class AdditionEnv:
"""
Environment of Addition
"""
def __init__(self, height, width, num_chars, terminal):
self.screen = Screen(height, width)
self.num_chars = num_chars
self.pointers = [0] * height
self.reset()
self.terminal = terminal
def reset(self):
self.screen.fill(0)
self.pointers = [self.screen.width-1] * self.screen.height # rightmost
# the get_observation function returns the observation of numbers of each pointer, so to speak,
# we can only see the numbers that our pointer is at, but this is gonna cause a trouble becasue 10
# with pointer at the second position will return zero
def get_observation(self) -> np.ndarray:
value = []
for row in range(len(self.pointers)):
value.append(self.to_one_hot(self.screen[row, self.pointers[row]]))
return np.array(value) # shape of FIELD_ROW * FIELD_DEPTH
def to_one_hot(self, ch):
ret = np.zeros((self.num_chars,), dtype=np.int8)
if 0 <= ch < self.num_chars:
ret[ch] = 1
else:
raise IndexError("ch must be 0 <= ch < %s, but %s" % (self.num_chars, ch))
return ret
def setup_problem(self, num1, num2):
for i, s in enumerate(reversed("%s" % num1)):
self.screen[0, -(i+1)] = int(s) + 1
for i, s in enumerate(reversed("%s" % num2)):
self.screen[1, -(i+1)] = int(s) + 1
# self.terminal.add_log(screen)
def move_pointer(self, row, left_or_right):
if 0 <= row < len(self.pointers):
self.pointers[row] += 1 if left_or_right == 1 else -1 # LEFT is 0, RIGHT is 1
self.pointers[row] %= self.screen.width
def write(self, row, ch):
if 0 <= row < self.screen.height and 0 <= ch < self.num_chars:
self.screen[row, self.pointers[row]] = ch
def get_output(self):
s = ""
for ch in self.screen[3]:
if ch > 0:
s += "%s" % (ch-1)
return int(s or "0")
class BubblesortEnv:
"""
Environment of Bubblesort
"""
def __init__(self, height, width, num_chars):
self.screen = Screen(height, width)
self.num_chars = num_chars
self.pointers = [NULL] * 3
self.reset()
def reset(self):
self.screen.fill(NULL)
self.pointers = [NULL] * 3
def get_observation(self) -> np.ndarray:
value = []
for ptr_kind in range(len(self.pointers)):
value.append(
self.to_one_hot(self.screen[0, self.pointers[ptr_kind]]))
for ptr_kind in range(len(self.pointers)):
value.append(self.to_one_hot(self.pointers[ptr_kind]))
return np.array(value)
def to_one_hot(self, ch):
ret = np.zeros((self.num_chars, ), dtype=np.int8)
if 0 <= ch < self.num_chars:
ret[ch] = 1
else:
raise IndexError("ch must be 0 <= ch < %s, but %s" %
(self.num_chars, ch))
return ret
def setup_problem(self, num_array):
for i, s in enumerate(num_array):
self.screen[0, i] = int(s) + 1
def move_pointer(self, ptr_kind, left_or_right):
if 0 <= ptr_kind < len(self.pointers):
self.pointers[ptr_kind] += 1 if left_or_right == 1 else -1
self.pointers[ptr_kind] %= self.screen.width
def get_output(self):
s = []
for ch in self.screen[0]:
if ch > 0:
s.append(int(ch - 1))
return s
def swap_point(self):
ch = self.screen[0, self.pointers[0]]
self.screen[0, self.pointers[0]] = self.screen[0, self.pointers[1]]
self.screen[0, self.pointers[1]] = ch
class AdditionEnv:
def __init__(self, height, width, num_chars):
self.screen = Screen(height, width)
self.num_chars = num_chars #chars的类别数
self.pointers = [0] * height #指针位置
self.reset()
def reset(self):
self.screen.fill(0)
self.pointers = [self.screen.width - 1
] * self.screen.height # rightmost
# 当前指针所指内容
def get_observation(self) -> np.ndarray:
