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//{{{ Banner //============================================================================ // // parse.cxx // // Miscellaneous parsing routines // //============================================================================ // ####ECOSHOSTGPLCOPYRIGHTBEGIN#### // ------------------------------------------- // This file is part of the eCos host tools. // Copyright (C) 1999, 2000, 2002 Free Software Foundation, Inc. // // 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 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., 51 Franklin Street, // Fifth Floor, Boston, MA 02110-1301, USA. // ------------------------------------------- // ####ECOSHOSTGPLCOPYRIGHTEND#### //============================================================================ //#####DESCRIPTIONBEGIN#### // // Author(s): bartv // Contact(s): bartv // Date: 1999/02/23 // Version: 0.02 // //####DESCRIPTIONEND#### //============================================================================ //}}} //{{{ #include's // ---------------------------------------------------------------------------- #include "cdlconfig.h" #include <cstring> // Get the infrastructure types, assertions, tracing and similar // facilities. #include <cyg/infra/cyg_ass.h> #include <cyg/infra/cyg_trac.h> // <cdlcore.hxx> defines everything implemented in this module. // It implicitly supplies <string>, <vector> and <map> because // the class definitions rely on these headers. #include <cdlcore.hxx> //}}} //{{{ Description // ---------------------------------------------------------------------------- // All CDL data is read via a Tcl interpreter, so the parsing is done by // procedures that appear as Tcl commands. This has obvious advantages in // terms of expressive power, but does result in a little bit of confusion // when producing diagnostics. // // Errors should not bypass the Tcl interpreter, to ensure that that // stays in a consistent state. In particular it is not possible to let // arbitrary C++ exceptions to go straight through the Tcl interpreter, // this is likely to result in a corrupted interpreter. // // Also, it is not a good idea to abort parsing as soon as anything // goes wrong. Instead there should be an error handling callback associated // with the interpreter, which can be used to report errors. This // callback may choose to raise an exception. // // Consider the case of parsing a property (which accounts for most of // the code in this module). A property does not exist in isolation, // only within the context of a suitable CDL entity such as an option. // If parsing succeeds and a property object is created then it must // be added to the current CDL entity. // // Therefore a typical parse routine looks like this: // // 1) get the current CDL node from the interpreter // 2) do basic parsing of the data. Any errors should be reported // via the callback. // 3) create a suitable CdlProperty object // 4) add the property to the current entity // // std::bad_alloc and CdlStringException exceptions can be thrown, they // will be intercepted by the CdlInterpreter class. //}}} //{{{ Statics // ---------------------------------------------------------------------------- // The string "property " is needed in various places. Provide it as a static // to cut down the number of times the string constructor has to run. static std::string property_string = "property "; //}}} //{{{ Generic parsing-related utilities //{{{ argv manipulation // ---------------------------------------------------------------------------- // Some of the properties have aliases in the CDL data, so argv[0] has to be // used to work out what is actually being parsed. However the Tcl interpreter // may prefix the command name with :: to indicate the global namespace. std::string CdlParse::get_tcl_cmd_name(std::string name) { std::string result; if ((name[0] == ':') && (name[1] == ':')) { result = std::string(name, 2, name.size() - 2); } else { result = name; } return result; } // Given a list of arguments, concatenate them together into a C++ string. // This makes expression parsing easier. The final argument should be an // index into the array, typically the result of a call to skip_argv_options(). std::string CdlParse::concatenate_argv(int argc, const