Ejemplo n.º 1
0
  protected static Object[] extractMockArguments(Object[] args) {
    int i = 7;

    if (args.length > i) {
      Object[] mockArgs = new Object[args.length - i];
      System.arraycopy(args, i, mockArgs, 0, mockArgs.length);
      return mockArgs;
    }

    return EMPTY_ARGS;
  }
Ejemplo n.º 2
0
  @Override
  public void write(int ireg, byte[] data, boolean waitForCompletion) {
    try {
      synchronized (this.concurrentClientLock) {
        synchronized (this.callbackLock) {
          // Wait until we can write to the write cache
          while (this.writeCacheStatus != WRITE_CACHE_STATUS.IDLE) {
            this.callbackLock.wait();
          }

          // Indicate where we want to write
          this.iregWriteFirst = ireg;
          this.cregWrite = data.length;

          // Indicate we are dirty so the callback will write us out
          this.writeCacheStatus = WRITE_CACHE_STATUS.DIRTY;

          // Provide the data we want to write
          this.writeCacheLock.lockInterruptibly();
          try {
            System.arraycopy(data, 0, this.writeCache, dibCacheOverhead, data.length);
          } finally {
            this.writeCacheLock.unlock();
          }

          // Let the callback know we've got new data for him
          this.callback.onNewDataToWrite();

          if (waitForCompletion) {
            // Wait until the write at least issues to the device controller. This will
            // help make any delays/sleeps that follow a write() be more deterministically
            // relative to the actual I2C device write.
            while (writeCacheStatus != WRITE_CACHE_STATUS.IDLE) {
              this.callbackLock.wait();
            }
          }
        }
      }
    } catch (InterruptedException e) {
      Util.handleCapturedInterrupt(e);
    }
  }