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The ANTLR 4 grammar compiler.
/*
* Copyright (c) 2012-2016 The ANTLR Project. All rights reserved.
* Use of this file is governed by the BSD 3-clause license that
* can be found in the LICENSE.txt file in the project root.
*/
package org.antlr.v4.codegen;
import org.antlr.runtime.tree.CommonTreeNodeStream;
import org.antlr.v4.analysis.LeftRecursiveRuleAltInfo;
import org.antlr.v4.codegen.model.Action;
import org.antlr.v4.codegen.model.AltBlock;
import org.antlr.v4.codegen.model.BaseListenerFile;
import org.antlr.v4.codegen.model.BaseVisitorFile;
import org.antlr.v4.codegen.model.Choice;
import org.antlr.v4.codegen.model.CodeBlockForAlt;
import org.antlr.v4.codegen.model.CodeBlockForOuterMostAlt;
import org.antlr.v4.codegen.model.LabeledOp;
import org.antlr.v4.codegen.model.LeftRecursiveRuleFunction;
import org.antlr.v4.codegen.model.Lexer;
import org.antlr.v4.codegen.model.LexerFile;
import org.antlr.v4.codegen.model.ListenerFile;
import org.antlr.v4.codegen.model.OutputModelObject;
import org.antlr.v4.codegen.model.Parser;
import org.antlr.v4.codegen.model.ParserFile;
import org.antlr.v4.codegen.model.RuleActionFunction;
import org.antlr.v4.codegen.model.RuleFunction;
import org.antlr.v4.codegen.model.RuleSempredFunction;
import org.antlr.v4.codegen.model.SrcOp;
import org.antlr.v4.codegen.model.StarBlock;
import org.antlr.v4.codegen.model.VisitorFile;
import org.antlr.v4.codegen.model.decl.CodeBlock;
import org.antlr.v4.misc.Utils;
import org.antlr.v4.parse.ANTLRParser;
import org.antlr.v4.parse.GrammarASTAdaptor;
import org.antlr.v4.tool.Alternative;
import org.antlr.v4.tool.ErrorType;
import org.antlr.v4.tool.Grammar;
import org.antlr.v4.tool.LeftRecursiveRule;
import org.antlr.v4.tool.Rule;
import org.antlr.v4.tool.ast.ActionAST;
import org.antlr.v4.tool.ast.BlockAST;
import org.antlr.v4.tool.ast.GrammarAST;
import org.antlr.v4.tool.ast.PredAST;
import org.stringtemplate.v4.ST;
import org.stringtemplate.v4.STGroup;
import java.util.ArrayList;
import java.util.List;
import java.util.Stack;
/** This receives events from SourceGenTriggers.g and asks factory to do work.
* Then runs extensions in order on resulting SrcOps to get final list.
**/
public class OutputModelController {
/** Who does the work? Doesn't have to be CoreOutputModelFactory. */
public OutputModelFactory delegate;
/** Post-processing CodeGeneratorExtension objects; done in order given. */
public List extensions = new ArrayList();
/** While walking code in rules, this is set to the tree walker that
* triggers actions.
*/
public SourceGenTriggers walker;
/** Context set by the SourceGenTriggers.g */
public int codeBlockLevel = -1;
public int treeLevel = -1;
public OutputModelObject root; // normally ParserFile, LexerFile, ...
public Stack currentRule = new Stack();
public Alternative currentOuterMostAlt;
public CodeBlock currentBlock;
public CodeBlockForOuterMostAlt currentOuterMostAlternativeBlock;
public OutputModelController(OutputModelFactory factory) {
this.delegate = factory;
}
public void addExtension(CodeGeneratorExtension ext) { extensions.add(ext); }
/** Build a file with a parser containing rule functions. Use the
* controller as factory in SourceGenTriggers so it triggers codegen
* extensions too, not just the factory functions in this factory.
