class Compiler(ast.NodeVisitor): def __init__(self, symtab_map, filename="<file>"): self.filename = filename self.symtab_map = symtab_map # Symtab for current scope self.symtab = None # Stack for (continue_label, break_label, loop_type) self.loop_stack = [] self.bc = None def _visit_with_load_ctx(self, node): # Not functional style :-/. Alternatives would be to make a copy # of node (and modify it), patch NodeVisitor to accept/pass # additional params, or handle possible AST types explicitly # (a lot of code duplication). ctx = node.ctx node.ctx = ast.Load() self.visit(node) node.ctx = ctx # Visit list of statements. def _visit_suite(self, lst): s = None for s in lst: log.debug("%s", ast.dump(s)) org_stk_ptr = self.bc.stk_ptr self.visit(s) # Each complete statement should have zero cumulative stack effect. assert self.bc.stk_ptr == org_stk_ptr, "%d vs %d after: %s" % ( self.bc.stk_ptr, org_stk_ptr, ast.dump(s)) return s def visit_Module(self, node): self.symtab = self.symtab_map[node] self.bc = Bytecode() self._visit_suite(node.body) self.bc.add(opc.LOAD_CONST_NONE) self.bc.add(opc.RETURN_VALUE) def visit_ClassDef(self, node): prev_symtab = self.symtab prev_bc = self.bc self.symtab = self.symtab_map[node] self.bc = Bytecode() name_interned = sys.intern(node.name) self.bc.add(opc.LOAD_NAME, "__name__") self._visit_var("__module__", ast.Store()) self.bc.add(opc.LOAD_CONST_STRING, name_interned) self._visit_var("__qualname__", ast.Store()) self._visit_suite(node.body) self.bc.add(opc.LOAD_CONST_NONE) self.bc.add(opc.RETURN_VALUE) co = self.bc.get_codeobj() co.co_name = node.name co.co_filename = self.filename self.bc = prev_bc self.symtab = prev_symtab self.bc.add(opc.LOAD_BUILD_CLASS) self.bc.add(opc.MAKE_FUNCTION, co) self.bc.add(opc.LOAD_CONST_STRING, name_interned) for b in node.bases: self.visit(b) self.bc.add(opc.CALL_FUNCTION, 2 + len(node.bases), 0) self._visit_var(node.name, ast.Store()) def _visit_function(self, node): args = node.args assert not args.kwonlyargs assert not args.kw_defaults is_lambda = isinstance(node, ast.Lambda) prev_symtab = self.symtab prev_bc = self.bc self.symtab = self.symtab_map[node] self.symtab.finalize() self.bc = Bytecode() if args.vararg: self.bc.set_flag(ucodetype.FLAG_VARARGS) if args.kwarg: self.bc.set_flag(ucodetype.FLAG_VARKEYWORDS) # Store arg names in const table, to support calling by keyword for a in args.args: self.bc.add_const(sys.intern(a.arg)) if isinstance(node.body, list): last_stmt = self._visit_suite(node.body) if not isinstance(last_stmt, ast.Return): self.bc.add(opc.LOAD_CONST_NONE) self.bc.add(opc.RETURN_VALUE) else: self.visit(node.body) self.bc.add(opc.RETURN_VALUE) co = self.bc.get_codeobj() if is_lambda: co.co_name = "<lambda>" else: co.co_name = node.name co.co_filename = self.filename co.co_argcount = len(args.args) co.mpy_def_pos_args = len(args.defaults) # Here mpy_stacksize