PointMLP/part_segmentation/data.py



import os
import sys
import glob
import h5py
import numpy as np
import torch
from torch.utils.data import Dataset


# change this to your data root
DATA_DIR = 'data/'
os.environ["HDF5_USE_FILE_LOCKING"] = "FALSE"

def download_modelnet40():
    if not os.path.exists(DATA_DIR):
        os.mkdir(DATA_DIR)
    if not os.path.exists(os.path.join(DATA_DIR, 'modelnet40_ply_hdf5_2048')):
        os.mkdir(os.path.join(DATA_DIR, 'modelnet40_ply_hdf5_2048'))
        www = 'https://shapenet.cs.stanford.edu/media/modelnet40_ply_hdf5_2048.zip'
        zipfile = os.path.basename(www)
        os.system('wget %s --no-check-certificate; unzip %s' % (www, zipfile))
        os.system('mv %s %s' % (zipfile[:-4], DATA_DIR))
        os.system('rm %s' % (zipfile))


def download_shapenetpart():
    if not os.path.exists(DATA_DIR):
        os.mkdir(DATA_DIR)
    if not os.path.exists(os.path.join(DATA_DIR)):
        os.mkdir(os.path.join(DATA_DIR))
        www = 'https://shapenet.cs.stanford.edu/media/shapenet_part_seg_hdf5_data.zip'
        zipfile = os.path.basename(www)
        os.system('wget %s --no-check-certificate; unzip %s' % (www, zipfile))
        os.system('mv %s %s' % (zipfile[:-4], os.path.join(DATA_DIR)))
        os.system('rm %s' % (zipfile))


def load_data_normal(partition):
    f = h5py.File(os.path.join(DATA_DIR, 'modelnet40_normal', 'normal_%s.h5'%partition), 'r+')
    data = f['xyz'][:].astype('float32')
    label = f['normal'][:].astype('float32')
    f.close()
    return data, label


def load_data_cls(partition):
    download_modelnet40()
    all_data = []
    all_label = []
    for h5_name in glob.glob(os.path.join(DATA_DIR, 'modelnet40*hdf5_2048', '*%s*.h5'%partition)):
        f = h5py.File(h5_name, 'r+')
        data = f['data'][:].astype('float32')
        label = f['label'][:].astype('int64')
        f.close()
        all_data.append(data)
        all_label.append(label)
    all_data = np.concatenate(all_data, axis=0)
    all_label = np.concatenate(all_label, axis=0)
    return all_data, all_label


def load_data_partseg(partition):
    download_shapenetpart()
    all_data = []
    all_label = []
    all_seg = []
    if partition == 'trainval':
        file = glob.glob(os.path.join(DATA_DIR, 'part_segmentation_data', '*train*.h5')) \
               + glob.glob(os.path.join(DATA_DIR,  'part_segmentation_data', '*val*.h5'))
    else:
        file = glob.glob(os.path.join(DATA_DIR, 'part_segmentation_data', '*%s*.h5'%partition))
    for h5_name in file:
        f = h5py.File(h5_name, 'r+')
        data = f['data'][:].astype('float32')
        label = f['label'][:].astype('int64')
        seg = f['pid'][:].astype('int64')
        f.close()
        all_data.append(data)
        all_label.append(label)
        all_seg.append(seg)
    all_data = np.concatenate(all_data, axis=0)
    all_label = np.concatenate(all_label, axis=0)
    all_seg = np.concatenate(all_seg, axis=0)
    return all_data, all_label, all_seg


def translate_pointcloud(pointcloud):
    xyz1 = np.random.uniform(low=2./3., high=3./2., size=[3])
    xyz2 = np.random.uniform(low=-0.2, high=0.2, size=[3])

    translated_pointcloud = np.add(np.multiply(pointcloud, xyz1), xyz2).astype('float32')
    return translated_pointcloud


def jitter_pointcloud(pointcloud, sigma=0.01, clip=0.02):
    N, C = pointcloud.shape
    pointcloud += np.clip(sigma * np.random.randn(N, C), -1*clip, clip)
    return pointcloud