char* argv[], int index) { CYG_REPORT_FUNCNAME("CdlParse::concatenate_argv"); std::string result = ""; for ( int i = index ; i < argc; i++) { if (i > index) { result += ' '; } result += std::string(argv[i]); } CYG_REPORT_RETURN(); return result; } // ---------------------------------------------------------------------------- // Option parsing. // // Some properties accept modifiers in their argument list. For example, // by default a "compile" property is just a list of source files that // should be compiled and added to the current library. It is possible // to specify an alternative library via a modifier: // // ... // compile -library=libextras.a dummy.cxx // ... // // The rules applied for such options are intended to follow common Tcl // practice: // // 1) any initial arguments beginning with a - are assumed to be // options. // // 2) the first argument which does not begin with a - stops option // processing. // // 3) option processing can also be terminated with a -- argument. // This may occasionally be required, e.g. to have -ve constants // in an expression. // // 4) the parsing code does not distinguish between single and double // hyphens. If there happens to be a second - in an option then this // is just ignored. // // 5) it is not necessary to supply the whole option name, as long as // what is provided is unambiguous. For example -lib=libextras.a is // acceptable (for now anyway, conceivably it would break in future). // Option processing is case sensitive. // // 6) name/value pairs can take the form -name=value or the form // -name value, whichever is appropriate. // // The parse_options() function takes the current interpreter (so that // it can generate diagnostics), a prefix such as `property // "requires"' or `package CYGPKG_HAL', details of the options to be // parsed, an argc/argv list, an index, and a reference to a vector. // The parsed options get placed in the vector, and the index argument // gets updated to point at the first non-option argument. It will // report problems via report_warning(). // // The options description consists of a pointer to an array of // C strings (allowing static initialization). Passing a zero // argument indicates that the property takes no options. Otherwise // the array should be zero terminated. // // Each entry in the array takes the form "name:flags". The optional // flags consist of zero or more characters indicating how the option // should be interpreted. Valid flags are: // // f - this option takes no data, it is just a boolean flag. The // default behaviour assumes name/value pairs. // // m - this option can occur multiple times. The default behaviour // is that each option can only occur once. // Utility function to get hold of an option name without the colon // or terminating flags. static std::string get_option_string(const char* name) { std::string result = ""; while ((*name != ':') && (*name != '\0')) { result += *name++; } return result; } int CdlParse::parse_options(CdlInterpreter interp, std::string diag_prefix, const char** options, int argc, const char* argv[], int index, std::vector<std::pair<std::string,std::string> >& result) { CYG_REPORT_FUNCNAMETYPE("CdlParse::parse_options", "final index %d"); CYG_REPORT_FUNCARG4XV(interp, options, argc, argv); CYG_PRECONDITION_CLASSC(interp); CYG_PRECONDITIONC(argc > 0); // The property name must be present. // It is possible for some of the arguments to have been processed already. CYG_PRECONDITIONC((index > 0) && (index <= argc)); while((index < argc) && ('-' == argv[index][0])) { std::string name = ""; std::string value = ""; // The sequence -- should always terminate option processing. if (0 == strcmp(argv[index], "--")) { index++; break; } const char* arg_ptr = argv[index]; // Skip the initial -, and the second one as well if it is present. if ('-' == *++arg_ptr) { arg_ptr++; } // Construct the option name. This is the current argument up // to but not including the '=' character or EOD. while (('=' != *arg_ptr) && ('\0' != *arg_ptr)) { name += *arg_ptr++; } if ("" == name) { // One of "-", "-=xxx", or "--=x" CdlParse::report_warning(interp, diag_prefix, std::string("Invalid option string `") + argv[index] + "'."); } // Do not try to extract the value unless we are sure there // should be one. Instead try to match the option name. The // current value of name should be a unique substring of // one of the known option strings. // // Note that the supplied options descriptor can be NULL, // since most properties do not yet take any options. // In that case opt_index will remain at -1, and we should // get an "invalid option" diagnostic. unsigned int i; int opt_index = -1; if (0 != options) { for (i = 0; 0 != options[i]; i++) { if (0 == strncmp(name.c_str(), options[i], name.size())) { if (-1 != opt_index) { CdlParse::report_warning(interp, diag_prefix, std::string("Ambiguous option name `") + name + "'.