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Version: v1.3.0

Data-oriented Class

To define a Taichi kernel as a Python class member function:

  1. Decorate the class with a @ti.data_oriented decorator.
  2. Define ti.kernels and ti.funcs in your data-oriented Python class.
note

The first argument of the function should be the class instance ("self"), unless you are defining a @staticmethod.

一个简单的例子:

@ti.data_oriented
class TiArray:
def __init__(self, n):
self.x = ti.field(dtype=ti.i32, shape=n)

@ti.kernel
def inc(self):
for i in self.x:
self.x[i] += 1

a = TiArray(32)
a.inc()

Taichi field 不仅可以在 init 函数中定义,也可以在 Python 作用域内任一面向数据类的函数内定义。 例如,

import taichi as ti

ti.init()

@ti.data_oriented
class MyClass:
@ti.kernel
def inc(self, temp: ti.template()):
for I in ti.grouped(temp):
temp[I] += 1

def call_inc(self):
self.inc(self.temp)

def allocate_temp(self, n):
self.temp = ti.field(dtype = ti.i32, shape=n)


a = MyClass()
# a.call_inc() cannot be called, because a.temp has not been allocated at this point
a.allocate_temp(4)
a.call_inc()
a.call_inc()
print(a.temp) # [2 2 2 2]
a.allocate_temp(8)
a.call_inc()
print(a.temp) # [1 1 1 1 1 1 1 1]

另一个内存回收利用的例子:

import taichi as ti

ti.init()

@ti.data_oriented
class Calc:
def __init__(self):
self.x = ti.field(dtype=ti.f32, shape=8)

@ti.kernel
def func(self, temp: ti.template()):
for i in range(8):
temp[i] = self.x[i * 2]

def call_func(self):
fb = ti.FieldsBuilder()
temp = ti.field(dtype=ti.f32)
fb.dense(ti.i, 8).place(temp)
tree = fb.finalize()
self.func(temp)
tree.destroy()


a = Calc()
for i in range(16):
a.x[i] = i
a.call_func()
print(a.y) # [ 5. 13. 21. 29.]

面向数据类的继承

The data-oriented property is automatically carried along with the Python class inheriting. This means that you can call a Taichi Kernel if any of its ancestor classes is decorated with @ti.data_oriented.

一个示例:

import taichi as ti

ti.init(arch=ti.cuda)

class BaseClass:
def __init__(self):
self.n = 10
self.num = ti.field(dtype=ti.i32, shape=(self.n, ))

@ti.kernel
def count(self) -> ti.i32:
ret = 0
for i in range(self.n):
ret += self.num[i]
return ret

@ti.kernel
def add(self, d: ti.i32):
for i in range(self.n):
self.num[i] += d


@ti.data_oriented
class DataOrientedClass(BaseClass):
pass

class DeviatedClass(DataOrientedClass):
@ti.kernel
def sub(self, d: ti.i32):
for i in range(self.n):
self.num[i] -= d


a = DeviatedClass()
a.add(1)
a.sub(1)
print(a.count()) # 0


b = DataOrientedClass()
b.add(2)
print(b.count()) # 1

c = BaseClass()
# c.add(3)
# print(c.count())
# The two lines above trigger a kernel define error, because class c is not decorated with @ti.data_oriented

Python 内置修饰器

Common decorators that are pre-built in Python, @staticmethod1 and @classmethod2, can decorate a Taichi kernel in data-oriented classes.

staticmethod example:

import taichi as ti

ti.init()

@ti.data_oriented
class Array2D:
def __init__(self, n):
self.arr = ti.Vector([0.] * n)

@staticmethod
@ti.func
def clamp(x): # Clamp to [0, 1)
return max(0, min(1, x))

classmethod 示例:

import taichi as ti

ti.init(arch=ti.cuda)

@ti.data_oriented
class Counter:
num_ = ti.field(dtype=ti.i32, shape=(32, ))
def __init__(self, data_range):
self.range = data_range
self.add(data_range[0], data_range[1], 1)

@classmethod
@ti.kernel
def add(cls, l: ti.i32, r: ti.i32, d: ti.i32):
for i in range(l, r):
cls.num_[i] += d

@ti.kernel
def num(self) -> ti.i32:
ret = 0
for i in range(self.range[0], self.range[1]):
ret += self.num_[i]
return ret

a = Counter((0, 5))
print(a.num()) # 5
b = Counter((4, 10))
print(a.num()) # 6
print(b.num()) # 7