9 #define PARSER_HT_LOCALS 2
10 #define PARSER_HT_SIZE 512
11 #define TYPEDEF_HT_SIZE 512
13 static void parser_enterblock(parser_t *parser);
14 static bool parser_leaveblock(parser_t *parser);
15 static void parser_addlocal(parser_t *parser, const char *name, ast_expression *e);
16 static void parser_addlocal(parser_t *parser, const std::string &name, ast_expression *e);
17 static void parser_addglobal(parser_t *parser, const char *name, ast_expression *e);
18 static void parser_addglobal(parser_t *parser, const std::string &name, ast_expression *e);
19 static bool parse_typedef(parser_t *parser);
20 static bool parse_variable(parser_t *parser, ast_block *localblock, bool nofields, int qualifier, ast_value *cached_typedef, bool noref, bool is_static, uint32_t qflags, char *vstring);
21 static ast_block* parse_block(parser_t *parser);
22 static bool parse_block_into(parser_t *parser, ast_block *block);
23 static bool parse_statement_or_block(parser_t *parser, ast_expression **out);
24 static bool parse_statement(parser_t *parser, ast_block *block, ast_expression **out, bool allow_cases);
25 static ast_expression* parse_expression_leave(parser_t *parser, bool stopatcomma, bool truthvalue, bool with_labels);
26 static ast_expression* parse_expression(parser_t *parser, bool stopatcomma, bool with_labels);
27 static ast_value* parser_create_array_setter_proto(parser_t *parser, ast_value *array, const char *funcname);
28 static ast_value* parser_create_array_getter_proto(parser_t *parser, ast_value *array, const ast_expression *elemtype, const char *funcname);
29 static ast_value *parse_typename(parser_t *parser, ast_value **storebase, ast_value *cached_typedef, bool *is_vararg);
31 static void parseerror_(parser_t *parser, const char *fmt, ...)
35 vcompile_error(parser->lex->tok.ctx, fmt, ap);
39 template<typename... Ts>
40 static inline void parseerror(parser_t *parser, const char *fmt, const Ts&... ts) {
41 return parseerror_(parser, fmt, formatNormalize(ts)...);
44 // returns true if it counts as an error
45 static bool GMQCC_WARN parsewarning_(parser_t *parser, int warntype, const char *fmt, ...)
50 r = vcompile_warning(parser->lex->tok.ctx, warntype, fmt, ap);
55 template<typename... Ts>
56 static inline bool GMQCC_WARN parsewarning(parser_t *parser, int warntype, const char *fmt, const Ts&... ts) {
57 return parsewarning_(parser, warntype, fmt, formatNormalize(ts)...);
60 /**********************************************************************
64 static bool parser_next(parser_t *parser)
66 /* lex_do kills the previous token */
67 parser->tok = lex_do(parser->lex);
68 if (parser->tok == TOKEN_EOF)
70 if (parser->tok >= TOKEN_ERROR) {
71 parseerror(parser, "lex error");
77 #define parser_tokval(p) ((p)->lex->tok.value)
78 #define parser_token(p) (&((p)->lex->tok))
80 char *parser_strdup(const char *str)
83 /* actually dup empty strings */
84 char *out = (char*)mem_a(1);
88 return util_strdup(str);
91 static ast_expression* parser_find_field(parser_t *parser, const char *name) {
92 return (ast_expression*)util_htget(parser->htfields, name);
94 static ast_expression* parser_find_field(parser_t *parser, const std::string &name) {
95 return parser_find_field(parser, name.c_str());
98 static ast_expression* parser_find_label(parser_t *parser, const char *name)
100 for (auto &it : parser->labels)
101 if (it->m_name == name)
105 static inline ast_expression* parser_find_label(parser_t *parser, const std::string &name) {
106 return parser_find_label(parser, name.c_str());
109 ast_expression* parser_find_global(parser_t *parser, const char *name)
111 ast_expression *var = (ast_expression*)util_htget(parser->aliases, parser_tokval(parser));
114 return (ast_expression*)util_htget(parser->htglobals, name);
117 ast_expression* parser_find_global(parser_t *parser, const std::string &name) {
118 return parser_find_global(parser, name.c_str());
121 static ast_expression* parser_find_param(parser_t *parser, const char *name)
124 if (!parser->function)
126 fun = parser->function->m_function_type;
127 for (auto &it : fun->m_type_params) {
128 if (it->m_name == name)
134 static ast_expression* parser_find_local(parser_t *parser, const char *name, size_t upto, bool *isparam)
139 hash = util_hthash(parser->htglobals, name);
142 for (i = vec_size(parser->variables); i > upto;) {
144 if ( (e = (ast_expression*)util_htgeth(parser->variables[i], name, hash)) )
148 return parser_find_param(parser, name);
151 static ast_expression* parser_find_local(parser_t *parser, const std::string &name, size_t upto, bool *isparam) {
152 return parser_find_local(parser, name.c_str(), upto, isparam);
155 static ast_expression* parser_find_var(parser_t *parser, const char *name)
159 v = parser_find_local(parser, name, 0, &dummy);
160 if (!v) v = parser_find_global(parser, name);
164 static inline ast_expression* parser_find_var(parser_t *parser, const std::string &name) {
165 return parser_find_var(parser, name.c_str());
168 static ast_value* parser_find_typedef(parser_t *parser, const char *name, size_t upto)
172 hash = util_hthash(parser->typedefs[0], name);
174 for (i = vec_size(parser->typedefs); i > upto;) {
176 if ( (e = (ast_value*)util_htgeth(parser->typedefs[i], name, hash)) )
182 static ast_value* parser_find_typedef(parser_t *parser, const std::string &name, size_t upto) {
183 return parser_find_typedef(parser, name.c_str(), upto);
187 size_t etype; /* 0 = expression, others are operators */
191 ast_block *block; /* for commas and function calls */
204 std::vector<sy_elem> out;
205 std::vector<sy_elem> ops;
206 std::vector<size_t> argc;
207 std::vector<unsigned int> paren;
210 static sy_elem syexp(lex_ctx_t ctx, ast_expression *v) {
221 static sy_elem syblock(lex_ctx_t ctx, ast_block *v) {
232 static sy_elem syop(lex_ctx_t ctx, const oper_info *op) {
234 e.etype = 1 + (op - operators);
243 static sy_elem syparen(lex_ctx_t ctx, size_t off) {
254 /* With regular precedence rules, ent.foo[n] is the same as (ent.foo)[n],
255 * so we need to rotate it to become ent.(foo[n]).
257 static bool rotate_entfield_array_index_nodes(ast_expression **out)
259 ast_array_index *index, *oldindex;
260 ast_entfield *entfield;
264 ast_expression *entity;
266 lex_ctx_t ctx = (*out)->m_context;
268 if (!ast_istype(*out, ast_array_index))
270 index = (ast_array_index*)*out;
272 if (!ast_istype(index->m_array, ast_entfield))
274 entfield = (ast_entfield*)index->m_array;
276 if (!ast_istype(entfield->m_field, ast_value))
278 field = (ast_value*)entfield->m_field;
280 sub = index->m_index;
281 entity = entfield->m_entity;
285 index = ast_array_index::make(ctx, field, sub);
286 entfield = new ast_entfield(ctx, entity, index);
289 oldindex->m_array = nullptr;
290 oldindex->m_index = nullptr;
296 static bool check_write_to(lex_ctx_t ctx, ast_expression *expr)
298 if (ast_istype(expr, ast_value)) {
299 ast_value *val = (ast_value*)expr;
300 if (val->m_cvq == CV_CONST) {
301 if (val->m_name[0] == '#') {
302 compile_error(ctx, "invalid assignment to a literal constant");
306 * To work around quakeworld we must elide the error and make it
309 if (OPTS_OPTION_U32(OPTION_STANDARD) != COMPILER_QCC)
310 compile_error(ctx, "assignment to constant `%s`", val->m_name);
312 (void)!compile_warning(ctx, WARN_CONST_OVERWRITE, "assignment to constant `%s`", val->m_name);
319 static bool parser_sy_apply_operator(parser_t *parser, shunt *sy)
323 ast_expression *out = nullptr;
324 ast_expression *exprs[3];
325 ast_block *blocks[3];
326 ast_binstore *asbinstore;
327 size_t i, assignop, addop, subop;
328 qcint_t generated_op = 0;
333 if (sy->ops.empty()) {
334 parseerror(parser, "internal error: missing operator");
338 if (sy->ops.back().isparen) {
339 parseerror(parser, "unmatched parenthesis");
343 op = &operators[sy->ops.back().etype - 1];
344 ctx = sy->ops.back().ctx;
346 if (sy->out.size() < op->operands) {
347 if (op->flags & OP_PREFIX)
348 compile_error(ctx, "expected expression after unary operator `%s`", op->op, (int)op->id);
349 else /* this should have errored previously already */
350 compile_error(ctx, "expected expression after operator `%s`", op->op, (int)op->id);
356 /* op(:?) has no input and no output */
360 sy->out.erase(sy->out.end() - op->operands, sy->out.end());
361 for (i = 0; i < op->operands; ++i) {
362 exprs[i] = sy->out[sy->out.size()+i].out;
363 blocks[i] = sy->out[sy->out.size()+i].block;
365 if (exprs[i]->m_vtype == TYPE_NOEXPR &&
366 !(i != 0 && op->id == opid2('?',':')) &&
367 !(i == 1 && op->id == opid1('.')))
369 if (ast_istype(exprs[i], ast_label))
370 compile_error(exprs[i]->m_context, "expected expression, got an unknown identifier");
372 compile_error(exprs[i]->m_context, "not an expression");
373 (void)!compile_warning(exprs[i]->m_context, WARN_DEBUG, "expression %u\n", (unsigned int)i);
377 if (blocks[0] && blocks[0]->m_exprs.empty() && op->id != opid1(',')) {
378 compile_error(ctx, "internal error: operator cannot be applied on empty blocks");
382 #define NotSameType(T) \
383 (exprs[0]->m_vtype != exprs[1]->m_vtype || \
384 exprs[0]->m_vtype != T)
389 compile_error(ctx, "internal error: unhandled operator: %s (%i)", op->op, (int)op->id);
393 if (exprs[0]->m_vtype == TYPE_VECTOR &&
394 exprs[1]->m_vtype == TYPE_NOEXPR)
396 if (exprs[1] == parser->const_vec[0])
397 out = ast_member::make(ctx, exprs[0], 0, "");
398 else if (exprs[1] == parser->const_vec[1])
399 out = ast_member::make(ctx, exprs[0], 1, "");
400 else if (exprs[1] == parser->const_vec[2])
401 out = ast_member::make(ctx, exprs[0], 2, "");
403 compile_error(ctx, "access to invalid vector component");
407 else if (exprs[0]->m_vtype == TYPE_ENTITY) {
408 if (exprs[1]->m_vtype != TYPE_FIELD) {
409 compile_error(exprs[1]->m_context, "type error: right hand of member-operand should be an entity-field");
412 out = new ast_entfield(ctx, exprs[0], exprs[1]);
414 else if (exprs[0]->m_vtype == TYPE_VECTOR) {
415 compile_error(exprs[1]->m_context, "vectors cannot be accessed this way");
419 compile_error(exprs[1]->m_context, "type error: member-of operator on something that is not an entity or vector");
425 if (exprs[0]->m_vtype != TYPE_ARRAY &&
426 !(exprs[0]->m_vtype == TYPE_FIELD &&
427 exprs[0]->m_next->m_vtype == TYPE_ARRAY))
429 ast_type_to_string(exprs[0], ty1, sizeof(ty1));
430 compile_error(exprs[0]->m_context, "cannot index value of type %s", ty1);
433 if (exprs[1]->m_vtype != TYPE_FLOAT) {
434 ast_type_to_string(exprs[0], ty1, sizeof(ty1));
435 compile_error(exprs[1]->m_context, "index must be of type float, not %s", ty1);
438 out = ast_array_index::make(ctx, exprs[0], exprs[1]);
439 rotate_entfield_array_index_nodes(&out);
443 if (sy->paren.size() && sy->paren.back() == PAREN_FUNC) {
444 sy->out.push_back(syexp(ctx, exprs[0]));
445 sy->out.push_back(syexp(ctx, exprs[1]));
450 if (!blocks[0]->addExpr(exprs[1]))
453 blocks[0] = new ast_block(ctx);
454 if (!blocks[0]->addExpr(exprs[0]) ||
455 !blocks[0]->addExpr(exprs[1]))
460 blocks[0]->setType(*exprs[1]);
462 sy->out.push_back(syblock(ctx, blocks[0]));
469 if ((out = parser->m_fold.op(op, exprs)))
472 if (exprs[0]->m_vtype != TYPE_FLOAT &&
473 exprs[0]->m_vtype != TYPE_VECTOR) {
474 compile_error(ctx, "invalid types used in unary expression: cannot negate type %s",
475 type_name[exprs[0]->m_vtype]);
478 if (exprs[0]->m_vtype == TYPE_FLOAT)
479 out = ast_unary::make(ctx, VINSTR_NEG_F, exprs[0]);
481 out = ast_unary::make(ctx, VINSTR_NEG_V, exprs[0]);
485 if (!(out = parser->m_fold.op(op, exprs))) {
486 switch (exprs[0]->m_vtype) {
488 out = ast_unary::make(ctx, INSTR_NOT_F, exprs[0]);
491 out = ast_unary::make(ctx, INSTR_NOT_V, exprs[0]);
494 if (OPTS_FLAG(TRUE_EMPTY_STRINGS))
495 out = ast_unary::make(ctx, INSTR_NOT_F, exprs[0]);
497 out = ast_unary::make(ctx, INSTR_NOT_S, exprs[0]);
499 /* we don't constant-fold NOT for these types */
501 out = ast_unary::make(ctx, INSTR_NOT_ENT, exprs[0]);
504 out = ast_unary::make(ctx, INSTR_NOT_FNC, exprs[0]);
507 compile_error(ctx, "invalid types used in expression: cannot logically negate type %s",
508 type_name[exprs[0]->m_vtype]);
515 if (exprs[0]->m_vtype != exprs[1]->m_vtype ||
516 (exprs[0]->m_vtype != TYPE_VECTOR && exprs[0]->m_vtype != TYPE_FLOAT) )
518 compile_error(ctx, "invalid types used in expression: cannot add type %s and %s",
519 type_name[exprs[0]->m_vtype],
520 type_name[exprs[1]->m_vtype]);
523 if (!(out = parser->m_fold.op(op, exprs))) {
524 switch (exprs[0]->m_vtype) {
526 out = fold::binary(ctx, INSTR_ADD_F, exprs[0], exprs[1]);
529 out = fold::binary(ctx, INSTR_ADD_V, exprs[0], exprs[1]);
532 compile_error(ctx, "invalid types used in expression: cannot add type %s and %s",
533 type_name[exprs[0]->m_vtype],
534 type_name[exprs[1]->m_vtype]);
540 if (exprs[0]->m_vtype != exprs[1]->m_vtype ||
541 (exprs[0]->m_vtype != TYPE_VECTOR && exprs[0]->m_vtype != TYPE_FLOAT))
543 compile_error(ctx, "invalid types used in expression: cannot subtract type %s from %s",
544 type_name[exprs[1]->m_vtype],
545 type_name[exprs[0]->m_vtype]);
548 if (!(out = parser->m_fold.op(op, exprs))) {
549 switch (exprs[0]->m_vtype) {
551 out = fold::binary(ctx, INSTR_SUB_F, exprs[0], exprs[1]);
554 out = fold::binary(ctx, INSTR_SUB_V, exprs[0], exprs[1]);
557 compile_error(ctx, "invalid types used in expression: cannot subtract type %s from %s",
558 type_name[exprs[1]->m_vtype],
559 type_name[exprs[0]->m_vtype]);
565 if (exprs[0]->m_vtype != exprs[1]->m_vtype &&
566 !(exprs[0]->m_vtype == TYPE_VECTOR &&
567 exprs[1]->m_vtype == TYPE_FLOAT) &&
568 !(exprs[1]->m_vtype == TYPE_VECTOR &&
569 exprs[0]->m_vtype == TYPE_FLOAT)
572 compile_error(ctx, "invalid types used in expression: cannot multiply types %s and %s",
573 type_name[exprs[1]->m_vtype],
574 type_name[exprs[0]->m_vtype]);
577 if (!(out = parser->m_fold.op(op, exprs))) {
578 switch (exprs[0]->m_vtype) {
580 if (exprs[1]->m_vtype == TYPE_VECTOR)
581 out = fold::binary(ctx, INSTR_MUL_FV, exprs[0], exprs[1]);
583 out = fold::binary(ctx, INSTR_MUL_F, exprs[0], exprs[1]);
586 if (exprs[1]->m_vtype == TYPE_FLOAT)
587 out = fold::binary(ctx, INSTR_MUL_VF, exprs[0], exprs[1]);
589 out = fold::binary(ctx, INSTR_MUL_V, exprs[0], exprs[1]);
592 compile_error(ctx, "invalid types used in expression: cannot multiply types %s and %s",
593 type_name[exprs[1]->m_vtype],
594 type_name[exprs[0]->m_vtype]);
601 if (exprs[1]->m_vtype != TYPE_FLOAT) {
602 ast_type_to_string(exprs[0], ty1, sizeof(ty1));
603 ast_type_to_string(exprs[1], ty2, sizeof(ty2));
604 compile_error(ctx, "invalid types used in expression: cannot divide types %s and %s", ty1, ty2);
607 if (!(out = parser->m_fold.op(op, exprs))) {
608 if (exprs[0]->m_vtype == TYPE_FLOAT)
609 out = fold::binary(ctx, INSTR_DIV_F, exprs[0], exprs[1]);
611 ast_type_to_string(exprs[0], ty1, sizeof(ty1));
612 ast_type_to_string(exprs[1], ty2, sizeof(ty2));
613 compile_error(ctx, "invalid types used in expression: cannot divide types %s and %s", ty1, ty2);
620 if (NotSameType(TYPE_FLOAT)) {
621 compile_error(ctx, "invalid types used in expression: cannot perform modulo operation between types %s and %s",
622 type_name[exprs[0]->m_vtype],
623 type_name[exprs[1]->m_vtype]);
625 } else if (!(out = parser->m_fold.op(op, exprs))) {
626 /* generate a call to __builtin_mod */
627 ast_expression *mod = parser->m_intrin.func("mod");
628 ast_call *call = nullptr;
629 if (!mod) return false; /* can return null for missing floor */
631 call = ast_call::make(parser_ctx(parser), mod);
632 call->m_params.push_back(exprs[0]);
633 call->m_params.push_back(exprs[1]);
640 compile_error(ctx, "%= is unimplemented");
646 if ( !(exprs[0]->m_vtype == TYPE_FLOAT && exprs[1]->m_vtype == TYPE_FLOAT) &&
647 !(exprs[0]->m_vtype == TYPE_VECTOR && exprs[1]->m_vtype == TYPE_FLOAT) &&
648 !(exprs[0]->m_vtype == TYPE_VECTOR && exprs[1]->m_vtype == TYPE_VECTOR))
650 compile_error(ctx, "invalid types used in expression: cannot perform bit operations between types %s and %s",
651 type_name[exprs[0]->m_vtype],
652 type_name[exprs[1]->m_vtype]);
656 if (!(out = parser->m_fold.op(op, exprs))) {
658 * IF the first expression is float, the following will be too
659 * since scalar ^ vector is not allowed.
