本文整理汇总了Python中tensorflow.python.ops.gen_image_ops.hsv_to_rgb函数的典型用法代码示例。如果您正苦于以下问题:Python hsv_to_rgb函数的具体用法?Python hsv_to_rgb怎么用?Python hsv_to_rgb使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了hsv_to_rgb函数的6个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的Python代码示例。
示例1: adjust_hue
def adjust_hue(image, delta, name=None):
"""Adjust hue of an RGB image.
This is a convenience method that converts an RGB image to float
representation, converts it to HSV, add an offset to the hue channel, converts
back to RGB and then back to the original data type. If several adjustments
are chained it is advisable to minimize the number of redundant conversions.
`image` is an RGB image. The image hue is adjusted by converting the
image to HSV and rotating the hue channel (H) by
`delta`. The image is then converted back to RGB.
`delta` must be in the interval `[-1, 1]`.
Args:
image: RGB image or images. Size of the last dimension must be 3.
delta: float. How much to add to the hue channel.
name: A name for this operation (optional).
Returns:
Adjusted image(s), same shape and DType as `image`.
"""
with ops.name_scope(name, 'adjust_hue', [image]) as name:
image = ops.convert_to_tensor(image, name='image')
# Remember original dtype to so we can convert back if needed
orig_dtype = image.dtype
flt_image = convert_image_dtype(image, dtypes.float32)
# TODO(zhengxq): we will switch to the fused version after we add a GPU
# kernel for that.
fused = os.environ.get('TF_ADJUST_HUE_FUSED', '')
fused = fused.lower() in ('true', 't', '1')
if not fused:
hsv = gen_image_ops.rgb_to_hsv(flt_image)
hue = array_ops.slice(hsv, [0, 0, 0], [-1, -1, 1])
saturation = array_ops.slice(hsv, [0, 0, 1], [-1, -1, 1])
value = array_ops.slice(hsv, [0, 0, 2], [-1, -1, 1])
# Note that we add 2*pi to guarantee that the resulting hue is a positive
# floating point number since delta is [-0.5, 0.5].
hue = math_ops.mod(hue + (delta + 1.), 1.)
hsv_altered = array_ops.concat_v2([hue, saturation, value], 2)
rgb_altered = gen_image_ops.hsv_to_rgb(hsv_altered)
else:
rgb_altered = gen_image_ops.adjust_hue(flt_image, delta)
return convert_image_dtype(rgb_altered, orig_dtype)
开发者ID:kdavis-mozilla,项目名称:tensorflow,代码行数:50,代码来源:image_ops_impl.py
示例2: adjust_saturation
def adjust_saturation(image, saturation_factor, name=None):
"""Adjust saturation of an RGB image.
This is a convenience method that converts an RGB image to float
representation, converts it to HSV, add an offset to the saturation channel,
converts back to RGB and then back to the original data type. If several
adjustments are chained it is advisable to minimize the number of redundant
conversions.
`image` is an RGB image. The image saturation is adjusted by converting the
image to HSV and multiplying the saturation (S) channel by
`saturation_factor` and clipping. The image is then converted back to RGB.
Args:
image: RGB image or images. Size of the last dimension must be 3.
saturation_factor: float. Factor to multiply the saturation by.
name: A name for this operation (optional).
Returns:
Adjusted image(s), same shape and DType as `image`.
"""
with ops.name_scope(name, 'adjust_saturation', [image]) as name:
image = ops.convert_to_tensor(image, name='image')
# Remember original dtype to so we can convert back if needed
orig_dtype = image.dtype
flt_image = convert_image_dtype(image, dtypes.float32)
# TODO(zhengxq): we will switch to the fused version after we add a GPU
# kernel for that.
fused = os.environ.get('TF_ADJUST_SATURATION_FUSED', '')
fused = fused.lower() in ('true', 't', '1')
if fused:
return convert_image_dtype(
gen_image_ops.adjust_saturation(flt_image, saturation_factor),
orig_dtype)
hsv = gen_image_ops.rgb_to_hsv(flt_image)
hue = array_ops.slice(hsv, [0, 0, 0], [-1, -1, 1])
saturation = array_ops.slice(hsv, [0, 0, 1], [-1, -1, 1])
value = array_ops.slice(hsv, [0, 0, 2], [-1, -1, 1])
saturation *= saturation_factor
saturation = clip_ops.clip_by_value(saturation, 0.0, 1.0)
hsv_altered = array_ops.concat([hue, saturation, value], 2)
rgb_altered = gen_image_ops.hsv_to_rgb(hsv_altered)
return convert_image_dtype(rgb_altered, orig_dtype)
开发者ID:duzy,项目名称:tensorflow,代码行数:50,代码来源:image_ops_impl.py
示例3: adjust_saturation
def adjust_saturation(image, saturation_factor, name=None):
with ops.op_scope([image], name, 'adjust_saturation') as name:
# Remember original dtype to so we can convert back if needed
orig_dtype = image.dtype
flt_image = tf.image.convert_image_dtype(image, tf.float32)
hsv = gen_image_ops.rgb_to_hsv(flt_image)
hue = tf.slice(hsv, [0, 0, 0, 0], [-1, -1, -1, 1])
saturation = tf.slice(hsv, [0, 0, 0, 1], [-1, -1, -1, 1])
value = tf.slice(hsv, [0, 0, 0, 2], [-1, -1, -1, 1])
saturation *= saturation_factor
saturation = clip_ops.clip_by_value(saturation, 0.0, 1.0)
hsv_altered = tf.concat(3, [hue, saturation, value])
rgb_altered = gen_image_ops.hsv_to_rgb(hsv_altered)
return tf.image.convert_image_dtype(rgb_altered, orig_dtype)
开发者ID:ziyu-zhang,项目名称:tfplus,代码行数:19,代码来源:rnd_trans.py
示例4: adjust_hue
def adjust_hue(image, delta, name=None):
with ops.op_scope([image], name, 'adjust_hue') as name:
# Remember original dtype to so we can convert back if needed
orig_dtype = image.dtype
flt_image = tf.image.convert_image_dtype(image, tf.float32)
hsv = gen_image_ops.rgb_to_hsv(flt_image)
hue = tf.slice(hsv, [0, 0, 0, 0], [-1, -1, -1, 1])
saturation = tf.slice(hsv, [0, 0, 0, 1], [-1, -1, -1, 1])
value = tf.slice(hsv, [0, 0, 0, 2], [-1, -1, -1, 1])
