/**
   * Bytecode generation for a method
   *
   * @param classScope
   * @param classFile
   */
  public void generateCode(ClassScope classScope, ClassFile classFile) {

    int problemResetPC = 0;
    classFile.codeStream.wideMode = false; // reset wideMode to false
    if (this.ignoreFurtherInvestigation) {
      // method is known to have errors, dump a problem method
      if (this.binding == null) return; // handle methods with invalid signature or duplicates
      int problemsLength;
      CategorizedProblem[] problems =
          this.scope.referenceCompilationUnit().compilationResult.getProblems();
      CategorizedProblem[] problemsCopy = new CategorizedProblem[problemsLength = problems.length];
      System.arraycopy(problems, 0, problemsCopy, 0, problemsLength);
      classFile.addProblemMethod(this, this.binding, problemsCopy);
      return;
    }
    boolean restart = false;
    boolean abort = false;
    // regular code generation
    do {
      try {
        problemResetPC = classFile.contentsOffset;
        this.generateCode(classFile);
        restart = false;
      } catch (AbortMethod e) {
        // a fatal error was detected during code generation, need to restart code gen if possible
        if (e.compilationResult == CodeStream.RESTART_IN_WIDE_MODE) {
          // a branch target required a goto_w, restart code gen in wide mode.
          classFile.contentsOffset = problemResetPC;
          classFile.methodCount--;
          classFile.codeStream.resetInWideMode(); // request wide mode
          restart = true;
        } else if (e.compilationResult == CodeStream.RESTART_CODE_GEN_FOR_UNUSED_LOCALS_MODE) {
          classFile.contentsOffset = problemResetPC;
          classFile.methodCount--;
          classFile.codeStream.resetForCodeGenUnusedLocals();
          restart = true;
        } else {
          restart = false;
          abort = true;
        }
      }
    } while (restart);
    // produce a problem method accounting for this fatal error
    if (abort) {
      int problemsLength;
      CategorizedProblem[] problems =
          this.scope.referenceCompilationUnit().compilationResult.getAllProblems();
      CategorizedProblem[] problemsCopy = new CategorizedProblem[problemsLength = problems.length];
      System.arraycopy(problems, 0, problemsCopy, 0, problemsLength);
      classFile.addProblemMethod(this, this.binding, problemsCopy, problemResetPC);
    }
  }
Ejemplo n.º 2
0
 protected void processAnnotations() {
   int newUnitSize = 0;
   int newClassFilesSize = 0;
   int bottom = this.annotationProcessorStartIndex;
   int top = this.totalUnits;
   ReferenceBinding[] binaryTypeBindingsTemp = this.referenceBindings;
   if (top == 0 && binaryTypeBindingsTemp == null) return;
   this.referenceBindings = null;
   do {
     // extract units to process
     int length = top - bottom;
     CompilationUnitDeclaration[] currentUnits = new CompilationUnitDeclaration[length];
     int index = 0;
     for (int i = bottom; i < top; i++) {
       CompilationUnitDeclaration currentUnit = this.unitsToProcess[i];
       if ((currentUnit.bits & ASTNode.IsImplicitUnit) == 0) {
         currentUnits[index++] = currentUnit;
       }
     }
     if (index != length) {
       System.arraycopy(
           currentUnits, 0, (currentUnits = new CompilationUnitDeclaration[index]), 0, index);
     }
     this.annotationProcessorManager.processAnnotations(
         currentUnits, binaryTypeBindingsTemp, false);
     ICompilationUnit[] newUnits = this.annotationProcessorManager.getNewUnits();
     newUnitSize = newUnits.length;
     ReferenceBinding[] newClassFiles = this.annotationProcessorManager.getNewClassFiles();
     binaryTypeBindingsTemp = newClassFiles;
     newClassFilesSize = newClassFiles.length;
     if (newUnitSize != 0) {
       ICompilationUnit[] newProcessedUnits =
           (ICompilationUnit[])
               newUnits.clone(); // remember new units in case a source type collision occurs
       try {
         this.lookupEnvironment.isProcessingAnnotations = true;
         internalBeginToCompile(newUnits, newUnitSize);
       } catch (SourceTypeCollisionException e) {
         e.newAnnotationProcessorUnits = newProcessedUnits;
         throw e;
       } finally {
         this.lookupEnvironment.isProcessingAnnotations = false;
         this.annotationProcessorManager.reset();
       }
       bottom = top;
       top = this.totalUnits; // last unit added
     } else {
       bottom = top;
       this.annotationProcessorManager.reset();
     }
   } while (newUnitSize != 0 || newClassFilesSize != 0);
   // one more loop to create possible resources
   // this loop cannot create any java source files
   this.annotationProcessorManager.processAnnotations(null, null, true);
   // TODO we might want to check if this loop created new units
 }
Ejemplo n.º 3
0
  protected synchronized void addCompilationUnit(
      ICompilationUnit sourceUnit, CompilationUnitDeclaration parsedUnit) {

