def encode(self, input_buf, params = {}): input_buf = databuffer.DataBuffer(input_buf) output_buf = databuffer.DataBuffer() keys = list(params.keys()) param_buf = (core.BNTransformParameter * len(keys))() for i in range(0, len(keys)): data = databuffer.DataBuffer(params[keys[i]]) param_buf[i].name = keys[i] param_buf[i].value = data.handle if not core.BNEncode(self.handle, input_buf.handle, output_buf.handle, param_buf, len(keys)): return None return str(output_buf)
def encode(self, input_buf, params = {}): if isinstance(input_buf, int) or isinstance(input_buf, numbers.Integral): return None input_buf = databuffer.DataBuffer(input_buf) output_buf = databuffer.DataBuffer() keys = list(params.keys()) param_buf = (core.BNTransformParameter * len(keys))() data = [] for i in range(0, len(keys)): data.append(databuffer.DataBuffer(params[keys[i]])) param_buf[i].name = keys[i] param_buf[i].value = data[i].handle if not core.BNEncode(self.handle, input_buf.handle, output_buf.handle, param_buf, len(keys)): return None return bytes(output_buf)
def _encode(self, ctxt, input_buf, output_buf, params, count): try: input_obj = databuffer.DataBuffer(handle = core.BNDuplicateDataBuffer(input_buf)) param_map = {} for i in range(0, count): data = databuffer.DataBuffer(handle = core.BNDuplicateDataBuffer(params[i].value)) param_map[params[i].name] = str(data) result = self.perform_encode(str(input_obj), param_map) if result is None: return False result = str(result) core.BNSetDataBufferContents(output_buf, result, len(result)) return True except: log.log_error(traceback.format_exc()) return False