179 lines
5.7 KiB
Python
179 lines
5.7 KiB
Python
from Tokenizer import *
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from Note import *
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from AST import *
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from Error import SyntaxException
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def expectedFound(expected, found):
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raise SyntaxException(None, f"Expected: {expected}, found: {found}")
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def parseInteger(input, parent):
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token = input.pop(0)
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return IntegerLiteralNode(int(token.value), token.pos)
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def parseString(input, parent):
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token = input.pop(0)
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return StringLiteralNode(token.value[1:-1], token.pos)
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def parseNote(input, parent):
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token = input.pop(0)
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value = token.value
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consumedChars = 1
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notePitch = value[consumedChars]
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consumedChars += 1
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octave = 4
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duration = 4
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if consumedChars < len(value) and value[consumedChars] in ('b', '#'):
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notePitch += value[consumedChars]
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consumedChars += 1
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if consumedChars < len(value) and re.match(r'\d', value[consumedChars]):
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octave = int(value[consumedChars])
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consumedChars += 1
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if consumedChars < len(value) and value[consumedChars] == '.':
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consumedChars += 1
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durationString = ''
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while consumedChars < len(value) and re.match(r'\d', value[consumedChars]):
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durationString += value[consumedChars]
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consumedChars += 1
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duration = int(durationString)
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return NoteLiteralNode(Note(notePitch, octave, duration), token.pos)
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def parseComma(input, parent):
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token = input.pop(0)
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return CommaNode(token.pos)
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def parseList(input, parent):
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token = input.pop(0)
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node = ListNode(token.pos)
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while input[0].type != TokenType.CLOSE_PAREN:
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element = parseArrayElement(input, node)
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if element is None:
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raise SyntaxException(input[0].pos, "Invalid element '{input[0].value}'")
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node.append(element)
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if input[0].type != TokenType.CLOSE_PAREN:
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expectedFound(TokenType.CLOSE_PAREN, input[0].type)
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input.pop(0)
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return node
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def parseBlock(input, parent):
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token = input.pop(0)
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block = BlockNode(token.pos)
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while input[0].type != TokenType.CLOSE_BRACKET:
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block.append(parseToken(input, block))
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if input[0].type != TokenType.CLOSE_BRACKET:
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expectedFound(TokenType.CLOSE_BRACKET, input[0].type)
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input.pop(0)
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return block
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def parseAsterisk(input, parent):
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token = input.pop(0)
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iterator = parent.pop(-1)
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value = parseStatement(input, parent) #TODO: only statements! (?)
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return AsteriskStatementNode(iterator, value, token.pos)
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def parseNoteOrColon(input, parent):
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note = parseNote(input, parent)
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if len(input) > 1 and input[0].type == TokenType.COLON:
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token = input.pop(0)
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b = parseNote(input, parent) #TODO: only expressions!
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if b is None:
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raise SyntaxException(input[0].pos, f"Invalid colon argument '{input[0].value}'")
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return ColonNode(note, b, token.pos)
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return note
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def parseIntegerOrColon(input, parent):
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integer = parseInteger(input, parent)
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if len(input) > 1 and input[0].type == TokenType.COLON:
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token = input.pop(0)
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b = parseInteger(input, parent) #TODO: only expressions!
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if b is None:
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raise SyntaxException(input[0].pos, f"Invalid colon argument '{input[0].value}'")
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return ColonNode(integer, b, token.pos)
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return integer
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def parseFunctionCallOrAssignOrIdentifier(input, parent):
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token = input.pop(0)
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identifier = IdentifierNode(token.value, token.pos)
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# Function call
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if len(input) > 0 and input[0].type == TokenType.OPEN_PAREN:
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arguments = parseList(input, parent)
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return FunctionCallNode(identifier, arguments, token.pos)
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# Assign
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if len(input) > 1 and input[0].type == TokenType.ASSIGN:
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token = input.pop(0)
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value = parseExpression(input, parent) #TODO: only expressions!
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return AssignExpression(identifier, value, token.pos)
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return identifier
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def parsePercent(input, parent):
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token = input.pop(0)
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value = parent.pop(-1)
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return PercentNode(value, token.pos)
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def parseMinus(input, parent):
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token = input.pop(0)
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value = parseInteger(input, parent)
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return IntegerLiteralNode(-value.value, token.pos)
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def parseExpression(input, parent):
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type = input[0].type
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if type == TokenType.MINUS:
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return parseMinus(input, parent)
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if type == TokenType.INTEGER:
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return parseIntegerOrColon(input, parent)
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if type == TokenType.STRING:
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return parseString(input, parent)
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if type == TokenType.NOTE:
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return parseNoteOrColon(input, parent)
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if type == TokenType.IDENTIFIER:
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return parseFunctionCallOrAssignOrIdentifier(input, parent)
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if type == TokenType.PERCENT:
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return parsePercent(input, parent)
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if type == TokenType.OPEN_PAREN:
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return parseList(input, parent)
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raise SyntaxException(input[0].pos, f"Unexpected character '{input[0].value}'")
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def parseArrayElement(input, parent):
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type = input[0].type
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if type == TokenType.COMMA:
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return parseComma(input, parent)
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return parseExpression(input, parent)
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def parseStatement(input, parent):
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type = input[0].type
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if type == TokenType.OPEN_BRACKET:
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return parseBlock(input, parent)
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if type == TokenType.ASTERISK:
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return parseAsterisk(input, parent)
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return parseExpression(input, parent)
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def parseToken(input, parent):
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#import pdb; pdb.set_trace()
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return parseStatement(input, parent)
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def parse(input):
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root = Program()
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while len(input) > 0:
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root.append(parseToken(input, root))
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return root
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