def compile_parameter_list(self):
# ((type varName) (',' type varName)*)?
local_root = SyntaxTreeNode('parameterList')
# (type varName)
node = self.__expect_type()
if not node:
return local_root
local_root.add_child(node)
local_root.add_child(self.__expect_identifier(), 'expect varName')
# (',' type varName) *
while True:
node = self.__expect_symbol(',')
if node:
local_root.add_child(node)
local_root.add_child(self.__expect_type(), 'expect type')
local_root.add_child(self.__expect_identifier(), 'expect identifier')
else:
break
return local_root
def compile_return(self):
# 'return' expression? ';'
node = self.__expect_keyword('return')
if not node:
return None
local_root = SyntaxTreeNode('returnStatement')
local_root.add_child(node)
local_root.add_child(self.compile_expression())
local_root.add_child(self.__expect_symbol(';') ,'expect ; in return')
return local_root
def compile_class(self):
# class: 'class' className '{' classVarDec* subroutineDec* '}'
local_root = SyntaxTreeNode('class')
# 'class'
local_root.add_child(self.__expect_keyword('class'), 'expect keyword class')
# className
class_name_node = self.__expect_identifier()
local_root.add_child(class_name_node, 'expect identifier className')
self.class_name = class_name_node.value
# '{'
local_root.add_child(self.__expect_symbol('{'), 'expect {')
# classVarDec*
local_root.add_many(self.compile_class_var_dec)
# subroutineDec*
local_root.add_many(self.compile_subroutine)
# '}'
local_root.add_child(self.__expect_symbol('}'), 'expect } in class')
return local_root
def compile_do(self):
# 'do' subroutineCall ';'
node = self.__expect_keyword('do')
if not node:
return None
local_root = SyntaxTreeNode('doStatement')
local_root.add_child(node)
sub_call = self.compile_subroutine_call()
if not sub_call:
sys.exit('missing subroutine call in do statement')
local_root.add_child(sub_call)
# ;
local_root.add_child(self.__expect_symbol(';'), 'expect ; in do')
return local_root
def compile_expression_list(self):
# (expression (',' expression)* )?
local_root = SyntaxTreeNode('expressionList')
node = self.compile_expression()
if node:
local_root.add_child(node)
# (',' expression)*
while True:
node = self.__expect_symbol(',')
if node:
local_root.add_child(node)
local_root.add_child(self.compile_expression(), 'expect expression in exp list')
else:
break
return local_root
def compile_expression(self):
# term (op term)*
node = self.compile_term()
if not node:
return None
local_root = SyntaxTreeNode('expression')
local_root.add_child(node)
while True:
node = self.__expect_op()
if node:
local_root.add_child(node)
local_root.add_child(self.compile_term(), 'expect term after op')
else:
break
return local_root
def compile_subroutine_body(self):
# subroutineBody
# '{' varDec* statements '}'
local_root = SyntaxTreeNode('subroutineBody')
# '{'
node = self.__expect_symbol('{')
if not node:
return None
local_root.add_child(node)
# varDesc*
local_root.add_many(self.compile_var_dec)
# statements
local_root.add_child(self.compile_statements(), 'expect statements')
# '}'
local_root.add_child(self.__expect_symbol('}'), 'expect }')
return local_root
def compile_class_var_dec(self):
# classVarDec: ('static' | 'field') type varName (',' varName)* ';'
# ('static' | 'field')
node = self.__expect_keyword(('static', 'field'))
if not node:
return None
local_root = SyntaxTreeNode('classVarDec')
local_root.add_child(node)
# re.type: 'int' | 'char' | 'boolean' | className
# re.className: identifier
local_root.add_child(self.__expect_type(), 'expect type')
# varName: identifier
local_root.add_child(self.__expect_identifier(), 'expect varName')
# (',' varName)*
while True:
node = self.__expect_symbol(',')
if node:
local_root.add_child(node)
local_root.add_child(self.__expect_identifier(), 'expect varName after ,')
else:
break
# ';'
local_root.add_child(self.__expect_symbol(';'), 'expect ; in varDec')
return local_root
def compile_term(self):
# integerConstant | stringConstant | keywordConstant |
# varName | varName '[' expression ']' |
# subroutineCall | '(' expression ')' |
# unaryOp term
local_root = SyntaxTreeNode('term')
# integerConstant | stringConstant | keywordConstant
node = or_compile((
self.__expect_integer_constant,
self.__expect_string_constant,
self.__expect_keyword_constant,
))
if node:
local_root.add_child(node)
return local_root
# subroutineCall
sub_call = self.compile_subroutine_call()
if sub_call:
local_root.add_child(sub_call)
return local_root
next_token = self.tokenizer.peek_next()
# varName | varName '[' expression ']'
if next_token and next_token.get_type() == TokenType.IDENTIFIER:
local_root.add_child(self.__expect_identifier())
next2 = self.tokenizer.peek_next()
if next2 and next2.get_symbol() == '[':
local_root.add_child(self.compile_array_access())
return local_root
# '(' expression ')'
if next_token and next_token.get_symbol() == '(':
local_root.add_child(self.__expect_symbol('('))
local_root.add_child(self.compile_expression(), 'expect expression after ( in term')
local_root.add_child(self.__expect_symbol(')'), 'expect ) in term')
return local_root
# unaryOp term
node = self.__expect_unary_op()
if node:
local_root.add_child(node)
local_root.add_child(self.compile_term(), 'expect term after unary op in term')
return local_root
return None
def compile_if(self):
