未验证 提交 9eb7d6cc 编写于 作者: W wangguanzhong 提交者: GitHub

compat dev & release (#6912)

* compat dev & release

* fix ops import
上级 6722bbcb
......@@ -87,6 +87,7 @@ class RoIAlign(object):
offset = 2
k_min = self.start_level + offset
k_max = self.end_level + offset
if hasattr(paddle.vision.ops, "distribute_fpn_proposals"):
rois_dist, restore_index, rois_num_dist = paddle.vision.ops.distribute_fpn_proposals(
roi,
k_min,
......@@ -94,6 +95,15 @@ class RoIAlign(object):
self.canconical_level,
self.canonical_size,
rois_num=rois_num)
else:
ops.distribute_fpn_proposals(
roi,
k_min,
k_max,
self.canconical_level,
self.canonical_size,
rois_num=rois_num)
rois_feat_list = []
for lvl in range(self.start_level, self.end_level + 1):
roi_feat = paddle.vision.ops.roi_align(
......
......@@ -17,15 +17,20 @@ import paddle.nn.functional as F
import paddle.nn as nn
from paddle import ParamAttr
from paddle.regularizer import L2Decay
from paddle import _C_ops, _legacy_C_ops
try:
import paddle._legacy_C_ops as C_ops
except:
import paddle._C_ops as C_ops
from paddle import in_dynamic_mode
from paddle.common_ops_import import Variable, LayerHelper, check_variable_and_dtype, check_type, check_dtype
__all__ = [
'prior_box',
'generate_proposals',
'box_coder',
'multiclass_nms',
'distribute_fpn_proposals',
'matrix_nms',
'batch_norm',
'mish',
......@@ -113,6 +118,136 @@ def batch_norm(ch,
return norm_layer
@paddle.jit.not_to_static
def distribute_fpn_proposals(fpn_rois,
min_level,
max_level,
refer_level,
refer_scale,
pixel_offset=False,
rois_num=None,
name=None):
r"""
**This op only takes LoDTensor as input.** In Feature Pyramid Networks
(FPN) models, it is needed to distribute all proposals into different FPN
level, with respect to scale of the proposals, the referring scale and the
referring level. Besides, to restore the order of proposals, we return an
array which indicates the original index of rois in current proposals.
To compute FPN level for each roi, the formula is given as follows:
.. math::
roi\_scale &= \sqrt{BBoxArea(fpn\_roi)}
level = floor(&\log(\\frac{roi\_scale}{refer\_scale}) + refer\_level)
where BBoxArea is a function to compute the area of each roi.
Args:
fpn_rois(Variable): 2-D Tensor with shape [N, 4] and data type is
float32 or float64. The input fpn_rois.
min_level(int32): The lowest level of FPN layer where the proposals come
from.
max_level(int32): The highest level of FPN layer where the proposals
come from.
refer_level(int32): The referring level of FPN layer with specified scale.
refer_scale(int32): The referring scale of FPN layer with specified level.
rois_num(Tensor): 1-D Tensor contains the number of RoIs in each image.
The shape is [B] and data type is int32. B is the number of images.
If it is not None then return a list of 1-D Tensor. Each element
is the output RoIs' number of each image on the corresponding level
and the shape is [B]. None by default.
name(str, optional): For detailed information, please refer
to :ref:`api_guide_Name`. Usually name is no need to set and
None by default.
Returns:
Tuple:
multi_rois(List) : A list of 2-D LoDTensor with shape [M, 4]
and data type of float32 and float64. The length is
max_level-min_level+1. The proposals in each FPN level.
restore_ind(Variable): A 2-D Tensor with shape [N, 1], N is
the number of total rois. The data type is int32. It is
used to restore the order of fpn_rois.
rois_num_per_level(List): A list of 1-D Tensor and each Tensor is
the RoIs' number in each image on the corresponding level. The shape
is [B] and data type of int32. B is the number of images
Examples:
.. code-block:: python
import paddle
from ppdet.modeling import ops
paddle.enable_static()
fpn_rois = paddle.static.data(
name='data', shape=[None, 4], dtype='float32', lod_level=1)
multi_rois, restore_ind = ops.distribute_fpn_proposals(
fpn_rois=fpn_rois,
min_level=2,
max_level=5,
refer_level=4,
refer_scale=224)
"""
num_lvl = max_level - min_level + 1
if in_dynamic_mode():
assert rois_num is not None, "rois_num should not be None in dygraph mode."
