// Copyright 2015 Google Inc. All rights reserved // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // +build ignore #include "rule.h" #include "expr.h" #include "log.h" #include "parser.h" #include "stringprintf.h" #include "strutil.h" #include "symtab.h" namespace { static void ParseInputs(Rule* r, StringPiece s) { bool is_order_only = false; for (StringPiece input : WordScanner(s)) { if (input == "|") { is_order_only = true; continue; } Symbol input_sym = Intern(TrimLeadingCurdir(input)); if (is_order_only) { r->order_only_inputs.push_back(input_sym); } else { r->inputs.push_back(input_sym); } } } bool IsPatternRule(StringPiece s) { return s.find('%') != string::npos; } } // namespace Rule::Rule() : is_double_colon(false), is_suffix_rule(false), cmd_lineno(0) { } void ParseRule(Loc& loc, StringPiece line, char term, Rule** out_rule, RuleVarAssignment* rule_var) { size_t index = line.find(':'); if (index == string::npos) { ERROR("%s:%d: *** missing separator.", LOCF(loc)); } StringPiece first = line.substr(0, index); vector<Symbol> outputs; for (StringPiece tok : WordScanner(first)) { outputs.push_back(Intern(TrimLeadingCurdir(tok))); } const bool is_first_pattern = ( !outputs.empty() && IsPatternRule(outputs[0].str())); for (size_t i = 1; i < outputs.size(); i++) { if (IsPatternRule(outputs[i].str()) != is_first_pattern) { ERROR("%s:%d: *** mixed implicit and normal rules: deprecated syntax", LOCF(loc)); } } bool is_double_colon = false; index++; if (line.get(index) == ':') { is_double_colon = true; index++; } StringPiece rest = line.substr(index); size_t term_index = rest.find_first_of("=;"); if ((term_index != string::npos && rest[term_index] == '=') || (term_index == string::npos && term == '=')) { if (term_index == string::npos) term_index = rest.size(); rule_var->outputs.swap(outputs); ParseAssignStatement(rest, term_index, &rule_var->lhs, &rule_var->rhs, &rule_var->op); *out_rule = NULL; return; } Rule* rule = new Rule(); *out_rule = rule; rule->loc = loc; rule->is_double_colon = is_double_colon; if (is_first_pattern) { rule->output_patterns.swap(outputs); } else { rule->outputs.swap(outputs); } if (term_index != string::npos && term != ';') { CHECK(rest[term_index] == ';'); // TODO: Maybe better to avoid Intern here? rule->cmds.push_back( NewLiteral(Intern(TrimLeftSpace(rest.substr(term_index + 1))).str())); rest = rest.substr(0, term_index); } index = rest.find(':'); if (index == string::npos) { ParseInputs(rule, rest); return; } if (is_first_pattern) { ERROR("%s:%d: *** mixed implicit and normal rules: deprecated syntax", LOCF(loc)); } StringPiece second = rest.substr(0, index); StringPiece third = rest.substr(index+1); for (StringPiece tok : WordScanner(second)) { tok = TrimLeadingCurdir(tok); for (Symbol output : rule->outputs) { if (!Pattern(tok).Match(output.str())) { WARN("%s:%d: target `%s' doesn't match the target pattern", LOCF(loc), output.c_str()); } } rule->output_patterns.push_back(Intern(tok)); } if (rule->output_patterns.empty()) { ERROR("%s:%d: *** missing target pattern.", LOCF(loc)); } if (rule->output_patterns.size() > 1) { ERROR("%s:%d: *** multiple target patterns.", LOCF(loc)); } if (!IsPatternRule(rule->output_patterns[0].str())) { ERROR("%s:%d: *** target pattern contains no '%%'.", LOCF(loc)); } ParseInputs(rule, third); } string Rule::DebugString() const { vector<string> v; v.push_back(StringPrintf("outputs=[%s]", JoinSymbols(outputs, ",").c_str())); v.push_back(StringPrintf("inputs=[%s]", JoinSymbols(inputs, ",").c_str())); if (!order_only_inputs.empty()) { v.push_back(StringPrintf("order_only_inputs=[%s]", JoinSymbols(order_only_inputs, ",").c_str())); } if (!output_patterns.empty()) { v.push_back(StringPrintf("output_patterns=[%s]", JoinSymbols(output_patterns, ",").c_str())); } if (is_double_colon) v.push_back("is_double_colon"); if (is_suffix_rule) v.push_back("is_suffix_rule"); if (!cmds.empty()) { v.push_back(StringPrintf("cmds=[%s]", JoinValues(cmds, ",").c_str())); } return JoinStrings(v, " "); }