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The ANTLR 4 grammar compiler.
/*
* [The "BSD license"]
* Copyright (c) 2012 Terence Parr
* Copyright (c) 2012 Sam Harwell
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
package org.antlr.v4.semantics;
import org.antlr.v4.analysis.LeftRecursiveRuleTransformer;
import org.antlr.v4.automata.LexerATNFactory;
import org.antlr.v4.parse.ANTLRParser;
import org.antlr.v4.runtime.Token;
import org.antlr.v4.runtime.misc.Pair;
import org.antlr.v4.tool.ErrorType;
import org.antlr.v4.tool.Grammar;
import org.antlr.v4.tool.LexerGrammar;
import org.antlr.v4.tool.Rule;
import org.antlr.v4.tool.ast.GrammarAST;
import java.util.HashSet;
import java.util.List;
import java.util.Set;
/** Do as much semantic checking as we can and fill in grammar
* with rules, actions, and token definitions.
* The only side effects are in the grammar passed to process().
* We consume a bunch of memory here while we build up data structures
* to perform checking, but all of it goes away after this pipeline object
* gets garbage collected.
*
* After this pipeline finishes, we can be sure that the grammar
* is syntactically correct and that it's semantically correct enough for us
* to attempt grammar analysis. We have assigned all token types.
* Note that imported grammars bring in token and rule definitions
* but only the root grammar and any implicitly created lexer grammar
* get their token definitions filled up. We are treating the
* imported grammars like includes.
*
* The semantic pipeline works on root grammars (those that do the importing,
* if any). Upon entry to the semantic pipeline, all imported grammars
* should have been loaded into delegate grammar objects with their
* ASTs created. The pipeline does the BasicSemanticChecks on the
* imported grammar before collecting symbols. We cannot perform the
* simple checks such as undefined rule until we have collected all
* tokens and rules from the imported grammars into a single collection.
*/
public class SemanticPipeline {
public Grammar g;
public SemanticPipeline(Grammar g) {
this.g = g;
}
public void process() {
if ( g.ast==null ) return;
// COLLECT RULE OBJECTS
RuleCollector ruleCollector = new RuleCollector(g);
ruleCollector.process(g.ast);
// DO BASIC / EASY SEMANTIC CHECKS
BasicSemanticChecks basics = new BasicSemanticChecks(g, ruleCollector);
basics.process();
// TRANSFORM LEFT-RECURSIVE RULES
int prevErrors = g.tool.errMgr.getNumErrors();
LeftRecursiveRuleTransformer lrtrans =
new LeftRecursiveRuleTransformer(g.ast, ruleCollector.rules.values(), g);
lrtrans.translateLeftRecursiveRules();
// don't continue if we got errors during left-recursion elimination
if ( g.tool.errMgr.getNumErrors()>prevErrors ) return;
// STORE RULES IN GRAMMAR
for (Rule r : ruleCollector.rules.values()) {
g.defineRule(r);
}
// COLLECT SYMBOLS: RULES, ACTIONS, TERMINALS, ...
SymbolCollector collector = new SymbolCollector(g);
collector.process(g.ast);
// CHECK FOR SYMBOL COLLISIONS
SymbolChecks symcheck = new SymbolChecks(g, collector);
symcheck.process(); // side-effect: strip away redef'd rules.
for (GrammarAST a : collector.namedActions) {
g.defineAction(a);
}
// LINK (outermost) ALT NODES WITH Alternatives
for (Rule r : g.rules.values()) {
for (int i=1; i<=r.numberOfAlts; i++) {
r.alt[i].ast.alt = r.alt[i];
}
}
// ASSIGN TOKEN TYPES
g.importTokensFromTokensFile();
if ( g.isLexer() ) {
assignLexerTokenTypes(g, collector.tokensDefs);
}
else {
assignTokenTypes(g, collector.tokensDefs,
collector.tokenIDRefs, collector.terminals);
}
symcheck.checkForModeConflicts(g);
assignChannelTypes(g, collector.channelDefs);
// CHECK RULE REFS NOW (that we've defined rules in grammar)
symcheck.checkRuleArgs(g, collector.rulerefs);
identifyStartRules(collector);
symcheck.checkForQualifiedRuleIssues(g, collector.qualifiedRulerefs);
// don't continue if we got symbol errors
if ( g.tool.getNumErrors()>0 ) return;
// CHECK ATTRIBUTE EXPRESSIONS FOR SEMANTIC VALIDITY
AttributeChecks.checkAllAttributeExpressions(g);
UseDefAnalyzer.trackTokenRuleRefsInActions(g);
}
void identifyStartRules(SymbolCollector collector) {
for (GrammarAST ref : collector.rulerefs) {
String ruleName = ref.getText();
Rule r = g.getRule(ruleName);
if ( r!=null ) r.isStartRule = false;
}
}
void assignLexerTokenTypes(Grammar g, List tokensDefs) {
Grammar G = g.getOutermostGrammar(); // put in root, even if imported
for (GrammarAST def : tokensDefs) {
// tokens { id (',' id)* } so must check IDs not TOKEN_REF
if ( Grammar.isTokenName(def.getText()) ) {
G.defineTokenName(def.getText());
}
}
/* Define token types for nonfragment rules which do not include a 'type(...)'
* or 'more' lexer command.