\n" + "It can match `" + get_option_string(options[opt_index]) + "'\n" + "or `" + get_option_string(options[i]) + "'."); index++; break; } else { opt_index = i; } } } } if (-1 == opt_index) { CdlParse::report_warning(interp, diag_prefix, std::string("Invalid option `") + name + "'."); index++; break; } // The option has been identified successfully. Extract the flags. bool flag_flag = false; bool multiple_flag = false; const char* tmp = options[opt_index]; while (('\0' != *tmp) && (':' != *tmp)) { tmp++; } if (':' == *tmp) { do { tmp++; if ('f' == *tmp) { flag_flag = true; } else if ('m' == *tmp) { multiple_flag = true; } else if ('\0' != *tmp) { CYG_FAIL("Invalid property option"); } } while ('\0' != *tmp); } // We now know the full option name. Use it for future diagnostics. name = get_option_string(options[opt_index]); // Take care of the value. if (flag_flag) { // There should not be a value. If the current argument is of the // form x=y then this is an error. if ('=' == *arg_ptr) { CdlParse::report_warning(interp, diag_prefix, std::string("Option `") + name + "' does not take any data."); } // Leave index pointing at the next argument to be processed. index++; } else { if ('=' == *arg_ptr) { value = std::string(++arg_ptr); } else if (++index == argc) { CdlParse::report_warning(interp, diag_prefix, std::string("Missing data for option `") + name + "'."); } else { value = argv[index]; } index++; } // At this stage index points at the next argument to be processed, and should not // be updated again. // Unless the option can occur multiple times, make sure that it is not already // present in the options vector. if (!multiple_flag) { for (i = 0; i < result.size(); i++) { if (name == result[i].first) { CdlParse::report_warning(interp, diag_prefix, std::string("Option `") + name + "' can only be used once."); break; } } } // The name/value pair is valid, so add it to the result vector. result.push_back(std::make_pair(name, value)); } CYG_REPORT_RETVAL(index); return index; } //}}} //{{{ Diagnostic construction // Construct a suitable diagnostic for a parsing error. This may occur // when reading in a CDL script, a savefile, a database, or anything // similar. // // A diagnostic should take the following form: // // <context> <linenumber> [, <node identifier>] [, <extra identifier>] : [<classification>, ] <message> // // The context should be set in the Tcl interpreter. Typically it // will be a filename. // // In practice generating the line number is not really feasible at // present, the Tcl interpreter does not keep track of sufficient // information. At least, not in the public data structures, there is // a termOffset field in the internal data structures which might // be used to do the right thing. I do not want to start relying // on Tcl internals just yet, or add support to the Tcl core for // keeping track of line numbers. // // For many data files there will the concept of a current node, // e.g. an option whose properties or savefile information are // being processed. The CdlInterpreter class keeps track of the // current node, so if it is defined then the node's class and // name can be part of the message. This happens automatically, // no effort is required on the part of calling code. // // There may also be additional information, for example // identifying the specific property where the error was detected. // This is handled by an extra argument. // // The classification is likely to be something like "warning", // "error", or "internal error". It is controlled by the calling // code, but typically it is provided by calling via report_warning() // etc. // // The message should identify the actual error. It should