249 lines
7.0 KiB
Python
249 lines
7.0 KiB
Python
# synacor.py - An implementation of the Synacor Challenge
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# Copyright © 2017 RunasSudo
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#
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# This program is free software: you can redistribute it and/or modify
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# it under the terms of the GNU Affero General Public License as published by
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# the Free Software Foundation, either version 3 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU Affero General Public License for more details.
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#
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# You should have received a copy of the GNU Affero General Public License
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# along with this program. If not, see <http://www.gnu.org/licenses/>.
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class Operand:
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@staticmethod
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def read_op(word):
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if 0 <= word <= 32767:
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return OpLiteral(word)
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if 32768 <= word <= 32775:
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return OpRegister(word - 32768)
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raise Exception('Invalid word {}')
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class OpLiteral(Operand):
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def __init__(self, value):
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self.value = value
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def get(self, cpu):
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return self.value
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def set(self, cpu, value):
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raise Exception('Attempted to set literal value {} to {} at {}'.format(self.value, value, cpu.SYN_PTR))
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def describe(self):
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return '{:04x}'.format(self.value)
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def assemble(self, labels):
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return self.value
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class OpRegister(Operand):
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def __init__(self, register):
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self.register = register
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def get(self, cpu):
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return cpu.SYN_REG[self.register]
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def set(self, cpu, value):
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cpu.SYN_REG[self.register] = value
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def describe(self):
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return 'R{}'.format(self.register)
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def assemble(self, labels):
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return self.register + 32768
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# Used only in dis/assembling process
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class OpLabel(Operand):
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def __init__(self, label):
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self.label = label
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def describe(self):
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return '${}'.format(self.label)
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def assemble(self, labels):
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if labels is None:
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# First pass
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return 0xffff
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if self.label not in labels:
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raise Exception('Unknown label {}'.format(self.label))
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return OpLiteral(labels[self.label]).assemble(labels)
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instructions_by_opcode = {}
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instructions_by_name = {}
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def instruction(opcode, name, nargs=0):
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def decorator(cls):
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cls.opcode = opcode
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cls.name = name
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cls.nargs = nargs
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instructions_by_opcode[opcode] = cls
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instructions_by_name[name] = cls
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return cls
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return decorator
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class Instruction:
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def __init__(self):
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self.args = []
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def describe(self):
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description = '{: <4}'.format(self.name)
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for i in range(self.nargs):
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description += ' {}'.format(self.args[i].describe())
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return description.strip()
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def assemble(self, labels):
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return [self.opcode] + [self.args[i].assemble(labels) for i in range(self.nargs)]
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@staticmethod
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def next_instruction(data, idx):
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opcode = Operand.read_op(data[idx])
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idx += 1
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if not isinstance(opcode, OpLiteral):
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raise Exception('Invalid value for opcode {} at {}'.format(data[idx], idx))
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opcode_value = opcode.get(None)
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if opcode_value not in instructions_by_opcode:
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raise Exception('Invalid opcode {} at {}'.format(opcode_value, idx))
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instruction = instructions_by_opcode[opcode_value]()
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for _ in range(instruction.nargs):
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instruction.args.append(Operand.read_op(data[idx]))
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idx += 1
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return instruction, idx
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@instruction(21, 'nop')
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class InstructionNop(Instruction):
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def run(self, cpu):
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pass
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@instruction(0, 'halt')
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class InstructionHalt(Instruction):
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def run(self, cpu):
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import sys
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sys.exit(0)
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@instruction(1, 'set', 2)
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class InstructionSet(Instruction):
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def run(self, cpu):
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self.args[0].set(cpu, self.args[1].get(cpu))
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@instruction(2, 'push', 1)
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class InstructionPush(Instruction):