# Note that we add 2*pi to guarantee that the resulting hue is a positive
# floating point number since delta is [-0.5, 0.5].
hue = math_ops.mod(hue + (delta + 1.), 1.)
hsv_altered = tf.concat(3, [hue, saturation, value])
rgb_altered = gen_image_ops.hsv_to_rgb(hsv_altered)
return tf.image.convert_image_dtype(rgb_altered, orig_dtype)
开发者ID:ziyu-zhang,项目名称:tfplus,代码行数:20,代码来源:rnd_trans.py
示例5: adjust_hue
def adjust_hue(image, delta, name=None):
"""Adjust hue of an RGB image.
This is a convenience method that converts an RGB image to float
representation, converts it to HSV, add an offset to the hue channel, converts
back to RGB and then back to the original data type. If several adjustments
are chained it is advisable to minimize the number of redundant conversions.
`image` is an RGB image. The image hue is adjusted by converting the
image to HSV and rotating the hue channel (H) by
`delta`. The image is then converted back to RGB.
`delta` must be in the interval `[-1, 1]`.
Args:
image: RGB image or images. Size of the last dimension must be 3.
delta: float. How much to add to the hue channel.
name: A name for this operation (optional).
Returns:
Adjusted image(s), same shape and DType as `image`.
"""
with ops.op_scope([image], name, 'adjust_hue') as name:
# Remember original dtype to so we can convert back if needed
orig_dtype = image.dtype
flt_image = convert_image_dtype(image, dtypes.float32)
hsv = gen_image_ops.rgb_to_hsv(flt_image)
hue = array_ops.slice(hsv, [0, 0, 0], [-1, -1, 1])
saturation = array_ops.slice(hsv, [0, 0, 1], [-1, -1, 1])
value = array_ops.slice(hsv, [0, 0, 2], [-1, -1, 1])
# Note that we add 2*pi to guarantee that the resulting hue is a positive
# floating point number since delta is [-0.5, 0.5].
hue = math_ops.mod(hue + (delta + 1.), 1.)
hsv_altered = array_ops.concat(2, [hue, saturation, value])
rgb_altered = gen_image_ops.hsv_to_rgb(hsv_altered)
return convert_image_dtype(rgb_altered, orig_dtype)
开发者ID:DapengLan,项目名称:tensorflow,代码行数:41,代码来源:image_ops.py
示例6: adjust_saturation
def adjust_saturation(image, saturation_factor, name=None):
"""Adjust saturation of an RGB image.
This is a convenience method that converts an RGB image to float
representation, converts it to HSV, add an offset to the saturation channel,
converts back to RGB and then back to the original data type. If several
adjustments are chained it is advisable to minimize the number of redundant
conversions.
`image` is an RGB image. The image saturation is adjusted by converting the
image to HSV and multiplying the saturation (S) channel by
`saturation_factor` and clipping. The image is then converted back to RGB.
Args:
image: RGB image or images. Size of the last dimension must be 3.
saturation_factor: float. Factor to multiply the saturation by.
name: A name for this operation (optional).
Returns:
Adjusted image(s), same shape and DType as `image`.
"""
with ops.op_scope([image], name, 'adjust_saturation') as name:
image = ops.convert_to_tensor(image, name='image')
# Remember original dtype to so we can convert back if needed
orig_dtype = image.dtype
flt_image = convert_image_dtype(image, dtypes.float32)
hsv = gen_image_ops.rgb_to_hsv(flt_image)
hue = array_ops.slice(hsv, [0, 0, 0], [-1, -1, 1])
saturation = array_ops.slice(hsv, [0, 0, 1], [-1, -1, 1])
value = array_ops.slice(hsv, [0, 0, 2], [-1, -1, 1])
saturation *= saturation_factor
saturation = clip_ops.clip_by_value(saturation, 0.0, 1.0)
hsv_altered = array_ops.concat(2, [hue, saturation, value])
rgb_altered = gen_image_ops.hsv_to_rgb(hsv_altered)
return convert_image_dtype(rgb_altered, orig_dtype)
开发者ID:31H0B1eV,项目名称:tensorflow,代码行数:40,代码来源:image_ops.py
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