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//{{{ Banner //============================================================================ // // func.cxx // // Implementation of CDL functions // //============================================================================ // ####ECOSHOSTGPLCOPYRIGHTBEGIN#### // ------------------------------------------- // This file is part of the eCos host tools. // Copyright (C) 2001 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: 2001/04/20 // Version: 0.01 // //####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> // <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> //}}} //{{{ Core // ---------------------------------------------------------------------------- int CdlFunction::next_id = 1; std::vector<CdlFunction*> CdlFunction::all_functions; // Dummy initializers, for e.g. when a particular function implementation does not // support a certain type of inference. void (*CdlFunction::null_check)(CdlExpression, const CdlSubexpression&) = (void (*)(CdlExpression, const CdlSubexpression&)) 0; bool (*CdlFunction::null_infer_bool)(CdlTransaction, CdlExpression, unsigned int, bool, int) = (bool (*)(CdlTransaction, CdlExpression, unsigned int, bool, int)) 0; bool (*CdlFunction::null_infer_value)(CdlTransaction, CdlExpression, unsigned int, CdlSimpleValue&, int) = (bool (*)(CdlTransaction, CdlExpression, unsigned int, CdlSimpleValue&, int)) 0; CdlFunction::CdlFunction(const char* name_arg, int number_args_arg, void (*check_arg)(CdlExpression, const CdlSubexpression&), void (*eval_arg)(CdlEvalContext&, CdlExpression, const CdlSubexpression&, CdlSimpleValue&), bool (*infer_bool_arg)(CdlTransaction, CdlExpression, unsigned int, bool, int), bool (*infer_value_arg)(CdlTransaction, CdlExpression, unsigned int, CdlSimpleValue&, int)) : name(name_arg), number_args(number_args_arg), check_fn(check_arg), eval_fn(eval_arg), infer_bool_fn(infer_bool_arg), infer_value_fn(infer_value_arg) { id = next_id++; all_functions.push_back(this); } CdlFunction::~CdlFunction() { } bool CdlFunction::is_function(std::string name, int& id) { CYG_REPORT_FUNCNAMETYPE("CdlFunction::is_function", "result %d"); bool result = false; std::vector<CdlFunction*>::const_iterator i; for (i = all_functions.begin(); !result && (i != all_functions.end()); i++) { if (name == (*i)->name) { result = true; id = (*i)->id; } } CYG_REPORT_RETVAL(result); return result; } std::string CdlFunction::get_name(int id) { CYG_REPORT_FUNCNAME("CdlFunction::get_name"); CYG_REPORT_FUNCARG1XV(id); std::string result = ""; std::vector<CdlFunction*>::const_iterator i; for (i = all_functions.begin(); i != all_functions.end(); i++) { if (id == (*i)->id) { result = (*i)->name; break; } } CYG_REPORT_RETURN(); return result; } int CdlFunction::get_args_count(int id) { CYG_REPORT_FUNCNAMETYPE("CdlFunction::get_args_count", "result %d"); CYG_REPORT_FUNCARG1XV(id); int result = 0; std::vector<CdlFunction*>::const_iterator i; for (i = all_functions.begin(); i != all_functions.end(); i++) { if (id == (*i)->id) { result = (*i)->number_args;; break; } } CYG_REPORT_RETVAL(result); return result; } void CdlFunction::check(CdlExpression expr, const CdlSubexpression& subexpr) { CYG_REPORT_FUNCNAME("CdlFunction::check"); CYG_REPORT_FUNCARG2XV(expr, &subexpr); int id = subexpr.func; std::vector<CdlFunction*>::const_iterator i; for (i = all_functions.begin(); i != all_functions.end(); i++) { if (id == (*i)->id) { if (CdlFunction::null_check != (*i)->check_fn) { (*((*i)->check_fn))(expr, subexpr); } break; } } CYG_REPORT_RETURN(); } void CdlFunction::eval(CdlEvalContext& context, CdlExpression expr, const CdlSubexpression& subexpr, CdlSimpleValue& result) { CYG_REPORT_FUNCNAME("CdlFunction::eval"); CYG_REPORT_FUNCARG4XV(&context, expr, &subexpr, &result); int id = subexpr.func; std::vector<CdlFunction*>::const_iterator i; for (i = all_functions.begin(); i != all_functions.end(); i++) { if (id == (*i)->id) { (*((*i)->eval_fn))(context, expr, subexpr, result); break; } } CYG_REPORT_RETURN(); } bool CdlFunction::infer_bool(CdlTransaction transaction, CdlExpression