be // a proper sentence, i.e. begin with a capital error and end with // a full stop, unless the last word is an identifier or filename // or something similarly special in which case the trailing // dot will be discarded. The message should not end with a // newline character, and the result string will not end with one // either. That is left to higher level code. std::string CdlParse::construct_diagnostic(CdlInterpreter interp, std::string classification, std::string sub_id, std::string message) { CYG_REPORT_FUNCNAME("CdlParse::construct_diagnostic"); CYG_PRECONDITION_CLASSC(interp); std::string context = interp->get_context(); CdlNode current_node = interp->get_node(); std::string result; if ("" == context) { result = "<unknown context>"; } else { result = context; } if (0 != current_node) { result += ", " + current_node->get_class_name() + " " + current_node->get_name(); } if ("" != sub_id) { result += ", " + sub_id; } result += ": " + classification; // Now it is time to start worrying about layout, indenting // subsequent lines, and so on. int index = result.length(); int message_len = message.length(); int message_index; bool indent_needed = false; // Find out how many characters there are in the message up to the first newline for (message_index = 0; (message_index < message_len) && ('\n' != message[message_index]); message_index++) { ; } // Should the message start on the next line, suitably indented? // This depends in part on whether or not there was a classification. if ("" == classification) { // The current result ends with a colon and a space. if ((index + message_index) <= 72) { // The first line of the message can still fit. No need to do anything. } else { // Start indenting immediately, do not add anything else to the current line. indent_needed = true; } } else { // We may want a comma and a space after the classification if ((index + 2 + message_index) <= 72) { result += ", "; } else { indent_needed = true; } } // Now we can process the message one character at a time, adding // newlines and indentation just in time. for (message_index = 0; message_index < message_len; message_index++) { if (indent_needed) { result += "\n "; indent_needed = false; } if ('\n' == message[message_index]) { indent_needed = true; } else { result += message[message_index]; } } CYG_REPORT_RETURN(); return result; } //}}} //{{{ Error count tracking // Keep track of the number of errors that have occurred while doing some // parsing. This functionality is not provided directly by the CdlInterpreter // class, instead it is implemented using assoc data. static const char error_count_key[] = "CdlErrorCount"; static void error_count_delproc(ClientData data, Tcl_Interp* interp) { CYG_REPORT_FUNCNAME("CdlParse::error_count_delproc"); int* newed_ptr = static_cast<int*>(data); delete newed_ptr; CYG_REPORT_RETURN(); } void CdlParse::clear_error_count(CdlInterpreter interp) { CYG_REPORT_FUNCNAME("CdlParse::clear_error_count"); CYG_REPORT_FUNCARG1("interp %p", interp); CYG_PRECONDITION_CLASSC(interp); int* newed_ptr = static_cast<int*>(interp->get_assoc_data(error_count_key)); if (0 != newed_ptr) { *newed_ptr = 0; } CYG_REPORT_RETURN(); } void CdlParse::incr_error_count(CdlInterpreter interp, int how_much) { CYG_REPORT_FUNCNAME("CdlParse::incr_error_counter"); CYG_REPORT_FUNCARG2("interp %p, how_much %d", interp, how_much); CYG_PRECONDITION_CLASSC(interp); CYG_PRECONDITION(how_much > 0, "previous errors cannot be undone"); int* newed_ptr = static_cast<int*>(interp->get_assoc_data(error_count_key)); if (0 == newed_ptr) { newed_ptr = new int(how_much); interp->set_assoc_data(error_count_key, static_cast<void*>(newed_ptr), &error_count_delproc); } else { CYG_ASSERT((*newed_ptr + how_much) > *newed_ptr, "number of parsing errors should not overflow"); *newed_ptr += how_much; } CYG_REPORT_RETURN(); } int CdlParse::get_error_count(CdlInterpreter interp) { CYG_REPORT_FUNCNAMETYPE("CdlParse::get_error_count", "count %d"); CYG_REPORT_FUNCARG1("interp %p", interp); CYG_PRECONDITION_CLASSC(interp); int result = 0; int* newed_ptr = static_cast<int*>(interp->get_assoc_data(error_count_key)); if (0 != newed_ptr) { result = *newed_ptr; } CYG_REPORT_RETVAL(result); return result; } //}}} //{{{ Error and warning reporting // Report errors and warnings. These