661 if (exprs[0]->m_vtype == TYPE_FLOAT) {
662 out = fold::binary(ctx,
663 (op->id == opid1('^') ? VINSTR_BITXOR : op->id == opid1('|') ? INSTR_BITOR : INSTR_BITAND),
667 * The first is a vector: vector is allowed to bitop with vector and
668 * with scalar, branch here for the second operand.
670 if (exprs[1]->m_vtype == TYPE_VECTOR) {
672 * Bitop all the values of the vector components against the
673 * vectors components in question.
675 out = fold::binary(ctx,
676 (op->id == opid1('^') ? VINSTR_BITXOR_V : op->id == opid1('|') ? VINSTR_BITOR_V : VINSTR_BITAND_V),
679 out = fold::binary(ctx,
680 (op->id == opid1('^') ? VINSTR_BITXOR_VF : op->id == opid1('|') ? VINSTR_BITOR_VF : VINSTR_BITAND_VF),
689 if (NotSameType(TYPE_FLOAT)) {
690 compile_error(ctx, "invalid types used in expression: cannot perform shift between types %s and %s",
691 type_name[exprs[0]->m_vtype],
692 type_name[exprs[1]->m_vtype]);
696 if (!(out = parser->m_fold.op(op, exprs))) {
697 ast_expression *shift = parser->m_intrin.func((op->id == opid2('<','<')) ? "__builtin_lshift" : "__builtin_rshift");
698 ast_call *call = ast_call::make(parser_ctx(parser), shift);
699 call->m_params.push_back(exprs[0]);
700 call->m_params.push_back(exprs[1]);
705 case opid3('<','<','='):
706 case opid3('>','>','='):
707 if (NotSameType(TYPE_FLOAT)) {
708 compile_error(ctx, "invalid types used in expression: cannot perform shift operation between types %s and %s",
709 type_name[exprs[0]->m_vtype],
710 type_name[exprs[1]->m_vtype]);
714 if(!(out = parser->m_fold.op(op, exprs))) {
715 ast_expression *shift = parser->m_intrin.func((op->id == opid3('<','<','=')) ? "__builtin_lshift" : "__builtin_rshift");
716 ast_call *call = ast_call::make(parser_ctx(parser), shift);
717 call->m_params.push_back(exprs[0]);
718 call->m_params.push_back(exprs[1]);
730 generated_op += 1; /* INSTR_OR */
733 generated_op += INSTR_AND;
734 if (!(out = parser->m_fold.op(op, exprs))) {
735 if (OPTS_FLAG(PERL_LOGIC) && !exprs[0]->compareType(*exprs[1])) {
736 ast_type_to_string(exprs[0], ty1, sizeof(ty1));
737 ast_type_to_string(exprs[1], ty2, sizeof(ty2));
738 compile_error(ctx, "invalid types for logical operation with -fperl-logic: %s and %s", ty1, ty2);
741 for (i = 0; i < 2; ++i) {
742 if (OPTS_FLAG(CORRECT_LOGIC) && exprs[i]->m_vtype == TYPE_VECTOR) {
743 out = ast_unary::make(ctx, INSTR_NOT_V, exprs[i]);
745 out = ast_unary::make(ctx, INSTR_NOT_F, out);
747 exprs[i] = out; out = nullptr;
748 if (OPTS_FLAG(PERL_LOGIC)) {
749 /* here we want to keep the right expressions' type */
753 else if (OPTS_FLAG(FALSE_EMPTY_STRINGS) && exprs[i]->m_vtype == TYPE_STRING) {
754 out = ast_unary::make(ctx, INSTR_NOT_S, exprs[i]);
756 out = ast_unary::make(ctx, INSTR_NOT_F, out);
758 exprs[i] = out; out = nullptr;
759 if (OPTS_FLAG(PERL_LOGIC)) {
760 /* here we want to keep the right expressions' type */
765 out = fold::binary(ctx, generated_op, exprs[0], exprs[1]);
770 if (sy->paren.back() != PAREN_TERNARY2) {
771 compile_error(ctx, "mismatched parenthesis/ternary");
774 sy->paren.pop_back();
775 if (!exprs[1]->compareType(*exprs[2])) {
776 ast_type_to_string(exprs[1], ty1, sizeof(ty1));
777 ast_type_to_string(exprs[2], ty2, sizeof(ty2));
778 compile_error(ctx, "operands of ternary expression must have the same type, got %s and %s", ty1, ty2);
781 if (!(out = parser->m_fold.op(op, exprs)))
782 out = new ast_ternary(ctx, exprs[0], exprs[1], exprs[2]);
785 case opid2('*', '*'):
786 if (NotSameType(TYPE_FLOAT)) {
787 ast_type_to_string(exprs[0], ty1, sizeof(ty1));
788 ast_type_to_string(exprs[1], ty2, sizeof(ty2));
789 compile_error(ctx, "invalid types used in exponentiation: %s and %s",
794 if (!(out = parser->m_fold.op(op, exprs))) {
795 ast_call *gencall = ast_call::make(parser_ctx(parser), parser->m_intrin.func("pow"));
796 gencall->m_params.push_back(exprs[0]);
797 gencall->m_params.push_back(exprs[1]);
802 case opid2('>', '<'):
803 if (NotSameType(TYPE_VECTOR)) {
804 ast_type_to_string(exprs[0], ty1, sizeof(ty1));
805 ast_type_to_string(exprs[1], ty2, sizeof(ty2));
806 compile_error(ctx, "invalid types used in cross product: %s and %s",
811 if (!(out = parser->m_fold.op(op, exprs))) {
822 case opid3('<','=','>'): /* -1, 0, or 1 */
823 if (NotSameType(TYPE_FLOAT)) {
824 ast_type_to_string(exprs[0], ty1, sizeof(ty1));
825 ast_type_to_string(exprs[1], ty2, sizeof(ty2));
826 compile_error(ctx, "invalid types used in comparision: %s and %s",
832 if (!(out = parser->m_fold.op(op, exprs))) {
833 /* This whole block is NOT fold_binary safe */
834 ast_binary *eq = new ast_binary(ctx, INSTR_EQ_F, exprs[0], exprs[1]);
836 eq->m_refs = AST_REF_NONE;
839 out = new ast_ternary(ctx,
840 new ast_binary(ctx, INSTR_LT, exprs[0], exprs[1]),
842 parser->m_fold.imm_float(2),
845 new ast_ternary(ctx, eq,
847 parser->m_fold.imm_float(0),
850 parser->m_fold.imm_float(1)
860 generated_op += 1; /* INSTR_GT */
863 generated_op += 1; /* INSTR_LT */
865 case opid2('>', '='):
866 generated_op += 1; /* INSTR_GE */
868 case opid2('<', '='):
869 generated_op += INSTR_LE;
870 if (NotSameType(TYPE_FLOAT)) {
871 compile_error(ctx, "invalid types used in expression: cannot perform comparison between types %s and %s",
872 type_name[exprs[0]->m_vtype],
873 type_name[exprs[1]->m_vtype]);
876 if (!(out = parser->m_fold.op(op, exprs)))
877 out = fold::binary(ctx, generated_op, exprs[0], exprs[1]);
879 case opid2('!', '='):
880 if (exprs[0]->m_vtype != exprs[1]->m_vtype) {
881 compile_error(ctx, "invalid types used in expression: cannot perform comparison between types %s and %s",
882 type_name[exprs[0]->m_vtype],
883 type_name[exprs[1]->m_vtype]);
886 if (!(out = parser->m_fold.op(op, exprs)))
887 out = fold::binary(ctx, type_ne_instr[exprs[0]->m_vtype], exprs[0], exprs[1]);
889 case opid2('=', '='):
890 if (exprs[0]->m_vtype != exprs[1]->m_vtype) {
891 compile_error(ctx, "invalid types used in expression: cannot perform comparison between types %s and %s",
892 type_name[exprs[0]->m_vtype],
893 type_name[exprs[1]->m_vtype]);
896 if (!(out = parser->m_fold.op(op, exprs)))
897 out = fold::binary(ctx, type_eq_instr[exprs[0]->m_vtype], exprs[0], exprs[1]);
901 if (ast_istype(exprs[0], ast_entfield)) {
902 ast_expression *field = ((ast_entfield*)exprs[0])->m_field;
903 if (OPTS_FLAG(ADJUST_VECTOR_FIELDS) &&
904 exprs[0]->m_vtype == TYPE_FIELD &&
905 exprs[0]->m_next->m_vtype == TYPE_VECTOR)
907 assignop = type_storep_instr[TYPE_VECTOR];
910 assignop = type_storep_instr[exprs[0]->m_vtype];
911 if (assignop == VINSTR_END || !field->m_next->compareType(*exprs[1]))
913 ast_type_to_string(field->m_next, ty1, sizeof(ty1));
914 ast_type_to_string(exprs[1], ty2, sizeof(ty2));
915 if (OPTS_FLAG(ASSIGN_FUNCTION_TYPES) &&
916 field->m_next->m_vtype == TYPE_FUNCTION &&
917 exprs[1]->m_vtype == TYPE_FUNCTION)
919 (void)!compile_warning(ctx, WARN_ASSIGN_FUNCTION_TYPES,
920 "invalid types in assignment: cannot assign %s to %s", ty2, ty1);
923 compile_error(ctx, "invalid types in assignment: cannot assign %s to %s", ty2, ty1);
928 if (OPTS_FLAG(ADJUST_VECTOR_FIELDS) &&
929 exprs[0]->m_vtype == TYPE_FIELD &&
930 exprs[0]->m_next->m_vtype == TYPE_VECTOR)
932 assignop = type_store_instr[TYPE_VECTOR];
935 assignop = type_store_instr[exprs[0]->m_vtype];
938 if (assignop == VINSTR_END) {
939 ast_type_to_string(exprs[0], ty1, sizeof(ty1));
940 ast_type_to_string(exprs[1], ty2, sizeof(ty2));
941 compile_error(ctx, "invalid types in assignment: cannot assign %s to %s", ty2, ty1);
943 else if (!exprs[0]->compareType(*exprs[1]))
945 ast_type_to_string(exprs[0], ty1, sizeof(ty1));
946 ast_type_to_string(exprs[1], ty2, sizeof(ty2));
947 if (OPTS_FLAG(ASSIGN_FUNCTION_TYPES) &&
948 exprs[0]->m_vtype == TYPE_FUNCTION &&
949 exprs[1]->m_vtype == TYPE_FUNCTION)
951 (void)!compile_warning(ctx, WARN_ASSIGN_FUNCTION_TYPES,
952 "invalid types in assignment: cannot assign %s to %s", ty2, ty1);
955 compile_error(ctx, "invalid types in assignment: cannot assign %s to %s", ty2, ty1);
958 (void)check_write_to(ctx, exprs[0]);
959 /* When we're a vector of part of an entity field we use STOREP */
960 if (ast_istype(exprs[0], ast_member) && ast_istype(((ast_member*)exprs[0])->m_owner, ast_entfield))
961 assignop = INSTR_STOREP_F;
962 out = new ast_store(ctx, assignop, exprs[0], exprs[1]);
964 case opid3('+','+','P'):
965 case opid3('-','-','P'):
967 if (exprs[0]->m_vtype != TYPE_FLOAT) {
968 ast_type_to_string(exprs[0], ty1, sizeof(ty1));
969 compile_error(exprs[0]->m_context, "invalid type for prefix increment: %s", ty1);
972 if (op->id == opid3('+','+','P'))
976 (void)check_write_to(exprs[0]->m_context, exprs[0]);
977 if (ast_istype(exprs[0], ast_entfield)) {
978 out = new ast_binstore(ctx, INSTR_STOREP_F, addop,
980 parser->m_fold.imm_float(1));
982 out = new ast_binstore(ctx, INSTR_STORE_F, addop,
984 parser->m_fold.imm_float(1));
987 case opid3('S','+','+'):
988 case opid3('S','-','-'):
990 if (exprs[0]->m_vtype != TYPE_FLOAT) {
991 ast_type_to_string(exprs[0], ty1, sizeof(ty1));
992 compile_error(exprs[0]->m_context, "invalid type for suffix increment: %s", ty1);
995 if (op->id == opid3('S','+','+')) {
1000 subop = INSTR_ADD_F;
1002 (void)check_write_to(exprs[0]->m_context, exprs[0]);
1003 if (ast_istype(exprs[0], ast_entfield)) {
1004 out = new ast_binstore(ctx, INSTR_STOREP_F, addop,
1006 parser->m_fold.imm_float(1));
1008 out = new ast_binstore(ctx, INSTR_STORE_F, addop,
1010 parser->m_fold.imm_float(1));
1014 out = fold::binary(ctx, subop,
1016 parser->m_fold.imm_float(1));
1019 case opid2('+','='):
1020 case opid2('-','='):
1021 if (exprs[0]->m_vtype != exprs[1]->m_vtype ||
1022 (exprs[0]->m_vtype != TYPE_VECTOR && exprs[0]->m_vtype != TYPE_FLOAT) )
1024 ast_type_to_string(exprs[0], ty1, sizeof(ty1));
1025 ast_type_to_string(exprs[1], ty2, sizeof(ty2));
1026 compile_error(ctx, "invalid types used in expression: cannot add or subtract type %s and %s",
1030 (void)check_write_to(ctx, exprs[0]);
1031 if (ast_istype(exprs[0], ast_entfield))
1032 assignop = type_storep_instr[exprs[0]->m_vtype];
1034 assignop = type_store_instr[exprs[0]->m_vtype];
1035 switch (exprs[0]->m_vtype) {
1037 out = new ast_binstore(ctx, assignop,
1038 (op->id == opid2('+','=') ? INSTR_ADD_F : INSTR_SUB_F),
1039 exprs[0], exprs[1]);
1042 out = new ast_binstore(ctx, assignop,
1043 (op->id == opid2('+','=') ? INSTR_ADD_V : INSTR_SUB_V),
1044 exprs[0], exprs[1]);
1047 compile_error(ctx, "invalid types used in expression: cannot add or subtract type %s and %s",
1048 type_name[exprs[0]->m_vtype],
1049 type_name[exprs[1]->m_vtype]);
1053 case opid2('*','='):
1054 case opid2('/','='):
1055 if (exprs[1]->m_vtype != TYPE_FLOAT ||
1056 !(exprs[0]->m_vtype == TYPE_FLOAT ||
1057 exprs[0]->m_vtype == TYPE_VECTOR))
1059 ast_type_to_string(exprs[0], ty1, sizeof(ty1));
1060 ast_type_to_string(exprs[1], ty2, sizeof(ty2));
1061 compile_error(ctx, "invalid types used in expression: %s and %s",
1065 (void)check_write_to(ctx, exprs[0]);
1066 if (ast_istype(exprs[0], ast_entfield))
1067 assignop = type_storep_instr[exprs[0]->m_vtype];
1069 assignop = type_store_instr[exprs[0]->m_vtype];
1070 switch (exprs[0]->m_vtype) {
1072 out = new ast_binstore(ctx, assignop,
1073 (op->id == opid2('*','=') ? INSTR_MUL_F : INSTR_DIV_F),
1074 exprs[0], exprs[1]);
1077 if (op->id == opid2('*','=')) {
1078 out = new ast_binstore(ctx, assignop, INSTR_MUL_VF,
1079 exprs[0], exprs[1]);
1081 out = fold::binary(ctx, INSTR_DIV_F,
1082 parser->m_fold.imm_float(1),
1085 compile_error(ctx, "internal error: failed to generate division");
1088 out = new ast_binstore(ctx, assignop, INSTR_MUL_VF,
1093 compile_error(ctx, "invalid types used in expression: cannot add or subtract type %s and %s",
1094 type_name[exprs[0]->m_vtype],
1095 type_name[exprs[1]->m_vtype]);
1099 case opid2('&','='):
1100 case opid2('|','='):
1101 case opid2('^','='):
1102 if (NotSameType(TYPE_FLOAT) && NotSameType(TYPE_VECTOR)) {
1103 ast_type_to_string(exprs[0], ty1, sizeof(ty1));
1104 ast_type_to_string(exprs[1], ty2, sizeof(ty2));
1105 compile_error(ctx, "invalid types used in expression: %s and %s",
1109 (void)check_write_to(ctx, exprs[0]);
1110 if (ast_istype(exprs[0], ast_entfield))
1111 assignop = type_storep_instr[exprs[0]->m_vtype];
1113 assignop = type_store_instr[exprs[0]->m_vtype];
1114 if (exprs[0]->m_vtype == TYPE_FLOAT)
1115 out = new ast_binstore(ctx, assignop,
1116 (op->id == opid2('^','=') ? VINSTR_BITXOR : op->id == opid2('&','=') ? INSTR_BITAND : INSTR_BITOR),
1117 exprs[0], exprs[1]);
1119 out = new ast_binstore(ctx, assignop,