*/
public OutputModelObject buildParserOutputModel(boolean header) {
CodeGenerator gen = delegate.getGenerator();
ParserFile file = parserFile(gen.getRecognizerFileName(header));
setRoot(file);
file.parser = parser(file);
Grammar g = delegate.getGrammar();
for (Rule r : g.rules.values()) {
buildRuleFunction(file.parser, r);
}
return file;
}
public OutputModelObject buildLexerOutputModel(boolean header) {
CodeGenerator gen = delegate.getGenerator();
LexerFile file = lexerFile(gen.getRecognizerFileName(header));
setRoot(file);
file.lexer = lexer(file);
Grammar g = delegate.getGrammar();
for (Rule r : g.rules.values()) {
buildLexerRuleActions(file.lexer, r);
}
return file;
}
public OutputModelObject buildListenerOutputModel(boolean header) {
CodeGenerator gen = delegate.getGenerator();
return new ListenerFile(delegate, gen.getListenerFileName(header));
}
public OutputModelObject buildBaseListenerOutputModel(boolean header) {
CodeGenerator gen = delegate.getGenerator();
return new BaseListenerFile(delegate, gen.getBaseListenerFileName(header));
}
public OutputModelObject buildVisitorOutputModel(boolean header) {
CodeGenerator gen = delegate.getGenerator();
return new VisitorFile(delegate, gen.getVisitorFileName(header));
}
public OutputModelObject buildBaseVisitorOutputModel(boolean header) {
CodeGenerator gen = delegate.getGenerator();
return new BaseVisitorFile(delegate, gen.getBaseVisitorFileName(header));
}
public ParserFile parserFile(String fileName) {
ParserFile f = delegate.parserFile(fileName);
for (CodeGeneratorExtension ext : extensions) f = ext.parserFile(f);
return f;
}
public Parser parser(ParserFile file) {
Parser p = delegate.parser(file);
for (CodeGeneratorExtension ext : extensions) p = ext.parser(p);
return p;
}
public LexerFile lexerFile(String fileName) {
return new LexerFile(delegate, fileName);
}
public Lexer lexer(LexerFile file) {
return new Lexer(delegate, file);
}
/** Create RuleFunction per rule and update sempreds,actions of parser
* output object with stuff found in r.
*/
public void buildRuleFunction(Parser parser, Rule r) {
RuleFunction function = rule(r);
parser.funcs.add(function);
pushCurrentRule(function);
function.fillNamedActions(delegate, r);
if ( r instanceof LeftRecursiveRule ) {
buildLeftRecursiveRuleFunction((LeftRecursiveRule)r,
(LeftRecursiveRuleFunction)function);
}
else {
buildNormalRuleFunction(r, function);
}
Grammar g = getGrammar();
for (ActionAST a : r.actions) {
if ( a instanceof PredAST ) {
PredAST p = (PredAST)a;
RuleSempredFunction rsf = parser.sempredFuncs.get(r);
if ( rsf==null ) {
rsf = new RuleSempredFunction(delegate, r, function.ctxType);
parser.sempredFuncs.put(r, rsf);
}
rsf.actions.put(g.sempreds.get(p), new Action(delegate, p));
}
}
popCurrentRule();
}
public void buildLeftRecursiveRuleFunction(LeftRecursiveRule r, LeftRecursiveRuleFunction function) {
buildNormalRuleFunction(r, function);
// now inject code to start alts
CodeGenerator gen = delegate.getGenerator();
STGroup codegenTemplates = gen.getTemplates();
// pick out alt(s) for primaries
CodeBlockForOuterMostAlt outerAlt = (CodeBlockForOuterMostAlt)function.code.get(0);
List primaryAltsCode = new ArrayList();
SrcOp primaryStuff = outerAlt.ops.get(0);
if ( primaryStuff instanceof Choice ) {
Choice primaryAltBlock = (Choice) primaryStuff;
primaryAltsCode.addAll(primaryAltBlock.alts);
}
else { // just a single alt I guess; no block
primaryAltsCode.add((CodeBlockForAlt)primaryStuff);
}
// pick out alt(s) for op alts
StarBlock opAltStarBlock = (StarBlock)outerAlt.ops.get(1);
CodeBlockForAlt altForOpAltBlock = opAltStarBlock.alts.get(0);
List opAltsCode = new ArrayList();
SrcOp opStuff = altForOpAltBlock.ops.get(0);
if ( opStuff instanceof AltBlock ) {
AltBlock opAltBlock = (AltBlock)opStuff;
opAltsCode.addAll(opAltBlock.alts);
}
else { // just a single alt I guess; no block
opAltsCode.add((CodeBlockForAlt)opStuff);
}
// Insert code in front of each primary alt to create specialized ctx if there was a label
for (int i = 0; i < primaryAltsCode.size(); i++) {
LeftRecursiveRuleAltInfo altInfo = r.recPrimaryAlts.get(i);