will be called during parsing // operations, both of CDL and similar data scripts and for savefiles. // The parsing involves running a Tcl interpreter extended with the // appropriate set of commands. Typically the call graph will look // something like this: // // libcdl C++ code such as load_package() // libcdl CdlInterpreter::eval() // Tcl interpreter // libcdl parsing code // report_error() // // If the Tcl script is invalid then parsing errors may get reported // at the higher level code as well. // // There are two classes of diagnostic: errors and warnings. // Additional levels may be added in future, but there does not seem // to be an urgent need for them. Client code should provide callback // functions so that the messages can be displayed to the user, and // these callbacks will be registered with the current CdlInterpreter. // // If no error callback is defined then a ParseException will be // raised instead, and the rest of the current script will not be // processed. Alternatively the error callback itself can raise a // ParseException. Care is taken to ensure that the exception does not // go straight through the Tcl interpreter, since that would prevent // the Tcl code from cleaning up appropriately. If no exception is // raised then the library keeps track of the number of errors, and // this information is accessible once the script has been fully // processed. This allows multiple errors to be reported in a single // run. // // If no warning callback is provided then warnings are ignored. void CdlParse::report_error(CdlInterpreter interp, std::string sub_id, std::string message) { CYG_REPORT_FUNCNAME("CdlParse::report_error"); CYG_REPORT_FUNCARG1("interp %p", interp); CYG_PRECONDITION_CLASSC(interp); incr_error_count(interp); std::string full_message = construct_diagnostic(interp, "error", sub_id, message); // Now, either invoke the callback if it is provided, or throw the exception. CdlDiagnosticFnPtr fn = interp->get_error_fn_ptr(); if (0 == fn) { throw CdlParseException(full_message); } else { (*fn)(full_message); } CYG_REPORT_RETURN(); } void CdlParse::report_warning(CdlInterpreter interp, std::string sub_id, std::string message) { CYG_REPORT_FUNCNAME("CdlParse::report_warning"); CYG_REPORT_FUNCARG1("interp %p", interp); CYG_PRECONDITION_CLASSC(interp); // If there is no warning callback, do nothing. This is really a // bug in the calling application. CdlDiagnosticFnPtr fn = interp->get_warning_fn_ptr(); if (0 != fn) { std::string full_message = construct_diagnostic(interp, "warning", sub_id, message); (*fn)(full_message); } CYG_REPORT_RETURN(); } //}}} //{{{ The "unknown" command // ---------------------------------------------------------------------------- // This routine should be installed in interpreters that get used for // parsing CDL scripts. It gets invoked when the CDL script contains // an unrecognised command, e.g. because of a typo, and makes sure that // the usual diagnostics process is observed. // // This routine should be uninstalled after the parsing is complete, // to avoid e.g. a ParseException when it is not expected. int CdlParse::unknown_command(CdlInterpreter interp, int argc, const char* argv[]) { CYG_REPORT_FUNCNAME("CdlParse::unknown_command"); CYG_REPORT_FUNCARG3XV(interp, argc, argv); CYG_PRECONDITIONC(2 <= argc); CYG_PRECONDITION_CLASSC(interp); report_error(interp, "", std::string("Unknown command `") + argv[1] + "'."); CYG_UNUSED_PARAM(int, argc); return TCL_OK; } //}}} //}}} //{{{ Property-related parser utilities // ---------------------------------------------------------------------------- // Utilities related to parsing properties, rather than more general parsing. // A variant of report_parse_error() which also adds the property prefix. void CdlParse::report_property_parse_error(CdlInterpreter interp, std::string argv0, std::string msg) { CYG_REPORT_FUNCNAME("CdlPase::report_property_parse_error"); incr_error_count(interp); std::string diag = construct_diagnostic(interp, "error", std::string("property ") + CdlParse::get_tcl_cmd_name(argv0), msg); // Now, either invoke the callback if it is provided, or throw the exception. CdlDiagnosticFnPtr fn = interp->get_error_fn_ptr(); if (0 == fn) { throw CdlParseException(diag); } else { (*fn)(diag); } CYG_REPORT_RETURN(); } void