corresponds to VM stack size, we also need there # space for locals. co.mpy_stacksize += len(self.symtab.all_locals) self.bc = prev_bc self.symtab = prev_symtab if args.defaults: for v in args.defaults: self.visit(v) self.bc.add(opc.BUILD_TUPLE, len(args.defaults)) self.bc.add(opc.LOAD_NULL) self.bc.add(opc.MAKE_FUNCTION_DEFARGS, co) else: self.bc.add(opc.MAKE_FUNCTION, co) if not is_lambda: self._visit_var(node.name, ast.StoreConst()) def visit_FunctionDef(self, node): self._visit_function(node) def visit_Lambda(self, node): self._visit_function(node) def visit_For(self, node): test_l = self.bc.get_label() end_l = self.bc.get_label() self.visit(node.iter) self.bc.add(opc.GET_ITER_STACK) self.bc.put_label(test_l) self.bc.jump(opc.FOR_ITER, end_l) self.visit(node.target) self.loop_stack.append((test_l, end_l, "for")) self._visit_suite(node.body) self.loop_stack.pop() self.bc.jump(opc.JUMP, test_l) self.bc.put_label(end_l) self.bc.stk_ptr -= 4 self._visit_suite(node.orelse) def visit_While(self, node): test_l = self.bc.get_label() body_l = self.bc.get_label() end_l = self.bc.get_label() self.bc.jump(opc.JUMP, test_l) self.bc.put_label(body_l) self.loop_stack.append((test_l, end_l, "while")) self._visit_suite(node.body) self.loop_stack.pop(-1) self.bc.put_label(test_l) self.visit(node.test) self.bc.jump(opc.POP_JUMP_IF_TRUE, body_l) self._visit_suite(node.orelse) self.bc.put_label(end_l) def visit_Continue(self, node): assert self.loop_stack self.bc.jump(opc.JUMP, self.loop_stack[-1][0]) def visit_Break(self, node): assert self.loop_stack if self.loop_stack[-1][2] == "for": s = self.bc.stk_ptr for _ in range(4): self.bc.add(opc.POP_TOP) self.bc.stk_ptr = s self.bc.jump(opc.JUMP, self.loop_stack[-1][1]) def visit_If(self, node): self.visit(node.test) join_l = self.bc.get_label() if node.orelse: else_l = self.bc.get_label() self.bc.jump(opc.POP_JUMP_IF_FALSE, else_l) self._visit_suite(node.body) self.bc.jump(opc.JUMP, join_l) self.bc.put_label(else_l) self._visit_suite(node.orelse) else: self.bc.jump(opc.POP_JUMP_IF_FALSE, join_l) self._visit_suite(node.body) self.bc.put_label(join_l) def visit_ImportFrom(self, node): self.bc.load_int(node.level) for n in node.names: self.bc.add(opc.LOAD_CONST_STRING, n.name) self.bc.add(opc.BUILD_TUPLE, len(node.names)) self.bc.add(opc.IMPORT_NAME, node.module or "") if len(node.names) == 1 and node.names[0].name == "*": self.bc.add(opc.IMPORT_STAR) return for n in node.names: self.bc.add(opc.IMPORT_FROM, n.name) self._visit_var(n.asname or n.name, ast.StoreConst()) self.bc.add(opc.POP_TOP) def visit_Import(self, node): for n in node.names: self.bc.load_int(0) self.bc.add(opc.LOAD_CONST_NONE) self.bc.add(opc.IMPORT_NAME, n.name) if n.asname: comps = n.name.split(".") for c in comps[1:]: self.bc.add(opc.LOAD_ATTR, c) self._visit_var(n.asname, ast.StoreConst()) else: self._visit_var(n.name.split(".", 