if ( altInfo.altLabel==null ) continue;
ST altActionST = codegenTemplates.getInstanceOf("recRuleReplaceContext");
altActionST.add("ctxName", Utils.capitalize(altInfo.altLabel));
Action altAction =
new Action(delegate, function.altLabelCtxs.get(altInfo.altLabel), altActionST);
CodeBlockForAlt alt = primaryAltsCode.get(i);
alt.insertOp(0, altAction);
}
// Insert code to set ctx.stop after primary block and before op * loop
ST setStopTokenAST = codegenTemplates.getInstanceOf("recRuleSetStopToken");
Action setStopTokenAction = new Action(delegate, function.ruleCtx, setStopTokenAST);
outerAlt.insertOp(1, setStopTokenAction);
// Insert code to set _prevctx at start of * loop
ST setPrevCtx = codegenTemplates.getInstanceOf("recRuleSetPrevCtx");
Action setPrevCtxAction = new Action(delegate, function.ruleCtx, setPrevCtx);
opAltStarBlock.addIterationOp(setPrevCtxAction);
// Insert code in front of each op alt to create specialized ctx if there was an alt label
for (int i = 0; i < opAltsCode.size(); i++) {
ST altActionST;
LeftRecursiveRuleAltInfo altInfo = r.recOpAlts.getElement(i);
String templateName;
if ( altInfo.altLabel!=null ) {
templateName = "recRuleLabeledAltStartAction";
altActionST = codegenTemplates.getInstanceOf(templateName);
altActionST.add("currentAltLabel", altInfo.altLabel);
}
else {
templateName = "recRuleAltStartAction";
altActionST = codegenTemplates.getInstanceOf(templateName);
altActionST.add("ctxName", Utils.capitalize(r.name));
}
altActionST.add("ruleName", r.name);
// add label of any lr ref we deleted
altActionST.add("label", altInfo.leftRecursiveRuleRefLabel);
if (altActionST.impl.formalArguments.containsKey("isListLabel")) {
altActionST.add("isListLabel", altInfo.isListLabel);
}
else if (altInfo.isListLabel) {
delegate.getGenerator().tool.errMgr.toolError(ErrorType.CODE_TEMPLATE_ARG_ISSUE, templateName, "isListLabel");
}
Action altAction =
new Action(delegate, function.altLabelCtxs.get(altInfo.altLabel), altActionST);
CodeBlockForAlt alt = opAltsCode.get(i);
alt.insertOp(0, altAction);
}
}
public void buildNormalRuleFunction(Rule r, RuleFunction function) {
CodeGenerator gen = delegate.getGenerator();
// TRIGGER factory functions for rule alts, elements
GrammarASTAdaptor adaptor = new GrammarASTAdaptor(r.ast.token.getInputStream());
GrammarAST blk = (GrammarAST)r.ast.getFirstChildWithType(ANTLRParser.BLOCK);
CommonTreeNodeStream nodes = new CommonTreeNodeStream(adaptor,blk);
walker = new SourceGenTriggers(nodes, this);
try {
// walk AST of rule alts/elements
function.code = DefaultOutputModelFactory.list(walker.block(null, null));
function.hasLookaheadBlock = walker.hasLookaheadBlock;
}
catch (org.antlr.runtime.RecognitionException e){
e.printStackTrace(System.err);
}
function.ctxType = gen.getTarget().getRuleFunctionContextStructName(function);
function.postamble = rulePostamble(function, r);
}
public void buildLexerRuleActions(Lexer lexer, final Rule r) {
if (r.actions.isEmpty()) {
return;
}
CodeGenerator gen = delegate.getGenerator();
Grammar g = delegate.getGrammar();
String ctxType = gen.getTarget().getRuleFunctionContextStructName(r);
RuleActionFunction raf = lexer.actionFuncs.get(r);
if ( raf==null ) {
raf = new RuleActionFunction(delegate, r, ctxType);
}
for (ActionAST a : r.actions) {
if ( a instanceof PredAST ) {
PredAST p = (PredAST)a;
RuleSempredFunction rsf = lexer.sempredFuncs.get(r);
if ( rsf==null ) {
rsf = new RuleSempredFunction(delegate, r, ctxType);
lexer.sempredFuncs.put(r, rsf);
}
rsf.actions.put(g.sempreds.get(p), new Action(delegate, p));
}
else if ( a.getType()== ANTLRParser.ACTION ) {
raf.actions.put(g.lexerActions.get(a), new Action(delegate, a));
}
}
if (!raf.actions.isEmpty() && !lexer.actionFuncs.containsKey(r)) {
// only add to lexer if the function actually contains actions
lexer.actionFuncs.put(r, raf);
}
}
public RuleFunction rule(Rule r) {
RuleFunction rf = delegate.rule(r);
for (CodeGeneratorExtension ext : extensions) rf = ext.rule(rf);
return rf;
}
public List rulePostamble(RuleFunction function, Rule r) {
List ops = delegate.rulePostamble(function, r);
