diff --git a/src/zscript/zcc-parse.lemon b/src/zscript/zcc-parse.lemon index 8c6e0bc5e..37f69842f 100644 --- a/src/zscript/zcc-parse.lemon +++ b/src/zscript/zcc-parse.lemon @@ -128,15 +128,15 @@ main ::= translation_unit(A). { stat->TopNode = A; stat->sc.ScriptMessage("Parse %type translation_unit {ZCC_TreeNode *} translation_unit(X) ::= . { X = NULL; } -translation_unit(X) ::= translation_unit(A) external_declaration(B). { SAFE_APPEND(A,B); X = A; } +translation_unit(X) ::= translation_unit(A) external_declaration(B). { SAFE_APPEND(A,B); X = A; /*X-overwrites-A*/ } translation_unit(X) ::= translation_unit(X) EOF. translation_unit(X) ::= error. { X = NULL; } %type external_declaration {ZCC_TreeNode *} -external_declaration(X) ::= class_definition(A). { X = A; } -external_declaration(X) ::= struct_def(A). { X = A; } -external_declaration(X) ::= enum_def(A). { X = A; } -external_declaration(X) ::= const_def(A). { X = A; } +external_declaration(X) ::= class_definition(A). { X = A; /*X-overwrites-A*/ } +external_declaration(X) ::= struct_def(A). { X = A; /*X-overwrites-A*/ } +external_declaration(X) ::= enum_def(A). { X = A; /*X-overwrites-A*/ } +external_declaration(X) ::= const_def(A). { X = A; /*X-overwrites-A*/ } /* Optional bits. */ opt_semicolon ::= . @@ -165,7 +165,7 @@ opt_expr(X) ::= expr(X). class_definition(X) ::= class_head(A) class_body(B). { A->Body = B; - X = A; + X = A; /*X-overwrites-A*/ } class_head(X) ::= CLASS(T) IDENTIFIER(A) class_ancestry(B) class_flags(C). @@ -180,7 +180,7 @@ class_head(X) ::= CLASS(T) IDENTIFIER(A) class_ancestry(B) class_flags(C). %type class_ancestry{ZCC_Identifier *} class_ancestry(X) ::= . { X = NULL; } -class_ancestry(X) ::= COLON dottable_id(A). { X = A; } +class_ancestry(X) ::= COLON dottable_id(A). { X = A; /*X-overwrites-A*/ } %type class_flags{ClassFlagsBlock} class_flags(X) ::= . { X.Flags = 0; X.Replaces = NULL; } @@ -204,7 +204,7 @@ dottable_id(X) ::= dottable_id(A) DOT IDENTIFIER(B). NEW_AST_NODE(Identifier,id2,A); id2->Id = B.Name(); A->AppendSibling(id2); - X = A; + X = A; /*X-overwrites-A*/ } /*------ Class Body ------*/ @@ -217,23 +217,23 @@ dottable_id(X) ::= dottable_id(A) DOT IDENTIFIER(B). // * constants // * defaults -class_body(X) ::= SEMICOLON class_innards(A) EOF. { X = A; } -class_body(X) ::= LBRACE class_innards(A) RBRACE. { X = A; } +class_body(X) ::= SEMICOLON class_innards(A) EOF. { X = A; /*X-overwrites-A*/ } +class_body(X) ::= LBRACE class_innards(A) RBRACE. { X = A; /*X-overwrites-A*/ } class_innards(X) ::= . { X = NULL; } -class_innards(X) ::= class_innards(A) class_member(B). { SAFE_APPEND(A,B); X = A; } +class_innards(X) ::= class_innards(A) class_member(B). { SAFE_APPEND(A,B); X = A; /*X-overwrites-A*/ } %type struct_def{ZCC_Struct *} %type enum_def {ZCC_Enum *} %type states_def {ZCC_States *} %type const_def {ZCC_ConstantDef *} -class_member(X) ::= declarator(A). { X = A; } -class_member(X) ::= enum_def(A). { X = A; } -class_member(X) ::= struct_def(A). { X = A; } -class_member(X) ::= states_def(A). { X = A; } -class_member(X) ::= default_def(A). { X = A; } -class_member(X) ::= const_def(A). { X = A; } +class_member(X) ::= declarator(A). { X = A; /*X-overwrites-A*/ } +class_member(X) ::= enum_def(A). { X = A; /*X-overwrites-A*/ } +class_member(X) ::= struct_def(A). { X = A; /*X-overwrites-A*/ } +class_member(X) ::= states_def(A). { X = A; /*X-overwrites-A*/ } +class_member(X) ::= default_def(A). { X = A; /*X-overwrites-A*/ } +class_member(X) ::= const_def(A). { X = A; /*X-overwrites-A*/ } /*----- Struct Definition -----*/ /* Structs can define variables and enums. */ @@ -255,11 +255,11 @@ opt_struct_body(X) ::= struct_body(X). struct_body(X) ::= error. { X = NULL; } struct_body(X) ::= struct_member(X). -struct_body(X) ::= struct_member(A) struct_body(B). { X = A; A->AppendSibling(B); } +struct_body(X) ::= struct_member(A) struct_body(B). { X = A; /*X-overwrites-A*/ X->AppendSibling(B); } -struct_member(X) ::= declarator_no_fun(A). { X = A; } -struct_member(X) ::= enum_def(A). { X = A; } -struct_member(X) ::= const_def(A). { X = A; } +struct_member(X) ::= declarator_no_fun(A). { X = A; /*X-overwrites-A*/ } +struct_member(X) ::= enum_def(A). { X = A; /*X-overwrites-A*/ } +struct_member(X) ::= const_def(A). { X = A; /*X-overwrites-A*/ } /*----- Constant Definition ------*/ /* Like UnrealScript, a constant's type is implied by its value's type. */ @@ -340,11 +340,11 @@ enum_def(X) ::= ENUM(T) IDENTIFIER(A) enum_type(B) LBRACE opt_enum_list(C) RBRAC } enum_type(X) ::= . { X.Int = ZCC_IntAuto; X.SourceLoc = stat->sc.GetMessageLine(); } -enum_type(X) ::= COLON int_type(A). { X = A; } +enum_type(X) ::= COLON int_type(A). { X = A; /*X-overwrites-A*/ } enum_list(X) ::= error. { X = NULL; } enum_list(X) ::= enumerator(X). -enum_list(X) ::= enum_list(A) COMMA enumerator(B). { X = A; A->AppendSibling(B); } +enum_list(X) ::= enum_list(A) COMMA enumerator(B). { X = A; /*X-overwrites-A*/ X->AppendSibling(B); } opt_enum_list(X) ::= . { X = NULL; } opt_enum_list(X) ::= enum_list(X) opt_comma. @@ -402,9 +402,9 @@ scanner_mode ::= . { stat->sc.SetStateMode(true); } states_body(X) ::= . { X = NULL; } states_body(X) ::= error. { X = NULL; } -states_body(X) ::= states_body(A) state_line(B). { SAFE_APPEND(A,B); X = A; } -states_body(X) ::= states_body(A) state_label(B). { SAFE_APPEND(A,B); X = A; } -states_body(X) ::= states_body(A) state_flow(B). { SAFE_APPEND(A,B); X = A; } +states_body(X) ::= states_body(A) state_line(B). { SAFE_APPEND(A,B); X = A; /*X-overwrites-A*/ } +states_body(X) ::= states_body(A) state_label(B). { SAFE_APPEND(A,B); X = A; /*X-overwrites-A*/ } +states_body(X) ::= states_body(A) state_flow(B). { SAFE_APPEND(A,B); X = A; /*X-overwrites-A*/ } state_label(X) ::= NWS(A) COLON. { @@ -428,7 +428,7 @@ state_flow_type(X) ::= GOTO(T) dottable_id(A) state_goto_offset(B). } state_goto_offset(X) ::= . { X = NULL; } -state_goto_offset(X) ::= PLUS expr(A). { X = A; } /* Must evaluate to a non-negative integer constant. */ +state_goto_offset(X) ::= PLUS expr(A). { X = A; /*X-overwrites-A*/ } /* Must evaluate to a non-negative integer constant. */ state_line(X) ::= NWS(A) NWS(B) expr state_opts(C) state_action(D). { @@ -454,21 +454,21 @@ state_line(X) ::= NWS(A) NWS(B) expr state_opts(C) state_action(D). } state_opts(X) ::= . { StateOpts opts; opts.Zero(); X = opts; } -state_opts(X) ::= state_opts(A) BRIGHT. { A.Bright = true; X = A; } -state_opts(X) ::= state_opts(A) FAST. { A.Fast = true; X = A; } -state_opts(X) ::= state_opts(A) SLOW. { A.Slow = true; X = A; } -state_opts(X) ::= state_opts(A) NODELAY. { A.NoDelay = true; X = A; } -state_opts(X) ::= state_opts(A) CANRAISE. { A.CanRaise = true; X = A; } -state_opts(X) ::= state_opts(A) OFFSET LPAREN expr(B) COMMA expr(C) RPAREN. { A.Offset = B; B->AppendSibling(C); X = A; } -state_opts(X) ::= state_opts(A) LIGHT LPAREN light_list RPAREN. { X = A; } ///FIXME: GZDoom would want to know this +state_opts(X) ::= state_opts(A) BRIGHT. { A.Bright = true; X = A; /*X-overwrites-A*/ } +state_opts(X) ::= state_opts(A) FAST. { A.Fast = true; X = A; /*X-overwrites-A*/ } +state_opts(X) ::= state_opts(A) SLOW. { A.Slow = true; X = A; /*X-overwrites-A*/ } +state_opts(X) ::= state_opts(A) NODELAY. { A.NoDelay = true; X = A; /*X-overwrites-A*/ } +state_opts(X) ::= state_opts(A) CANRAISE. { A.CanRaise = true; X = A; /*X-overwrites-A*/ } +state_opts(X) ::= state_opts(A) OFFSET LPAREN expr(B) COMMA expr(C) RPAREN. { A.Offset = B; B->AppendSibling(C); X = A; /*X-overwrites-A*/ } +state_opts(X) ::= state_opts(A) LIGHT LPAREN light_list RPAREN. { X = A; /*X-overwrites-A*/ } ///FIXME: GZDoom would want to know this light_list ::= STRCONST. light_list ::= light_list COMMA STRCONST. /* A state action can be either a compound statement or a single action function call. */ -state_action(X) ::= LBRACE statement_list(A) scanner_mode RBRACE. { X = A; } +state_action(X) ::= LBRACE statement_list(A) scanner_mode RBRACE. { X = A; /*X-overwrites-A*/ } state_action(X) ::= LBRACE error scanner_mode RBRACE. { X = NULL; } -state_action(X) ::= state_call(A) scanner_mode SEMICOLON. { X = A; } +state_action(X) ::= state_call(A) scanner_mode SEMICOLON. { X = A; /*X-overwrites-A*/ } state_call(X) ::= . { X = NULL; } state_call(X) ::= IDENTIFIER(A) state_call_params(B). @@ -485,11 +485,11 @@ state_call(X) ::= IDENTIFIER(A) state_call_params(B). } state_call_params(X) ::= . { X = NULL; } -state_call_params(X) ::= LPAREN func_expr_list(A) RPAREN. { X = A; } +state_call_params(X) ::= LPAREN func_expr_list(A) RPAREN. { X = A; /*X-overwrites-A*/ } /* Definition of