1)[0], ast.StoreConst()) def visit_Yield(self, node): self.bc.set_flag(ucodetype.FLAG_GENERATOR) if node.value is None: self.bc.add(opc.LOAD_CONST_NONE) else: self.visit(node.value) self.bc.add(opc.YIELD_VALUE) def visit_YieldFrom(self, node): self.bc.set_flag(ucodetype.FLAG_GENERATOR) self.visit(node.value) self.bc.add(opc.GET_ITER) self.bc.add(opc.LOAD_CONST_NONE) self.bc.add(opc.YIELD_FROM) def visit_Assert(self, node): self.visit(node.test) true_l = self.bc.get_label() self.bc.jump(opc.POP_JUMP_IF_TRUE, true_l) self.bc.add(opc.LOAD_GLOBAL, "AssertionError") if node.msg is not None: self.visit(node.msg) self.bc.add(opc.CALL_FUNCTION, 1, 0) self.bc.add(opc.RAISE_VARARGS, 1) self.bc.put_label(true_l) def visit_Raise(self, node): arg = 0 if node.exc is not None: self.visit(node.exc) arg = 1 if node.cause is not None: self.visit(node.cause) arg = 2 self.bc.add(opc.RAISE_VARARGS, arg) def visit_Return(self, node): if node.value is None: self.bc.add(opc.LOAD_CONST_NONE) else: self.visit(node.value) self.bc.add(opc.RETURN_VALUE) def visit_AugAssign(self, node): inplaceop_map = { ast.Add: opc.INPLACE_ADD, ast.Sub: opc.INPLACE_SUBTRACT, ast.Mult: opc.INPLACE_MULTIPLY, ast.MatMult: opc.INPLACE_MAT_MULTIPLY, ast.Div: opc.INPLACE_TRUE_DIVIDE, ast.FloorDiv: opc.INPLACE_FLOOR_DIVIDE, ast.Mod: opc.INPLACE_MODULO, ast.Pow: opc.INPLACE_POWER, ast.LShift: opc.INPLACE_LSHIFT, ast.RShift: opc.INPLACE_RSHIFT, ast.BitAnd: opc.INPLACE_AND, ast.BitOr: opc.INPLACE_OR, ast.BitXor: opc.INPLACE_XOR, } self._visit_with_load_ctx(node.target) self.visit(node.value) self.bc.add(inplaceop_map[type(node.op)]) self.visit(node.target) def visit_Assign(self, node): self.visit(node.value) for t in node.targets[:-1]: self.bc.add(opc.DUP_TOP) self.visit(t) self.visit(node.targets[-1]) def visit_Delete(self, node): for t in node.targets: # Operation is handled by node.ctx self.visit(t) def visit_Expr(self, node): self.visit(node.value) self.bc.add(opc.POP_TOP) def visit_Pass(self, node): pass def visit_Call(self, node): self.visit(node.func) opcode = opc.CALL_FUNCTION stararg = None dstararg = None pos_args = 0 for arg in node.args: if isinstance(arg, ast.Starred): opcode = opc.CALL_FUNCTION_VAR_KW stararg = arg.value else: self.visit(arg) pos_args += 1 kw_args = 0 for kwarg in node.keywords: if kwarg.arg is None: opcode = opc.CALL_FUNCTION_VAR_KW dstararg = kwarg.value else: self.bc.add(opc.LOAD_CONST_STRING, kwarg.arg) self.visit(kwarg.value) kw_args += 1 if opcode == opc.CALL_FUNCTION_VAR_KW: if stararg is None: self.bc.add(opc.LOAD_NULL) else: self.visit(stararg) if dstararg is None: self.bc.add(opc.LOAD_NULL) else: self.visit(dstararg) self.bc.add(opcode, pos_args, kw_args) def visit_IfExp(self, node): self.visit(node.test) join_l = self.bc.get_label() else_l = self.bc.get_label() self.bc.jump(opc.POP_JUMP_IF_FALSE, else_l) self.visit(node.body) self.bc.jump(opc.JUMP, join_l) self.bc.put_label(else_l) # Undo