expr, unsigned int index, bool goal, int level) { CYG_REPORT_FUNCNAMETYPE("CdlFunction::infer_bool", "result %d"); CYG_REPORT_FUNCARG5XV(transaction, expr, index, goal, level); bool result = false; CdlSubexpression& subexpr = expr->sub_expressions[index]; int id = subexpr.func; std::vector<CdlFunction*>::const_iterator i; for (i = all_functions.begin(); i != all_functions.end(); i++) { if (id == (*i)->id) { if (CdlFunction::null_infer_bool != (*i)->infer_bool_fn) { result = (*((*i)->infer_bool_fn))(transaction, expr, index, goal, level); } break; } } CYG_REPORT_RETVAL(result); return result; } bool CdlFunction::infer_value(CdlTransaction transaction, CdlExpression expr, unsigned int index, CdlSimpleValue& goal, int level) { CYG_REPORT_FUNCNAMETYPE("CdlFunction::infer_value", "result %d"); CYG_REPORT_FUNCARG5XV(transaction, expr, index, &goal, level); bool result = false; CdlSubexpression& subexpr = expr->sub_expressions[index]; int id = subexpr.func; std::vector<CdlFunction*>::const_iterator i; for (i = all_functions.begin(); i != all_functions.end(); i++) { if (id == (*i)->id) { if (CdlFunction::null_infer_value != (*i)->infer_value_fn) { result = (*((*i)->infer_value_fn))(transaction, expr, index, goal, level); } break; } } CYG_REPORT_RETVAL(result); return result; } //}}} //{{{ is_substr() // ---------------------------------------------------------------------------- // is_substr(A, B) // // For example, is_substr(CYGBLD_GLOBAL_CFLAGS, " -fno-exceptions ") // // There is one subtlety about substring matching: what to do about the // start and end of a string. If the specified substring begins with a // space then this will match either a space or the start of the string, // similarly for the final character. static std::string::size_type is_substr_find(std::string haystack, std::string needle, std::string::size_type& len_arg) { CYG_REPORT_FUNCNAMETYPE("is_substr_find", "result %d"); std::string::size_type result = std::string::npos; std::string::size_type haystack_len = haystack.length(); std::string::size_type needle_len = needle.length(); bool leading_space = false; bool trailing_space = false; if (' ' == needle[0]) { leading_space = true; needle_len--; needle = std::string(needle, 1, needle_len); } if (' ' == needle[needle_len - 1]) { trailing_space = true; needle_len--; needle = std::string(needle, 0, needle_len); } std::string::size_type posn = haystack.find(needle); while ((std::string::npos == result) && (std::string::npos != posn)) { std::string::size_type match_point = posn; bool match = true; // A possible match has been found. If there was a leading // space, check we are either at the start of the main string // or that a space is present. if (leading_space && (0 != posn) && (' ' != haystack[posn - 1])) { match = false; } if (trailing_space && (haystack_len != (posn + needle_len)) && (' ' != haystack[posn + needle_len])) { match = false; } // The result and len_arg returns exclude the spaces. This is deliberate. // Consider !is_substr("-g -O2 -fno-rtti -fno-exceptions", " -fnortti "). // If during inference the spaces were removed as well, this would give // "-g -O2-fno-exceptions", which is not desirable. if (match) { result = match_point; len_arg = needle_len; } else { posn = haystack.find(needle, posn + 1); } } CYG_REPORT_RETVAL(result); return result; } static void is_substr_eval(CdlEvalContext& context, CdlExpression expr, const CdlSubexpression& subexpr, CdlSimpleValue& result) { CYG_REPORT_FUNCNAME("is_substr_eval"); CYG_REPORT_FUNCARG4XV(&context, expr, &subexpr, &result); CYG_PRECONDITION_CLASSOC(context); CYG_PRECONDITION_CLASSC(expr); CdlSimpleValue arg0; CdlSimpleValue arg1; expr->eval_subexpression(context, subexpr.args[0], arg0); expr->eval_subexpression(context, subexpr.args[1], arg1); std::string::size_type len; result = (std::string::npos != is_substr_find(arg0.get_value(), arg1.get_value(), len)); CYG_REPORT_RETURN(); } // Inference is only supported if the haystack argument is a reference that can be // updated. The needle can be an arbitrary expression. static bool is_substr_infer_bool(CdlTransaction