attrs = ('min_level', min_level, 'max_level', max_level, 'refer_level',
refer_level, 'refer_scale', refer_scale, 'pixel_offset',
pixel_offset)
multi_rois, restore_ind, rois_num_per_level = C_ops.distribute_fpn_proposals(
fpn_rois, rois_num, num_lvl, num_lvl, *attrs)
return multi_rois, restore_ind, rois_num_per_level
else:
check_variable_and_dtype(fpn_rois, 'fpn_rois', ['float32', 'float64'],
'distribute_fpn_proposals')
helper = LayerHelper('distribute_fpn_proposals', **locals())
dtype = helper.input_dtype('fpn_rois')
multi_rois = [
helper.create_variable_for_type_inference(dtype)
for i in range(num_lvl)
]
restore_ind = helper.create_variable_for_type_inference(dtype='int32')
inputs = {'FpnRois': fpn_rois}
outputs = {
'MultiFpnRois': multi_rois,
'RestoreIndex': restore_ind,
}
if rois_num is not None:
inputs['RoisNum'] = rois_num
rois_num_per_level = [
helper.create_variable_for_type_inference(dtype='int32')
for i in range(num_lvl)
]
outputs['MultiLevelRoIsNum'] = rois_num_per_level
else:
rois_num_per_level = None
helper.append_op(
type='distribute_fpn_proposals',
inputs=inputs,
outputs=outputs,
attrs={
'min_level': min_level,
'max_level': max_level,
'refer_level': refer_level,
'refer_scale': refer_scale,
'pixel_offset': pixel_offset
})
return multi_rois, restore_ind, rois_num_per_level
@paddle.jit.not_to_static
def prior_box(input,
image,
......@@ -222,7 +357,7 @@ def prior_box(input,
'min_max_aspect_ratios_order', min_max_aspect_ratios_order)
if cur_max_sizes is not None:
attrs += ('max_sizes', cur_max_sizes)
box, var = _legacy_C_ops.prior_box(input, image, *attrs)
box, var = C_ops.prior_box(input, image, *attrs)
return box, var
else:
attrs = {
......@@ -365,8 +500,8 @@ def multiclass_nms(bboxes,
score_threshold, 'nms_top_k', nms_top_k, 'nms_threshold',
nms_threshold, 'keep_top_k', keep_top_k, 'nms_eta', nms_eta,
'normalized', normalized)
output, index, nms_rois_num = _legacy_C_ops.multiclass_nms3(
bboxes, scores, rois_num, *attrs)
output, index, nms_rois_num = C_ops.multiclass_nms3(bboxes, scores,
rois_num, *attrs)
if not return_index:
index = None
return output, nms_rois_num, index
......@@ -507,7 +642,7 @@ def matrix_nms(bboxes,
nms_top_k, 'gaussian_sigma', gaussian_sigma, 'use_gaussian',
use_gaussian, 'keep_top_k', keep_top_k, 'normalized',
normalized)
out, index, rois_num = _legacy_C_ops.matrix_nms(bboxes, scores, *attrs)
out, index, rois_num = C_ops.matrix_nms(bboxes, scores, *attrs)
if not return_index:
index = None
if not return_rois_num:
......@@ -660,12 +795,12 @@ def box_coder(prior_box,
if in_dynamic_mode():
if isinstance(prior_box_var, Variable):
output_box = _legacy_C_ops.box_coder(
output_box = C_ops.box_coder(
prior_box, prior_box_var, target_box, "code_type", code_type,
"box_normalized", box_normalized, "axis", axis)
elif isinstance(prior_box_var, list):
output_box = _legacy_C_ops.box_coder(
output_box = C_ops.box_coder(
prior_box, None, target_box, "code_type", code_type,
"box_normalized", box_normalized, "axis", axis, "variance",
prior_box_var)
......@@ -700,6 +835,154 @@ def box_coder(prior_box,
return output_box
@paddle.jit.not_to_static
def generate_proposals(scores,
bbox_deltas,
im_shape,
anchors,
variances,
pre_nms_top_n=6000,
post_nms_top_n=1000,
nms_thresh=0.5,
min_size=0.1,
eta=1.0,
pixel_offset=False,
return_rois_num=False,
name=None):
"""
**Generate proposal Faster-RCNN**
This operation proposes RoIs according to each box with their
probability to be a foreground object and
the box can be calculated by anchors. Bbox_deltais and scores
to be an object are the output of RPN. Final proposals
could be used to train detection net.
For generating proposals, this operation performs following steps:
1. Transposes and resizes scores and bbox_deltas in size of
(H*W*A, 1) and (H*W*A, 4)
2. Calculate box locations as proposals candidates.
3. Clip boxes to image
4. Remove predicted boxes with small area.
5. Apply NMS to get final proposals as output.
Args:
scores(Tensor): A 4-D Tensor with shape [N, A, H, W] represents
the probability for each box to be an object.