    // append the unit to the list of ones to process later on
    int size = this.unitsToProcess.length;
    if (this.totalUnits == size)
      // when growing reposition units starting at position 0
      System.arraycopy(
          this.unitsToProcess,
          0,
          (this.unitsToProcess = new CompilationUnitDeclaration[size * 2]),
          0,
          this.totalUnits);
    this.unitsToProcess[this.totalUnits++] = parsedUnit;
  }
Ejemplo n.º 4
0
  /**
   * General API -> compile each of supplied files -> recompile any required types for which we have
   * an incomplete principle structure
   */
  public void compile(ICompilationUnit[] sourceUnits) {
    this.stats.startTime = System.currentTimeMillis();
    // GROOVY start
    // sort the sourceUnits - java first! might be temporary, hmmm
    if (this.options.buildGroovyFiles == 2) {
      int groovyFileIndex = -1;
      //			System.out.println("before");
      //			for (int u=0,max=sourceUnits.length;u<max;u++) {
      //				System.out.println(sourceUnits[u].getFileName());
      //			}
      for (int u = 0, max = sourceUnits.length; u < max; u++) {
        char[] fn = sourceUnits[u].getFileName();
        boolean isDotJava = fn[fn.length - 1] == 'a'; // a means .java
        if (isDotJava) {
          if (groovyFileIndex != -1) {
            // swap them!
            ICompilationUnit swap = sourceUnits[groovyFileIndex];
            sourceUnits[groovyFileIndex] = sourceUnits[u];
            sourceUnits[u] = swap;
            // find the next .groovy file after the groovyFileIndex (worst case it will be 'u')
            int newGroovyFileIndex = -1;
            for (int g = groovyFileIndex; g <= u; g++) {
              char[] fn2 = sourceUnits[g].getFileName();
              boolean isDotGroovy = fn2[fn2.length - 1] == 'm'; // ZALUUM
              if (isDotGroovy) {
                newGroovyFileIndex = g;
                break;
              }
            }
            groovyFileIndex = newGroovyFileIndex;
          }
        } else {
          if (groovyFileIndex == -1) {
            groovyFileIndex = u;
          }
        }
      }
      //			System.out.println("after");
      //			for (int u=0,max=sourceUnits.length;u<max;u++) {
      //				System.out.println(sourceUnits[u].getFileName());
      //			}
    }
    // GROOVY end
    CompilationUnitDeclaration unit = null;
    ProcessTaskManager processingTask = null;
    try {
      // build and record parsed units
      reportProgress(Messages.compilation_beginningToCompile);

      if (this.annotationProcessorManager == null) {
        beginToCompile(sourceUnits);
      } else {
        ICompilationUnit[] originalUnits =
            (ICompilationUnit[])
                sourceUnits.clone(); // remember source units in case a source type collision occurs
        try {
          beginToCompile(sourceUnits);