1120 (op->id == opid2('^','=') ? VINSTR_BITXOR_V : op->id == opid2('&','=') ? VINSTR_BITAND_V : VINSTR_BITOR_V),
1121 exprs[0], exprs[1]);
1123 case opid3('&','~','='):
1124 /* This is like: a &= ~(b);
1125 * But QC has no bitwise-not, so we implement it as
1128 if (NotSameType(TYPE_FLOAT) && NotSameType(TYPE_VECTOR)) {
1129 ast_type_to_string(exprs[0], ty1, sizeof(ty1));
1130 ast_type_to_string(exprs[1], ty2, sizeof(ty2));
1131 compile_error(ctx, "invalid types used in expression: %s and %s",
1135 if (ast_istype(exprs[0], ast_entfield))
1136 assignop = type_storep_instr[exprs[0]->m_vtype];
1138 assignop = type_store_instr[exprs[0]->m_vtype];
1139 if (exprs[0]->m_vtype == TYPE_FLOAT)
1140 out = fold::binary(ctx, INSTR_BITAND, exprs[0], exprs[1]);
1142 out = fold::binary(ctx, VINSTR_BITAND_V, exprs[0], exprs[1]);
1145 (void)check_write_to(ctx, exprs[0]);
1146 if (exprs[0]->m_vtype == TYPE_FLOAT)
1147 asbinstore = new ast_binstore(ctx, assignop, INSTR_SUB_F, exprs[0], out);
1149 asbinstore = new ast_binstore(ctx, assignop, INSTR_SUB_V, exprs[0], out);
1150 asbinstore->m_keep_dest = true;
1154 case opid3('l', 'e', 'n'):
1155 if (exprs[0]->m_vtype != TYPE_STRING && exprs[0]->m_vtype != TYPE_ARRAY) {
1156 ast_type_to_string(exprs[0], ty1, sizeof(ty1));
1157 compile_error(exprs[0]->m_context, "invalid type for length operator: %s", ty1);
1160 /* strings must be const, arrays are statically sized */
1161 if (exprs[0]->m_vtype == TYPE_STRING &&
1162 !(((ast_value*)exprs[0])->m_hasvalue && ((ast_value*)exprs[0])->m_cvq == CV_CONST))
1164 compile_error(exprs[0]->m_context, "operand of length operator not a valid constant expression");
1167 out = parser->m_fold.op(op, exprs);
1170 case opid2('~', 'P'):
1171 if (exprs[0]->m_vtype != TYPE_FLOAT && exprs[0]->m_vtype != TYPE_VECTOR) {
1172 ast_type_to_string(exprs[0], ty1, sizeof(ty1));
1173 compile_error(exprs[0]->m_context, "invalid type for bit not: %s", ty1);
1176 if (!(out = parser->m_fold.op(op, exprs))) {
1177 if (exprs[0]->m_vtype == TYPE_FLOAT) {
1178 out = fold::binary(ctx, INSTR_SUB_F, parser->m_fold.imm_float(2), exprs[0]);
1180 out = fold::binary(ctx, INSTR_SUB_V, parser->m_fold.imm_vector(1), exprs[0]);
1187 compile_error(ctx, "failed to apply operator %s", op->op);
1191 sy->out.push_back(syexp(ctx, out));
1195 static bool parser_close_call(parser_t *parser, shunt *sy)
1197 /* was a function call */
1198 ast_expression *fun;
1199 ast_value *funval = nullptr;
1203 size_t paramcount, i;
1206 fid = sy->ops.back().off;
1209 /* out[fid] is the function
1210 * everything above is parameters...
1212 if (sy->argc.empty()) {
1213 parseerror(parser, "internal error: no argument counter available");
1217 paramcount = sy->argc.back();
1218 sy->argc.pop_back();
1220 if (sy->out.size() < fid) {
1221 parseerror(parser, "internal error: broken function call %zu < %zu+%zu\n",
1229 * TODO handle this at the intrinsic level with an ast_intrinsic
1232 if ((fun = sy->out[fid].out) == parser->m_intrin.debug_typestring()) {
1234 if (fid+2 != sy->out.size() || sy->out.back().block) {
1235 parseerror(parser, "intrinsic __builtin_debug_typestring requires exactly 1 parameter");
1238 ast_type_to_string(sy->out.back().out, ty, sizeof(ty));
1239 ast_unref(sy->out.back().out);
1240 sy->out[fid] = syexp(sy->out.back().out->m_context,
1241 parser->m_fold.constgen_string(ty, false));
1247 * Now we need to determine if the function that is being called is
1248 * an intrinsic so we can evaluate if the arguments to it are constant
1249 * and than fruitfully fold them.
1251 #define fold_can_1(X) \
1252 (ast_istype(((X)), ast_value) && (X)->m_hasvalue && ((X)->m_cvq == CV_CONST) && \
1253 ((X))->m_vtype != TYPE_FUNCTION)
1255 if (fid + 1 < sy->out.size())
1258 for (i = 0; i < paramcount; ++i) {
1259 if (!fold_can_1((ast_value*)sy->out[fid + 1 + i].out)) {
1266 * All is well which ends well, if we make it into here we can ignore the
1267 * intrinsic call and just evaluate it i.e constant fold it.
1269 if (fold && ast_istype(fun, ast_value) && ((ast_value*)fun)->m_intrinsic) {
1270 ast_expression **exprs = nullptr;
1271 ast_expression *foldval = nullptr;
1273 for (i = 0; i < paramcount; i++)
1274 vec_push(exprs, sy->out[fid+1 + i].out);
1276 if (!(foldval = parser->m_intrin.do_fold((ast_value*)fun, exprs))) {
1282 * Blub: what sorts of unreffing and resizing of
1283 * sy->out should I be doing here?
1285 sy->out[fid] = syexp(foldval->m_context, foldval);
1286 sy->out.erase(sy->out.end() - paramcount, sy->out.end());
1293 call = ast_call::make(sy->ops[sy->ops.size()].ctx, fun);
1298 if (fid+1 + paramcount != sy->out.size()) {
1299 parseerror(parser, "internal error: parameter count mismatch: (%zu+1+%zu), %zu",
1306 for (i = 0; i < paramcount; ++i)
1307 call->m_params.push_back(sy->out[fid+1 + i].out);
1308 sy->out.erase(sy->out.end() - paramcount, sy->out.end());
1309 (void)!call->checkTypes(parser->function->m_function_type->m_varparam);
1310 if (parser->max_param_count < paramcount)
1311 parser->max_param_count = paramcount;
1313 if (ast_istype(fun, ast_value)) {
1314 funval = (ast_value*)fun;
1315 if ((fun->m_flags & AST_FLAG_VARIADIC) &&
1316 !(/*funval->m_cvq == CV_CONST && */ funval->m_hasvalue && funval->m_constval.vfunc->m_builtin))
1318 call->m_va_count = parser->m_fold.constgen_float((qcfloat_t)paramcount, false);
1322 /* overwrite fid, the function, with a call */
1323 sy->out[fid] = syexp(call->m_context, call);
1325 if (fun->m_vtype != TYPE_FUNCTION) {
1326 parseerror(parser, "not a function (%s)", type_name[fun->m_vtype]);
1331 parseerror(parser, "could not determine function return type");
1334 ast_value *fval = (ast_istype(fun, ast_value) ? ((ast_value*)fun) : nullptr);
1336 if (fun->m_flags & AST_FLAG_DEPRECATED) {
1338 return !parsewarning(parser, WARN_DEPRECATED,
1339 "call to function (which is marked deprecated)\n",
1340 "-> it has been declared here: %s:%i",
1341 fun->m_context.file, fun->m_context.line);
1343 if (!fval->m_desc.length()) {
1344 return !parsewarning(parser, WARN_DEPRECATED,
1345 "call to `%s` (which is marked deprecated)\n"
1346 "-> `%s` declared here: %s:%i",
1347 fval->m_name, fval->m_name, fun->m_context.file, fun->m_context.line);
1349 return !parsewarning(parser, WARN_DEPRECATED,
1350 "call to `%s` (deprecated: %s)\n"
1351 "-> `%s` declared here: %s:%i",
1352 fval->m_name, fval->m_desc, fval->m_name, fun->m_context.file,
1353 fun->m_context.line);
1356 if (fun->m_type_params.size() != paramcount &&
1357 !((fun->m_flags & AST_FLAG_VARIADIC) &&
1358 fun->m_type_params.size() < paramcount))
1360 const char *fewmany = (fun->m_type_params.size() > paramcount) ? "few" : "many";
1362 return !parsewarning(parser, WARN_INVALID_PARAMETER_COUNT,
1363 "too %s parameters for call to %s: expected %i, got %i\n"
1364 " -> `%s` has been declared here: %s:%i",
1365 fewmany, fval->m_name, (int)fun->m_type_params.size(), (int)paramcount,
1366 fval->m_name, fun->m_context.file, (int)fun->m_context.line);
1368 return !parsewarning(parser, WARN_INVALID_PARAMETER_COUNT,
1369 "too %s parameters for function call: expected %i, got %i\n"
1370 " -> it has been declared here: %s:%i",
1371 fewmany, (int)fun->m_type_params.size(), (int)paramcount,
1372 fun->m_context.file, (int)fun->m_context.line);
1379 static bool parser_close_paren(parser_t *parser, shunt *sy)
1381 if (sy->ops.empty()) {
1382 parseerror(parser, "unmatched closing paren");
1386 while (sy->ops.size()) {
1387 if (sy->ops.back().isparen) {
1388 if (sy->paren.back() == PAREN_FUNC) {
1389 sy->paren.pop_back();
1390 if (!parser_close_call(parser, sy))
1394 if (sy->paren.back() == PAREN_EXPR) {
1395 sy->paren.pop_back();
1396 if (sy->out.empty()) {
1397 compile_error(sy->ops.back().ctx, "empty paren expression");
1404 if (sy->paren.back() == PAREN_INDEX) {
1405 sy->paren.pop_back();
1406 // pop off the parenthesis
1408 /* then apply the index operator */
1409 if (!parser_sy_apply_operator(parser, sy))
1413 if (sy->paren.back() == PAREN_TERNARY1) {
1414 sy->paren.back() = PAREN_TERNARY2;
1415 // pop off the parenthesis
1419 compile_error(sy->ops.back().ctx, "invalid parenthesis");
1422 if (!parser_sy_apply_operator(parser, sy))
1428 static void parser_reclassify_token(parser_t *parser)
1431 if (parser->tok >= TOKEN_START)
1433 for (i = 0; i < operator_count; ++i) {
1434 if (!strcmp(parser_tokval(parser), operators[i].op)) {
1435 parser->tok = TOKEN_OPERATOR;
1441 static ast_expression* parse_vararg_do(parser_t *parser)
1443 ast_expression *idx, *out;
1445 ast_value *funtype = parser->function->m_function_type;
1446 lex_ctx_t ctx = parser_ctx(parser);
1448 if (!parser->function->m_varargs) {
1449 parseerror(parser, "function has no variable argument list");
1453 if (!parser_next(parser) || parser->tok != '(') {
1454 parseerror(parser, "expected parameter index and type in parenthesis");
1457 if (!parser_next(parser)) {
1458 parseerror(parser, "error parsing parameter index");
1462 idx = parse_expression_leave(parser, true, false, false);
1466 if (parser->tok != ',') {
1467 if (parser->tok != ')') {
1469 parseerror(parser, "expected comma after parameter index");
1472 // vararg piping: ...(start)
1473 out = new ast_argpipe(ctx, idx);
1477 if (!parser_next(parser) || (parser->tok != TOKEN_IDENT && parser->tok != TOKEN_TYPENAME)) {
1479 parseerror(parser, "expected typename for vararg");
1483 typevar = parse_typename(parser, nullptr, nullptr, nullptr);
1489 if (parser->tok != ')') {
1492 parseerror(parser, "expected closing paren");
1496 if (funtype->m_varparam &&
1497 !typevar->compareType(*funtype->m_varparam))
1501 ast_type_to_string(typevar, ty1, sizeof(ty1));
1502 ast_type_to_string(funtype->m_varparam, ty2, sizeof(ty2));
1503 compile_error(typevar->m_context,
1504 "function was declared to take varargs of type `%s`, requested type is: %s",
1508 out = ast_array_index::make(ctx, parser->function->m_varargs.get(), idx);
1509 out->adoptType(*typevar);
1514 static ast_expression* parse_vararg(parser_t *parser)
1516 bool old_noops = parser->lex->flags.noops;
1518 ast_expression *out;
1520 parser->lex->flags.noops = true;
1521 out = parse_vararg_do(parser);
1523 parser->lex->flags.noops = old_noops;
1527 /* not to be exposed */
1528 bool ftepp_predef_exists(const char *name);
1529 static bool parse_sya_operand(parser_t *parser, shunt *sy, bool with_labels)
1531 if (OPTS_FLAG(TRANSLATABLE_STRINGS) &&
1532 parser->tok == TOKEN_IDENT &&
1533 !strcmp(parser_tokval(parser), "_"))
1535 /* a translatable string */
1538 parser->lex->flags.noops = true;
1539 if (!parser_next(parser) || parser->tok != '(') {
1540 parseerror(parser, "use _(\"string\") to create a translatable string constant");
1543 parser->lex->flags.noops = false;
1544 if (!parser_next(parser) || parser->tok != TOKEN_STRINGCONST) {
1545 parseerror(parser, "expected a constant string in translatable-string extension");
1548 val = (ast_value*)parser->m_fold.constgen_string(parser_tokval(parser), true);
1551 sy->out.push_back(syexp(parser_ctx(parser), val));
1553 if (!parser_next(parser) || parser->tok != ')') {
1554 parseerror(parser, "expected closing paren after translatable string");
1559 else if (parser->tok == TOKEN_DOTS)
1562 if (!OPTS_FLAG(VARIADIC_ARGS)) {
1563 parseerror(parser, "cannot access varargs (try -fvariadic-args)");
1566 va = parse_vararg(parser);
1569 sy->out.push_back(syexp(parser_ctx(parser), va));
1572 else if (parser->tok == TOKEN_FLOATCONST) {
1573 ast_expression *val = parser->m_fold.constgen_float((parser_token(parser)->constval.f), false);
1576 sy->out.push_back(syexp(parser_ctx(parser), val));
1579 else if (parser->tok == TOKEN_INTCONST || parser->tok == TOKEN_CHARCONST) {
1580 ast_expression *val = parser->m_fold.constgen_float((qcfloat_t)(parser_token(parser)->constval.i), false);
1583 sy->out.push_back(syexp(parser_ctx(parser), val));
1586 else if (parser->tok == TOKEN_STRINGCONST) {
1587 ast_expression *val = parser->m_fold.constgen_string(parser_tokval(parser), false);
1590 sy->out.push_back(syexp(parser_ctx(parser), val));
1593 else if (parser->tok == TOKEN_VECTORCONST) {
1594 ast_expression *val = parser->m_fold.constgen_vector(parser_token(parser)->constval.v);
1597 sy->out.push_back(syexp(parser_ctx(parser), val));
1600 else if (parser->tok == TOKEN_IDENT)
1602 const char *ctoken = parser_tokval(parser);
1603 ast_expression *prev = sy->out.size() ? sy->out.back().out : nullptr;
1604 ast_expression *var;
1605 /* a_vector.{x,y,z} */
1606 if (sy->ops.empty() ||
1607 !sy->ops.back().etype ||
1608 operators[sy->ops.back().etype-1].id != opid1('.'))