for (CodeGeneratorExtension ext : extensions) ops = ext.rulePostamble(ops);
return ops;
}
public Grammar getGrammar() { return delegate.getGrammar(); }
public CodeGenerator getGenerator() { return delegate.getGenerator(); }
public CodeBlockForAlt alternative(Alternative alt, boolean outerMost) {
CodeBlockForAlt blk = delegate.alternative(alt, outerMost);
if ( outerMost ) {
currentOuterMostAlternativeBlock = (CodeBlockForOuterMostAlt)blk;
}
for (CodeGeneratorExtension ext : extensions) blk = ext.alternative(blk, outerMost);
return blk;
}
public CodeBlockForAlt finishAlternative(CodeBlockForAlt blk, List ops,
boolean outerMost)
{
blk = delegate.finishAlternative(blk, ops);
for (CodeGeneratorExtension ext : extensions) blk = ext.finishAlternative(blk, outerMost);
return blk;
}
public List ruleRef(GrammarAST ID, GrammarAST label, GrammarAST args) {
List ops = delegate.ruleRef(ID, label, args);
for (CodeGeneratorExtension ext : extensions) {
ops = ext.ruleRef(ops);
}
return ops;
}
public List tokenRef(GrammarAST ID, GrammarAST label, GrammarAST args)
{
List ops = delegate.tokenRef(ID, label, args);
for (CodeGeneratorExtension ext : extensions) {
ops = ext.tokenRef(ops);
}
return ops;
}
public List stringRef(GrammarAST ID, GrammarAST label) {
List ops = delegate.stringRef(ID, label);
for (CodeGeneratorExtension ext : extensions) {
ops = ext.stringRef(ops);
}
return ops;
}
/** (A|B|C) possibly with ebnfRoot and label */
public List set(GrammarAST setAST, GrammarAST labelAST, boolean invert) {
List ops = delegate.set(setAST, labelAST, invert);
for (CodeGeneratorExtension ext : extensions) {
ops = ext.set(ops);
}
return ops;
}
public CodeBlockForAlt epsilon(Alternative alt, boolean outerMost) {
CodeBlockForAlt blk = delegate.epsilon(alt, outerMost);
for (CodeGeneratorExtension ext : extensions) blk = ext.epsilon(blk);
return blk;
}
public List wildcard(GrammarAST ast, GrammarAST labelAST) {
List ops = delegate.wildcard(ast, labelAST);
for (CodeGeneratorExtension ext : extensions) {
ops = ext.set(ops);
}
return ops;
}
public List action(ActionAST ast) {
List ops = delegate.action(ast);
for (CodeGeneratorExtension ext : extensions) ops = ext.action(ops);
return ops;
}
public List sempred(ActionAST ast) {
List ops = delegate.sempred(ast);
for (CodeGeneratorExtension ext : extensions) ops = ext.sempred(ops);
return ops;
}
public Choice getChoiceBlock(BlockAST blkAST, List alts, GrammarAST label) {
Choice c = delegate.getChoiceBlock(blkAST, alts, label);
for (CodeGeneratorExtension ext : extensions) c = ext.getChoiceBlock(c);
return c;
}
public Choice getEBNFBlock(GrammarAST ebnfRoot, List alts) {
Choice c = delegate.getEBNFBlock(ebnfRoot, alts);
for (CodeGeneratorExtension ext : extensions) c = ext.getEBNFBlock(c);
return c;
}
public boolean needsImplicitLabel(GrammarAST ID, LabeledOp op) {
boolean needs = delegate.needsImplicitLabel(ID, op);
for (CodeGeneratorExtension ext : extensions) needs |= ext.needsImplicitLabel(ID, op);
return needs;
}
public OutputModelObject getRoot() { return root; }
public void setRoot(OutputModelObject root) { this.root = root; }
public RuleFunction getCurrentRuleFunction() {
if ( !currentRule.isEmpty() ) return currentRule.peek();
return null;
}
public void pushCurrentRule(RuleFunction r) { currentRule.push(r); }
public RuleFunction popCurrentRule() {
if ( !currentRule.isEmpty() ) return currentRule.pop();
return null;
}
public Alternative getCurrentOuterMostAlt() { return currentOuterMostAlt; }
public void setCurrentOuterMostAlt(Alternative currentOuterMostAlt) { this.currentOuterMostAlt = currentOuterMostAlt; }
public void setCurrentBlock(CodeBlock blk) {
currentBlock = blk;
}
public CodeBlock getCurrentBlock() {
return currentBlock;
}
public void setCurrentOuterMostAlternativeBlock(CodeBlockForOuterMostAlt currentOuterMostAlternativeBlock) {
this.currentOuterMostAlternativeBlock = currentOuterMostAlternativeBlock;
}
public CodeBlockForOuterMostAlt getCurrentOuterMostAlternativeBlock() {
return currentOuterMostAlternativeBlock;
}
public int getCodeBlockLevel() { return codeBlockLevel; }
}
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