          processAnnotations();
          if (!this.options.generateClassFiles) {
            // -proc:only was set on the command line
            return;
          }
        } catch (SourceTypeCollisionException e) {
          reset();
          // a generated type was referenced before it was created
          // the compiler either created a MissingType or found a BinaryType for it
          // so add the processor's generated files & start over,
          // but remember to only pass the generated files to the annotation processor
          int originalLength = originalUnits.length;
          int newProcessedLength = e.newAnnotationProcessorUnits.length;
          ICompilationUnit[] combinedUnits =
              new ICompilationUnit[originalLength + newProcessedLength];
          System.arraycopy(originalUnits, 0, combinedUnits, 0, originalLength);
          System.arraycopy(
              e.newAnnotationProcessorUnits, 0, combinedUnits, originalLength, newProcessedLength);
          this.annotationProcessorStartIndex = originalLength;
          compile(combinedUnits);
          return;
        }
      }

      if (this.useSingleThread) {
        // process all units (some more could be injected in the loop by the lookup environment)
        for (int i = 0; i < this.totalUnits; i++) {
          unit = this.unitsToProcess[i];
          reportProgress(
              Messages.bind(Messages.compilation_processing, new String(unit.getFileName())));
          try {
            if (this.options.verbose)
              this.out.println(
                  Messages.bind(
                      Messages.compilation_process,
                      new String[] {
                        String.valueOf(i + 1),
                        String.valueOf(this.totalUnits),
                        new String(this.unitsToProcess[i].getFileName())
                      }));
            process(unit, i);
          } finally {
            // cleanup compilation unit result
            unit.cleanUp();
          }
          this.unitsToProcess[i] = null; // release reference to processed unit declaration

          reportWorked(1, i);
          this.stats.lineCount += unit.compilationResult.lineSeparatorPositions.length;
          long acceptStart = System.currentTimeMillis();
          this.requestor.acceptResult(unit.compilationResult.tagAsAccepted());
          this.stats.generateTime +=
              System.currentTimeMillis() - acceptStart; // record accept time as part of generation
          if (this.options.verbose)
            this.out.println(
                Messages.bind(
                    Messages.compilation_done,
                    new String[] {
                      String.valueOf(i + 1),
                      String.valueOf(this.totalUnits),
                      new String(unit.getFileName())
                    }));
        }
      } else {
        processingTask = new ProcessTaskManager(this);
        int acceptedCount = 0;
        // process all units (some more could be injected in the loop by the lookup environment)
        // the processTask can continue to process units until its fixed sized cache is full then it
        // must wait
        // for this this thread to accept the units as they appear (it only waits if no units are
        // available)
        while (true) {
          try {
            unit = processingTask.removeNextUnit(); // waits if no units are in the processed queue
          } catch (Error e) {
            unit = processingTask.unitToProcess;
            throw e;
          } catch (RuntimeException e) {
            unit = processingTask.unitToProcess;
            throw e;
          }
          if (unit == null) break;
          reportWorked(1, acceptedCount++);
          this.stats.lineCount += unit.compilationResult.lineSeparatorPositions.length;
          this.requestor.acceptResult(unit.compilationResult.tagAsAccepted());
          if (this.options.verbose)
            this.out.println(
                Messages.bind(
                    Messages.compilation_done,
                    new String[] {
                      String.valueOf(acceptedCount),
                      String.valueOf(this.totalUnits),
                      new String(unit.getFileName())
                    }));
        }
      }
    } catch (AbortCompilation e) {
      this.handleInternalException(e, unit);
    } catch (Error e) {
      this.handleInternalException(e, unit, null);
      throw e; // rethrow
    } catch (RuntimeException e) {
      this.handleInternalException(e, unit, null);
      throw e; // rethrow
    } finally {
      if (processingTask != null) {
        processingTask.shutdown();
        processingTask = null;
      }
      reset();
      this.annotationProcessorStartIndex = 0;
      this.stats.endTime = System.currentTimeMillis();
    }
    if (this.options.verbose) {
      if (this.totalUnits > 1) {
        this.out.println(
            Messages.bind(Messages.compilation_units, String.valueOf(this.totalUnits)));
      } else {
        this.out.println(Messages.bind(Messages.compilation_unit, String.valueOf(this.totalUnits)));
      }
    }
  }