def rotate_pointcloud(pointcloud):
    theta = np.pi*2 * np.random.uniform()
    rotation_matrix = np.array([[np.cos(theta), -np.sin(theta)],[np.sin(theta), np.cos(theta)]])
    pointcloud[:,[0,2]] = pointcloud[:,[0,2]].dot(rotation_matrix) # random rotation (x,z)
    return pointcloud


class ModelNet40(Dataset):
    def __init__(self, num_points, partition='train'):
        self.data, self.label = load_data_cls(partition)
        self.num_points = num_points
        self.partition = partition

    def __getitem__(self, item):
        pointcloud = self.data[item][:self.num_points]
        label = self.label[item]
        if self.partition == 'train':
            pointcloud = translate_pointcloud(pointcloud)
            #pointcloud = rotate_pointcloud(pointcloud)
            np.random.shuffle(pointcloud)
        return pointcloud, label

    def __len__(self):
        return self.data.shape[0]

class ModelNetNormal(Dataset):
    def __init__(self, num_points, partition='train'):
        self.data, self.label = load_data_normal(partition)
        self.num_points = num_points
        self.partition = partition

    def __getitem__(self, item):
        pointcloud = self.data[item][:self.num_points]
        label = self.label[item][:self.num_points]
        if self.partition == 'train':
            #pointcloud = translate_pointcloud(pointcloud)
            idx = np.arange(0, pointcloud.shape[0], dtype=np.int64)
            np.random.shuffle(idx)
            pointcloud = self.data[item][idx]
            label = self.label[item][idx]
        return pointcloud, label

    def __len__(self):
        return self.data.shape[0]

class ShapeNetPart(Dataset):
    def __init__(self, num_points=2048, partition='train', class_choice=None):
        self.data, self.label, self.seg = load_data_partseg(partition)
        self.cat2id = {'airplane': 0, 'bag': 1, 'cap': 2, 'car': 3, 'chair': 4,
                       'earphone': 5, 'guitar': 6, 'knife': 7, 'lamp': 8, 'laptop': 9,
                       'motor': 10, 'mug': 11, 'pistol': 12, 'rocket': 13, 'skateboard': 14, 'table': 15}
        self.seg_num = [4, 2, 2, 4, 4, 3, 3, 2, 4, 2, 6, 2, 3, 3, 3, 3]
        self.index_start = [0, 4, 6, 8, 12, 16, 19, 22, 24, 28, 30, 36, 38, 41, 44, 47]
        self.num_points = num_points
        self.partition = partition
        self.class_choice = class_choice

        if self.class_choice != None:
            id_choice = self.cat2id[self.class_choice]
            indices = (self.label == id_choice).squeeze()
            self.data = self.data[indices]
            self.label = self.label[indices]
            self.seg = self.seg[indices]
            self.seg_num_all = self.seg_num[id_choice]
            self.seg_start_index = self.index_start[id_choice]
        else:
            self.seg_num_all = 50
            self.seg_start_index = 0

    def __getitem__(self, item):
        pointcloud = self.data[item][:self.num_points]
        label = self.label[item]
        seg = self.seg[item][:self.num_points]
        if self.partition == 'trainval':
            pointcloud = translate_pointcloud(pointcloud)
            indices = list(range(pointcloud.shape[0]))
            np.random.shuffle(indices)
            pointcloud = pointcloud[indices]
            seg = seg[indices]
        return pointcloud, label, seg

    def __len__(self):
        return self.data.shape[0]
update 2021-10-04 07:22:15 +00:00

			`import os`
			`import sys`
			`import glob`
			`import h5py`
			`import numpy as np`
			`import torch`
			`from torch.utils.data import Dataset`


			`# change this to your data root`
			`DATA_DIR = 'data/'`
			`os.environ["HDF5_USE_FILE_LOCKING"] = "FALSE"`

