示例#1
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    def __init__(self, id_=None):
        self.id = id_
        # 注意TransOptsManager只管理单个对象,但是可以被多个对象共用,且如果使用随机函数则
        # 每个对象的变换参数也会不同,但是他们来自于同一个形式的随机函数

        # 唯一的操作号:操作过程(可能包含函数,用于产生<操作结果>)
        self.operates_dict = {}
        self.operates_data = {}  # 唯一的操作号:操作结果(固定值,用于导入Trans)
        self.operates_mode = {}
        self.c = count()
        self.mode = 'cover'
        #
        self.TRANS_TYPE = GetTransInfo()[0]
        self.TRANS_OPTSLIST = GetTransOpts().keys()
示例#2
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 def SetRandom(self, item, fun, parameter, mark=None):
     # 设置随机函数
     self.operates_mode[mark] = self.mode  # 给每个变换加单独的mode值
     if item in self.TRANS_OPTSLIST:
         # 添加变换
         if mark in self.operates_dict:
             self.operates_dict[mark][item] = ['func', fun, parameter]
         else:
             assert item in self.TRANS_TYPE
             self.operates_data[mark] = [item, GetTransOpts()]
             self.operates_dict[mark] = {item: ['func', fun, parameter]}
     else:
         print(f'WARRING: TransOptsManager.SetRandom:' +
               f'{item} is not in the TRANS_TYPE or TransOpts')
示例#3
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 def SetValue(self, item, value=None, mark=None):
     # 设置固定值
     if item in self.TRANS_OPTSLIST:
         # 添加变换
         self.operates_mode[mark] = self.mode  # 给每个变换加单独的mode值
         if mark in self.operates_dict:
             self.operates_dict[mark][item] = ['const', value]
         else:
             assert item in self.TRANS_TYPE  # 保证创建新操作的时候item的合法性
             self.operates_data[mark] = [item, GetTransOpts()]
             self.operates_dict[mark] = {item: ['const', value]}
     else:
         print(f'WARRING: TransOptsManager.SetValue:' +
               f'{item} is not in the TRANS_TYPE or TransOpts')
示例#4
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 def Get(self):
     # 获取参数,随机函数在此时生效
     operates_dict = self.operates_dict  # 获取值产生器
     operates_data = self.operates_data
     operates_mode = self.operates_mode
     operates = []
     operates_opts = []
     for mark in operates_dict:  # 对于对象的每个操作
         # 获得操作类型 和 参数
         mode = operates_mode[mark]
         operate, trans_opts = operates_data[mark]
         if(mode == 'cover'):  # 如果是覆盖模式,则重新生成新的 参数
             trans_opts = GetTransOpts()
         # 对于每一个变换操作做循环,大部分变换由于只有一个参数其实都只循环了一次
         for item in operates_dict[mark]:
             sub_opt = operates_dict[mark][item]
             types = sub_opt[0]  # 值产生器类型,固定值或函数
             if types is 'const':
                 value = sub_opt[1]
             elif types is 'func':
                 fun = sub_opt[1]
                 parameter = sub_opt[2]
                 value = fun(*parameter)
             if value is not None:  # 根据覆盖、调整、不变对原来的 参数 进行修改
                 if(mode == 'cover'):
                     trans_opts[item] = value
                     operates_mode[mark] = 'const'  # 下次就不变了
                 elif(mode == 'modify1'):
                     trans_opts[item] += value
                     operates_mode[mark] = 'const'  # 下次就不变了
                 elif(mode == 'modifyn'):
                     trans_opts[item] += value
                 else:
                     pass
         operates.append(operate)
         operates_opts.append(trans_opts)
         operates_data[mark][1] = trans_opts  # 引用赋值,改变了变量
     # print(operates_mode)
     return (operates, operates_opts)
示例#5
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    #####################################
    # 1111111111111111111111111111111
    # 随机obj1的初始位置及大小
    pos1 = func2.RandomPoint([50, 50], [300, 300])
    size1 = im.shape[0:2]
    # 初始化obj1
    obj1_rect = Rect(pos1, size1)
    obj1_data = RectArray(obj1_rect, 3)
    obj1_data.SetRectData(im)
    obj1_datamask = RectArray(obj1_rect, 1, dtype=np.bool)
    obj1_datamask.SetValue(immask)
    obj1 = Obj(obj1_data, obj1_datamask)
    # 初始化trans
    trans1_0 = Trans(obj1)
    trans_opts = GetTransOpts()
    trans_opts['xz_theta'] = func.RandomAngle(-np.pi/2, np.pi/2)
    trans_opts['py'] = func.RandomDis((-100, -100), (100, 100))
    trans1_0.QuickTrans(['py', 'xz'], trans_opts)

    trans1_1 = Trans(trans1_0.obj_imB)
    trans_opts = GetTransOpts()
    trans_opts['xz_theta'] = func.RandomAngle(-np.pi/36, np.pi/36)
    trans_opts['py'] = func.RandomDis((-40, -40), (40, 40))
    trans1_1.QuickTrans(['py', 'xz'], trans_opts)

    trans1_2 = Trans(trans1_1.obj_imB)
    trans_opts['xz_theta'] += func.NormalAngle(0, 1, 'd')
    trans_opts['py'] += func.NormalDis(0, 2)
    trans1_2.QuickTrans(['py', 'xz'], trans_opts)
示例#6
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 # =============== 初始化区域 ==================
 # 背景
 # 初始化位置,大小
 pos0 = func2.RandomPoint(background_minIniPos, background_maxIniPos)
 back_rect = Rect(pos0, background_size)
 back_data = RectArray(back_rect, 3)
 # 设置背景对象
 backgroud = backgroundGenerator.RandomGet()
 backgroud = backgroud.resize(background_size)
 back_data.SetRectData(np.array(backgroud))
 back_datamask = RectArray(back_rect, 1, dtype=np.bool)
 back_datamask.SetValue(True)
 obj_back = Obj(back_data, back_datamask)
 # 生成背景变换
 trans_back = Trans(obj_back)
 trans_back_opts = GetTransOpts()
 trans_back.QuickTrans(['M'], [trans_back_opts])
 # 创建列表储存初始化的obj
 obj_list = [trans_back.obj_imB]  # 初始化obj列表
 # initboard 用于保存第一帧
 initboard = Board(board_size)
 initboard.addTrans(trans_back)
 # 初始化循环生成 obj
 for _ in range(obj_num):
     # 随机obj的初始位置及大小
     img,imgmask = materialGenerator.RandomGet()
     im = np.array(img)
     immask = np.array(imgmask) > 0
     pos = func2.RandomPoint(obj_minIniPos, obj_maxIniPos)
     size = (im.shape[1],im.shape[0])
     # 初始化obj