1610 /* When adding more intrinsics, fix the above condition */
1613 if (prev && prev->m_vtype == TYPE_VECTOR && ctoken[0] >= 'x' && ctoken[0] <= 'z' && !ctoken[1])
1615 var = parser->const_vec[ctoken[0]-'x'];
1617 var = parser_find_var(parser, parser_tokval(parser));
1619 var = parser_find_field(parser, parser_tokval(parser));
1621 if (!var && with_labels) {
1622 var = parser_find_label(parser, parser_tokval(parser));
1624 ast_label *lbl = new ast_label(parser_ctx(parser), parser_tokval(parser), true);
1626 parser->labels.push_back(lbl);
1629 if (!var && !strcmp(parser_tokval(parser), "__FUNC__"))
1630 var = parser->m_fold.constgen_string(parser->function->m_name, false);
1633 * now we try for the real intrinsic hashtable. If the string
1634 * begins with __builtin, we simply skip past it, otherwise we
1635 * use the identifier as is.
1637 if (!strncmp(parser_tokval(parser), "__builtin_", 10)) {
1638 var = parser->m_intrin.func(parser_tokval(parser));
1642 * Try it again, intrin_func deals with the alias method as well
1643 * the first one masks for __builtin though, we emit warning here.
1646 if ((var = parser->m_intrin.func(parser_tokval(parser)))) {
1647 (void)!compile_warning(
1650 "using implicitly defined builtin `__builtin_%s' for `%s'",
1651 parser_tokval(parser),
1652 parser_tokval(parser)
1660 * sometimes people use preprocessing predefs without enabling them
1661 * i've done this thousands of times already myself. Lets check for
1662 * it in the predef table. And diagnose it better :)
1664 if (!OPTS_FLAG(FTEPP_PREDEFS) && ftepp_predef_exists(parser_tokval(parser))) {
1665 parseerror(parser, "unexpected identifier: %s (use -fftepp-predef to enable pre-defined macros)", parser_tokval(parser));
1669 parseerror(parser, "unexpected identifier: %s", parser_tokval(parser));
1675 // promote these to norefs
1676 if (ast_istype(var, ast_value))
1678 ((ast_value *)var)->m_flags |= AST_FLAG_NOREF;
1680 else if (ast_istype(var, ast_member))
1682 ast_member *mem = (ast_member *)var;
1683 if (ast_istype(mem->m_owner, ast_value))
1684 ((ast_value *)mem->m_owner)->m_flags |= AST_FLAG_NOREF;
1687 sy->out.push_back(syexp(parser_ctx(parser), var));
1690 parseerror(parser, "unexpected token `%s`", parser_tokval(parser));
1694 static ast_expression* parse_expression_leave(parser_t *parser, bool stopatcomma, bool truthvalue, bool with_labels)
1696 ast_expression *expr = nullptr;
1698 bool wantop = false;
1699 /* only warn once about an assignment in a truth value because the current code
1700 * would trigger twice on: if(a = b && ...), once for the if-truth-value, once for the && part
1702 bool warn_parenthesis = true;
1704 /* count the parens because an if starts with one, so the
1705 * end of a condition is an unmatched closing paren
1709 memset(&sy, 0, sizeof(sy));
1711 parser->lex->flags.noops = false;
1713 parser_reclassify_token(parser);
1717 if (parser->tok == TOKEN_TYPENAME) {
1718 parseerror(parser, "unexpected typename `%s`", parser_tokval(parser));
1722 if (parser->tok == TOKEN_OPERATOR)
1724 /* classify the operator */
1725 const oper_info *op;
1726 const oper_info *olast = nullptr;
1728 for (o = 0; o < operator_count; ++o) {
1729 if (((!(operators[o].flags & OP_PREFIX) == !!wantop)) &&
1730 /* !(operators[o].flags & OP_SUFFIX) && / * remove this */
1731 !strcmp(parser_tokval(parser), operators[o].op))
1736 if (o == operator_count) {
1737 compile_error(parser_ctx(parser), "unexpected operator: %s", parser_tokval(parser));
1740 /* found an operator */
1743 /* when declaring variables, a comma starts a new variable */
1744 if (op->id == opid1(',') && sy.paren.empty() && stopatcomma) {
1745 /* fixup the token */
1750 /* a colon without a pervious question mark cannot be a ternary */
1751 if (!ternaries && op->id == opid2(':','?')) {
1756 if (op->id == opid1(',')) {
1757 if (sy.paren.size() && sy.paren.back() == PAREN_TERNARY2) {
1758 (void)!parsewarning(parser, WARN_TERNARY_PRECEDENCE, "suggesting parenthesis around ternary expression");
1762 if (sy.ops.size() && !sy.ops.back().isparen)
1763 olast = &operators[sy.ops.back().etype-1];
1765 /* first only apply higher precedences, assoc_left+equal comes after we warn about precedence rules */
1766 while (olast && op->prec < olast->prec)
1768 if (!parser_sy_apply_operator(parser, &sy))
1770 if (sy.ops.size() && !sy.ops.back().isparen)
1771 olast = &operators[sy.ops.back().etype-1];
1776 #define IsAssignOp(x) (\
1777 (x) == opid1('=') || \
1778 (x) == opid2('+','=') || \
1779 (x) == opid2('-','=') || \
1780 (x) == opid2('*','=') || \
1781 (x) == opid2('/','=') || \
1782 (x) == opid2('%','=') || \
1783 (x) == opid2('&','=') || \
1784 (x) == opid2('|','=') || \
1785 (x) == opid3('&','~','=') \
1787 if (warn_parenthesis) {
1788 if ( (olast && IsAssignOp(olast->id) && (op->id == opid2('&','&') || op->id == opid2('|','|'))) ||
1789 (olast && IsAssignOp(op->id) && (olast->id == opid2('&','&') || olast->id == opid2('|','|'))) ||
1790 (truthvalue && sy.paren.empty() && IsAssignOp(op->id))
1793 (void)!parsewarning(parser, WARN_PARENTHESIS, "suggesting parenthesis around assignment used as truth value");
1794 warn_parenthesis = false;
1797 if (olast && olast->id != op->id) {
1798 if ((op->id == opid1('&') || op->id == opid1('|') || op->id == opid1('^')) &&
1799 (olast->id == opid1('&') || olast->id == opid1('|') || olast->id == opid1('^')))
1801 (void)!parsewarning(parser, WARN_PARENTHESIS, "suggesting parenthesis around bitwise operations");
1802 warn_parenthesis = false;
1804 else if ((op->id == opid2('&','&') || op->id == opid2('|','|')) &&
1805 (olast->id == opid2('&','&') || olast->id == opid2('|','|')))
1807 (void)!parsewarning(parser, WARN_PARENTHESIS, "suggesting parenthesis around logical operations");
1808 warn_parenthesis = false;
1814 (op->prec < olast->prec) ||
1815 (op->assoc == ASSOC_LEFT && op->prec <= olast->prec) ) )
1817 if (!parser_sy_apply_operator(parser, &sy))
1819 if (sy.ops.size() && !sy.ops.back().isparen)
1820 olast = &operators[sy.ops.back().etype-1];
1825 if (op->id == opid1('(')) {
1827 size_t sycount = sy.out.size();
1828 /* we expected an operator, this is the function-call operator */
1829 sy.paren.push_back(PAREN_FUNC);
1830 sy.ops.push_back(syparen(parser_ctx(parser), sycount-1));
1831 sy.argc.push_back(0);
1833 sy.paren.push_back(PAREN_EXPR);
1834 sy.ops.push_back(syparen(parser_ctx(parser), 0));
1837 } else if (op->id == opid1('[')) {
1839 parseerror(parser, "unexpected array subscript");
1842 sy.paren.push_back(PAREN_INDEX);
1843 /* push both the operator and the paren, this makes life easier */
1844 sy.ops.push_back(syop(parser_ctx(parser), op));
1845 sy.ops.push_back(syparen(parser_ctx(parser), 0));
1847 } else if (op->id == opid2('?',':')) {
1848 sy.ops.push_back(syop(parser_ctx(parser), op));
1849 sy.ops.push_back(syparen(parser_ctx(parser), 0));
1852 sy.paren.push_back(PAREN_TERNARY1);
1853 } else if (op->id == opid2(':','?')) {
1854 if (sy.paren.empty()) {
1855 parseerror(parser, "unexpected colon outside ternary expression (missing parenthesis?)");
1858 if (sy.paren.back() != PAREN_TERNARY1) {
1859 parseerror(parser, "unexpected colon outside ternary expression (missing parenthesis?)");
1862 if (!parser_close_paren(parser, &sy))
1864 sy.ops.push_back(syop(parser_ctx(parser), op));
1868 sy.ops.push_back(syop(parser_ctx(parser), op));
1869 wantop = !!(op->flags & OP_SUFFIX);
1872 else if (parser->tok == ')') {
1873 while (sy.paren.size() && sy.paren.back() == PAREN_TERNARY2) {
1874 if (!parser_sy_apply_operator(parser, &sy))
1877 if (sy.paren.empty())
1880 if (sy.paren.back() == PAREN_TERNARY1) {
1881 parseerror(parser, "mismatched parentheses (closing paren in ternary expression?)");
1884 if (!parser_close_paren(parser, &sy))
1887 /* must be a function call without parameters */
1888 if (sy.paren.back() != PAREN_FUNC) {
1889 parseerror(parser, "closing paren in invalid position");
1892 if (!parser_close_paren(parser, &sy))
1897 else if (parser->tok == '(') {
1898 parseerror(parser, "internal error: '(' should be classified as operator");
1901 else if (parser->tok == '[') {
1902 parseerror(parser, "internal error: '[' should be classified as operator");
1905 else if (parser->tok == ']') {
1906 while (sy.paren.size() && sy.paren.back() == PAREN_TERNARY2) {
1907 if (!parser_sy_apply_operator(parser, &sy))
1910 if (sy.paren.empty())
1912 if (sy.paren.back() != PAREN_INDEX) {
1913 parseerror(parser, "mismatched parentheses, unexpected ']'");
1916 if (!parser_close_paren(parser, &sy))
1921 if (!parse_sya_operand(parser, &sy, with_labels))
1926 /* in this case we might want to allow constant string concatenation */
1927 bool concatenated = false;
1928 if (parser->tok == TOKEN_STRINGCONST && sy.out.size()) {
1929 ast_expression *lexpr = sy.out.back().out;
1930 if (ast_istype(lexpr, ast_value)) {
1931 ast_value *last = (ast_value*)lexpr;
1932 if (last->m_isimm == true && last->m_cvq == CV_CONST &&
1933 last->m_hasvalue && last->m_vtype == TYPE_STRING)
1935 char *newstr = nullptr;
1936 util_asprintf(&newstr, "%s%s", last->m_constval.vstring, parser_tokval(parser));
1937 sy.out.back().out = parser->m_fold.constgen_string(newstr, false);
1939 concatenated = true;
1943 if (!concatenated) {
1944 parseerror(parser, "expected operator or end of statement");
1949 if (!parser_next(parser)) {
1952 if (parser->tok == ';' ||
1953 ((sy.paren.empty() || (sy.paren.size() == 1 && sy.paren.back() == PAREN_TERNARY2)) &&
1954 (parser->tok == ']' || parser->tok == ')' || parser->tok == '}')))
1960 while (sy.ops.size()) {
1961 if (!parser_sy_apply_operator(parser, &sy))
1965 parser->lex->flags.noops = true;
1966 if (sy.out.size() != 1) {
1967 parseerror(parser, "expression expected");
1970 expr = sy.out[0].out;
1971 if (sy.paren.size()) {
1972 parseerror(parser, "internal error: sy.paren.size() = %zu", sy.paren.size());
1978 parser->lex->flags.noops = true;
1979 for (auto &it : sy.out)
1980 if (it.out) ast_unref(it.out);
1984 static ast_expression* parse_expression(parser_t *parser, bool stopatcomma, bool with_labels)
1986 ast_expression *e = parse_expression_leave(parser, stopatcomma, false, with_labels);
1989 if (parser->tok != ';') {
1990 parseerror(parser, "semicolon expected after expression");
1994 if (!parser_next(parser)) {
2001 static void parser_enterblock(parser_t *parser)
2003 vec_push(parser->variables, util_htnew(PARSER_HT_SIZE));
2004 vec_push(parser->_blocklocals, vec_size(parser->_locals));
2005 vec_push(parser->typedefs, util_htnew(TYPEDEF_HT_SIZE));
2006 vec_push(parser->_blocktypedefs, vec_size(parser->_typedefs));
2007 vec_push(parser->_block_ctx, parser_ctx(parser));
2010 static bool parser_leaveblock(parser_t *parser)
2013 size_t locals, typedefs;
2015 if (vec_size(parser->variables) <= PARSER_HT_LOCALS) {
2016 parseerror(parser, "internal error: parser_leaveblock with no block");
2020 util_htdel(vec_last(parser->variables));
2022 vec_pop(parser->variables);
2023 if (!vec_size(parser->_blocklocals)) {
2024 parseerror(parser, "internal error: parser_leaveblock with no block (2)");
2028 locals = vec_last(parser->_blocklocals);
2029 vec_pop(parser->_blocklocals);
2030 while (vec_size(parser->_locals) != locals)
2031 vec_pop(parser->_locals);
2033 typedefs = vec_last(parser->_blocktypedefs);
2034 while (vec_size(parser->_typedefs) != typedefs) {
2035 delete vec_last(parser->_typedefs);
2036 vec_pop(parser->_typedefs);
2038 util_htdel(vec_last(parser->typedefs));
2039 vec_pop(parser->typedefs);
2041 vec_pop(parser->_block_ctx);
2046 static void parser_addlocal(parser_t *parser, const char *name, ast_expression *e)
2048 vec_push(parser->_locals, e);
2049 util_htset(vec_last(parser->variables), name, (void*)e);
2051 static void parser_addlocal(parser_t *parser, const std::string &name, ast_expression *e) {
2052 return parser_addlocal(parser, name.c_str(), e);
2055 static void parser_addglobal(parser_t *parser, const char *name, ast_expression *e)
2057 parser->globals.push_back(e);
2058 util_htset(parser->htglobals, name, e);
2060 static void parser_addglobal(parser_t *parser, const std::string &name, ast_expression *e) {
2061 return parser_addglobal(parser, name.c_str(), e);
2064 static ast_expression* process_condition(parser_t *parser, ast_expression *cond, bool *_ifnot)
2068 ast_expression *prev;
2070 if (cond->m_vtype == TYPE_VOID || cond->m_vtype >= TYPE_VARIANT) {
2072 ast_type_to_string(cond, ty, sizeof(ty));
2073 compile_error(cond->m_context, "invalid type for if() condition: %s", ty);
2076 if (OPTS_FLAG(FALSE_EMPTY_STRINGS) && cond->m_vtype == TYPE_STRING)
2079 cond = ast_unary::make(cond->m_context, INSTR_NOT_S, cond);
2082 parseerror(parser, "internal error: failed to process condition");
2087 else if (OPTS_FLAG(CORRECT_LOGIC) && cond->m_vtype == TYPE_VECTOR)
2089 /* vector types need to be cast to true booleans */
2090 ast_binary *bin = (ast_binary*)cond;
2091 if (!OPTS_FLAG(PERL_LOGIC) || !ast_istype(cond, ast_binary) || !(bin->m_op == INSTR_AND || bin->m_op == INSTR_OR))
2093 /* in perl-logic, AND and OR take care of the -fcorrect-logic */
2095 cond = ast_unary::make(cond->m_context, INSTR_NOT_V, cond);
2098 parseerror(parser, "internal error: failed to process condition");
2105 unary = (ast_unary*)cond;
2106 /* ast_istype dereferences cond, should test here for safety */
2107 while (cond && ast_istype(cond, ast_unary) && unary->m_op == INSTR_NOT_F)
2109 cond = unary->m_operand;
2110 unary->m_operand = nullptr;
2113 unary = (ast_unary*)cond;
2117 parseerror(parser, "internal error: failed to process condition");
2119 if (ifnot) *_ifnot = !*_ifnot;
2123 static bool parse_if(parser_t *parser, ast_block *block, ast_expression **out)