a default class instance. */ %type default_def {ZCC_CompoundStmt *} -default_def(X) ::= DEFAULT compound_statement(A). { X = A; } +default_def(X) ::= DEFAULT compound_statement(A). { X = A; /*X-overwrites-A*/ } /* Type names */ %type type_name {ZCC_BasicType *} @@ -590,16 +590,16 @@ aggregate_type(X) ::= CLASS(T) class_restrictor(A). /* class */ X = cls; } class_restrictor(X) ::= . { X = NULL; } -class_restrictor(X) ::= LT dottable_id(A) GT. { X = A; } +class_restrictor(X) ::= LT dottable_id(A) GT. { X = A; /*X-overwrites-A*/ } -type(X) ::= type_name(A). { X = A; A->ArraySize = NULL; } -type(X) ::= aggregate_type(A). { X = A; A->ArraySize = NULL; } +type(X) ::= type_name(A). { X = A; /*X-overwrites-A*/ X->ArraySize = NULL; } +type(X) ::= aggregate_type(A). { X = A; /*X-overwrites-A*/ X->ArraySize = NULL; } type_or_array(X) ::= type(X). -type_or_array(X) ::= type(A) array_size(B). { X = A; A->ArraySize = B; } +type_or_array(X) ::= type(A) array_size(B). { X = A; /*X-overwrites-A*/ X->ArraySize = B; } type_list(X) ::= type_or_array(X). /* A comma-separated list of types */ -type_list(X) ::= type_list(A) COMMA type_or_array(B). { X = A; A->AppendSibling(B); } +type_list(X) ::= type_list(A) COMMA type_or_array(B). { X = A; /*X-overwrites-A*/ X->AppendSibling(B); } type_list_or_void(X) ::= VOID. { X = NULL; } type_list_or_void(X) ::= type_list(X). @@ -622,7 +622,7 @@ array_size(X) ::= array_size_expr(X). array_size(X) ::= array_size(A) array_size_expr(B). { A->AppendSibling(B); - X = A; + X = A; /*X-overwrites-A*/ } %type variables_or_function {VarOrFun} @@ -735,7 +735,7 @@ variable_list(X) ::= variable_name(X). variable_list(X) ::= variable_list(A) COMMA variable_name(B). { A->AppendSibling(B); - X = A; + X = A; /*X-overwrites-A*/ } decl_flags(X) ::= . { X.Int = 0; X.SourceLoc = 0; } @@ -765,7 +765,7 @@ func_params(X) ::= VOID. { X = NULL; } func_params(X) ::= func_param_list(X). func_param_list(X) ::= func_param(X). -func_param_list(X) ::= func_param_list(A) COMMA func_param(B). { X = A; A->AppendSibling(B); } +func_param_list(X) ::= func_param_list(A) COMMA func_param(B). { X = A; /*X-overwrites-A*/ X->AppendSibling(B); } func_param(X) ::= func_param_flags(A) type(B) IDENTIFIER(C). { @@ -809,7 +809,7 @@ primary(X) ::= SUPER(T). expr->Type = NULL; X = expr; } -primary(X) ::= constant(A). { X = A; } +primary(X) ::= constant(A). { X = A; /*X-overwrites-A*/ } primary(X) ::= SELF(T). { NEW_AST_NODE(Expression, expr, T); @@ -819,7 +819,7 @@ primary(X) ::= SELF(T). } primary(X) ::= LPAREN expr(A) RPAREN. { - X = A; + X = A; /*X-overwrites-A*/ } primary ::= LPAREN error RPAREN. primary(X) ::= primary(A) LPAREN func_expr_list(B) RPAREN. [DOT] // Function call @@ -1102,8 +1102,8 @@ expr(X) ::= expr(A) QUESTION expr(B) COLON expr(C). expr_list(X) ::= expr(X). expr_list(X) ::= expr_list(A) COMMA expr(B). { - X = A; - A->AppendSibling(B); + X = A; /*X-overwrites-A*/ + X->AppendSibling(B); } /*----- Function argument lists -----*/ @@ -1133,8 +1133,8 @@ func_expr_list(X) ::= func_expr_list(A) COMMA(T) func_expr_item(B). nil_b->Label = NAME_None; B = nil_b; } - X = A; - A->AppendSibling(B); + X = A; /*X-overwrites-A*/ + X->AppendSibling(B); } func_expr_item(X) ::= . @@ -1224,14 +1224,14 @@ function_body(X) ::= compound_statement(X). %type statement{ZCC_Statement *} statement(X) ::= SEMICOLON. { X = NULL; } -statement(X) ::= labeled_statement(A). { X = A; } -statement(X) ::= compound_statement(A). { X = A; } -statement(X) ::= expression_statement(A) SEMICOLON. { X = A; } +statement(X) ::= labeled_statement(A). { X = A; /*X-overwrites-A*/ } +statement(X) ::= compound_statement(A). { X = A; /*X-overwrites-A*/ } +statement(X) ::= expression_statement(A) SEMICOLON. { X = A; /*X-overwrites-A*/ } statement(X) ::= selection_statement(X). statement(X) ::= iteration_statement(X). statement(X) ::= jump_statement(X). -statement(X) ::= assign_statement(A) SEMICOLON. { X = A; } -statement(X) ::= local_var(A) SEMICOLON. { X = A; } +statement(X) ::= assign_statement(A) SEMICOLON. { X = A; /*X-overwrites-A*/ } +statement(X) ::= local_var(A) SEMICOLON. { X = A; /*X-overwrites-A*/ } statement(X) ::= error SEMICOLON. { X = NULL; } /*----- Jump Statements -----*/ @@ -1287,12 +1287,12 @@ compound_statement(X) ::= LBRACE(T) error RBRACE. statement_list(X) ::= statement(A). { - X = A; + X = A; /*X-overwrites-A*/ } statement_list(X) ::= statement_list(A) statement(B). { SAFE_APPEND(A,B); - X = A; + X = A; /*X-overwrites-A*/ } /*----- Expression Statements -----*/ @@ -1376,13 +1376,13 @@ while_or_until(X) ::= UNTIL(T). } %type for_init{ZCC_Statement *} -for_init(X) ::= local_var(A). { X = A; } -for_init(X) ::= for_bump(A). { X = A; } +for_init(X) ::= local_var(A). { X = A /*X-overwrites-A*/; } +for_init(X) ::= for_bump(A). { X = A /*X-overwrites-A*/; } %type for_bump{ZCC_Statement *} for_bump(X) ::= . { X = NULL; } -for_bump(X) ::= expression_statement(A). { X = A; } -for_bump(X) ::= assign_statement(A). { X = A; } +for_bump(X) ::= expression_statement(A). { X = A; /*X-overwrites-A*/ } +for_bump(X) ::= assign_statement(A). { X = A; /*X-overwrites-A*/ } /*----- If Statements -----*/ @@ -1397,12 +1397,12 @@ for_bump(X) ::= assign_statement(A). { X = A; } selection_statement(X) ::= if_front(A). [IF] { - X = A; + X = A; /*X-overwrites-A*/ } selection_statement(X) ::= if_front(A) ELSE statement(B). [ELSE] { A->FalsePath = B; - X = A; + X = A; /*X-overwrites-A*/ } if_front(X) ::= IF(T) LPAREN expr(A) RPAREN statement(B). @@ -1481,4 +1481,4 @@ local_var(X) ::= type(A) variable_list(B) var_init(C). %type var_init{ZCC_Expression *} var_init(X) ::= . { X = NULL; } -var_init(X) ::= EQ expr_list(A). { X = A; } +var_init(X) ::= EQ expr_list(A). { X = A; /*X-overwrites-A*/ }