def stateless_random_uniform(shape, seed, minval=0, maxval=None, dtype=dtypes.float32, name=None): """Outputs deterministic pseudorandom values from a uniform distribution. This is a stateless version of `tf.random.uniform`: if run twice with the same seeds, it will produce the same pseudorandom numbers. The output is consistent across multiple runs on the same hardware (and between CPU and GPU), but may change between versions of TensorFlow or on non-CPU/GPU hardware. The generated values follow a uniform distribution in the range `[minval, maxval)`. The lower bound `minval` is included in the range, while the upper bound `maxval` is excluded. For floats, the default range is `[0, 1)`. For ints, at least `maxval` must be specified explicitly. In the integer case, the random integers are slightly biased unless `maxval - minval` is an exact power of two. The bias is small for values of `maxval - minval` significantly smaller than the range of the output (either `2**32` or `2**64`). Args: shape: A 1-D integer Tensor or Python array. The shape of the output tensor. seed: A shape [2] integer Tensor of seeds to the random number generator. minval: A 0-D Tensor or Python value of type `dtype`. The lower bound on the range of random values to generate. Defaults to 0. maxval: A 0-D Tensor or Python value of type `dtype`. The upper bound on the range of random values to generate. Defaults to 1 if `dtype` is floating point. dtype: The type of the output: `float16`, `float32`, `float64`, `int32`, or `int64`. name: A name for the operation (optional). Returns: A tensor of the specified shape filled with random uniform values. Raises: ValueError: If `dtype` is integral and `maxval` is not specified. """ dtype = dtypes.as_dtype(dtype) if dtype not in (dtypes.float16, dtypes.bfloat16, dtypes.float32, dtypes.float64, dtypes.int32, dtypes.int64): raise ValueError("Invalid dtype %r" % dtype) if maxval is None: if dtype.is_integer: raise ValueError("Must specify maxval for integer dtype %r" % dtype) maxval = 1 with ops.name_scope(name, "stateless_random_uniform", [shape, seed, minval, maxval]) as name: shape = random_ops._ShapeTensor(shape) # pylint: disable=protected-access minval = ops.convert_to_tensor(minval, dtype=dtype, name="min") maxval = ops.convert_to_tensor(maxval, dtype=dtype, name="max") if dtype.is_integer: return gen_stateless_random_ops.stateless_random_uniform_int( shape, seed=seed, minval=minval, maxval=maxval, name=name) else: rnd = gen_stateless_random_ops.stateless_random_uniform( shape, seed=seed, dtype=dtype) return math_ops.add(rnd * (maxval - minval), minval, name=name)
def stateless_random_uniform(shape, seed, minval=0, maxval=None, dtype=dtypes.float32, name=None): """Outputs deterministic pseudorandom values from a uniform distribution. This is a stateless version of `tf.random.uniform`: if run twice with the same seeds, it will produce the same pseudorandom numbers. The output is consistent across multiple runs on the same hardware (and between CPU and GPU), but may change between versions of TensorFlow or on non-CPU/GPU hardware. The generated values follow a uniform distribution in the range `[minval, maxval)`. The lower bound `minval` is included in the range, while the upper bound `maxval` is excluded. For floats, the default range is `[0, 1)`. For ints, at least `maxval` must be specified explicitly. In the integer case, the random integers are slightly biased unless `maxval - minval` is an exact power of two. The bias is small for values of `maxval - minval` significantly smaller than the range of the output (either `2**32` or `2**64`). For full-range (i.e. inclusive of both max and min) random integers, pass `minval=None` and `maxval=None` with an integer `dtype`. For an integer dtype either both `minval` and `maxval` must be `None` or neither may be `None`. For example: ```python ints = tf.random.stateless_uniform( [10], seed=(2, 3), minval=None, maxval=None, dtype=tf.int32) ``` Args: shape: A 1-D integer Tensor or Python array. The shape of the output tensor. seed: A shape [2] Tensor, the seed to the random number generator. Must have dtype `int32` or `int64`. (When using XLA, only `int32` is allowed.) minval: A Tensor or Python value of type `dtype`, broadcastable with `shape` (for integer types, broadcasting is not supported, so it needs to be a scalar). The lower bound on the range of random values to generate. Pass `None` for full-range integers. Defaults to 0. maxval: A Tensor or Python value of type `dtype`, broadcastable with `shape` (for integer types, broadcasting