2126 ast_expression *cond, *ontrue = nullptr, *onfalse = nullptr;
2129 lex_ctx_t ctx = parser_ctx(parser);
2131 (void)block; /* not touching */
2133 /* skip the 'if', parse an optional 'not' and check for an opening paren */
2134 if (!parser_next(parser)) {
2135 parseerror(parser, "expected condition or 'not'");
2138 if (parser->tok == TOKEN_IDENT && !strcmp(parser_tokval(parser), "not")) {
2140 if (!parser_next(parser)) {
2141 parseerror(parser, "expected condition in parenthesis");
2145 if (parser->tok != '(') {
2146 parseerror(parser, "expected 'if' condition in parenthesis");
2149 /* parse into the expression */
2150 if (!parser_next(parser)) {
2151 parseerror(parser, "expected 'if' condition after opening paren");
2154 /* parse the condition */
2155 cond = parse_expression_leave(parser, false, true, false);
2159 if (parser->tok != ')') {
2160 parseerror(parser, "expected closing paren after 'if' condition");
2164 /* parse into the 'then' branch */
2165 if (!parser_next(parser)) {
2166 parseerror(parser, "expected statement for on-true branch of 'if'");
2170 if (!parse_statement_or_block(parser, &ontrue)) {
2175 ontrue = new ast_block(parser_ctx(parser));
2176 /* check for an else */
2177 if (!strcmp(parser_tokval(parser), "else")) {
2178 /* parse into the 'else' branch */
2179 if (!parser_next(parser)) {
2180 parseerror(parser, "expected on-false branch after 'else'");
2185 if (!parse_statement_or_block(parser, &onfalse)) {
2192 cond = process_condition(parser, cond, &ifnot);
2194 if (ontrue) delete ontrue;
2195 if (onfalse) delete onfalse;
2200 ifthen = new ast_ifthen(ctx, cond, onfalse, ontrue);
2202 ifthen = new ast_ifthen(ctx, cond, ontrue, onfalse);
2207 static bool parse_while_go(parser_t *parser, ast_block *block, ast_expression **out);
2208 static bool parse_while(parser_t *parser, ast_block *block, ast_expression **out)
2211 char *label = nullptr;
2213 /* skip the 'while' and get the body */
2214 if (!parser_next(parser)) {
2215 if (OPTS_FLAG(LOOP_LABELS))
2216 parseerror(parser, "expected loop label or 'while' condition in parenthesis");
2218 parseerror(parser, "expected 'while' condition in parenthesis");
2222 if (parser->tok == ':') {
2223 if (!OPTS_FLAG(LOOP_LABELS))
2224 parseerror(parser, "labeled loops not activated, try using -floop-labels");
2225 if (!parser_next(parser) || parser->tok != TOKEN_IDENT) {
2226 parseerror(parser, "expected loop label");
2229 label = util_strdup(parser_tokval(parser));
2230 if (!parser_next(parser)) {
2232 parseerror(parser, "expected 'while' condition in parenthesis");
2237 if (parser->tok != '(') {
2238 parseerror(parser, "expected 'while' condition in parenthesis");
2242 parser->breaks.push_back(label);
2243 parser->continues.push_back(label);
2245 rv = parse_while_go(parser, block, out);
2248 if (parser->breaks.back() != label || parser->continues.back() != label) {
2249 parseerror(parser, "internal error: label stack corrupted");
2255 parser->breaks.pop_back();
2256 parser->continues.pop_back();
2261 static bool parse_while_go(parser_t *parser, ast_block *block, ast_expression **out)
2264 ast_expression *cond, *ontrue;
2268 lex_ctx_t ctx = parser_ctx(parser);
2270 (void)block; /* not touching */
2272 /* parse into the expression */
2273 if (!parser_next(parser)) {
2274 parseerror(parser, "expected 'while' condition after opening paren");
2277 /* parse the condition */
2278 cond = parse_expression_leave(parser, false, true, false);
2282 if (parser->tok != ')') {
2283 parseerror(parser, "expected closing paren after 'while' condition");
2287 /* parse into the 'then' branch */
2288 if (!parser_next(parser)) {
2289 parseerror(parser, "expected while-loop body");
2293 if (!parse_statement_or_block(parser, &ontrue)) {
2298 cond = process_condition(parser, cond, &ifnot);
2303 aloop = new ast_loop(ctx, nullptr, cond, ifnot, nullptr, false, nullptr, ontrue);
2308 static bool parse_dowhile_go(parser_t *parser, ast_block *block, ast_expression **out);
2309 static bool parse_dowhile(parser_t *parser, ast_block *block, ast_expression **out)
2312 char *label = nullptr;
2314 /* skip the 'do' and get the body */
2315 if (!parser_next(parser)) {
2316 if (OPTS_FLAG(LOOP_LABELS))
2317 parseerror(parser, "expected loop label or body");
2319 parseerror(parser, "expected loop body");
2323 if (parser->tok == ':') {
2324 if (!OPTS_FLAG(LOOP_LABELS))
2325 parseerror(parser, "labeled loops not activated, try using -floop-labels");
2326 if (!parser_next(parser) || parser->tok != TOKEN_IDENT) {
2327 parseerror(parser, "expected loop label");
2330 label = util_strdup(parser_tokval(parser));
2331 if (!parser_next(parser)) {
2333 parseerror(parser, "expected loop body");
2338 parser->breaks.push_back(label);
2339 parser->continues.push_back(label);
2341 rv = parse_dowhile_go(parser, block, out);
2344 if (parser->breaks.back() != label || parser->continues.back() != label) {
2345 parseerror(parser, "internal error: label stack corrupted");
2351 parser->breaks.pop_back();
2352 parser->continues.pop_back();
2357 static bool parse_dowhile_go(parser_t *parser, ast_block *block, ast_expression **out)
2360 ast_expression *cond, *ontrue;
2364 lex_ctx_t ctx = parser_ctx(parser);
2366 (void)block; /* not touching */
2368 if (!parse_statement_or_block(parser, &ontrue))
2371 /* expect the "while" */
2372 if (parser->tok != TOKEN_KEYWORD ||
2373 strcmp(parser_tokval(parser), "while"))
2375 parseerror(parser, "expected 'while' and condition");
2380 /* skip the 'while' and check for opening paren */
2381 if (!parser_next(parser) || parser->tok != '(') {
2382 parseerror(parser, "expected 'while' condition in parenthesis");
2386 /* parse into the expression */
2387 if (!parser_next(parser)) {
2388 parseerror(parser, "expected 'while' condition after opening paren");
2392 /* parse the condition */
2393 cond = parse_expression_leave(parser, false, true, false);
2397 if (parser->tok != ')') {
2398 parseerror(parser, "expected closing paren after 'while' condition");
2404 if (!parser_next(parser) || parser->tok != ';') {
2405 parseerror(parser, "expected semicolon after condition");
2411 if (!parser_next(parser)) {
2412 parseerror(parser, "parse error");
2418 cond = process_condition(parser, cond, &ifnot);
2423 aloop = new ast_loop(ctx, nullptr, nullptr, false, cond, ifnot, nullptr, ontrue);
2428 static bool parse_for_go(parser_t *parser, ast_block *block, ast_expression **out);
2429 static bool parse_for(parser_t *parser, ast_block *block, ast_expression **out)
2432 char *label = nullptr;
2434 /* skip the 'for' and check for opening paren */
2435 if (!parser_next(parser)) {
2436 if (OPTS_FLAG(LOOP_LABELS))
2437 parseerror(parser, "expected loop label or 'for' expressions in parenthesis");
2439 parseerror(parser, "expected 'for' expressions in parenthesis");
2443 if (parser->tok == ':') {
2444 if (!OPTS_FLAG(LOOP_LABELS))
2445 parseerror(parser, "labeled loops not activated, try using -floop-labels");
2446 if (!parser_next(parser) || parser->tok != TOKEN_IDENT) {
2447 parseerror(parser, "expected loop label");
2450 label = util_strdup(parser_tokval(parser));
2451 if (!parser_next(parser)) {
2453 parseerror(parser, "expected 'for' expressions in parenthesis");
2458 if (parser->tok != '(') {
2459 parseerror(parser, "expected 'for' expressions in parenthesis");
2463 parser->breaks.push_back(label);
2464 parser->continues.push_back(label);
2466 rv = parse_for_go(parser, block, out);
2469 if (parser->breaks.back() != label || parser->continues.back() != label) {
2470 parseerror(parser, "internal error: label stack corrupted");
2476 parser->breaks.pop_back();
2477 parser->continues.pop_back();
2481 static bool parse_for_go(parser_t *parser, ast_block *block, ast_expression **out)
2484 ast_expression *initexpr, *cond, *increment, *ontrue;
2489 lex_ctx_t ctx = parser_ctx(parser);
2491 parser_enterblock(parser);
2495 increment = nullptr;
2498 /* parse into the expression */
2499 if (!parser_next(parser)) {
2500 parseerror(parser, "expected 'for' initializer after opening paren");
2505 if (parser->tok == TOKEN_IDENT)
2506 typevar = parser_find_typedef(parser, parser_tokval(parser), 0);
2508 if (typevar || parser->tok == TOKEN_TYPENAME) {
2509 if (!parse_variable(parser, block, true, CV_VAR, typevar, false, false, 0, nullptr))
2512 else if (parser->tok != ';')
2514 initexpr = parse_expression_leave(parser, false, false, false);
2517 /* move on to condition */
2518 if (parser->tok != ';') {
2519 parseerror(parser, "expected semicolon after for-loop initializer");
2522 if (!parser_next(parser)) {
2523 parseerror(parser, "expected for-loop condition");
2526 } else if (!parser_next(parser)) {
2527 parseerror(parser, "expected for-loop condition");
2531 /* parse the condition */
2532 if (parser->tok != ';') {
2533 cond = parse_expression_leave(parser, false, true, false);
2537 /* move on to incrementor */
2538 if (parser->tok != ';') {
2539 parseerror(parser, "expected semicolon after for-loop initializer");
2542 if (!parser_next(parser)) {
2543 parseerror(parser, "expected for-loop condition");
2547 /* parse the incrementor */
2548 if (parser->tok != ')') {
2549 lex_ctx_t condctx = parser_ctx(parser);
2550 increment = parse_expression_leave(parser, false, false, false);
2553 if (!increment->m_side_effects) {
2554 if (compile_warning(condctx, WARN_EFFECTLESS_STATEMENT, "statement has no effect"))
2560 if (parser->tok != ')') {
2561 parseerror(parser, "expected closing paren after 'for-loop' incrementor");
2564 /* parse into the 'then' branch */
2565 if (!parser_next(parser)) {
2566 parseerror(parser, "expected for-loop body");
2569 if (!parse_statement_or_block(parser, &ontrue))
2573 cond = process_condition(parser, cond, &ifnot);
2577 aloop = new ast_loop(ctx, initexpr, cond, ifnot, nullptr, false, increment, ontrue);
2580 if (!parser_leaveblock(parser)) {
2586 if (initexpr) ast_unref(initexpr);
2587 if (cond) ast_unref(cond);
2588 if (increment) ast_unref(increment);
2589 (void)!parser_leaveblock(parser);
2593 static bool parse_return(parser_t *parser, ast_block *block, ast_expression **out)
2595 ast_expression *exp = nullptr;
2596 ast_expression *var = nullptr;
2597 ast_return *ret = nullptr;
2598 ast_value *retval = parser->function->m_return_value;
2599 ast_value *expected = parser->function->m_function_type;
2601 lex_ctx_t ctx = parser_ctx(parser);
2603 (void)block; /* not touching */
2605 if (!parser_next(parser)) {
2606 parseerror(parser, "expected return expression");
2610 /* return assignments */
2611 if (parser->tok == '=') {
2612 if (!OPTS_FLAG(RETURN_ASSIGNMENTS)) {
2613 parseerror(parser, "return assignments not activated, try using -freturn-assigments");
2617 if (type_store_instr[expected->m_next->m_vtype] == VINSTR_END) {
2619 ast_type_to_string(expected->m_next, ty1, sizeof(ty1));
2620 parseerror(parser, "invalid return type: `%s'", ty1);
2624 if (!parser_next(parser)) {
2625 parseerror(parser, "expected return assignment expression");
2629 if (!(exp = parse_expression_leave(parser, false, false, false)))
2632 /* prepare the return value */
2634 retval = new ast_value(ctx, "#LOCAL_RETURN", TYPE_VOID);
2635 retval->adoptType(*expected->m_next);
2636 parser->function->m_return_value = retval;
2637 parser->function->m_return_value->m_flags |= AST_FLAG_NOREF;
2640 if (!exp->compareType(*retval)) {
2641 char ty1[1024], ty2[1024];
2642 ast_type_to_string(exp, ty1, sizeof(ty1));
2643 ast_type_to_string(retval, ty2, sizeof(ty2));
2644 parseerror(parser, "invalid type for return value: `%s', expected `%s'", ty1, ty2);
2647 /* store to 'return' local variable */
2648 var = new ast_store(
2650 type_store_instr[expected->m_next->m_vtype],
2658 if (parser->tok != ';')
2659 parseerror(parser, "missing semicolon after return assignment");
2660 else if (!parser_next(parser))
2661 parseerror(parser, "parse error after return assignment");
2667 if (parser->tok != ';') {
2668 exp = parse_expression(parser, false, false);
2672 if (exp->m_vtype != TYPE_NIL &&
2673 exp->m_vtype != (expected)->m_next->m_vtype)
2675 parseerror(parser, "return with invalid expression");
2678 ret = new ast_return(ctx, exp);
2684 if (!parser_next(parser))
2685 parseerror(parser, "parse error");
2687 if (!retval && expected->m_next->m_vtype != TYPE_VOID)
2689 (void)!parsewarning(parser, WARN_MISSING_RETURN_VALUES, "return without value");
2691 ret = new ast_return(ctx, retval);
2697 static bool parse_break_continue(parser_t *parser, ast_block *block, ast_expression **out, bool is_continue)
2700 unsigned int levels = 0;
2701 lex_ctx_t ctx = parser_ctx(parser);
2702 auto &loops = (is_continue ? parser->continues : parser->breaks);
2704 (void)block; /* not touching */
2705 if (!parser_next(parser)) {
2706 parseerror(parser, "expected semicolon or loop label");
2710 if (loops.empty()) {
2712 parseerror(parser, "`continue` can only be used inside loops");
2714 parseerror(parser, "`break` can only be used inside loops or switches");
2717 if (parser->tok == TOKEN_IDENT) {
2718 if (!OPTS_FLAG(LOOP_LABELS))
2719 parseerror(parser, "labeled loops not activated, try using -floop-labels");
2722 if (loops[i] && !strcmp(loops[i], parser_tokval(parser)))
2725 parseerror(parser, "no such loop to %s: `%s`",
2726 (is_continue ? "continue" : "break out of"),
2727 parser_tokval(parser));
2732 if (!parser_next(parser)) {
2733 parseerror(parser, "expected semicolon");
2738 if (parser->tok != ';') {
2739 parseerror(parser, "expected semicolon");
2743 if (!parser_next(parser))
2744 parseerror(parser, "parse error");
2746 *out = new ast_breakcont(ctx, is_continue, levels);
2750 /* returns true when it was a variable qualifier, false otherwise!