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def run(self, cpu):
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cpu.SYN_STK.append(self.args[0].get(cpu))
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@instruction(3, 'pop', 1)
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class InstructionPop(Instruction):
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def run(self, cpu):
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if len(cpu.SYN_STK) == 0:
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raise Exception('Attempted to pop from empty stack at {}'.format(cpu.SYN_PTR))
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self.args[0].set(cpu, cpu.SYN_STK.pop())
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@instruction(4, 'eq', 3)
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class InstructionEq(Instruction):
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def run(self, cpu):
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self.args[0].set(cpu, 1 if self.args[1].get(cpu) == self.args[2].get(cpu) else 0)
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@instruction(5, 'gt', 3)
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class InstructionGt(Instruction):
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def run(self, cpu):
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self.args[0].set(cpu, 1 if self.args[1].get(cpu) > self.args[2].get(cpu) else 0)
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@instruction(6, 'jmp', 1)
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class InstructionJmp(Instruction):
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def run(self, cpu):
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cpu.SYN_PTR = self.args[0].get(cpu)
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@instruction(7, 'jt', 2)
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class InstructionJt(Instruction):
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def run(self, cpu):
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if self.args[0].get(cpu) != 0:
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cpu.SYN_PTR = self.args[1].get(cpu)
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@instruction(8, 'jf', 2)
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class InstructionJf(Instruction):
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def run(self, cpu):
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if self.args[0].get(cpu) == 0:
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cpu.SYN_PTR = self.args[1].get(cpu)
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@instruction(9, 'add', 3)
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class InstructionAdd(Instruction):
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def run(self, cpu):
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self.args[0].set(cpu, (self.args[1].get(cpu) + self.args[2].get(cpu)) % 32768)
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@instruction(10, 'mult', 3)
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class InstructionMult(Instruction):
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def run(self, cpu):
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self.args[0].set(cpu, (self.args[1].get(cpu) * self.args[2].get(cpu)) % 32768)
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@instruction(11, 'mod', 3)
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class InstructionMod(Instruction):
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def run(self, cpu):
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self.args[0].set(cpu, self.args[1].get(cpu) % self.args[2].get(cpu))
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@instruction(12, 'and', 3)
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class InstructionAnd(Instruction):
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def run(self, cpu):
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self.args[0].set(cpu, self.args[1].get(cpu) & self.args[2].get(cpu))
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@instruction(13, 'or', 3)
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class InstructionOr(Instruction):
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def run(self, cpu):
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self.args[0].set(cpu, self.args[1].get(cpu) | self.args[2].get(cpu))
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@instruction(14, 'not', 2)
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class InstructionNot(Instruction):
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def run(self, cpu):
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self.args[0].set(cpu, ~self.args[1].get(cpu) % 32768)
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@instruction(15, 'rmem', 2)
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class InstructionRmem(Instruction):
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def run(self, cpu):
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self.args[0].set(cpu, cpu.SYN_MEM[self.args[1].get(cpu)])
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@instruction(16, 'wmem', 2)
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class InstructionWmem(Instruction):
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def run(self, cpu):
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cpu.SYN_MEM[self.args[0].get(cpu)] = self.args[1].get(cpu)
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@instruction(17, 'call', 1)
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class InstructionCall(Instruction):
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def run(self, cpu):
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cpu.SYN_STK.append(cpu.SYN_PTR)
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cpu.SYN_PTR = self.args[0].get(cpu)
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@instruction(18, 'ret')
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class InstructionRet(Instruction):
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def run(self, cpu):
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if len(cpu.SYN_STK) == 0:
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raise Exception('Attempted to return with empty stack at {}'.format(cpu.SYN_PTR))
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cpu.SYN_PTR = cpu.SYN_STK.pop()
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@instruction(19, 'out', 1)
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class InstructionOut(Instruction):
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def run(self, cpu):
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print(chr(self.args[0].get(cpu)), end='')
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@instruction(20, 'in', 1)
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class InstructionIn(Instruction):
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def run(self, cpu):
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import sys
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while len(cpu.SYN_STDIN_BUF) == 0:
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line = sys.stdin.readline()
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if line.startswith('.'):
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# Debug command
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dbg_args = line[1:].split()
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with open(dbg_args[0] + '.py', 'r') as f:
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exec(f.read(), globals(), locals())
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else:
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cpu.SYN_STDIN_BUF = list(line)
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self.args[0].set(cpu, ord(cpu.SYN_STDIN_BUF.pop(0)))
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# Not actually an instruction, but convenient to think of it as one for the purposes of assembling
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# self.args is an array of literal values, rather than Operands
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class InstructionData(Instruction):
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def assemble(self, labels):
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return self.args
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instructions_by_name['data'] = InstructionData
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