			`def download_modelnet40():`
			`if not os.path.exists(DATA_DIR):`
			`os.mkdir(DATA_DIR)`
			`if not os.path.exists(os.path.join(DATA_DIR, 'modelnet40_ply_hdf5_2048')):`
			`os.mkdir(os.path.join(DATA_DIR, 'modelnet40_ply_hdf5_2048'))`
			`www = 'https://shapenet.cs.stanford.edu/media/modelnet40_ply_hdf5_2048.zip'`
			`zipfile = os.path.basename(www)`
			`os.system('wget %s --no-check-certificate; unzip %s' % (www, zipfile))`
			`os.system('mv %s %s' % (zipfile[:-4], DATA_DIR))`
			`os.system('rm %s' % (zipfile))`


			`def download_shapenetpart():`
			`if not os.path.exists(DATA_DIR):`
			`os.mkdir(DATA_DIR)`
			`if not os.path.exists(os.path.join(DATA_DIR)):`
			`os.mkdir(os.path.join(DATA_DIR))`
			`www = 'https://shapenet.cs.stanford.edu/media/shapenet_part_seg_hdf5_data.zip'`
			`zipfile = os.path.basename(www)`
			`os.system('wget %s --no-check-certificate; unzip %s' % (www, zipfile))`
			`os.system('mv %s %s' % (zipfile[:-4], os.path.join(DATA_DIR)))`
			`os.system('rm %s' % (zipfile))`


			`def load_data_normal(partition):`
			`f = h5py.File(os.path.join(DATA_DIR, 'modelnet40_normal', 'normal_%s.h5'%partition), 'r+')`
			`data = f['xyz'][:].astype('float32')`
			`label = f['normal'][:].astype('float32')`
			`f.close()`
			`return data, label`


			`def load_data_cls(partition):`
			`download_modelnet40()`
			`all_data = []`
			`all_label = []`
			`for h5_name in glob.glob(os.path.join(DATA_DIR, 'modelnet40hdf5_2048', '%s*.h5'%partition)):`
			`f = h5py.File(h5_name, 'r+')`
			`data = f['data'][:].astype('float32')`
			`label = f['label'][:].astype('int64')`
			`f.close()`
			`all_data.append(data)`
			`all_label.append(label)`
			`all_data = np.concatenate(all_data, axis=0)`
			`all_label = np.concatenate(all_label, axis=0)`
			`return all_data, all_label`


			`def load_data_partseg(partition):`
			`download_shapenetpart()`
			`all_data = []`
			`all_label = []`
			`all_seg = []`
			`if partition == 'trainval':`
			`file = glob.glob(os.path.join(DATA_DIR, 'part_segmentation_data', 'train.h5')) \`
			`+ glob.glob(os.path.join(DATA_DIR, 'part_segmentation_data', 'val.h5'))`
			`else:`
			`file = glob.glob(os.path.join(DATA_DIR, 'part_segmentation_data', '%s.h5'%partition))`
			`for h5_name in file:`
			`f = h5py.File(h5_name, 'r+')`
			`data = f['data'][:].astype('float32')`
			`label = f['label'][:].astype('int64')`
			`seg = f['pid'][:].astype('int64')`
			`f.close()`
			`all_data.append(data)`
			`all_label.append(label)`
			`all_seg.append(seg)`
			`all_data = np.concatenate(all_data, axis=0)`
			`all_label = np.concatenate(all_label, axis=0)`
			`all_seg = np.concatenate(all_seg, axis=0)`
			`return all_data, all_label, all_seg`


			`def translate_pointcloud(pointcloud):`
			`xyz1 = np.random.uniform(low=2./3., high=3./2., size=[3])`
			`xyz2 = np.random.uniform(low=-0.2, high=0.2, size=[3])`

			`translated_pointcloud = np.add(np.multiply(pointcloud, xyz1), xyz2).astype('float32')`
			`return translated_pointcloud`