transaction, CdlExpression expr, unsigned int index, bool goal, int level) { CYG_REPORT_FUNCNAMETYPE("is_substr_infer_bool", "result %d"); CYG_REPORT_FUNCARG5XV(transaction, expr, index, goal, level); bool result = false; CdlSubexpression& subexpr = expr->sub_expressions[index]; CdlSubexpression& arg0 = expr->sub_expressions[subexpr.args[0]]; try { if (CdlExprOp_Reference == arg0.op) { CdlSimpleValue needle_value; CdlEvalContext context(transaction); expr->eval_subexpression(context, subexpr.args[1], needle_value); std::string needle = needle_value.get_value(); CdlNode node = expr->references[arg0.reference_index].get_destination(); CdlValuable valuable = 0; if (0 != node) { valuable = dynamic_cast<CdlValuable>(node); } if ((0 != valuable) && ((CdlValueFlavor_BoolData == valuable->get_flavor()) || (CdlValueFlavor_Data == valuable->get_flavor()))) { // OK, we have a valuable which can be given a suitable value. // What is the current string? const CdlValue& current_value = transaction->get_whole_value(valuable); std::string haystack = current_value.get_simple_value().get_value(); // What is the goal? If the needle should be in the // haystack, append it if necessary. If the needle // should not be in the haystack, remove all current occurrences. if (goal) { std::string::size_type len; if (std::string::npos == is_substr_find(haystack, needle, len)) { haystack = haystack + needle; } } else { std::string::size_type posn, len; for (posn = is_substr_find(haystack, needle, len); std::string::npos != posn; posn = is_substr_find(haystack, needle, len)) { haystack.erase(posn, len); } } // OK, we have a new value for the haystack which should match the desired goal. // Try and set this value. CdlSimpleValue new_value(haystack); result = CdlInfer::set_valuable_value(transaction, valuable, new_value, level); } } } catch (...) { result = false; } CYG_REPORT_RETVAL(result); return result; } static CdlFunction is_substr("is_substr", 2, CdlFunction::null_check, &is_substr_eval, &is_substr_infer_bool, CdlFunction::null_infer_value); //}}} //{{{ is_xsubstr() // ---------------------------------------------------------------------------- // is_xsubstr(A, B) // // Like is_substr() but only deals with exact matches, i.e. there is no special // treatment for leading and trailing spaces in the needle. static void is_xsubstr_eval(CdlEvalContext& context, CdlExpression expr, const CdlSubexpression& subexpr, CdlSimpleValue& result) { CYG_REPORT_FUNCNAME("is_xsubstr_eval"); CYG_REPORT_FUNCARG4XV(&context, expr, &subexpr, &result); CYG_PRECONDITION_CLASSOC(context); CYG_PRECONDITION_CLASSC(expr); CdlSimpleValue arg0; CdlSimpleValue arg1; expr->eval_subexpression(context, subexpr.args[0], arg0); expr->eval_subexpression(context, subexpr.args[1], arg1); result = (std::string::npos != arg0.get_value().find(arg1.get_value())); CYG_REPORT_RETURN(); } // Inference is only supported if the haystack argument is a reference that can be // updated. The needle can be an arbitrary expression. static bool is_xsubstr_infer_bool(CdlTransaction transaction, CdlExpression expr, unsigned int index, bool goal, int level) { CYG_REPORT_FUNCNAMETYPE("is_xsubstr_infer_bool", "result %d"); CYG_REPORT_FUNCARG5XV(transaction, expr, index, goal, level); bool result = false; CdlSubexpression& subexpr = expr->sub_expressions[index]; CdlSubexpression& arg0 = expr->sub_expressions[subexpr.args[0]]; try { if (CdlExprOp_Reference == arg0.op) { CdlSimpleValue needle_value; CdlEvalContext context(transaction); expr->eval_subexpression(context, subexpr.args[1], needle_value); std::string needle = needle_value.get_value(); CdlNode node = expr->references[arg0.reference_index].get_destination(); CdlValuable valuable = 0; if (0 != node) { valuable = dynamic_cast<CdlValuable>(node); } if ((0 != valuable) && ((CdlValueFlavor_BoolData == valuable->get_flavor()) || (CdlValueFlavor_Data == valuable->get_flavor()))) { // OK, we have a valuable which can be given a suitable value. // What is the current string? const CdlValue& current_value = transaction->get_whole_value(valuable); std::string haystack = current_value.get_simple_value().get_value(); // What is the goal? If the needle should be in the // haystack, append it if necessary. If the needle // should not be in the haystack, remove all current occurrences. if (goal) { if (std::string::npos == haystack.find(needle)) { haystack = haystack + needle; } } else { std::string::size_type posn; for (posn = haystack.find(needle); std::string::npos != posn; posn = haystack.find(needle)) { haystack.erase(posn, needle.length()); } } // OK, we have a new value for the haystack which should match the desired goal. // Try and set this value. CdlSimpleValue new_value(haystack); result = CdlInfer::set_valuable_value(transaction, valuable, new_value, level); } } } catch (...) { result = false; } CYG_REPORT_RETVAL(result); return result; } static CdlFunction is_xsubstr("is_xsubstr", 2, CdlFunction::null_check, &is_xsubstr_eval, &is_xsubstr_infer_bool, CdlFunction::null_infer_value); //}}} //{{{ is_loaded() // ---------------------------------------------------------------------------- // is_loaded(x) // Check whether or not a particular configuration option is loaded. // This takes a single argument which must be a reference. No // inference is possible, since loading and unloading packages is // currently beyond the scope of the inference engine. static void is_loaded_check(CdlExpression expr, const CdlSubexpression& subexpr) { CYG_REPORT_FUNCNAME("is_loaded_check"); CYG_REPORT_FUNCARG2XV(expr, &subexpr); CdlSubexpression& arg0 = expr->sub_expressions[subexpr.args[0]]; if (CdlExprOp_Reference != arg0.op) { throw CdlParseException(std::string("The argument to is_loaded() should be a reference to a configuration option.\n") + CdlParse::get_expression_error_location()); } CYG_REPORT_RETURN(); } static void is_loaded_eval(CdlEvalContext& context, CdlExpression expr, const CdlSubexpression& subexpr, CdlSimpleValue& result) { CYG_REPORT_FUNCNAME("is_loaded_eval"); CYG_REPORT_FUNCARG4XV(&context, expr, &subexpr, &result); CYG_PRECONDITION_CLASSOC(context); CYG_PRECONDITION_CLASSC(expr); CdlSubexpression arg0 = expr->sub_expressions[subexpr.args[0]]; CYG_ASSERTC(CdlExprOp_Reference == arg0.op); result = (0 != context.resolve_reference(expr, arg0.reference_index)); CYG_REPORT_RETURN(); } static CdlFunction is_loaded("is_loaded", 1, &is_loaded_check, &is_loaded_eval, CdlFunction::null_infer_bool, CdlFunction::null_infer_value); //}}} //{{{ is_active() // ---------------------------------------------------------------------------- // is_active(x) // Check whether or not a particular configuration option is loaded // and active. This takes a single argument which must be a reference. static void is_active_check(CdlExpression expr, const CdlSubexpression& subexpr) { CYG_REPORT_FUNCNAME("is_active_check"); CYG_REPORT_FUNCARG2XV(expr, &subexpr); CdlSubexpression& arg0 = expr->sub_expressions[subexpr.args[0]]; if (CdlExprOp_Reference != arg0.op) { throw CdlParseException(std::string("The argument to is_active() should be a reference to a configuration option.\n") + CdlParse::get_expression_error_location()); } CYG_REPORT_RETURN(); } static void is_active_eval(CdlEvalContext& context, CdlExpression expr, const CdlSubexpression& subexpr, CdlSimpleValue& result) { CYG_REPORT_FUNCNAME("is_active_eval"); CYG_REPORT_FUNCARG4XV(&context, expr, &subexpr, &result); CYG_PRECONDITION_CLASSOC(context); CYG_PRECONDITION_CLASSC(expr); CdlSubexpression arg0 = expr->sub_expressions[subexpr.args[0]]; CYG_ASSERTC(CdlExprOp_Reference == arg0.op); CdlNode node = context.resolve_reference(expr, arg0.reference_index); if (0 != node) { result = node->is_active(context.transaction); } else { result = false; } CYG_REPORT_RETURN(); } static bool is_active_infer_bool(CdlTransaction transaction, CdlExpression expr, unsigned int index, bool goal, int level) { CYG_REPORT_FUNCNAMETYPE("is_active_infer_bool", "result %d"); CYG_REPORT_FUNCARG5XV(transaction, expr, index, goal, level); bool result = false; CdlSubexpression subexpr = expr->sub_expressions[index]; CdlSubexpression arg0 = expr->sub_expressions[subexpr.args[0]]; CYG_ASSERTC(CdlExprOp_Reference == arg0.op); CdlNode node = expr->references[arg0.reference_index].get_destination(); if (0 != node) { if (goal) { result = CdlInfer::make_active(transaction, node, level); } else { result = CdlInfer::make_inactive(transaction, node, level); } } CYG_REPORT_RETVAL(result); return result; } static CdlFunction is_active("is_active", 1, &is_active_check, &is_active_eval, &is_active_infer_bool, CdlFunction::null_infer_value); //}}} //{{{ is_enabled() // ---------------------------------------------------------------------------- // is_enabled(x) // Check whether or not a particular configuration option is loaded // and enabled. The active/inactive state is ignored. This function // takes a single argument which must be a reference. static void is_enabled_check(CdlExpression expr, const CdlSubexpression& subexpr) { CYG_REPORT_FUNCNAME("is_enabled_check"); CYG_REPORT_FUNCARG2XV(expr, &subexpr); CdlSubexpression& arg0 = expr->sub_expressions[subexpr.args[0]]; if (CdlExprOp_Reference != arg0.op) { throw CdlParseException(std::string("The argument to is_enabled() should be a reference to a configuration option.\n") + CdlParse::get_expression_error_location()); } CYG_REPORT_RETURN(); } static void is_enabled_eval(CdlEvalContext& context, CdlExpression expr, const CdlSubexpression& subexpr, CdlSimpleValue& result) { CYG_REPORT_FUNCNAME("is_enabled_eval"); CYG_REPORT_FUNCARG4XV(&context, expr, &subexpr, &result); CYG_PRECONDITION_CLASSOC(context); CYG_PRECONDITION_CLASSC(expr); CdlSubexpression arg0 = expr->sub_expressions[subexpr.args[0]]; CYG_ASSERTC(CdlExprOp_Reference == arg0.op); CdlValuable valuable = context.resolve_valuable_reference(expr, arg0.reference_index); if (0 != valuable) { if (0 != context.transaction) { result = valuable->is_enabled(context.transaction); } else { result = valuable->is_enabled(); } } else { result = false; } CYG_REPORT_RETURN(); } static bool is_enabled_infer_bool(CdlTransaction transaction, CdlExpression expr, unsigned int index, bool goal, int level) { CYG_REPORT_FUNCNAMETYPE("is_enabled_infer_bool", "result %d"); CYG_REPORT_FUNCARG5XV(transaction, expr, index, goal, level); bool result = false; CdlSubexpression subexpr = expr->sub_expressions[index]; CdlSubexpression arg0 = expr->sub_expressions[subexpr.args[0]]; CYG_ASSERTC(CdlExprOp_Reference == arg0.op); CdlNode node = expr->references[arg0.reference_index].get_destination(); if (0 != node) { CdlValuable valuable = dynamic_cast<CdlValuable>(node); if (0 != valuable) { // OK, we have found a valuable. Is it already enabled? // Does it have a boolean component? Is it modifiable? Has // it already been modified by the user in this transaction? if (goal == valuable->is_enabled()) { result = true; } else { CdlValueFlavor flavor = valuable->get_flavor(); if ((CdlValueFlavor_Bool == flavor) || (CdlValueFlavor_BoolData == flavor)) { if (valuable->is_modifiable()) { if (!transaction->changed_by_user(valuable)) { // We have a modifiable option and want to set the enabled flag. // However we do not want to lose the current data part - unless // some other constraint has caused that to be set. const CdlValue& old_value = transaction->get_whole_value(valuable); CdlValue new_value = old_value; if (!old_value.has_source(CdlValueSource_Inferred)) { CdlSimpleValue simple_value = old_value.get_simple_value(CdlValueSource_Current); new_value.set_value(simple_value, CdlValueSource_Inferred); } new_value.set_enabled(goal, CdlValueSource_Inferred); new_value.set_source(CdlValueSource_Inferred); transaction->set_whole_value(valuable, old_value, new_value); result = transaction->resolve_recursion(level); } } } } } } CYG_REPORT_RETVAL(result); return result; } static CdlFunction is_enabled("is_enabled", 1, &is_enabled_check, &is_enabled_eval, &is_enabled_infer_bool, CdlFunction::null_infer_value); //}}} //{{{ get_data() // ---------------------------------------------------------------------------- // get_data(x) // Returns "0" if the specified option is not enabled, otherwise // the current data part fo the value. The active/inactive and the // enabled states are ignored. This function takes a single argument // which must be a reference. static void get_data_check(CdlExpression expr, const CdlSubexpression& subexpr) { CYG_REPORT_FUNCNAME("get_data_check"); CYG_REPORT_FUNCARG2XV(expr, &subexpr); CdlSubexpression& arg0 = expr->sub_expressions[subexpr.args[0]]; if (CdlExprOp_Reference != arg0.op) { throw CdlParseException(std::string("The argument to get_data() should be a reference to a configuration option.