stack effect of the "if" branch. self.bc.stk_ptr -= 1 self.visit(node.orelse) self.bc.put_label(join_l) def visit_Compare(self, node): assert len(node.ops) == 1 cmpop_map = { ast.Eq: opc.BINARY_EQUAL, ast.NotEq: opc.BINARY_NOT_EQUAL, ast.Lt: opc.BINARY_LESS, ast.LtE: opc.BINARY_LESS_EQUAL, ast.Gt: opc.BINARY_MORE, ast.GtE: opc.BINARY_MORE_EQUAL, ast.Is: opc.BINARY_IS, ast.IsNot: opc.BINARY_IS, ast.In: opc.BINARY_IN, ast.NotIn: opc.BINARY_IN, } self.visit(node.left) self.visit(node.comparators[0]) op_t = type(node.ops[0]) self.bc.add(cmpop_map[op_t]) if op_t in (ast.IsNot, ast.NotIn): self.bc.add(opc.UNARY_NOT) def visit_BoolOp(self, node): if isinstance(node.op, ast.And): op = opc.JUMP_IF_FALSE_OR_POP else: op = opc.JUMP_IF_TRUE_OR_POP join_l = self.bc.get_label() for v in node.values[:-1]: self.visit(v) self.bc.jump(op, join_l) self.visit(node.values[-1]) self.bc.put_label(join_l) def visit_BinOp(self, node): binop_map = { ast.Add: opc.BINARY_ADD, ast.Sub: opc.BINARY_SUBTRACT, ast.Mult: opc.BINARY_MULTIPLY, ast.MatMult: opc.BINARY_MAT_MULTIPLY, ast.Div: opc.BINARY_TRUE_DIVIDE, ast.FloorDiv: opc.BINARY_FLOOR_DIVIDE, ast.Mod: opc.BINARY_MODULO, ast.Pow: opc.BINARY_POWER, ast.LShift: opc.BINARY_LSHIFT, ast.RShift: opc.BINARY_RSHIFT, ast.BitAnd: opc.BINARY_AND, ast.BitOr: opc.BINARY_OR, ast.BitXor: opc.BINARY_XOR, } self.visit(node.left) self.visit(node.right) self.bc.add(binop_map[type(node.op)]) def visit_UnaryOp(self, node): unop_map = { ast.UAdd: opc.UNARY_POSITIVE, ast.USub: opc.UNARY_NEGATIVE, ast.Invert: opc.UNARY_INVERT, ast.Not: opc.UNARY_NOT, } self.visit(node.operand) self.bc.add(unop_map[type(node.op)]) def visit_Subscript(self, node): self.visit(node.value) self.visit(node.slice) if isinstance(node.ctx, ast.Load): self.bc.add(opc.LOAD_SUBSCR) if isinstance(node.ctx, ast.Store): self.bc.add(opc.STORE_SUBSCR) elif isinstance(node.ctx, ast.Del): self.bc.add(opc.LOAD_NULL) self.bc.add(opc.ROT_THREE) self.bc.add(opc.STORE_SUBSCR) def visit_Slice(self, node): def emit_dim(dim): if dim is None: self.bc.add(opc.LOAD_CONST_NONE) else: self.visit(dim) num = 2 emit_dim(node.lower) emit_dim(node.upper) if node.step is not None: emit_dim(node.step) num = 3 self.bc.add(opc.BUILD_SLICE, num) def visit_Index(self, node): self.visit(node.value) def visit_Attribute(self, node): self.visit(node.value) if isinstance(node.ctx, ast.Load): self.bc.add(opc.LOAD_ATTR, node.attr) elif isinstance(node.ctx, ast.Store): self.bc.add(opc.STORE_ATTR, node.attr) elif isinstance(node.ctx, ast.Del): self.bc.add(opc.LOAD_NULL) self.bc.add(opc.ROT_TWO) self.bc.add(opc.STORE_ATTR, node.attr) def visit_Name(self, node): self._visit_var(node.id, node.ctx) def _visit_var(self, var, ctx): scope = self.symtab.get_scope(var) if isinstance(ctx, ast.Load): op = (opc.LOAD_NAME, opc.LOAD_GLOBAL, opc.LOAD_FAST_N, opc.LOAD_DEREF)[scope] elif