CdlParse::report_property_parse_error(CdlInterpreter interp, CdlProperty prop, std::string msg) { CYG_REPORT_FUNCNAME("CdlParse::report_property_parse_error"); report_property_parse_error(interp, (prop->get_argv())[0], msg); CYG_REPORT_RETURN(); } // Repeat for warnings void CdlParse::report_property_parse_warning(CdlInterpreter interp, std::string argv0, std::string msg) { CYG_REPORT_FUNCNAME("CdlPase::report_property_parse_warning"); CdlDiagnosticFnPtr fn = interp->get_error_fn_ptr(); if (0 != fn) { std::string diag = construct_diagnostic(interp, "error", std::string("property ") + CdlParse::get_tcl_cmd_name(argv0), msg); (*fn)(diag); } CYG_REPORT_RETURN(); } void CdlParse::report_property_parse_warning(CdlInterpreter interp, CdlProperty prop, std::string msg) { CYG_REPORT_FUNCNAME("CdlParse::report_property_parse_warning"); report_property_parse_warning(interp, (prop->get_argv())[0], msg); CYG_REPORT_RETURN(); } //}}} //{{{ Generic property parsers // ---------------------------------------------------------------------------- // Generic parsers // // These routines provide some more generic property parsing routines. argv[0] // generally provides sufficient information to allow for sensible error messages. // The command-specific parsers have to provide a property name. In addition it is // possible to provide a function to handle per-command options, and another // function that performs a final sanity check before the property gets added // to the current entity. //{{{ parse_minimal_property() // ---------------------------------------------------------------------------- // A minimal property takes no arguments. int CdlParse::parse_minimal_property(CdlInterpreter interp, int argc, const char* argv[], std::string name, const char** options_desc, void (*final_parser)(CdlInterpreter, CdlProperty_Minimal)) { CYG_REPORT_FUNCNAME("parse_minimal_property"); CYG_PRECONDITION_CLASSC(interp); CdlProperty_Minimal new_property = 0; try { std::vector<std::pair<std::string,std::string> > options; int data_index = CdlParse::parse_options(interp, property_string + argv[0], options_desc, argc, argv, 1, options); if (data_index < argc) { CdlParse::report_property_parse_error(interp, argv[0], std::string("Unexpected data `") + argv[data_index] + "'."); } else { // The command is valid, turn it into a property. // The property has been parsed successfully. Add it to the current node CdlNode current_node = interp->get_node(); CYG_ASSERTC(0 != current_node); new_property = CdlProperty_MinimalBody::make(current_node, name, argc, argv, options); if (0 != final_parser) { (*final_parser)(interp, new_property); } } } catch(...) { if (0 != new_property) { delete new_property; } throw; } return TCL_OK; } //}}} //{{{ parse_string_property() // ---------------------------------------------------------------------------- int CdlParse::parse_string_property(CdlInterpreter interp, int argc, const char* argv[], std::string name, const char** options_desc, void (*final_parser)(CdlInterpreter, CdlProperty_String)) { CYG_REPORT_FUNCNAME("parse_string_property"); CYG_PRECONDITION_CLASSC(interp); CdlProperty_String new_property = 0; try { std::vector<std::pair<std::string,std::string> > options; int data_index = CdlParse::parse_options(interp, property_string + argv[0], options_desc, argc, argv, 1, options); if (data_index == argc) { CdlParse::report_property_parse_error(interp, argv[0], "Missing argument."); } else if ((data_index + 1) < argc) { CdlParse::report_property_parse_error(interp, argv[0], std::string("Too many arguments, expecting just one.")); } else { CdlNode current_node = interp->get_node(); CYG_ASSERTC(0 != current_node); new_property = CdlProperty_StringBody::make(current_node, name, argv[data_index], argc, argv, options); if (0 != final_parser) { (*final_parser)(interp, new_property); } } } catch(...) { if (0 != new_property) { delete new_property; } throw; } CYG_REPORT_RETURN(); return TCL_OK; } //}}} //{{{ parse_tclcode_property() // ---------------------------------------------------------------------------- int CdlParse::parse_tclcode_property(CdlInterpreter interp, int argc, const char* argv[], std::string name, const char** options_desc, void (*final_parser)(CdlInterpreter, CdlProperty_TclCode)) { CYG_REPORT_FUNCNAME("parse_tclcode_property"); CYG_PRECONDITION_CLASSC(interp); CdlProperty_TclCode new_property = 0; try { std::vector<std::pair<std::string,std::string> > options; int data_index = CdlParse::parse_options(interp, property_string + argv[0], options_desc, argc, argv, 1, options); if (data_index == argc) { CdlParse::report_property_parse_error(interp, argv[0], "Missing Tcl code."); } else if ((data_index + 1) < argc) { CdlParse::report_property_parse_error(interp, argv[0], std::string("Invalid number of arguments.