is not supported, so it needs to be a scalar). The upper bound on the range of random values to generate. Defaults to 1 if `dtype` is floating point. Pass `None` for full-range integers. dtype: The type of the output: `float16`, `float32`, `float64`, `int32`, or `int64`. For unbounded uniform ints (`minval`, `maxval` both `None`), `uint32` and `uint64` may be used. name: A name for the operation (optional). Returns: A tensor of the specified shape filled with random uniform values. Raises: ValueError: If `dtype` is integral and only one of `minval` or `maxval` is specified. """ dtype = dtypes.as_dtype(dtype) if dtype not in (dtypes.float16, dtypes.bfloat16, dtypes.float32, dtypes.float64, dtypes.int32, dtypes.int64, dtypes.uint32, dtypes.uint64): raise ValueError("Invalid dtype %r" % dtype) if dtype.is_integer: if (minval is None) != (maxval is None): raise ValueError("For integer dtype {}, minval and maxval must be both " "`None` or both non-`None`.".format(dtype)) if minval is not None and dtype in (dtypes.uint32, dtypes.uint64): raise ValueError("Invalid dtype for bounded uniform integers: %r" % dtype) elif maxval is None: maxval = 1 with ops.name_scope(name, "stateless_random_uniform", [shape, seed, minval, maxval]) as name: shape = tensor_util.shape_tensor(shape) if dtype.is_integer and minval is None: result = gen_stateless_random_ops.stateless_random_uniform_full_int( shape, seed=seed, dtype=dtype, name=name) else: minval = ops.convert_to_tensor(minval, dtype=dtype, name="min") maxval = ops.convert_to_tensor(maxval, dtype=dtype, name="max") if dtype.is_integer: result = gen_stateless_random_ops.stateless_random_uniform_int( shape, seed=seed, minval=minval, maxval=maxval, name=name) else: rnd = gen_stateless_random_ops.stateless_random_uniform( shape, seed=seed, dtype=dtype) result = math_ops.add(rnd * (maxval - minval), minval, name=name) tensor_util.maybe_set_static_shape(result, shape) return result
def stateless_random_uniform(shape, seed, minval=0, maxval=None, dtype=dtypes.float32, name=None): """Outputs deterministic pseudorandom values from a uniform distribution. This is a stateless version of `tf.random.uniform`: if run twice with the same seeds, it will produce the same pseudorandom numbers. The output is consistent across multiple runs on the same hardware (and between CPU and GPU), but may change between versions of TensorFlow or on non-CPU/GPU hardware. The generated values follow a uniform distribution in the range `[minval, maxval)`. The lower bound `minval` is included in the range, while the upper bound `maxval` is excluded. For floats, the default range is `[0, 1)`. For ints, at least `maxval` must be specified explicitly. In the integer case, the random integers are slightly biased unless `maxval - minval` is an exact power of two. The bias is small for values of `maxval - minval` significantly smaller than the range of the output (either `2**32` or `2**64`). Args: shape: A 1-D integer Tensor or Python array. The shape of the output tensor. seed: A shape [2] integer Tensor of seeds to the random number generator. minval: A 0-D Tensor or Python value of type `dtype`. The lower bound on the range of random values to generate. Defaults to 0. maxval: A 0-D Tensor or Python value of type `dtype`. The upper bound on the range of random values to generate. Defaults to 1 if `dtype` is floating point. dtype: The type of the output: `float16`, `float32`, `float64`, `int32`, or `int64`. name: A name for the operation (optional). Returns: A tensor of the specified shape filled with random uniform values. Raises: ValueError: If `dtype` is integral and `maxval` is not specified. """ dtype = dtypes.as_dtype(dtype) if dtype not in (dtypes.float16, dtypes.bfloat16, dtypes.float32, dtypes.float64, dtypes.int32, dtypes.int64): raise ValueError("Invalid dtype %r" % dtype) if maxval is None: if dtype.is_integer: raise ValueError("Must specify maxval for integer dtype %r" % dtype) maxval = 1 with ops.name_scope(name, "stateless_random_uniform", [shape, seed, minval, maxval]) as name: shape = random_ops._ShapeTensor(shape) # pylint: disable=protected-access minval = ops.convert_to_tensor(minval, dtype=dtype, name="min") maxval = ops.convert_to_tensor(maxval, dtype=dtype, name="max") if dtype.is_integer: return gen_stateless_random_ops.stateless_random_uniform_int( shape, seed=seed, minval=minval, maxval=maxval, name=name) else: rnd = gen_stateless_random_ops.stateless_random_uniform( shape, seed=seed, dtype=dtype) return math_ops.add(rnd * (maxval - minval), minval, name=name)