value = []
for row in range(len(self.pointers)):
value.append(self.to_one_hot(self.screen[row, self.pointers[row]]))
return np.array(value) # shape of FIELD_ROW * FIELD_DEPTH
def to_one_hot(self, ch):
ret = np.zeros((self.num_chars, ), dtype=np.int8)
if 0 <= ch < self.num_chars:
ret[ch] = 1
else:
raise IndexError("ch must be 0 <= ch < %s, but %s" %
(self.num_chars, ch))
return ret
def setup_problem(self, num1, num2):
for i, s in enumerate(reversed("%s" % num1)):
self.screen[0, -(i + 1)] = int(s) + 1 #0~9 -> 1~10
for i, s in enumerate(reversed("%s" % num2)):
self.screen[1, -(i + 1)] = int(s) + 1
def move_pointer(self, row, left_or_right):
if 0 <= row < len(self.pointers):
self.pointers[
row] += 1 if left_or_right == 1 else -1 # LEFT is 0, RIGHT is 1
self.pointers[row] %= self.screen.width
def write(self, row, ch):
if 0 <= row < self.screen.height and 0 <= ch < self.num_chars:
self.screen[row, self.pointers[row]] = ch
def get_output(self):
s = ""
for ch in self.screen[3]:
if ch > 0:
s += "%s" % (ch - 1)
return int(s or "0")
class AdditionEnv:
"""
Environment of Addition
"""
def __init__(self, height, width, num_chars):
self.screen = Screen(height, width)
self.num_chars = num_chars
self.pointers = [0] * height
self.reset()
def reset(self):
self.screen.fill(0)
self.pointers = [self.screen.width-1] * self.screen.height # rightmost
def get_observation(self) -> np.ndarray:
value = []
for row in range(len(self.pointers)):
value.append(self.to_one_hot(self.screen[row, self.pointers[row]]))
return np.array(value) # shape of FIELD_ROW * FIELD_DEPTH
def to_one_hot(self, ch):
ret = np.zeros((self.num_chars,), dtype=np.int8)
if 0 <= ch < self.num_chars:
ret[ch] = 1
else:
raise IndexError("ch must be 0 <= ch < %s, but %s" % (self.num_chars, ch))
return ret
def setup_problem(self, num1, num2):
for i, s in enumerate(reversed("%s" % num1)):
self.screen[0, -(i+1)] = int(s) + 1
for i, s in enumerate(reversed("%s" % num2)):
self.screen[1, -(i+1)] = int(s) + 1
def move_pointer(self, row, left_or_right):
if 0 <= row < len(self.pointers):
self.pointers[row] += 1 if left_or_right == 1 else -1 # LEFT is 0, RIGHT is 1
self.pointers[row] %= self.screen.width
def write(self, row, ch):
if 0 <= row < self.screen.height and 0 <= ch < self.num_chars:
self.screen[row, self.pointers[row]] = ch
def get_output(self):
s = ""
for ch in self.screen[3]:
if ch > 0:
s += "%s" % (ch-1)
return int(s or "0")
def __init__(self, height, width, num_chars):
self.screen = Screen(height, width)
self.num_chars = num_chars
self.pointers = [0] * height
self.reset()
def __init__(self, height, width, num_chars):
self.screen = Screen(height, width)
self.num_chars = num_chars
self.pointers = [NULL] * 3
self.reset()
def __init__(self, height, width, num_chars):
self.screen = Screen(height, width)
self.num_chars = num_chars #chars的类别数
self.pointers = [0] * height #指针位置
self.reset()
def __init__(self, height, width, num_chars, terminal):
self.screen = Screen(height, width)
self.num_chars = num_chars
self.pointers = [0] * height
self.reset()
self.terminal = terminal
class MultiplicationEnv:
"""
Environment of Multiplication
the idea is to add mul1 to 0 for mul2 times
row0: in1 (initial as 0, and the set as last time output, serve as accomadator)
row1: in2 (will consistently be mul1)
row2: carry
row3: output
row4: mul1