N is batch size, A is number of anchors, H and W are height and
width of the feature map. The data type must be float32.
bbox_deltas(Tensor): A 4-D Tensor with shape [N, 4*A, H, W]
represents the difference between predicted box location and
anchor location. The data type must be float32.
im_shape(Tensor): A 2-D Tensor with shape [N, 2] represents H, W, the
origin image size or input size. The data type can be float32 or
float64.
anchors(Tensor): A 4-D Tensor represents the anchors with a layout
of [H, W, A, 4]. H and W are height and width of the feature map,
num_anchors is the box count of each position. Each anchor is
in (xmin, ymin, xmax, ymax) format an unnormalized. The data type must be float32.
variances(Tensor): A 4-D Tensor. The expanded variances of anchors with a layout of
[H, W, num_priors, 4]. Each variance is in
(xcenter, ycenter, w, h) format. The data type must be float32.
pre_nms_top_n(float): Number of total bboxes to be kept per
image before NMS. The data type must be float32. `6000` by default.
post_nms_top_n(float): Number of total bboxes to be kept per
image after NMS. The data type must be float32. `1000` by default.
nms_thresh(float): Threshold in NMS. The data type must be float32. `0.5` by default.
min_size(float): Remove predicted boxes with either height or
width < min_size. The data type must be float32. `0.1` by default.
eta(float): Apply in adaptive NMS, if adaptive `threshold > 0.5`,
`adaptive_threshold = adaptive_threshold * eta` in each iteration.
return_rois_num(bool): When setting True, it will return a 1D Tensor with shape [N, ] that includes Rois's
num of each image in one batch. The N is the image's num. For example, the tensor has values [4,5] that represents
the first image has 4 Rois, the second image has 5 Rois. It only used in rcnn model.
'False' by default.
name(str, optional): For detailed information, please refer
to :ref:`api_guide_Name`. Usually name is no need to set and
None by default.
Returns:
tuple:
A tuple with format ``(rpn_rois, rpn_roi_probs)``.
- **rpn_rois**: The generated RoIs. 2-D Tensor with shape ``[N, 4]`` while ``N`` is the number of RoIs. The data type is the same as ``scores``.
- **rpn_roi_probs**: The scores of generated RoIs. 2-D Tensor with shape ``[N, 1]`` while ``N`` is the number of RoIs. The data type is the same as ``scores``.
Examples:
.. code-block:: python
import paddle
from ppdet.modeling import ops
paddle.enable_static()
scores = paddle.static.data(name='scores', shape=[None, 4, 5, 5], dtype='float32')
bbox_deltas = paddle.static.data(name='bbox_deltas', shape=[None, 16, 5, 5], dtype='float32')
im_shape = paddle.static.data(name='im_shape', shape=[None, 2], dtype='float32')
anchors = paddle.static.data(name='anchors', shape=[None, 5, 4, 4], dtype='float32')
variances = paddle.static.data(name='variances', shape=[None, 5, 10, 4], dtype='float32')
rois, roi_probs = ops.generate_proposals(scores, bbox_deltas,
im_shape, anchors, variances)
"""
if in_dynamic_mode():
assert return_rois_num, "return_rois_num should be True in dygraph mode."
