_data(chan, "};\n\n"); } // Packages are containers, so dump the contents as well. this->CdlContainerBody::save(interp, chan, indentation, minimal); CYG_REPORT_RETURN(); } int CdlComponentBody::savefile_component_command(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAMETYPE("CdlComponent::savefile_component_command", "result %d"); CYG_PRECONDITION_CLASSC(interp); int result = TCL_OK; CdlToplevel toplevel = interp->get_toplevel(); CYG_ASSERT_CLASSC(toplevel); CdlConfiguration config = dynamic_cast<CdlConfiguration>(toplevel); CYG_ASSERT_CLASSC(config); std::vector<CdlInterpreterCommandEntry> subcommands; std::vector<CdlInterpreterCommandEntry>* toplevel_commands = 0; CdlNode old_node = 0; try { if (3 != argc) { CdlParse::report_error(interp, "", "Invalid cdl_component command in savefile, expecting two arguments."); } else { CdlNode current_node = config->lookup(argv[1]); if (0 == current_node) { // FIXME: save value in limbo CdlParse::report_error(interp, "", std::string("The savefile contains a cdl_component command for an unknown component `") + argv[1] + "'"); } else { config->get_savefile_subcommands("cdl_component", subcommands); toplevel_commands = interp->push_commands(subcommands); old_node = interp->push_node(current_node); std::string tcl_result; result = interp->eval(argv[2], tcl_result); interp->pop_commands(toplevel_commands); toplevel_commands = 0; interp->pop_node(old_node); old_node = 0; } } } catch(...) { if (0 != old_node) { interp->pop_node(old_node); } if (0 != toplevel_commands) { interp->pop_commands(toplevel_commands); } throw; } CYG_REPORT_RETVAL(result); return result; } //}}} //{{{ check_this() // ---------------------------------------------------------------------------- bool CdlComponentBody::check_this(cyg_assert_class_zeal zeal) const { if (CdlComponentBody_Magic != cdlcomponentbody_cookie) { return false; } CYGDBG_MEMLEAK_CHECKTHIS(); return CdlNodeBody::check_this(zeal) && CdlContainerBody::check_this(zeal) && CdlUserVisibleBody::check_this(zeal) && CdlParentableBody::check_this(zeal) && CdlValuableBody::check_this(zeal) && CdlBuildableBody::check_this(zeal) && CdlDefinableBody::check_this(zeal); } //}}} //{{{ Misc // ---------------------------------------------------------------------------- std::string CdlComponentBody::get_class_name() const { CYG_REPORT_FUNCNAME("CdlComponent::get_class_name"); CYG_PRECONDITION_THISC(); CYG_REPORT_RETURN(); return "component"; } //}}}
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