isinstance(ctx, ast.Store): op = (opc.STORE_NAME, opc.STORE_GLOBAL, opc.STORE_FAST_N, opc.STORE_DEREF)[scope] elif isinstance(ctx, ast.StoreConst): op = (opc.STORE_NAME_CONST, opc.STORE_GLOBAL_CONST, opc.STORE_FAST_N, opc.STORE_DEREF)[scope] elif isinstance(ctx, ast.Del): op = (opc.DELETE_NAME, opc.DELETE_GLOBAL, opc.DELETE_FAST, opc.DELETE_DEREF)[scope] else: assert 0 if scope in (usymtable.SCOPE_FAST, usymtable.SCOPE_DEREF): id = self.symtab.get_fast_local(var) self.bc.add(op, id) else: self.bc.add(op, var) def _visit_seq_target(self, t): if isinstance(t, (ast.Tuple, ast.List)): before_star = 0 after_star = 0 star = None for el in t.elts: if isinstance(el, ast.Starred): star = el elif star: after_star += 1 else: before_star += 1 if star: self.bc.add(opc.UNPACK_EX, after_star << 8 | before_star) else: self.bc.add(opc.UNPACK_SEQUENCE, len(t.elts)) for v in t.elts: self.visit(v) else: assert 0 def visit_Tuple(self, node): if isinstance(node.ctx, ast.Store): self._visit_seq_target(node) return for v in node.elts: self.visit(v) self.bc.add(opc.BUILD_TUPLE, len(node.elts)) def visit_List(self, node): if isinstance(node.ctx, ast.Store): self._visit_seq_target(node) return for v in node.elts: self.visit(v) self.bc.add(opc.BUILD_LIST, len(node.elts)) def visit_Set(self, node): for v in node.elts: self.visit(v) self.bc.add(opc.BUILD_SET, len(node.elts)) def visit_Dict(self, node): self.bc.add(opc.BUILD_MAP, len(node.keys)) for k, v in zip(node.keys, node.values): self.visit(v) self.visit(k) self.bc.add(opc.STORE_MAP) def visit_Num(self, node): assert isinstance(node.n, int) assert -2**30 < node.n < 2**30 - 1 self.bc.load_int(node.n) def visit_Str(self, node): self.bc.add(opc.LOAD_CONST_OBJ, node.s) def visit_Bytes(self, node): self.bc.add(opc.LOAD_CONST_OBJ, node.s) def visit_NameConstant(self, node): if node.value is None: self.bc.add(opc.LOAD_CONST_NONE) elif node.value is True: self.bc.add(opc.LOAD_CONST_TRUE) elif node.value is False: self.bc.add(opc.LOAD_CONST_FALSE) else: assert 0 def visit_Ellipsis(self, node): self.bc.add(opc.LOAD_CONST_OBJ, Ellipsis) def generic_visit(self, node): log.error("Unsupported AST node: %s", ast.dump(node)) raise NotImplementedError
class Compiler(ast.NodeVisitor): def __init__(self, symtab_map, filename="<file>"): self.filename = filename self.symtab_map = symtab_map # Symtab for current scope self.symtab = None # Stack for (continue_label, break_label) self.loop_stack = [] self.bc = None def visit_with_load_ctx(self, node): # Not functional style :-/ ctx = node.ctx node.ctx = ast.Load() self.visit(node) node.ctx = ctx # Visit list of statements. def _visit_suite(self, lst): s = None for s in lst: log.debug("%s", ast.dump(s)) org_stk_ptr = self.bc.stk_ptr self.visit(s) # Each complete statement should have zero cumulative stack effect. assert self.bc.stk_ptr == org_stk_ptr, "%d vs %d" % ( self.bc.stk_ptr, org_stk_ptr) return