\n") + CdlParse::get_expression_error_location()); } CYG_REPORT_RETURN(); } static void get_data_eval(CdlEvalContext& context, CdlExpression expr, const CdlSubexpression& subexpr, CdlSimpleValue& result) { CYG_REPORT_FUNCNAME("get_data_eval"); CYG_REPORT_FUNCARG4XV(&context, expr, &subexpr, &result); CYG_PRECONDITION_CLASSOC(context); CYG_PRECONDITION_CLASSC(expr); CdlSubexpression arg0 = expr->sub_expressions[subexpr.args[0]]; CYG_ASSERTC(CdlExprOp_Reference == arg0.op); CdlValuable valuable = context.resolve_valuable_reference(expr, arg0.reference_index); if (0 != valuable) { if (0 != context.transaction) { result = valuable->get_value(context.transaction); } else { result = valuable->get_value(); } } else { result = false; } CYG_REPORT_RETURN(); } static bool get_data_infer_value(CdlTransaction transaction, CdlExpression expr, unsigned int index, CdlSimpleValue& goal, int level) { CYG_REPORT_FUNCNAMETYPE("get_data_infer_value", "result %d"); CYG_REPORT_FUNCARG5XV(transaction, expr, index, &goal, level); bool result = false; CdlSubexpression subexpr = expr->sub_expressions[index]; CdlSubexpression arg0 = expr->sub_expressions[subexpr.args[0]]; CYG_ASSERTC(CdlExprOp_Reference == arg0.op); CdlNode node = expr->references[arg0.reference_index].get_destination(); if (0 != node) { CdlValuable valuable = dynamic_cast<CdlValuable>(node); if (0 != valuable) { // OK, we have found a valuable. Does it have a data component? // Does it already have the right value. Is it modifiable? Has // it already been modified by the user in this transaction? CdlValueFlavor flavor = valuable->get_flavor(); if ((CdlValueFlavor_Data == flavor) || (CdlValueFlavor_BoolData == flavor)) { CdlSimpleValue current_value = valuable->get_simple_value(transaction); if (goal != current_value) { if (valuable->is_modifiable()) { if (!transaction->changed_by_user(valuable)) { // We have a modifiable option and want to set the data part. // However we do not want to lose the enabled part - unless // some other constraint has caused that to be set. const CdlValue& old_value = transaction->get_whole_value(valuable); CdlValue new_value = old_value; if (!old_value.has_source(CdlValueSource_Inferred)) { new_value.set_enabled(old_value.is_enabled(), CdlValueSource_Inferred); } new_value.set_value(goal, CdlValueSource_Inferred); new_value.set_source(CdlValueSource_Inferred); transaction->set_whole_value(valuable, old_value, new_value); result = transaction->resolve_recursion(level); } } } } } } CYG_REPORT_RETVAL(result); return result; } static CdlFunction get_data("get_data", 1, &get_data_check, &get_data_eval, CdlFunction::null_infer_bool, &get_data_infer_value); //}}} //{{{ version_cmp() // ---------------------------------------------------------------------------- // version_cmp(a, b) // Evaluate both arguments, interpret them as version strings, and then // return -1, 0 or 1. static void version_cmp_eval(CdlEvalContext& context, CdlExpression expr, const CdlSubexpression& subexpr, CdlSimpleValue& result) { CYG_REPORT_FUNCNAME("version_cmp_eval"); CYG_REPORT_FUNCARG4XV(&context, expr, &subexpr, &result); CYG_PRECONDITION_CLASSOC(context); CYG_PRECONDITION_CLASSC(expr); CdlSimpleValue arg0; CdlSimpleValue arg1; expr->eval_subexpression(context, subexpr.args[0], arg0); expr->eval_subexpression(context, subexpr.args[1], arg1); result = (cdl_int) Cdl::compare_versions(arg0.get_value(), arg1.get_value()); CYG_REPORT_RETURN(); } static CdlFunction version_cmp("version_cmp", 2, CdlFunction::null_check, &version_cmp_eval, CdlFunction::null_infer_bool, CdlFunction::null_infer_value); //}}}
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