			`def jitter_pointcloud(pointcloud, sigma=0.01, clip=0.02):`
			`N, C = pointcloud.shape`
			`pointcloud += np.clip(sigma * np.random.randn(N, C), -1*clip, clip)`
			`return pointcloud`


			`def rotate_pointcloud(pointcloud):`
			`theta = np.pi2 np.random.uniform()`
			`rotation_matrix = np.array([[np.cos(theta), -np.sin(theta)],[np.sin(theta), np.cos(theta)]])`
			`pointcloud[:,[0,2]] = pointcloud[:,[0,2]].dot(rotation_matrix) # random rotation (x,z)`
			`return pointcloud`


			`class ModelNet40(Dataset):`
			`def __init__(self, num_points, partition='train'):`
			`self.data, self.label = load_data_cls(partition)`
			`self.num_points = num_points`
			`self.partition = partition`

			`def __getitem__(self, item):`
			`pointcloud = self.data[item][:self.num_points]`
			`label = self.label[item]`
			`if self.partition == 'train':`
			`pointcloud = translate_pointcloud(pointcloud)`
			`#pointcloud = rotate_pointcloud(pointcloud)`
			`np.random.shuffle(pointcloud)`
			`return pointcloud, label`

			`def __len__(self):`
			`return self.data.shape[0]`

			`class ModelNetNormal(Dataset):`
			`def __init__(self, num_points, partition='train'):`
			`self.data, self.label = load_data_normal(partition)`
			`self.num_points = num_points`
			`self.partition = partition`

			`def __getitem__(self, item):`
			`pointcloud = self.data[item][:self.num_points]`
			`label = self.label[item][:self.num_points]`
			`if self.partition == 'train':`
			`#pointcloud = translate_pointcloud(pointcloud)`
			`idx = np.arange(0, pointcloud.shape[0], dtype=np.int64)`
			`np.random.shuffle(idx)`
			`pointcloud = self.data[item][idx]`
			`label = self.label[item][idx]`
			`return pointcloud, label`

			`def __len__(self):`
			`return self.data.shape[0]`

			`class ShapeNetPart(Dataset):`
			`def __init__(self, num_points=2048, partition='train', class_choice=None):`
			`self.data, self.label, self.seg = load_data_partseg(partition)`
			`self.cat2id = {'airplane': 0, 'bag': 1, 'cap': 2, 'car': 3, 'chair': 4,`
			`'earphone': 5, 'guitar': 6, 'knife': 7, 'lamp': 8, 'laptop': 9,`
			`'motor': 10, 'mug': 11, 'pistol': 12, 'rocket': 13, 'skateboard': 14, 'table': 15}`
			`self.seg_num = [4, 2, 2, 4, 4, 3, 3, 2, 4, 2, 6, 2, 3, 3, 3, 3]`
			`self.index_start = [0, 4, 6, 8, 12, 16, 19, 22, 24, 28, 30, 36, 38, 41, 44, 47]`
			`self.num_points = num_points`
			`self.partition = partition`
			`self.class_choice = class_choice`

			`if self.class_choice != None:`
			`id_choice = self.cat2id[self.class_choice]`
			`indices = (self.label == id_choice).squeeze()`
			`self.data = self.data[indices]`
			`self.label = self.label[indices]`
			`self.seg = self.seg[indices]`
			`self.seg_num_all = self.seg_num[id_choice]`
			`self.seg_start_index = self.index_start[id_choice]`
			`else:`
			`self.seg_num_all = 50`
			`self.seg_start_index = 0`

			`def __getitem__(self, item):`
			`pointcloud = self.data[item][:self.num_points]`
			`label = self.label[item]`
			`seg = self.seg[item][:self.num_points]`
			`if self.partition == 'trainval':`
			`pointcloud = translate_pointcloud(pointcloud)`
			`indices = list(range(pointcloud.shape[0]))`
			`np.random.shuffle(indices)`
			`pointcloud = pointcloud[indices]`
			`seg = seg[indices]`
			`return pointcloud, label, seg`

			`def __len__(self):`
			`return self.data.shape[0]`