\n") + "Expecting one argument, a Tcl code fragment."); } else if (!Tcl_CommandComplete(CDL_TCL_CONST_CAST(char*, argv[data_index]))) { CdlParse::report_property_parse_error(interp, argv[0], "Incomplete Tcl code fragment."); } else { CdlNode current_node = interp->get_node(); CYG_ASSERTC(0 != current_node); new_property = CdlProperty_TclCodeBody::make(current_node, name, argv[data_index], argc, argv, options); if (0 != final_parser) { (*final_parser)(interp, new_property); } } } catch(...) { if (0 != new_property) { delete new_property; } throw; } return TCL_OK; } //}}} //{{{ parse_stringvector_property() // ---------------------------------------------------------------------------- int CdlParse::parse_stringvector_property(CdlInterpreter interp, int argc, const char* argv[], std::string name, const char** options_desc, void (*final_parser)(CdlInterpreter, CdlProperty_StringVector), bool allow_empty) { CYG_REPORT_FUNCNAME("parse_tclcode_property"); CYG_PRECONDITION_CLASSC(interp); CdlProperty_StringVector new_property = 0; try { std::vector<std::pair<std::string,std::string> > options; int data_index = CdlParse::parse_options(interp, property_string + argv[0], options_desc, argc, argv, 1, options); if (!allow_empty && (data_index == argc)) { CdlParse::report_property_parse_error(interp, argv[0], "Missing arguments."); } else { // Creating the property requires a vector of strings. std::vector<std::string> strings; for ( ; data_index < argc; data_index++) { strings.push_back(argv[data_index]); } CdlNode current_node = interp->get_node(); CYG_ASSERTC(0 != current_node); new_property = CdlProperty_StringVectorBody::make(current_node, name, strings, argc, argv, options); if (0 != final_parser) { (*final_parser)(interp, new_property); } } } catch(...) { if (0 != new_property) { delete new_property; } throw; } return TCL_OK; } //}}} //{{{ parse_reference_property() // ---------------------------------------------------------------------------- int CdlParse::parse_reference_property(CdlInterpreter interp, int argc, const char* argv[], std::string name, const char** options_desc, void (*final_parser)(CdlInterpreter, CdlProperty_Reference), bool allow_empty, CdlUpdateHandler update_handler) { CYG_REPORT_FUNCNAME("parse_reference_property"); CYG_PRECONDITION_CLASSC(interp); CdlProperty_Reference new_property = 0; try { std::vector<std::pair<std::string,std::string> > options; int data_index = CdlParse::parse_options(interp, property_string + argv[0], options_desc, argc, argv, 1, options); if (data_index == argc) { CdlParse::report_property_parse_error(interp, argv[0], "Missing argument."); } else if ((data_index + 1) < argc) { CdlParse::report_property_parse_error(interp, argv[0], "Too many arguments, expecting just one."); } else { std::string refname = argv[data_index]; if (!(Cdl::is_valid_cdl_name(refname) || (allow_empty && ("" == refname)))) { CdlParse::report_property_parse_error(interp, argv[0], "`" + refname + "' is not a valid CDL name"); } else { CdlNode current_node = interp->get_node(); CYG_ASSERTC(0 != current_node); new_property = CdlProperty_ReferenceBody::make(current_node, name, refname, update_handler, argc, argv, options); if (0 != final_parser) { (*final_parser)(interp, new_property); } } } } catch(...) { if (0 != new_property) { delete new_property; } throw; } return TCL_OK; } //}}} //{{{ parse_expression_property() // ---------------------------------------------------------------------------- int CdlParse::parse_expression_property(CdlInterpreter interp, int argc, const char* argv[], std::string name, const char** options_desc, void (*final_parser)(CdlInterpreter, CdlProperty_Expression), CdlUpdateHandler update_handler) { CYG_REPORT_FUNCNAME("parse_expression_property"); CYG_PRECONDITION_CLASSC(interp); CdlProperty_Expression new_property = 0; CdlExpression expr = 0; try { std::vector<std::pair<std::string,std::string> > options; int data_index = CdlParse::parse_options(interp, property_string + argv[0], options_desc, argc, argv, 1, options); std::string all_args = CdlParse::concatenate_argv(argc, argv, data_index); if ("" == all_args) { CdlParse::report_property_parse_error(interp, argv[0], "Missing expression data."); } else { // The CdlExpression class has its own parsing routine. This // will raise an exception if there are any problems. It is // desirable to catch the exception and report the error via // the normal reporting mechanisms, which may allow parsing to // continue. try { expr = CdlExpressionBody::parse(all_args); } catch(CdlParseException e) { CdlParse::report_property_parse_error(interp, argv[0], e.get_message()); } if (0 != expr) { CdlNode current_node = interp->get_node(); CYG_ASSERTC(0 != current_node); new_property = CdlProperty_ExpressionBody::make(current_node, name, expr, update_handler, argc, argv, options); if (0 != final_parser) { (*final_parser)(interp, new_property); } } } } catch(...) { if (0 != expr) { delete expr; } if (0 != new_property) { delete new_property; } throw; } if (0 != expr) { delete expr; } return TCL_OK; } //}}} //{{{ parse_list_expression_property() // ---------------------------------------------------------------------------- int CdlParse::parse_listexpression_property(CdlInterpreter interp, int argc, const char* argv[], std::string name, const char** options_desc, void (*final_parser)(CdlInterpreter, CdlProperty_ListExpression), CdlUpdateHandler update_handler) { CYG_REPORT_FUNCNAME("parse_list_expression_property"); CYG_PRECONDITION_CLASSC(interp); CdlProperty_ListExpression new_property = 0; CdlListExpression expr = 0; try { std::vector<std::pair<std::string,std::string> > options; int data_index = CdlParse::parse_options(interp, property_string + argv[0], options_desc, argc, argv, 1, options); std::string all_args = CdlParse::concatenate_argv(argc, argv, data_index); if ("" == all_args) { CdlParse::report_property_parse_error(interp, argv[0], "Missing list expression data."); } else { try { expr = CdlListExpressionBody::parse(all_args); } catch(CdlParseException e) { CdlParse::report_property_parse_error(interp, argv[0], e.get_message()); } if (0 != expr) { CdlNode current_node = interp->get_node(); CYG_ASSERTC(0 != current_node); new_property = CdlProperty_ListExpressionBody::make(current_node, name, expr, update_handler, argc, argv, options); if (0 != final_parser) { (*final_parser)(interp, new_property); } } } } catch(...) { if (0 != expr) { delete expr; } if (0 != new_property) { delete new_property; } throw; } if (0 != expr) { delete expr; } return TCL_OK; } //}}} //{{{ parse_goalexpression_property() // ---------------------------------------------------------------------------- int CdlParse::parse_goalexpression_property(CdlInterpreter interp, int argc, const char* argv[], std::string name, const char** options_desc, void (*final_parser)(CdlInterpreter, CdlProperty_GoalExpression), CdlUpdateHandler update_handler) { CYG_REPORT_FUNCNAMETYPE("parse_goal_expression_property", "result %d"); CYG_PRECONDITION_CLASSC(interp); CdlProperty_GoalExpression new_property = 0; CdlGoalExpression expr = 0; try { std::vector<std::pair<std::string,std::string> > options; int data_index = CdlParse::parse_options(interp, property_string + argv[0], options_desc, argc, argv, 1, options); std::string all_args = CdlParse::concatenate_argv(argc, argv, data_index); if ("" == all_args) { CdlParse::report_property_parse_error(interp, argv[0], "Missing goal expression data."); } else { try { expr = CdlGoalExpressionBody::parse(all_args); } catch(CdlParseException e) { CdlParse::report_property_parse_error(interp, argv[0], e.get_message()); } if (0 != expr) { CdlNode current_node = interp->get_node(); CYG_ASSERTC(0 != current_node); new_property = CdlProperty_GoalExpressionBody::make(current_node, name, expr, update_handler, argc, argv, options); if (0 != final_parser) { (*final_parser)(interp, new_property); } } } } catch(...) { if (0 != expr) { delete expr; } if (0 != new_property) { delete new_property; } throw; } if (0 != expr) { delete expr; } return TCL_OK; } //}}} //}}}
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