2751 * on error, cvq is set to CV_WRONG
2753 struct attribute_t {
2758 static bool parse_qualifiers(parser_t *parser, bool with_local, int *cvq, bool *noref, bool *is_static, uint32_t *_flags, char **message)
2760 bool had_const = false;
2761 bool had_var = false;
2762 bool had_noref = false;
2763 bool had_attrib = false;
2764 bool had_static = false;
2767 static attribute_t attributes[] = {
2768 { "noreturn", AST_FLAG_NORETURN },
2769 { "inline", AST_FLAG_INLINE },
2770 { "eraseable", AST_FLAG_ERASEABLE },
2771 { "accumulate", AST_FLAG_ACCUMULATE },
2772 { "last", AST_FLAG_FINAL_DECL }
2779 if (parser->tok == TOKEN_ATTRIBUTE_OPEN) {
2781 /* parse an attribute */
2782 if (!parser_next(parser)) {
2783 parseerror(parser, "expected attribute after `[[`");
2788 for (i = 0; i < GMQCC_ARRAY_COUNT(attributes); i++) {
2789 if (!strcmp(parser_tokval(parser), attributes[i].name)) {
2790 flags |= attributes[i].flag;
2791 if (!parser_next(parser) || parser->tok != TOKEN_ATTRIBUTE_CLOSE) {
2792 parseerror(parser, "`%s` attribute has no parameters, expected `]]`",
2793 attributes[i].name);
2801 if (i != GMQCC_ARRAY_COUNT(attributes))
2805 if (!strcmp(parser_tokval(parser), "noref")) {
2807 if (!parser_next(parser) || parser->tok != TOKEN_ATTRIBUTE_CLOSE) {
2808 parseerror(parser, "`noref` attribute has no parameters, expected `]]`");
2813 else if (!strcmp(parser_tokval(parser), "alias") && !(flags & AST_FLAG_ALIAS)) {
2814 flags |= AST_FLAG_ALIAS;
2817 if (!parser_next(parser)) {
2818 parseerror(parser, "parse error in attribute");
2822 if (parser->tok == '(') {
2823 if (!parser_next(parser) || parser->tok != TOKEN_STRINGCONST) {
2824 parseerror(parser, "`alias` attribute missing parameter");
2828 *message = util_strdup(parser_tokval(parser));
2830 if (!parser_next(parser)) {
2831 parseerror(parser, "parse error in attribute");
2835 if (parser->tok != ')') {
2836 parseerror(parser, "`alias` attribute expected `)` after parameter");
2840 if (!parser_next(parser)) {
2841 parseerror(parser, "parse error in attribute");
2846 if (parser->tok != TOKEN_ATTRIBUTE_CLOSE) {
2847 parseerror(parser, "`alias` attribute expected `]]`");
2851 else if (!strcmp(parser_tokval(parser), "deprecated") && !(flags & AST_FLAG_DEPRECATED)) {
2852 flags |= AST_FLAG_DEPRECATED;
2855 if (!parser_next(parser)) {
2856 parseerror(parser, "parse error in attribute");
2860 if (parser->tok == '(') {
2861 if (!parser_next(parser) || parser->tok != TOKEN_STRINGCONST) {
2862 parseerror(parser, "`deprecated` attribute missing parameter");
2866 *message = util_strdup(parser_tokval(parser));
2868 if (!parser_next(parser)) {
2869 parseerror(parser, "parse error in attribute");
2873 if(parser->tok != ')') {
2874 parseerror(parser, "`deprecated` attribute expected `)` after parameter");
2878 if (!parser_next(parser)) {
2879 parseerror(parser, "parse error in attribute");
2884 if (parser->tok != TOKEN_ATTRIBUTE_CLOSE) {
2885 parseerror(parser, "`deprecated` attribute expected `]]`");
2888 if (*message) mem_d(*message);
2894 else if (!strcmp(parser_tokval(parser), "coverage") && !(flags & AST_FLAG_COVERAGE)) {
2895 flags |= AST_FLAG_COVERAGE;
2896 if (!parser_next(parser)) {
2898 parseerror(parser, "parse error in coverage attribute");
2902 if (parser->tok == '(') {
2903 if (!parser_next(parser)) {
2905 parseerror(parser, "invalid parameter for coverage() attribute\n"
2906 "valid are: block");
2910 if (parser->tok != ')') {
2912 if (parser->tok != TOKEN_IDENT)
2913 goto bad_coverage_arg;
2914 if (!strcmp(parser_tokval(parser), "block"))
2915 flags |= AST_FLAG_BLOCK_COVERAGE;
2916 else if (!strcmp(parser_tokval(parser), "none"))
2917 flags &= ~(AST_FLAG_COVERAGE_MASK);
2919 goto bad_coverage_arg;
2920 if (!parser_next(parser))
2921 goto error_in_coverage;
2922 if (parser->tok == ',') {
2923 if (!parser_next(parser))
2924 goto error_in_coverage;
2926 } while (parser->tok != ')');
2928 if (parser->tok != ')' || !parser_next(parser))
2929 goto error_in_coverage;
2931 /* without parameter [[coverage]] equals [[coverage(block)]] */
2932 flags |= AST_FLAG_BLOCK_COVERAGE;
2937 /* Skip tokens until we hit a ]] */
2938 (void)!parsewarning(parser, WARN_UNKNOWN_ATTRIBUTE, "unknown attribute starting with `%s`", parser_tokval(parser));
2939 while (parser->tok != TOKEN_ATTRIBUTE_CLOSE) {
2940 if (!parser_next(parser)) {
2941 parseerror(parser, "error inside attribute");
2948 else if (with_local && !strcmp(parser_tokval(parser), "static"))
2950 else if (!strcmp(parser_tokval(parser), "const"))
2952 else if (!strcmp(parser_tokval(parser), "var"))
2954 else if (with_local && !strcmp(parser_tokval(parser), "local"))
2956 else if (!strcmp(parser_tokval(parser), "noref"))
2958 else if (!had_const && !had_var && !had_noref && !had_attrib && !had_static && !flags) {
2965 if (!parser_next(parser))
2975 *is_static = had_static;
2979 parseerror(parser, "parse error after variable qualifier");
2984 static bool parse_switch_go(parser_t *parser, ast_block *block, ast_expression **out);
2985 static bool parse_switch(parser_t *parser, ast_block *block, ast_expression **out)
2988 char *label = nullptr;
2990 /* skip the 'while' and get the body */
2991 if (!parser_next(parser)) {
2992 if (OPTS_FLAG(LOOP_LABELS))
2993 parseerror(parser, "expected loop label or 'switch' operand in parenthesis");
2995 parseerror(parser, "expected 'switch' operand in parenthesis");
2999 if (parser->tok == ':') {
3000 if (!OPTS_FLAG(LOOP_LABELS))
3001 parseerror(parser, "labeled loops not activated, try using -floop-labels");
3002 if (!parser_next(parser) || parser->tok != TOKEN_IDENT) {
3003 parseerror(parser, "expected loop label");
3006 label = util_strdup(parser_tokval(parser));
3007 if (!parser_next(parser)) {
3009 parseerror(parser, "expected 'switch' operand in parenthesis");
3014 if (parser->tok != '(') {
3015 parseerror(parser, "expected 'switch' operand in parenthesis");
3019 parser->breaks.push_back(label);
3021 rv = parse_switch_go(parser, block, out);
3024 if (parser->breaks.back() != label) {
3025 parseerror(parser, "internal error: label stack corrupted");
3031 parser->breaks.pop_back();
3036 static bool parse_switch_go(parser_t *parser, ast_block *block, ast_expression **out)
3038 ast_expression *operand;
3041 ast_switch *switchnode;
3042 ast_switch_case swcase;
3045 bool noref, is_static;
3046 uint32_t qflags = 0;
3048 lex_ctx_t ctx = parser_ctx(parser);
3050 (void)block; /* not touching */
3053 /* parse into the expression */
3054 if (!parser_next(parser)) {
3055 parseerror(parser, "expected switch operand");
3058 /* parse the operand */
3059 operand = parse_expression_leave(parser, false, false, false);
3063 switchnode = new ast_switch(ctx, operand);
3066 if (parser->tok != ')') {
3068 parseerror(parser, "expected closing paren after 'switch' operand");
3072 /* parse over the opening paren */
3073 if (!parser_next(parser) || parser->tok != '{') {
3075 parseerror(parser, "expected list of cases");
3079 if (!parser_next(parser)) {
3081 parseerror(parser, "expected 'case' or 'default'");
3085 /* new block; allow some variables to be declared here */
3086 parser_enterblock(parser);
3089 if (parser->tok == TOKEN_IDENT)
3090 typevar = parser_find_typedef(parser, parser_tokval(parser), 0);
3091 if (typevar || parser->tok == TOKEN_TYPENAME) {
3092 if (!parse_variable(parser, block, true, CV_NONE, typevar, false, false, 0, nullptr)) {
3098 if (parse_qualifiers(parser, true, &cvq, &noref, &is_static, &qflags, nullptr))
3100 if (cvq == CV_WRONG) {
3104 if (!parse_variable(parser, block, true, cvq, nullptr, noref, is_static, qflags, nullptr)) {
3114 while (parser->tok != '}') {
3115 ast_block *caseblock;
3117 if (!strcmp(parser_tokval(parser), "case")) {
3118 if (!parser_next(parser)) {
3120 parseerror(parser, "expected expression for case");
3123 swcase.m_value = parse_expression_leave(parser, false, false, false);
3125 if (!operand->compareType(*swcase.m_value)) {
3129 ast_type_to_string(swcase.m_value, ty1, sizeof ty1);
3130 ast_type_to_string(operand, ty2, sizeof ty2);
3132 auto fnLiteral = [](ast_expression *expression) -> char* {
3133 if (!ast_istype(expression, ast_value))
3135 ast_value *value = (ast_value *)expression;
3136 if (!value->m_hasvalue)
3138 char *string = nullptr;
3139 basic_value_t *constval = &value->m_constval;
3140 switch (value->m_vtype)
3143 util_asprintf(&string, "%.2f", constval->vfloat);
3146 util_asprintf(&string, "'%.2f %.2f %.2f'",
3152 util_asprintf(&string, "\"%s\"", constval->vstring);
3160 char *literal = fnLiteral(swcase.m_value);
3162 compile_error(parser_ctx(parser), "incompatible type `%s` for switch case `%s` expected `%s`", ty1, literal, ty2);
3164 compile_error(parser_ctx(parser), "incompatible type `%s` for switch case expected `%s`", ty1, ty2);
3170 if (!swcase.m_value) {
3172 parseerror(parser, "expected expression for case");
3175 if (!OPTS_FLAG(RELAXED_SWITCH)) {
3176 if (!ast_istype(swcase.m_value, ast_value)) { /* || ((ast_value*)swcase.m_value)->m_cvq != CV_CONST) { */
3177 parseerror(parser, "case on non-constant values need to be explicitly enabled via -frelaxed-switch");
3183 else if (!strcmp(parser_tokval(parser), "default")) {
3184 swcase.m_value = nullptr;
3185 if (!parser_next(parser)) {
3187 parseerror(parser, "expected colon");
3193 parseerror(parser, "expected 'case' or 'default'");
3197 /* Now the colon and body */
3198 if (parser->tok != ':') {
3199 if (swcase.m_value) ast_unref(swcase.m_value);
3201 parseerror(parser, "expected colon");
3205 if (!parser_next(parser)) {
3206 if (swcase.m_value) ast_unref(swcase.m_value);
3208 parseerror(parser, "expected statements or case");
3211 caseblock = new ast_block(parser_ctx(parser));
3213 if (swcase.m_value) ast_unref(swcase.m_value);
3217 swcase.m_code = caseblock;
3218 switchnode->m_cases.push_back(swcase);
3220 ast_expression *expr;
3221 if (parser->tok == '}')
3223 if (parser->tok == TOKEN_KEYWORD) {
3224 if (!strcmp(parser_tokval(parser), "case") ||
3225 !strcmp(parser_tokval(parser), "default"))
3230 if (!parse_statement(parser, caseblock, &expr, true)) {
3236 if (!caseblock->addExpr(expr)) {
3243 parser_leaveblock(parser);
3246 if (parser->tok != '}') {
3248 parseerror(parser, "expected closing paren of case list");
3251 if (!parser_next(parser)) {
3253 parseerror(parser, "parse error after switch");
3260 /* parse computed goto sides */
3261 static ast_expression *parse_goto_computed(parser_t *parser, ast_expression **side) {
3262 ast_expression *on_true;
3263 ast_expression *on_false;
3264 ast_expression *cond;
3269 if (ast_istype(*side, ast_ternary)) {
3270 ast_ternary *tern = (ast_ternary*)*side;
3271 on_true = parse_goto_computed(parser, &tern->m_on_true);
3272 on_false = parse_goto_computed(parser, &tern->m_on_false);
3274 if (!on_true || !on_false) {
3275 parseerror(parser, "expected label or expression in ternary");
3276 if (on_true) ast_unref(on_true);
3277 if (on_false) ast_unref(on_false);
3281 cond = tern->m_cond;
3282 tern->m_cond = nullptr;
3285 return new ast_ifthen(parser_ctx(parser), cond, on_true, on_false);
3286 } else if (ast_istype(*side, ast_label)) {
3287 ast_goto *gt = new ast_goto(parser_ctx(parser), ((ast_label*)*side)->m_name);
3288 gt->setLabel(reinterpret_cast<ast_label*>(*side));
3295 static bool parse_goto(parser_t *parser, ast_expression **out)
3297 ast_goto *gt = nullptr;
3298 ast_expression *lbl;
3300 if (!parser_next(parser))
3303 if (parser->tok != TOKEN_IDENT) {
3304 ast_expression *expression;
3306 /* could be an expression i.e computed goto :-) */
3307 if (parser->tok != '(') {
3308 parseerror(parser, "expected label name after `goto`");
3312 /* failed to parse expression for goto */
3313 if (!(expression = parse_expression(parser, false, true)) ||
3314 !(*out = parse_goto_computed(parser, &expression))) {
3315 parseerror(parser, "invalid goto expression");
3317 ast_unref(expression);
3324 /* not computed goto */
3325 gt = new ast_goto(parser_ctx(parser), parser_tokval(parser));
3326 lbl = parser_find_label(parser, gt->m_name);
3328 if (!ast_istype(lbl, ast_label)) {
3329 parseerror(parser, "internal error: label is not an ast_label");
3333 gt->setLabel(reinterpret_cast<ast_label*>(lbl));
3336 parser->gotos.push_back(gt);
3338 if (!parser_next(parser) || parser->tok != ';') {
3339 parseerror(parser, "semicolon expected after goto label");
3342 if (!parser_next(parser)) {
3343 parseerror(parser, "parse error after goto");
3351 static bool parse_skipwhite(parser_t *parser)
3354 if (!parser_next(parser))
3356 } while (parser->tok == TOKEN_WHITE && parser->tok < TOKEN_ERROR);