s def visit_Module(self, node): self.symtab = self.symtab_map[node] self.bc = Bytecode() self._visit_suite(node.body) self.bc.add(opc.LOAD_CONST_NONE) self.bc.add(opc.RETURN_VALUE) def _visit_function(self, node): args = node.args assert args.vararg is None assert not args.kwonlyargs assert not args.kw_defaults assert args.kwarg is None assert not args.defaults prev_symtab = self.symtab prev_bc = self.bc self.symtab = self.symtab_map[node] self.symtab.finalize() self.bc = Bytecode() # Store arg names in const table, to support calling by keyword for a in args.args: self.bc.add_const(sys.intern(a.arg)) last_stmt = self._visit_suite(node.body) if not isinstance(last_stmt, ast.Return): self.bc.add(opc.LOAD_CONST_NONE) self.bc.add(opc.RETURN_VALUE) co = self.bc.get_codeobj() co.co_name = node.name co.co_filename = self.filename co.co_argcount = len(args.args) # Here mpy_stacksize corresponds to VM stack size, we also need there # space for locals. co.mpy_stacksize += len(self.symtab.all_locals) self.bc = prev_bc self.symtab = prev_symtab self.bc.add(opc.MAKE_FUNCTION, co) self._visit_var(node.name, ast.Store()) def visit_FunctionDef(self, node): self._visit_function(node) def visit_While(self, node): test_l = self.bc.get_label() body_l = self.bc.get_label() end_l = self.bc.get_label() self.bc.jump(opc.JUMP, test_l) self.bc.put_label(body_l) self.loop_stack.append((test_l, end_l)) self._visit_suite(node.body) self.loop_stack.pop(-1) self.bc.put_label(test_l) self.visit(node.test) self.bc.jump(opc.POP_JUMP_IF_TRUE, body_l) self._visit_suite(node.orelse) self.bc.put_label(end_l) def visit_Continue(self, node): assert self.loop_stack self.bc.jump(opc.JUMP, self.loop_stack[-1][0]) def visit_Break(self, node): assert self.loop_stack self.bc.jump(opc.JUMP, self.loop_stack[-1][1]) def visit_If(self, node): self.visit(node.test) join_l = self.bc.get_label() if node.orelse: else_l = self.bc.get_label() self.bc.jump(opc.POP_JUMP_IF_FALSE, else_l) self._visit_suite(node.body) self.bc.jump(opc.JUMP, join_l) self.bc.put_label(else_l) self._visit_suite(node.orelse) else: self.bc.jump(opc.POP_JUMP_IF_FALSE, join_l) self._visit_suite(node.body) self.bc.put_label(join_l) def visit_Import(self, node): for n in node.names: self.bc.load_int(0) self.bc.add(opc.LOAD_CONST_NONE) self.bc.add(opc.IMPORT_NAME, n.name) if n.asname: comps = n.name.split(".") for c in comps[1:]: self.bc.add(opc.LOAD_ATTR, c) self._visit_var(n.asname, ast.Store()) else: self._visit_var(n.name.split(".", 1)[0], ast.Store()) def visit_Return(self, node): if node.value is None: self.bc.add(opc.LOAD_CONST_NONE) else: self.visit(node.value) self.bc.add(opc.RETURN_VALUE) def visit_AugAssign(self, node): inplaceop_map = { ast.Add: opc.INPLACE_ADD, ast.Sub: opc.INPLACE_SUBTRACT, ast.Mult: opc.INPLACE_MULTIPLY, ast.MatMult: opc.INPLACE_MAT_MULTIPLY, ast.Div: opc.INPLACE_TRUE_DIVIDE, ast.FloorDiv: opc.INPLACE_FLOOR_DIVIDE, ast.Mod: opc.INPLACE_MODULO, ast.Pow: opc.INPLACE_POWER, ast.LShift: opc.INPLACE_LSHIFT, ast.RShift: opc.INPLACE_RSHIFT, ast.BitAnd: opc.INPLACE_AND, ast.BitOr: opc.INPLACE_OR, ast.BitXor: opc.INPLACE_XOR, } self.visit_with_load_ctx(node.target) self.visit(node.value) self.bc.add(inplaceop_map[type(node.op)]) self.visit(node.target) def visit_Assign(self, node): self.visit(node.value) for t in node.targets[:-1]: self.bc.add(opc.DUP_TOP) self.visit(t) self.visit(node.targets[-1]) def visit_Expr(self, node): self.visit(node.value) self.bc.add(opc.POP_TOP) def visit_Call(self, node): assert not node.keywords self.visit(node.func) for arg in node.args: self.visit(arg) self.bc.add(opc.CALL_FUNCTION, len(node.args), 0) def visit_Compare(self, node): assert len(node.ops) == 1 cmpop_map = { ast.Eq: opc.BINARY_EQUAL, ast.NotEq: opc.BINARY_NOT_EQUAL, ast.Lt: opc.BINARY_LESS, ast.LtE: opc.BINARY_LESS_EQUAL, ast.Gt: opc.BINARY_MORE, ast.GtE: opc.BINARY_MORE_EQUAL, } self.visit(node.left) self.visit(node.comparators[0]) self.bc.add(cmpop_map[type(node.ops[0])]) def visit_BoolOp(self, node): if isinstance(node.op, ast.And): op = opc.JUMP_IF_FALSE_OR_POP else: op = opc.JUMP_IF_TRUE_OR_POP join_l = self.bc.get_label() for v in node.values[:-1]: self.visit(v) self.bc.jump(op, join_l) self.visit(node.values[-1]) self.bc.put_label(join_l) def visit_BinOp(self, node): binop_map = { ast.Add: opc.BINARY_ADD, ast.Sub: opc.BINARY_SUBTRACT, ast.Mult: opc.BINARY_MULTIPLY, ast.MatMult: opc.BINARY_MAT_MULTIPLY, ast.Div: opc.BINARY_TRUE_DIVIDE, ast.FloorDiv: opc.BINARY_FLOOR_DIVIDE, ast.Mod: opc.BINARY_MODULO, ast.Pow: opc.BINARY_POWER, ast.LShift: opc.BINARY_LSHIFT, ast.RShift: opc.BINARY_RSHIFT, ast.BitAnd: opc.BINARY_AND, ast.BitOr: opc.BINARY_OR, ast.BitXor: opc.BINARY_XOR, } self.visit(node.left) self.visit(node.right) self.bc.add(binop_map[type(node.op)]) def visit_UnaryOp(self, node): unop_map = { ast.UAdd: opc.UNARY_POSITIVE, ast.USub: opc.UNARY_NEGATIVE, ast.Invert: opc.UNARY_INVERT, ast.Not: opc.UNARY_NOT, } self.visit(node.operand) self.bc.add(unop_map[type(node.op)]) def visit_Name(self, node): self._visit_var(node.id, node.ctx) def _visit_var(self, var, ctx): scope = self.symtab.get_scope(var) if isinstance(ctx, ast.Load): op = [ opc.LOAD_NAME, opc.LOAD_GLOBAL, opc.LOAD_FAST_N, opc.LOAD_DEREF ][scope] elif isinstance(ctx, ast.Store): op = [ opc.STORE_NAME, opc.STORE_GLOBAL, opc.STORE_FAST_N, opc.STORE_DEREF ][scope] else: assert 0 if scope in (usymtable.SCOPE_FAST, usymtable.SCOPE_DEREF): id = self.symtab.get_fast_local(var) self.bc.add(op, id) else: self.bc.add(op, var) def visit_Num(self, node): assert isinstance(node.n, int) assert -2**30 < node.n < 2**30 - 1 self.bc.load_int(node.n) def visit_Str(self, node): self.bc.add(opc.LOAD_CONST_OBJ, node.s) def visit_Bytes(self, node): self.bc.add(opc.LOAD_CONST_OBJ, node.s)