*/
for (Rule r : g.rules.values()) {
if ( !r.isFragment() && !hasTypeOrMoreCommand(r) ) {
G.defineTokenName(r.name);
}
}
// FOR ALL X : 'xxx'; RULES, DEFINE 'xxx' AS TYPE X
List> litAliases =
Grammar.getStringLiteralAliasesFromLexerRules(g.ast);
Set conflictingLiterals = new HashSet();
if ( litAliases!=null ) {
for (Pair pair : litAliases) {
GrammarAST nameAST = pair.a;
GrammarAST litAST = pair.b;
if ( !G.stringLiteralToTypeMap.containsKey(litAST.getText()) ) {
G.defineTokenAlias(nameAST.getText(), litAST.getText());
}
else {
// oops two literal defs in two rules (within or across modes).
conflictingLiterals.add(litAST.getText());
}
}
for (String lit : conflictingLiterals) {
// Remove literal if repeated across rules so it's not
// found by parser grammar.
Integer value = G.stringLiteralToTypeMap.remove(lit);
if (value != null && value > 0 && value < G.typeToStringLiteralList.size() && lit.equals(G.typeToStringLiteralList.get(value))) {
G.typeToStringLiteralList.set(value, null);
}
}
}
}
boolean hasTypeOrMoreCommand(Rule r) {
GrammarAST ast = r.ast;
if (ast == null) {
return false;
}
GrammarAST altActionAst = (GrammarAST)ast.getFirstDescendantWithType(ANTLRParser.LEXER_ALT_ACTION);
if (altActionAst == null) {
// the rule isn't followed by any commands
return false;
}
// first child is the alt itself, subsequent are the actions
for (int i = 1; i < altActionAst.getChildCount(); i++) {
GrammarAST node = (GrammarAST)altActionAst.getChild(i);
if (node.getType() == ANTLRParser.LEXER_ACTION_CALL) {
if ("type".equals(node.getChild(0).getText())) {
return true;
}
}
else if ("more".equals(node.getText())) {
return true;
}
}
return false;
}
void assignTokenTypes(Grammar g, List tokensDefs,
List tokenIDs, List terminals)
{
//Grammar G = g.getOutermostGrammar(); // put in root, even if imported
// create token types for tokens { A, B, C } ALIASES
for (GrammarAST alias : tokensDefs) {
if (g.getTokenType(alias.getText()) != Token.INVALID_TYPE) {
g.tool.errMgr.grammarError(ErrorType.TOKEN_NAME_REASSIGNMENT, g.fileName, alias.token, alias.getText());
}
g.defineTokenName(alias.getText());
}
// DEFINE TOKEN TYPES FOR TOKEN REFS LIKE ID, INT
for (GrammarAST idAST : tokenIDs) {
if (g.getTokenType(idAST.getText()) == Token.INVALID_TYPE) {
g.tool.errMgr.grammarError(ErrorType.IMPLICIT_TOKEN_DEFINITION, g.fileName, idAST.token, idAST.getText());
}
g.defineTokenName(idAST.getText());
}
// VERIFY TOKEN TYPES FOR STRING LITERAL REFS LIKE 'while', ';'
for (GrammarAST termAST : terminals) {
if (termAST.getType() != ANTLRParser.STRING_LITERAL) {
continue;
}
if (g.getTokenType(termAST.getText()) == Token.INVALID_TYPE) {
g.tool.errMgr.grammarError(ErrorType.IMPLICIT_STRING_DEFINITION, g.fileName, termAST.token, termAST.getText());
}
}
g.tool.log("semantics", "tokens="+g.tokenNameToTypeMap);
g.tool.log("semantics", "strings="+g.stringLiteralToTypeMap);
}
/**
* Assign constant values to custom channels defined in a grammar.
*
* @param g The grammar.
* @param channelDefs A collection of AST nodes defining individual channels
* within a {@code channels{}} block in the grammar.
*/
void assignChannelTypes(Grammar g, List channelDefs) {
Grammar outermost = g.getOutermostGrammar();
for (GrammarAST channel : channelDefs) {
String channelName = channel.getText();
// Channel names can't alias tokens or modes, because constant
// values are also assigned to them and the ->channel(NAME) lexer
// command does not distinguish between the various ways a constant
// can be declared. This method does not verify that channels do not
// alias rules, because rule names are not associated with constant
// values in ANTLR grammar semantics.
if (g.getTokenType(channelName) != Token.INVALID_TYPE) {
g.tool.errMgr.grammarError(ErrorType.CHANNEL_CONFLICTS_WITH_TOKEN, g.fileName, channel.token, channelName);
}
if (LexerATNFactory.COMMON_CONSTANTS.containsKey(channelName)) {
g.tool.errMgr.grammarError(ErrorType.CHANNEL_CONFLICTS_WITH_COMMON_CONSTANTS, g.fileName, channel.token, channelName);
}
if (outermost instanceof LexerGrammar) {
LexerGrammar lexerGrammar = (LexerGrammar)outermost;
if (lexerGrammar.modes.containsKey(channelName)) {
g.tool.errMgr.grammarError(ErrorType.CHANNEL_CONFLICTS_WITH_MODE, g.fileName, channel.token, channelName);
}
}
outermost.defineChannelName(channel.getText());
}
}
}
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