# 'if' '(' expression ')' '{' statements '}'
# ('else' '{' statements '}')?
node = self.__expect_keyword('if')
if not node:
return None
local_root = SyntaxTreeNode('ifStatement')
local_root.add_child(node)
local_root.add_child(self.__expect_symbol('('), 'expect ( in if')
local_root.add_child(self.compile_expression(), 'expect expression in if')
local_root.add_child(self.__expect_symbol(')'), 'expect ) in if')
local_root.add_child(self.__expect_symbol('{'), 'expect { in if')
local_root.add_child(self.compile_statements(), 'expect statements in if')
local_root.add_child(self.__expect_symbol('}'), 'expect } in if')
next_token = self.tokenizer.peek_next()
if next_token and next_token.get_keyword() == 'else':
local_root.add_child(self.__expect_keyword('else'))
local_root.add_child(self.__expect_symbol('{'), 'expect { in else')
local_root.add_child(self.compile_statements(), 'expect statements in else')
local_root.add_child(self.__expect_symbol('}'), 'expect } in else')
return local_root
def compile_while(self):
# 'while' '(' expression ')' '{' statements '}'
node = self.__expect_keyword('while')
if not node:
return None
local_root = SyntaxTreeNode('whileStatement')
local_root.add_child(node)
local_root.add_child(self.__expect_symbol('('), 'expect ( in while')
local_root.add_child(self.compile_expression(), 'expect expression in while')
local_root.add_child(self.__expect_symbol(')'), 'expect ) in while')
local_root.add_child(self.__expect_symbol('{'), 'expect { in while')
local_root.add_child(self.compile_statements(), 'expect statements in while')
local_root.add_child(self.__expect_symbol('}'), 'expect } in while')
return local_root
def compile_array_access(self):
local_root = SyntaxTreeNode('arrayAccess')
local_root.add_child(self.__expect_symbol('['), 'expect [')
local_root.add_child(self.compile_expression(), 'expect expression in array access')
local_root.add_child(self.__expect_symbol(']'), 'expect ]')
return local_root
def compile_let(self):
# 'let' varName ('[' expression ']')? '=' expression ';'
node = self.__expect_keyword('let')
if not node:
return None
local_root = SyntaxTreeNode('letStatement')
local_root.add_child(node)
local_root.add_child(self.__expect_identifier(), 'expect varName in let')
next_token = self.tokenizer.peek_next()
if next_token and next_token.get_symbol() == '[':
local_root.add_child(self.compile_array_access())
local_root.add_child(self.__expect_symbol('='), 'expect = in let')
local_root.add_child(self.compile_expression(), 'expect expression in let statement')
# ;
local_root.add_child(self.__expect_symbol(';'), 'expect ; in let')
return local_root
def compile_subroutine_call(self) -> SyntaxTreeNode:
# subroutineCall: subroutineName '(' expressionList ')'
# | (className | varName) '.' subroutineName '(' expressionList ')'
local_root = None
next_token = self.tokenizer.peek_next()
if next_token.get_type() == TokenType.IDENTIFIER:
next2_token = self.tokenizer.peek_next(2)
n2_value = next2_token.get_symbol()
if n2_value in ('(', '.'):
# ok, this is a subroutine call
local_root = SyntaxTreeNode('subroutineCall')
node = self.__expect_identifier()
local_root.add_child(node)
next_token = self.tokenizer.peek_next()
if next_token.get_symbol() == '.':
local_root.add_child(self.__expect_symbol('.'))
local_root.add_child(self.__expect_identifier())
local_root.add_child(self.__expect_symbol('('))
local_root.add_child(self.compile_expression_list())
local_root.add_child(self.__expect_symbol(')'))
return local_root
def compile_var_dec(self):
# 'var' type varName (',' varName)* ';'
node = self.__expect_keyword('var')
if not node:
return None
# 'var' type varName
local_node = SyntaxTreeNode('varDec')
local_node.add_child(node)
local_node.add_child(self.__expect_type(), 'expect type in varDec')
local_node.add_child(self.__expect_identifier(), 'expect identifier in varDec')
# (',' varName)*
while True:
node = self.__expect_symbol(',')
if node:
local_node.add_child(node)
local_node.add_child(self.__expect_identifier(), 'expect identifier in varDec')
else:
break
# ;
local_node.add_child(self.__expect_symbol(';'))
return local_node
def compile_subroutine(self):
# ('constructor' | 'function' | 'method')
node = self.__expect_keyword(('constructor', 'function', 'method'))
if not node:
return None
local_root = SyntaxTreeNode('subroutineDec')
local_root.add_child(node)
# ('void' | type)
local_root.add_child(self.__expect_void_or_type(), 'expect void or type')
# subroutineName
local_root.add_child(self.__expect_identifier(), 'expect subroutineName')
# '('
local_root.add_child(self.__expect_symbol('('), 'expect )')
# parameterList
local_root.add_child(self.compile_parameter_list(), 'expect parameterList')
# ')'
local_root.add_child(self.__expect_symbol(')'), 'expect )')
# subroutineBody
local_root.add_child(self.compile_subroutine_body(), 'expect subroutineBody')
return local_root