package org.jruby.ir;

import org.jruby.ParseResult;
import org.jruby.Ruby;
import org.jruby.RubyInstanceConfig;
import org.jruby.ast.RootNode;
import org.jruby.ir.interpreter.InterpreterContext;
import org.jruby.ir.persistence.IRWriter;
import org.jruby.ir.persistence.IRWriterStream;
import org.jruby.ir.persistence.util.IRFileExpert;

import java.io.IOException;

Abstract class that contains general logic for both IR Compiler and IR Interpreter
Type parameters:
  • <R> – type of returned object by translator
  • <S> – type of specific for translator object
/** * Abstract class that contains general logic for both IR Compiler and IR Interpreter * * @param <R> type of returned object by translator * @param <S> type of specific for translator object */
public abstract class IRTranslator<R, S> { public R execute(Ruby runtime, ParseResult result, S specificObject) { IRScriptBody scope = null; if (result instanceof IRScriptBody) { // Already have it (likely from read from persistent store). scope = (IRScriptBody) result; } else if (result instanceof RootNode) { // Need to perform create IR from AST // FIXME: In terms of writing and reading we should emit enough to rebuild IC + minimal IRScope state InterpreterContext ic = IRBuilder.buildRoot(runtime.getIRManager(), (RootNode) result); scope = (IRScriptBody) ic.getScope(); scope.setScriptDynamicScope(((RootNode) result).getScope()); if (RubyInstanceConfig.IR_WRITING) { try { IRWriter.persist(new IRWriterStream(IRFileExpert.getIRPersistedFile(scope.getFileName())), scope); } catch (IOException ex) { ex.printStackTrace(); // FIXME: Handle errors better return null; } } } return execute(runtime, scope, specificObject); } protected abstract R execute(Ruby runtime, IRScriptBody producedIrScope, S specificObject); }