mirror of
https://github.com/irmen/prog8.git
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219 lines
7.3 KiB
Python
219 lines
7.3 KiB
Python
"""
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Simplistic 8/16 bit Virtual Machine to execute a stack based instruction language.
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Parser for the simplistic text based program representation
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Written by Irmen de Jong (irmen@razorvine.net) - license: GNU GPL 3.0
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"""
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import array
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from typing import Optional, List, Tuple, Dict, Any
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from .program import Opcode, Program, Block, Variable, Instruction, Value
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from .vm import StackValueType
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from .core import DataType
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class ParseError(Exception):
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pass
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class Parser:
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def __init__(self, source: str) -> None:
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self.source = source.splitlines()
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self.lineno = 0
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def parse(self) -> Program:
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blocklist = []
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while self.lineno < len(self.source):
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self.skip_empty()
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blocklist.append(self.parse_block(None))
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return Program(blocklist)
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def skip_empty(self) -> None:
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while self.lineno < len(self.source):
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line = self.source[self.lineno].strip()
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if not line or line.startswith(";"):
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self.lineno += 1
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else:
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break
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def parse_block(self, parent: Optional[Block]) -> Block:
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assert self.source[self.lineno].startswith("%block")
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blockname = self.source[self.lineno].split()[1]
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variables = [] # type: List[Variable]
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instructions = [] # type: List[Instruction]
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labels = {} # type: Dict[str, Instruction]
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self.lineno += 1
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self.skip_empty()
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if self.source[self.lineno].startswith("%vardefs"):
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variables = self.parse_vardefs()
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self.skip_empty()
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if self.source[self.lineno].startswith("%instructions"):
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instructions, labels = self.parse_instructions()
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block = Block(blockname, parent, variables, instructions, labels, [])
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self.skip_empty()
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if self.source[self.lineno].startswith("%subblocks"):
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block.blocks = self.parse_subblocks(block)
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self.skip_empty()
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assert self.source[self.lineno].startswith("%end_block")
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self.lineno += 1
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return block
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def get_array_type(self, dtype: DataType) -> str:
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return {
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DataType.ARRAY_BYTE: 'B',
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DataType.ARRAY_SBYTE: 'b',
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DataType.ARRAY_WORD: 'H',
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DataType.ARRAY_SWORD: 'h',
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DataType.MATRIX_BYTE: 'B',
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DataType.MATRIX_SBYTE: 'b'
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}[dtype]
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def parse_vardefs(self) -> List[Variable]:
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assert self.source[self.lineno].startswith("%vardefs")
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self.lineno += 1
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variables = []
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while not self.source[self.lineno].startswith("%"):
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vartype, datatype, name, argstr = self.source[self.lineno].split(maxsplit=3)
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dtype = DataType[datatype.upper()]
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length = height = 0
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value = None # type: StackValueType
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if dtype in (DataType.BYTE, DataType.WORD, DataType.SBYTE, DataType.SWORD):
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value = Value(dtype, int(argstr))
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elif dtype == DataType.FLOAT:
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value = Value(dtype, float(argstr))
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elif dtype == DataType.BOOL:
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value = Value(dtype, argstr.lower() not in ("0", "false"))
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elif dtype in (DataType.ARRAY_BYTE, DataType.ARRAY_SBYTE, DataType.ARRAY_WORD, DataType.ARRAY_SWORD):
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args = argstr.split(maxsplit=1)
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length = int(args[0])
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valuestr = args[1]
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typecode = self.get_array_type(dtype)
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if valuestr[0] == '[' and valuestr[-1] == ']':
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value = Value(dtype, array.array(typecode, [int(v) for v in valuestr[1:-1].split()]))
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else:
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value = Value(dtype, array.array(typecode, [int(valuestr)]) * length)
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elif dtype in (DataType.MATRIX_BYTE, DataType.MATRIX_SBYTE):
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args = argstr.split(maxsplit=2)
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length = int(args[0])
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height = int(args[1])
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valuestr = args[2]
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typecode = self.get_array_type(dtype)
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if valuestr[0] == '[' and valuestr[-1] == ']':
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value = Value(dtype, array.array(typecode, [int(v) for v in valuestr[1:-1].split()]))
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else:
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value = Value(dtype, array.array(typecode, [int(valuestr)] * length * height))
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else:
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raise TypeError("weird dtype", dtype)
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variables.append(Variable(name, dtype, value, vartype == "const"))
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self.lineno += 1
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self.skip_empty()
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assert self.source[self.lineno].startswith("%end_vardefs")
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self.lineno += 1
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return variables
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def parse_instructions(self) -> Tuple[List[Instruction], Dict[str, Instruction]]:
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assert self.source[self.lineno].startswith("%instructions")
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self.lineno += 1
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instructions = []
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labels = {} # type: Dict[str, Instruction]
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def parse_instruction(ln: str) -> Instruction:
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parts = ln.split(maxsplit=1)
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opcode = Opcode[parts[0].upper()]
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args = [] # type: List[Any]
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if len(parts) == 2:
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args = parts[1].split()
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else:
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args = []
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if opcode in (Opcode.CALL, Opcode.RETURN):
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args[0] = int(args[0]) # the number of arguments/parameters
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return Instruction(opcode, args, None, None)
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while not self.source[self.lineno].startswith("%"):
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line = self.source[self.lineno].strip()
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if line.endswith(":"):
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# a label that points to an instruction
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label = line[:-1].rstrip()
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self.lineno += 1
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line = self.source[self.lineno]
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next_instruction = parse_instruction(line)
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labels[label] = next_instruction
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instructions.append(next_instruction)
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self.lineno += 1
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else:
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instructions.append(parse_instruction(line))
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self.lineno += 1
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self.skip_empty()
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assert self.source[self.lineno].startswith("%end_instructions")
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self.lineno += 1
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return instructions, labels
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def parse_subblocks(self, parent: Block) -> List[Block]:
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assert self.source[self.lineno].startswith("%subblocks")
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self.lineno += 1
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blocks = []
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while not self.source[self.lineno].startswith("%end_subblocks"):
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self.lineno += 1
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while True:
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if self.source[self.lineno].startswith("%block"):
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blocks.append(self.parse_block(parent))
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else:
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break
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self.skip_empty()
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self.lineno += 1
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return blocks
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if __name__ == "__main__":
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src = """
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%block b1
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%vardefs
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var byte v1 0
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var word w1 2222
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var sword ws -3333
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const byte c1 99
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const sword cws -5444
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var array_byte ba 10 33
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var array_byte ba2 10 [1 2 3 4 5 6 7 8 9 10]
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var matrix_byte mxb 4 5 33
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var matrix_byte mxb2 3 2 [1 2 3 4 5 6]
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%end_vardefs
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%instructions
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nop
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nop
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l1:
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nop
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push c1
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push2 c1 cws
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call 3 l1
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return 2
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%end_instructions
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%subblocks
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%block b2
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%vardefs
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%end_vardefs
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%end_block ; b2
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%end_subblocks
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%end_block ;b1
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%block b3
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%vardefs
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%end_vardefs
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%instructions
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nop
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nop
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l1:
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nop
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return 99
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%end_instructions
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%end_block ; b3
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"""
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parser = Parser(src)
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program = parser.parse()
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