3357 return parser->tok < TOKEN_ERROR;
3360 static bool parse_eol(parser_t *parser)
3362 if (!parse_skipwhite(parser))
3364 return parser->tok == TOKEN_EOL;
3367 static bool parse_pragma_do(parser_t *parser)
3369 if (!parser_next(parser) ||
3370 parser->tok != TOKEN_IDENT ||
3371 strcmp(parser_tokval(parser), "pragma"))
3373 parseerror(parser, "expected `pragma` keyword after `#`, got `%s`", parser_tokval(parser));
3376 if (!parse_skipwhite(parser) || parser->tok != TOKEN_IDENT) {
3377 parseerror(parser, "expected pragma, got `%s`", parser_tokval(parser));
3381 if (!strcmp(parser_tokval(parser), "noref")) {
3382 if (!parse_skipwhite(parser) || parser->tok != TOKEN_INTCONST) {
3383 parseerror(parser, "`noref` pragma requires an argument: 0 or 1");
3386 parser->noref = !!parser_token(parser)->constval.i;
3387 if (!parse_eol(parser)) {
3388 parseerror(parser, "parse error after `noref` pragma");
3394 (void)!parsewarning(parser, WARN_UNKNOWN_PRAGMAS, "ignoring #pragma %s", parser_tokval(parser));
3397 while (!parse_eol(parser)) {
3398 parser_next(parser);
3407 static bool parse_pragma(parser_t *parser)
3410 parser->lex->flags.preprocessing = true;
3411 parser->lex->flags.mergelines = true;
3412 rv = parse_pragma_do(parser);
3413 if (parser->tok != TOKEN_EOL) {
3414 parseerror(parser, "junk after pragma");
3417 parser->lex->flags.preprocessing = false;
3418 parser->lex->flags.mergelines = false;
3419 if (!parser_next(parser)) {
3420 parseerror(parser, "parse error after pragma");
3426 static bool parse_statement(parser_t *parser, ast_block *block, ast_expression **out, bool allow_cases)
3428 bool noref, is_static;
3430 uint32_t qflags = 0;
3431 ast_value *typevar = nullptr;
3432 char *vstring = nullptr;
3436 if (parser->tok == TOKEN_IDENT)
3437 typevar = parser_find_typedef(parser, parser_tokval(parser), 0);
3439 if (typevar || parser->tok == TOKEN_TYPENAME || parser->tok == '.' || parser->tok == TOKEN_DOTS)
3441 /* local variable */
3443 parseerror(parser, "cannot declare a variable from here");
3446 if (OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC) {
3447 if (parsewarning(parser, WARN_EXTENSIONS, "missing 'local' keyword when declaring a local variable"))
3450 if (!parse_variable(parser, block, false, CV_NONE, typevar, false, false, 0, nullptr))
3454 else if (parse_qualifiers(parser, !!block, &cvq, &noref, &is_static, &qflags, &vstring))
3456 if (cvq == CV_WRONG)
3458 return parse_variable(parser, block, false, cvq, nullptr, noref, is_static, qflags, vstring);
3460 else if (parser->tok == TOKEN_KEYWORD)
3462 if (!strcmp(parser_tokval(parser), "__builtin_debug_printtype"))
3467 if (!parser_next(parser)) {
3468 parseerror(parser, "parse error after __builtin_debug_printtype");
3472 if (parser->tok == TOKEN_IDENT && (tdef = parser_find_typedef(parser, parser_tokval(parser), 0)))
3474 ast_type_to_string(tdef, ty, sizeof(ty));
3475 con_out("__builtin_debug_printtype: `%s`=`%s`\n", tdef->m_name.c_str(), ty);
3476 if (!parser_next(parser)) {
3477 parseerror(parser, "parse error after __builtin_debug_printtype typename argument");
3483 if (!parse_statement(parser, block, out, allow_cases))
3486 con_out("__builtin_debug_printtype: got no output node\n");
3489 ast_type_to_string(*out, ty, sizeof(ty));
3490 con_out("__builtin_debug_printtype: `%s`\n", ty);
3495 else if (!strcmp(parser_tokval(parser), "return"))
3497 return parse_return(parser, block, out);
3499 else if (!strcmp(parser_tokval(parser), "if"))
3501 return parse_if(parser, block, out);
3503 else if (!strcmp(parser_tokval(parser), "while"))
3505 return parse_while(parser, block, out);
3507 else if (!strcmp(parser_tokval(parser), "do"))
3509 return parse_dowhile(parser, block, out);
3511 else if (!strcmp(parser_tokval(parser), "for"))
3513 if (OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC) {
3514 if (parsewarning(parser, WARN_EXTENSIONS, "for loops are not recognized in the original Quake C standard, to enable try an alternate standard --std=?"))
3517 return parse_for(parser, block, out);
3519 else if (!strcmp(parser_tokval(parser), "break"))
3521 return parse_break_continue(parser, block, out, false);
3523 else if (!strcmp(parser_tokval(parser), "continue"))
3525 return parse_break_continue(parser, block, out, true);
3527 else if (!strcmp(parser_tokval(parser), "switch"))
3529 return parse_switch(parser, block, out);
3531 else if (!strcmp(parser_tokval(parser), "case") ||
3532 !strcmp(parser_tokval(parser), "default"))
3535 parseerror(parser, "unexpected 'case' label");
3540 else if (!strcmp(parser_tokval(parser), "goto"))
3542 return parse_goto(parser, out);
3544 else if (!strcmp(parser_tokval(parser), "typedef"))
3546 if (!parser_next(parser)) {
3547 parseerror(parser, "expected type definition after 'typedef'");
3550 return parse_typedef(parser);
3552 parseerror(parser, "Unexpected keyword: `%s'", parser_tokval(parser));
3555 else if (parser->tok == '{')
3558 inner = parse_block(parser);
3564 else if (parser->tok == ':')
3568 if (!parser_next(parser)) {
3569 parseerror(parser, "expected label name");
3572 if (parser->tok != TOKEN_IDENT) {
3573 parseerror(parser, "label must be an identifier");
3576 label = (ast_label*)parser_find_label(parser, parser_tokval(parser));
3578 if (!label->m_undefined) {
3579 parseerror(parser, "label `%s` already defined", label->m_name);
3582 label->m_undefined = false;
3585 label = new ast_label(parser_ctx(parser), parser_tokval(parser), false);
3586 parser->labels.push_back(label);
3589 if (!parser_next(parser)) {
3590 parseerror(parser, "parse error after label");
3593 for (i = 0; i < parser->gotos.size(); ++i) {
3594 if (parser->gotos[i]->m_name == label->m_name) {
3595 parser->gotos[i]->setLabel(label);
3596 parser->gotos.erase(parser->gotos.begin() + i);
3602 else if (parser->tok == ';')
3604 if (!parser_next(parser)) {
3605 parseerror(parser, "parse error after empty statement");
3612 lex_ctx_t ctx = parser_ctx(parser);
3613 ast_expression *exp = parse_expression(parser, false, false);
3617 if (!exp->m_side_effects) {
3618 if (compile_warning(ctx, WARN_EFFECTLESS_STATEMENT, "statement has no effect"))
3625 static bool parse_enum(parser_t *parser)
3628 bool reverse = false;
3630 ast_value **values = nullptr;
3631 ast_value *var = nullptr;
3634 ast_expression *old;
3636 if (!parser_next(parser) || (parser->tok != '{' && parser->tok != ':')) {
3637 parseerror(parser, "expected `{` or `:` after `enum` keyword");
3641 /* enumeration attributes (can add more later) */
3642 if (parser->tok == ':') {
3643 if (!parser_next(parser) || parser->tok != TOKEN_IDENT){
3644 parseerror(parser, "expected `flag` or `reverse` for enumeration attribute");
3649 if (!strcmp(parser_tokval(parser), "flag")) {
3653 else if (!strcmp(parser_tokval(parser), "reverse")) {
3657 parseerror(parser, "invalid attribute `%s` for enumeration", parser_tokval(parser));
3661 if (!parser_next(parser) || parser->tok != '{') {
3662 parseerror(parser, "expected `{` after enum attribute ");
3668 if (!parser_next(parser) || parser->tok != TOKEN_IDENT) {
3669 if (parser->tok == '}') {
3670 /* allow an empty enum */
3673 parseerror(parser, "expected identifier or `}`");
3677 old = parser_find_field(parser, parser_tokval(parser));
3679 old = parser_find_global(parser, parser_tokval(parser));
3681 parseerror(parser, "value `%s` has already been declared here: %s:%i",
3682 parser_tokval(parser), old->m_context.file, old->m_context.line);
3686 var = new ast_value(parser_ctx(parser), parser_tokval(parser), TYPE_FLOAT);
3687 vec_push(values, var);
3688 var->m_cvq = CV_CONST;
3689 var->m_hasvalue = true;
3691 /* for flagged enumerations increment in POTs of TWO */
3692 var->m_constval.vfloat = (flag) ? (num *= 2) : (num ++);
3693 parser_addglobal(parser, var->m_name, var);
3695 if (!parser_next(parser)) {
3696 parseerror(parser, "expected `=`, `}` or comma after identifier");
3700 if (parser->tok == ',')
3702 if (parser->tok == '}')
3704 if (parser->tok != '=') {
3705 parseerror(parser, "expected `=`, `}` or comma after identifier");
3709 if (!parser_next(parser)) {
3710 parseerror(parser, "expected expression after `=`");
3714 /* We got a value! */
3715 old = parse_expression_leave(parser, true, false, false);
3716 asvalue = (ast_value*)old;
3717 if (!ast_istype(old, ast_value) || asvalue->m_cvq != CV_CONST || !asvalue->m_hasvalue) {
3718 compile_error(var->m_context, "constant value or expression expected");
3721 num = (var->m_constval.vfloat = asvalue->m_constval.vfloat) + 1;
3723 if (parser->tok == '}')
3725 if (parser->tok != ',') {
3726 parseerror(parser, "expected `}` or comma after expression");
3731 /* patch them all (for reversed attribute) */
3734 for (i = 0; i < vec_size(values); i++)
3735 values[i]->m_constval.vfloat = vec_size(values) - i - 1;
3738 if (parser->tok != '}') {
3739 parseerror(parser, "internal error: breaking without `}`");
3743 if (!parser_next(parser) || parser->tok != ';') {
3744 parseerror(parser, "expected semicolon after enumeration");
3748 if (!parser_next(parser)) {
3749 parseerror(parser, "parse error after enumeration");
3761 static bool parse_block_into(parser_t *parser, ast_block *block)
3765 parser_enterblock(parser);
3767 if (!parser_next(parser)) { /* skip the '{' */
3768 parseerror(parser, "expected function body");
3772 while (parser->tok != TOKEN_EOF && parser->tok < TOKEN_ERROR)
3774 ast_expression *expr = nullptr;
3775 if (parser->tok == '}')
3778 if (!parse_statement(parser, block, &expr, false)) {
3779 /* parseerror(parser, "parse error"); */
3785 if (!block->addExpr(expr)) {
3792 if (parser->tok != '}') {
3795 (void)parser_next(parser);
3799 if (!parser_leaveblock(parser))
3801 return retval && !!block;
3804 static ast_block* parse_block(parser_t *parser)
3807 block = new ast_block(parser_ctx(parser));
3810 if (!parse_block_into(parser, block)) {
3817 static bool parse_statement_or_block(parser_t *parser, ast_expression **out)
3819 if (parser->tok == '{') {
3820 *out = parse_block(parser);
3823 return parse_statement(parser, nullptr, out, false);
3826 static bool create_vector_members(ast_value *var, ast_member **me)
3829 size_t len = var->m_name.length();
3831 for (i = 0; i < 3; ++i) {
3832 char *name = (char*)mem_a(len+3);
3833 memcpy(name, var->m_name.c_str(), len);
3835 name[len+1] = 'x'+i;
3837 me[i] = ast_member::make(var->m_context, var, i, name);
3846 do { delete me[--i]; } while(i);
3850 static bool parse_function_body(parser_t *parser, ast_value *var)
3852 ast_block *block = nullptr;
3856 ast_expression *framenum = nullptr;
3857 ast_expression *nextthink = nullptr;
3858 /* None of the following have to be deleted */
3859 ast_expression *fld_think = nullptr, *fld_nextthink = nullptr, *fld_frame = nullptr;
3860 ast_expression *gbl_time = nullptr, *gbl_self = nullptr;
3861 bool has_frame_think;
3865 has_frame_think = false;
3866 old = parser->function;
3868 if (var->m_flags & AST_FLAG_ALIAS) {
3869 parseerror(parser, "function aliases cannot have bodies");
3873 if (parser->gotos.size() || parser->labels.size()) {
3874 parseerror(parser, "gotos/labels leaking");
3878 if (!OPTS_FLAG(VARIADIC_ARGS) && var->m_flags & AST_FLAG_VARIADIC) {
3879 if (parsewarning(parser, WARN_VARIADIC_FUNCTION,
3880 "variadic function with implementation will not be able to access additional parameters (try -fvariadic-args)"))
3886 if (parser->tok == '[') {
3887 /* got a frame definition: [ framenum, nextthink ]
3888 * this translates to:
3889 * self.frame = framenum;
3890 * self.nextthink = time + 0.1;
3891 * self.think = nextthink;
3893 nextthink = nullptr;
3895 fld_think = parser_find_field(parser, "think");
3896 fld_nextthink = parser_find_field(parser, "nextthink");
3897 fld_frame = parser_find_field(parser, "frame");
3898 if (!fld_think || !fld_nextthink || !fld_frame) {
3899 parseerror(parser, "cannot use [frame,think] notation without the required fields");
3900 parseerror(parser, "please declare the following entityfields: `frame`, `think`, `nextthink`");
3903 gbl_time = parser_find_global(parser, "time");
3904 gbl_self = parser_find_global(parser, "self");
3905 if (!gbl_time || !gbl_self) {
3906 parseerror(parser, "cannot use [frame,think] notation without the required globals");
3907 parseerror(parser, "please declare the following globals: `time`, `self`");
3911 if (!parser_next(parser))
3914 framenum = parse_expression_leave(parser, true, false, false);
3916 parseerror(parser, "expected a framenumber constant in[frame,think] notation");
3919 if (!ast_istype(framenum, ast_value) || !( (ast_value*)framenum )->m_hasvalue) {
