From: Jacob Lifshay Date: Thu, 4 May 2023 04:08:49 +0000 (-0700) Subject: move Assign to parser class in prep for improving syntax error reporting X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=10ba7151784dc708837c55d92528d7c3ca022920;p=openpower-isa.git move Assign to parser class in prep for improving syntax error reporting --- diff --git a/src/openpower/decoder/pseudo/parser.py b/src/openpower/decoder/pseudo/parser.py index 94864896..902dee8f 100644 --- a/src/openpower/decoder/pseudo/parser.py +++ b/src/openpower/decoder/pseudo/parser.py @@ -28,71 +28,6 @@ fregs = ['FRA', 'FRS', 'FRB', 'FRC', 'FRT', 'FRS'] SPECIAL_HELPERS = {'concat', 'MEM', 'GPR', 'FPR', 'SPR'} -def Assign(autoassign, assignname, left, right, iea_mode): - names = [] - print("Assign", autoassign, assignname, left, right) - if isinstance(left, ast.Name): - # Single assignment on left - # XXX when doing IntClass, which will have an "eq" function, - # this is how to access it - # eq = ast.Attribute(left, "eq") # get eq fn - # return ast.Call(eq, [right], []) # now call left.eq(right) - return ast.Assign([ast.Name(left.id, ast.Store())], right) - elif isinstance(left, ast.Tuple): - # List of things - make sure they are Name nodes - names = [] - for child in left.elts: - if not isinstance(child, ast.Name): - raise SyntaxError("that assignment not supported") - names.append(child.id) - ass_list = [ast.Name(name, ast.Store()) for name in names] - return ast.Assign([ast.Tuple(ass_list)], right) - elif isinstance(left, ast.Subscript): - ls = left.slice - # XXX changing meaning of "undefined" to a function - # if (isinstance(ls, ast.Slice) and isinstance(right, ast.Name) and - # right.id == 'undefined'): - # # undefined needs to be copied the exact same slice - # right = ast.Subscript(right, ls, ast.Load()) - # return ast.Assign([left], right) - res = ast.Assign([left], right) - if autoassign and isinstance(ls, ast.Slice): - # hack to create a variable pre-declared based on a slice. - # dividend[0:32] = (RA)[0:32] will create - # dividend = [0] * 32 - # dividend[0:32] = (RA)[0:32] - # the declaration makes the slice-assignment "work" - lower, upper, step = ls.lower, ls.upper, ls.step - print("lower, upper, step", repr(lower), repr(upper), step) - # XXX relax constraint that indices on auto-assign have - # to be constants x[0:32] - # if not isinstance(lower, ast.Constant) or \ - # not isinstance(upper, ast.Constant): - # return res - qty = ast.BinOp(upper, binary_ops['-'], lower) - keywords = [ast.keyword(arg='repeat', value=qty)] - l = [ast.Num(0)] - right = ast.Call(ast.Name("concat", ast.Load()), l, keywords) - declare = ast.Assign([ast.Name(assignname, ast.Store())], right) - return [declare, res] - return res - # XXX HMMM probably not needed... - ls = left.slice - if isinstance(ls, ast.Slice): - lower, upper, step = ls.lower, ls.upper, ls.step - print("slice assign", lower, upper, step) - if step is None: - ls = (lower, upper, None) - else: - ls = (lower, upper, step) - ls = ast.Tuple(ls) - return ast.Call(ast.Name("selectassign", ast.Load()), - [left.value, ls, right], []) - else: - print("Assign fail") - raise SyntaxError("Can't do that yet") - - # I implemented INDENT / DEDENT generation as a post-processing filter # The original lex token stream contains WS and NEWLINE characters. @@ -197,7 +132,7 @@ def identify_sint_mul_pattern(p): if (not isinstance(p[3], ast.Constant) and # rhs = Num not isinstance(p[3], ast.BinOp) and # rhs = (XLEN-something) (not isinstance(p[3], ast.Name) and # rhs = {a variable} - not isinstance(p[3], ast.Attribute))): # rhs = XLEN + not isinstance(p[3], ast.Attribute))): # rhs = XLEN return False if not isinstance(p[1], ast.List): # lhs is a list return False @@ -501,7 +436,7 @@ class PowerParser: # documentation for why we need this copy_fn = ast.Name("copy_assign_rhs", ast.Load()) rhs = ast.Call(copy_fn, (p[3],), []) - p[0] = Assign(autoassign, name, p[1], rhs, iea_mode) + p[0] = self.Assign(autoassign, name, p[1], rhs, iea_mode) if name: self.declared_vars.add(name) @@ -931,6 +866,71 @@ class PowerParser: # print "Error!", repr(p) raise SyntaxError(p) + def Assign(self, autoassign, assignname, left, right, iea_mode): + names = [] + print("Assign", autoassign, assignname, left, right) + if isinstance(left, ast.Name): + # Single assignment on left + # XXX when doing IntClass, which will have an "eq" function, + # this is how to access it + # eq = ast.Attribute(left, "eq") # get eq fn + # return ast.Call(eq, [right], []) # now call left.eq(right) + return ast.Assign([ast.Name(left.id, ast.Store())], right) + elif isinstance(left, ast.Tuple): + # List of things - make sure they are Name nodes + names = [] + for child in left.elts: + if not isinstance(child, ast.Name): + raise SyntaxError("that assignment not supported") + names.append(child.id) + ass_list = [ast.Name(name, ast.Store()) for name in names] + return ast.Assign([ast.Tuple(ass_list)], right) + elif isinstance(left, ast.Subscript): + ls = left.slice + # XXX changing meaning of "undefined" to a function + # if (isinstance(ls, ast.Slice) and isinstance(right, ast.Name) and + # right.id == 'undefined'): + # # undefined needs to be copied the exact same slice + # right = ast.Subscript(right, ls, ast.Load()) + # return ast.Assign([left], right) + res = ast.Assign([left], right) + if autoassign and isinstance(ls, ast.Slice): + # hack to create a variable pre-declared based on a slice. + # dividend[0:32] = (RA)[0:32] will create + # dividend = [0] * 32 + # dividend[0:32] = (RA)[0:32] + # the declaration makes the slice-assignment "work" + lower, upper, step = ls.lower, ls.upper, ls.step + print("lower, upper, step", repr(lower), repr(upper), step) + # XXX relax constraint that indices on auto-assign have + # to be constants x[0:32] + # if not isinstance(lower, ast.Constant) or \ + # not isinstance(upper, ast.Constant): + # return res + qty = ast.BinOp(upper, binary_ops['-'], lower) + keywords = [ast.keyword(arg='repeat', value=qty)] + l = [ast.Num(0)] + right = ast.Call(ast.Name("concat", ast.Load()), l, keywords) + declare = ast.Assign( + [ast.Name(assignname, ast.Store())], right) + return [declare, res] + return res + # XXX HMMM probably not needed... + ls = left.slice + if isinstance(ls, ast.Slice): + lower, upper, step = ls.lower, ls.upper, ls.step + print("slice assign", lower, upper, step) + if step is None: + ls = (lower, upper, None) + else: + ls = (lower, upper, step) + ls = ast.Tuple(ls) + return ast.Call(ast.Name("selectassign", ast.Load()), + [left.value, ls, right], []) + else: + print("Assign fail") + raise SyntaxError("Can't do that yet") + _CACHE_DECODER = True _CACHED_DECODER = None