row5: mul2 (will decrease by 1 after each addition, serves as counter of addition program here)
"""
def __init__(self, height, width, num_chars, terminal):
self.screen = Screen(height, width)
self.num_chars = num_chars
self.pointers = [0] * height
self.reset()
self.terminal = terminal
# reset the pointers and the content of row
def reset(self):
self.screen.fill(0)
self.pointers = [self.screen.width - 1
] * self.screen.height # rightmost
# only reset the 1 to 4 th pointers after each addition
def reset_pointers(self):
for row in range(0, 4):
self.pointers[row] = self.screen.width - 1 # rightmost
self.fill_row_with_zero(2)
def fill_row_with_zero(self, row):
self.screen[row, :].fill(0)
def get_observation(self) -> np.ndarray:
value = []
for row in range(len(self.pointers)):
# self.terminal.add_log(self.screen[row, self.pointers[row]])
value.append(self.to_one_hot(self.screen[row, self.pointers[row]]))
# self.terminal.add_log(np.array(value))
return np.array(value) # shape of FIELD_ROW * FIELD_DEPTH
def to_one_hot(self, ch):
ret = np.zeros((self.num_chars, ), dtype=np.int8)
if 0 <= ch < self.num_chars:
ret[ch] = 1
else:
raise IndexError("ch must be 0 <= ch < %s, but %s" %
(self.num_chars, ch))
return ret
def setup_problem(self, mul1, mul2):
# set in1 as the value 0
for i, s in enumerate(reversed("0")):
self.screen[0, -(i + 1)] = int(s) + 1
# set in2 as the value mul1
for i, s in enumerate(reversed("%s" % mul1)):
self.screen[1, -(i + 1)] = int(s) + 1
# set mul1 and mul2
for i, s in enumerate(reversed("%s" % mul1)):
self.screen[4, -(i + 1)] = int(s) + 1
self.set_pointer(4, (self.screen.width - i - 1))
for i, s in enumerate(reversed("%s" % mul2)):
self.screen[5, -(i + 1)] = int(s) + 1
self.set_pointer(5, (self.screen.width - i - 1))
# set the pointer of mul1 and mu2 so that we don't interpret it as zero when
# decode_params
def move_pointer(self, row, left_or_right):
if 0 <= row < len(self.pointers):
self.pointers[
row] += 1 if left_or_right == 1 else -1 # LEFT is 0, RIGHT is 1
self.pointers[row] %= self.screen.width
def set_pointer(self, row, index):
self.terminal.add_log("@@@@set pointer at index %d" % (index))
self.pointers[row] = index
# wirte single digit
def write(self, row, ch):
if 0 <= row < self.screen.height and 0 <= ch < self.num_chars:
self.screen[row, self.pointers[row]] = ch
# write the whole row(only used for SUB)
# write 123
def write_row(self, row, number):
for i, s in enumerate(reversed("%s" % number)):
self.screen[row, -(i + 1)] = int(
s
) + 1 # TODO why + 1, is it because they want to reseve for 0 for null value?
self.screen[row, -(i + 2)] = 0
self.set_pointer(row, (self.screen.width - i - 1))
# issues here
def copy_output_row_to_in1_row(self):
self.terminal.add_log("#####copy cat")
for index in reversed(range(self.pointers[3], self.screen.width)):
self.terminal.add_log("#index %d" % (index))
ch = self.screen[3, index]
if 0 <= ch < self.num_chars:
self.screen[0, index] = ch
def get_output(self):
s = ""
for ch in self.screen[3]:
if ch > 0:
s += "%s" % (ch - 1)
return int(s or "0")
def get_mul2(self):
s = ""
for ch in self.screen[5]:
if ch > 0:
s += "%s" % (ch - 1)
self.terminal.add_log("get %s" % s)
return int(s or "0")
def get_row(self, row):
s = ""
for ch in self.screen[row]:
if ch > 0:
s += "%s" % (ch - 1)
self.terminal.add_log("get %s" % s)
return int(s or "0")