attrs = ('pre_nms_topN', pre_nms_top_n, 'post_nms_topN', post_nms_top_n,
'nms_thresh', nms_thresh, 'min_size', min_size, 'eta', eta,
'pixel_offset', pixel_offset)
rpn_rois, rpn_roi_probs, rpn_rois_num = C_ops.generate_proposals_v2(
scores, bbox_deltas, im_shape, anchors, variances, *attrs)
if not return_rois_num:
rpn_rois_num = None
return rpn_rois, rpn_roi_probs, rpn_rois_num
else:
helper = LayerHelper('generate_proposals_v2', **locals())
check_variable_and_dtype(scores, 'scores', ['float32'],
'generate_proposals_v2')
check_variable_and_dtype(bbox_deltas, 'bbox_deltas', ['float32'],
'generate_proposals_v2')
check_variable_and_dtype(im_shape, 'im_shape', ['float32', 'float64'],
'generate_proposals_v2')
check_variable_and_dtype(anchors, 'anchors', ['float32'],
'generate_proposals_v2')
check_variable_and_dtype(variances, 'variances', ['float32'],
'generate_proposals_v2')
rpn_rois = helper.create_variable_for_type_inference(
dtype=bbox_deltas.dtype)
rpn_roi_probs = helper.create_variable_for_type_inference(
dtype=scores.dtype)
outputs = {
'RpnRois': rpn_rois,
'RpnRoiProbs': rpn_roi_probs,
}
if return_rois_num:
rpn_rois_num = helper.create_variable_for_type_inference(
dtype='int32')
rpn_rois_num.stop_gradient = True
outputs['RpnRoisNum'] = rpn_rois_num
helper.append_op(
type="generate_proposals_v2",
inputs={
'Scores': scores,
'BboxDeltas': bbox_deltas,
'ImShape': im_shape,
'Anchors': anchors,
'Variances': variances
},
attrs={
'pre_nms_topN': pre_nms_top_n,
'post_nms_topN': post_nms_top_n,
'nms_thresh': nms_thresh,
'min_size': min_size,
'eta': eta,
'pixel_offset': pixel_offset
},
outputs=outputs)
rpn_rois.stop_gradient = True
rpn_roi_probs.stop_gradient = True
if not return_rois_num:
rpn_rois_num = None
return rpn_rois, rpn_roi_probs, rpn_rois_num
def sigmoid_cross_entropy_with_logits(input,
label,
ignore_index=-100,
......
......@@ -62,6 +62,7 @@ class ProposalGenerator(object):
top_n = self.pre_nms_top_n if self.topk_after_collect else self.post_nms_top_n
variances = paddle.ones_like(anchors)
if hasattr(paddle.vision.ops, "generate_proposals"):
rpn_rois, rpn_rois_prob, rpn_rois_num = paddle.vision.ops.generate_proposals(
scores,
bbox_deltas,
......@@ -74,4 +75,18 @@ class ProposalGenerator(object):
min_size=self.min_size,
eta=self.eta,
return_rois_num=True)
else:
rpn_rois, rpn_rois_prob, rpn_rois_num = ops.generate_proposals(
scores,
bbox_deltas,
im_shape,
anchors,
variances,
pre_nms_top_n=self.pre_nms_top_n,
post_nms_top_n=top_n,
nms_thresh=self.nms_thresh,
min_size=self.min_size,
eta=self.eta,
return_rois_num=True)
return rpn_rois, rpn_rois_prob, rpn_rois_num, self.post_nms_top_n
......@@ -101,18 +101,9 @@ def check_version(version='2.2'):
paddle_version.rc
]
# Paddledet develop version is only used on Paddle develop
if version_installed == ['0', '0', '0', '0'] and version != 'develop':
raise Exception(
"PaddlePaddle version {} or higher is required, and develop version is only used for PaddleDetection develop version!".
format(version))
if version_installed == ['0', '0', '0', '0']:
return
if version == 'develop':
raise Exception("PaddlePaddle develop version is required!")
version_split = version.split('.')
length = min(len(version_installed), len(version_split))
......
......@@ -184,7 +184,7 @@ def main():
check_gpu(cfg.use_gpu)
check_npu(cfg.use_npu)
check_xpu(cfg.use_xpu)
check_version('develop')
check_version()
run(FLAGS, cfg)
......
......@@ -125,7 +125,7 @@ def main():
check_gpu(cfg.use_gpu)
check_npu(cfg.use_npu)
check_xpu(cfg.use_xpu)
check_version('develop')
check_version()
run(FLAGS, cfg)
......
......@@ -99,7 +99,7 @@ def main():
merge_config(FLAGS.opt)
check_config(cfg)
check_gpu(cfg.use_gpu)
check_version('develop')
check_version()
run(FLAGS, cfg)
......
......@@ -217,7 +217,7 @@ def main():
check_gpu(cfg.use_gpu)
check_npu(cfg.use_npu)
check_xpu(cfg.use_xpu)
check_version('develop')
check_version()
run(FLAGS, cfg)
......
......@@ -137,7 +137,7 @@ def main():
check_gpu(cfg.use_gpu)
check_npu(cfg.use_npu)
check_xpu(cfg.use_xpu)
check_version('develop')
check_version()
run(FLAGS, cfg)
......
......@@ -87,7 +87,7 @@ def main():
merge_config(FLAGS.opt)
check_config(cfg)
check_gpu(cfg.use_gpu)
check_version('develop')
check_version()
run(FLAGS, cfg)
......
......@@ -163,7 +163,7 @@ def main():
check.check_config(cfg)
check.check_gpu(cfg.use_gpu)
check.check_npu(cfg.use_npu)
check.check_version('develop')
check.check_version()
run(FLAGS, cfg)
......
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