3920 ast_unref(framenum);
3921 parseerror(parser, "framenumber in [frame,think] notation must be a constant");
3925 if (parser->tok != ',') {
3926 ast_unref(framenum);
3927 parseerror(parser, "expected comma after frame number in [frame,think] notation");
3928 parseerror(parser, "Got a %i\n", parser->tok);
3932 if (!parser_next(parser)) {
3933 ast_unref(framenum);
3937 if (parser->tok == TOKEN_IDENT && !parser_find_var(parser, parser_tokval(parser)))
3939 /* qc allows the use of not-yet-declared functions here
3940 * - this automatically creates a prototype */
3941 ast_value *thinkfunc;
3942 ast_expression *functype = fld_think->m_next;
3944 thinkfunc = new ast_value(parser_ctx(parser), parser_tokval(parser), functype->m_vtype);
3945 if (!thinkfunc) { /* || !thinkfunc->adoptType(*functype)*/
3946 ast_unref(framenum);
3947 parseerror(parser, "failed to create implicit prototype for `%s`", parser_tokval(parser));
3950 thinkfunc->adoptType(*functype);
3952 if (!parser_next(parser)) {
3953 ast_unref(framenum);
3958 parser_addglobal(parser, thinkfunc->m_name, thinkfunc);
3960 nextthink = thinkfunc;
3963 nextthink = parse_expression_leave(parser, true, false, false);
3965 ast_unref(framenum);
3966 parseerror(parser, "expected a think-function in [frame,think] notation");
3971 if (!ast_istype(nextthink, ast_value)) {
3972 parseerror(parser, "think-function in [frame,think] notation must be a constant");
3976 if (retval && parser->tok != ']') {
3977 parseerror(parser, "expected closing `]` for [frame,think] notation");
3981 if (retval && !parser_next(parser)) {
3985 if (retval && parser->tok != '{') {
3986 parseerror(parser, "a function body has to be declared after a [frame,think] declaration");
3991 ast_unref(nextthink);
3992 ast_unref(framenum);
3996 has_frame_think = true;
3999 block = new ast_block(parser_ctx(parser));
4001 parseerror(parser, "failed to allocate block");
4002 if (has_frame_think) {
4003 ast_unref(nextthink);
4004 ast_unref(framenum);
4009 if (has_frame_think) {
4010 if (!OPTS_FLAG(EMULATE_STATE)) {
4011 ast_state *state_op = new ast_state(parser_ctx(parser), framenum, nextthink);
4012 if (!block->addExpr(state_op)) {
4013 parseerror(parser, "failed to generate state op for [frame,think]");
4014 ast_unref(nextthink);
4015 ast_unref(framenum);
4020 /* emulate OP_STATE in code: */
4022 ast_expression *self_frame;
4023 ast_expression *self_nextthink;
4024 ast_expression *self_think;
4025 ast_expression *time_plus_1;
4026 ast_store *store_frame;
4027 ast_store *store_nextthink;
4028 ast_store *store_think;
4030 float frame_delta = 1.0f / (float)OPTS_OPTION_U32(OPTION_STATE_FPS);
4032 ctx = parser_ctx(parser);
4033 self_frame = new ast_entfield(ctx, gbl_self, fld_frame);
4034 self_nextthink = new ast_entfield(ctx, gbl_self, fld_nextthink);
4035 self_think = new ast_entfield(ctx, gbl_self, fld_think);
4037 time_plus_1 = new ast_binary(ctx, INSTR_ADD_F,
4038 gbl_time, parser->m_fold.constgen_float(frame_delta, false));
4040 if (!self_frame || !self_nextthink || !self_think || !time_plus_1) {
4041 if (self_frame) delete self_frame;
4042 if (self_nextthink) delete self_nextthink;
4043 if (self_think) delete self_think;
4044 if (time_plus_1) delete time_plus_1;
4050 store_frame = new ast_store(ctx, INSTR_STOREP_F, self_frame, framenum);
4051 store_nextthink = new ast_store(ctx, INSTR_STOREP_F, self_nextthink, time_plus_1);
4052 store_think = new ast_store(ctx, INSTR_STOREP_FNC, self_think, nextthink);
4058 if (!store_nextthink) {
4059 delete self_nextthink;
4067 if (store_frame) delete store_frame;
4068 if (store_nextthink) delete store_nextthink;
4069 if (store_think) delete store_think;
4072 if (!block->addExpr(store_frame) ||
4073 !block->addExpr(store_nextthink) ||
4074 !block->addExpr(store_think))
4081 parseerror(parser, "failed to generate code for [frame,think]");
4082 ast_unref(nextthink);
4083 ast_unref(framenum);
4090 if (var->m_hasvalue) {
4091 if (!(var->m_flags & AST_FLAG_ACCUMULATE)) {
4092 parseerror(parser, "function `%s` declared with multiple bodies", var->m_name);
4096 func = var->m_constval.vfunc;
4099 parseerror(parser, "internal error: nullptr function: `%s`", var->m_name);
4104 func = ast_function::make(var->m_context, var->m_name, var);
4107 parseerror(parser, "failed to allocate function for `%s`", var->m_name);
4111 parser->functions.push_back(func);
4114 parser_enterblock(parser);
4116 for (auto &it : var->m_type_params) {
4120 if (it->m_vtype != TYPE_VECTOR &&
4121 (it->m_vtype != TYPE_FIELD ||
4122 it->m_next->m_vtype != TYPE_VECTOR))
4127 if (!create_vector_members(it.get(), me)) {
4132 for (e = 0; e < 3; ++e) {
4133 parser_addlocal(parser, me[e]->m_name, me[e]);
4134 block->collect(me[e]);
4138 if (var->m_argcounter && !func->m_argc) {
4139 ast_value *argc = new ast_value(var->m_context, var->m_argcounter, TYPE_FLOAT);
4140 parser_addlocal(parser, argc->m_name, argc);
4141 func->m_argc.reset(argc);
4144 if (OPTS_FLAG(VARIADIC_ARGS) && var->m_flags & AST_FLAG_VARIADIC && !func->m_varargs) {
4146 ast_value *varargs = new ast_value(var->m_context, "reserved:va_args", TYPE_ARRAY);
4147 varargs->m_flags |= AST_FLAG_IS_VARARG;
4148 varargs->m_next = new ast_value(var->m_context, "", TYPE_VECTOR);
4149 varargs->m_count = 0;
4150 util_snprintf(name, sizeof(name), "%s##va##SET", var->m_name.c_str());
4151 if (!parser_create_array_setter_proto(parser, varargs, name)) {
4156 util_snprintf(name, sizeof(name), "%s##va##GET", var->m_name.c_str());
4157 if (!parser_create_array_getter_proto(parser, varargs, varargs->m_next, name)) {
4162 func->m_varargs.reset(varargs);
4163 func->m_fixedparams = (ast_value*)parser->m_fold.constgen_float(var->m_type_params.size(), false);
4166 parser->function = func;
4167 if (!parse_block_into(parser, block)) {
4172 func->m_blocks.emplace_back(block);
4174 parser->function = old;
4175 if (!parser_leaveblock(parser))
4177 if (vec_size(parser->variables) != PARSER_HT_LOCALS) {
4178 parseerror(parser, "internal error: local scopes left");
4182 if (parser->tok == ';')
4183 return parser_next(parser);
4184 else if (OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC)
4185 parseerror(parser, "missing semicolon after function body (mandatory with -std=qcc)");
4189 (void)!parser_leaveblock(parser);
4190 parser->functions.pop_back();
4192 var->m_constval.vfunc = nullptr;
4195 parser->function = old;
4199 static ast_expression *array_accessor_split(
4204 ast_expression *left,
4205 ast_expression *right
4211 lex_ctx_t ctx = array->m_context;
4213 if (!left || !right) {
4214 if (left) delete left;
4215 if (right) delete right;
4219 cmp = new ast_binary(ctx, INSTR_LT,
4221 parser->m_fold.constgen_float(middle, false));
4225 parseerror(parser, "internal error: failed to create comparison for array setter");
4229 ifthen = new ast_ifthen(ctx, cmp, left, right);
4231 delete cmp; /* will delete left and right */
4232 parseerror(parser, "internal error: failed to create conditional jump for array setter");
4239 static ast_expression *array_setter_node(parser_t *parser, ast_value *array, ast_value *index, ast_value *value, size_t from, size_t afterend)
4241 lex_ctx_t ctx = array->m_context;
4243 if (from+1 == afterend) {
4244 /* set this value */
4247 ast_array_index *subscript;
4249 int assignop = type_store_instr[value->m_vtype];
4251 if (value->m_vtype == TYPE_FIELD && value->m_next->m_vtype == TYPE_VECTOR)
4252 assignop = INSTR_STORE_V;
4254 subscript = ast_array_index::make(ctx, array, parser->m_fold.constgen_float(from, false));
4258 st = new ast_store(ctx, assignop, subscript, value);
4264 block = new ast_block(ctx);
4270 if (!block->addExpr(st)) {
4275 ret = new ast_return(ctx, nullptr);
4281 if (!block->addExpr(ret)) {
4288 ast_expression *left, *right;
4289 size_t diff = afterend - from;
4290 size_t middle = from + diff/2;
4291 left = array_setter_node(parser, array, index, value, from, middle);
4292 right = array_setter_node(parser, array, index, value, middle, afterend);
4293 return array_accessor_split(parser, array, index, middle, left, right);
4297 static ast_expression *array_field_setter_node(
4306 lex_ctx_t ctx = array->m_context;
4308 if (from+1 == afterend) {
4309 /* set this value */
4312 ast_entfield *entfield;
4313 ast_array_index *subscript;
4315 int assignop = type_storep_instr[value->m_vtype];
4317 if (value->m_vtype == TYPE_FIELD && value->m_next->m_vtype == TYPE_VECTOR)
4318 assignop = INSTR_STOREP_V;
4320 subscript = ast_array_index::make(ctx, array, parser->m_fold.constgen_float(from, false));
4324 subscript->m_next = new ast_expression(ast_copy_type, subscript->m_context, *subscript);
4325 subscript->m_vtype = TYPE_FIELD;
4327 entfield = new ast_entfield(ctx, entity, subscript, subscript);
4333 st = new ast_store(ctx, assignop, entfield, value);
4339 block = new ast_block(ctx);
4345 if (!block->addExpr(st)) {
4350 ret = new ast_return(ctx, nullptr);
4356 if (!block->addExpr(ret)) {
4363 ast_expression *left, *right;
4364 size_t diff = afterend - from;
4365 size_t middle = from + diff/2;
4366 left = array_field_setter_node(parser, array, entity, index, value, from, middle);
4367 right = array_field_setter_node(parser, array, entity, index, value, middle, afterend);
4368 return array_accessor_split(parser, array, index, middle, left, right);
4372 static ast_expression *array_getter_node(parser_t *parser, ast_value *array, ast_value *index, size_t from, size_t afterend)
4374 lex_ctx_t ctx = array->m_context;
4376 if (from+1 == afterend) {
4378 ast_array_index *subscript;
4380 subscript = ast_array_index::make(ctx, array, parser->m_fold.constgen_float(from, false));
4384 ret = new ast_return(ctx, subscript);
4392 ast_expression *left, *right;
4393 size_t diff = afterend - from;
4394 size_t middle = from + diff/2;
4395 left = array_getter_node(parser, array, index, from, middle);
4396 right = array_getter_node(parser, array, index, middle, afterend);
4397 return array_accessor_split(parser, array, index, middle, left, right);
4401 static bool parser_create_array_accessor(parser_t *parser, ast_value *array, const char *funcname, ast_value **out)
4403 ast_function *func = nullptr;
4404 ast_value *fval = nullptr;
4405 ast_block *body = nullptr;
4407 fval = new ast_value(array->m_context, funcname, TYPE_FUNCTION);
4409 parseerror(parser, "failed to create accessor function value");
4412 fval->m_flags &= ~(AST_FLAG_COVERAGE_MASK);
4414 func = ast_function::make(array->m_context, funcname, fval);
4417 parseerror(parser, "failed to create accessor function node");
4421 body = new ast_block(array->m_context);
4423 parseerror(parser, "failed to create block for array accessor");
4429 func->m_blocks.emplace_back(body);
4432 parser->accessors.push_back(fval);
4437 static ast_value* parser_create_array_setter_proto(parser_t *parser, ast_value *array, const char *funcname)
4439 ast_value *index = nullptr;
4440 ast_value *value = nullptr;
4444 if (!ast_istype(array->m_next, ast_value)) {
4445 parseerror(parser, "internal error: array accessor needs to build an ast_value with a copy of the element type");
4449 if (!parser_create_array_accessor(parser, array, funcname, &fval))
4451 func = fval->m_constval.vfunc;
4452 fval->m_next = new ast_value(array->m_context, "<void>", TYPE_VOID);
4454 index = new ast_value(array->m_context, "index", TYPE_FLOAT);
4455 value = new ast_value(ast_copy_type, *(ast_value*)array->m_next);
4457 if (!index || !value) {
4458 parseerror(parser, "failed to create locals for array accessor");
4461 value->m_name = "value"; // not important
4462 fval->m_type_params.emplace_back(index);
4463 fval->m_type_params.emplace_back(value);
4465 array->m_setter = fval;
4468 if (index) delete index;
4469 if (value) delete value;
4475 static bool parser_create_array_setter_impl(parser_t *parser, ast_value *array)
4477 ast_expression *root = nullptr;
4478 root = array_setter_node(parser, array,
4479 array->m_setter->m_type_params[0].get(),
4480 array->m_setter->m_type_params[1].get(),
4483 parseerror(parser, "failed to build accessor search tree");
4486 if (!array->m_setter->m_constval.vfunc->m_blocks[0].get()->addExpr(root)) {
4493 static bool parser_create_array_setter(parser_t *parser, ast_value *array, const char *funcname)
4495 if (!parser_create_array_setter_proto(parser, array, funcname))
4497 return parser_create_array_setter_impl(parser, array);
4500 static bool parser_create_array_field_setter(parser_t *parser, ast_value *array, const char *funcname)
4502 ast_expression *root = nullptr;
4503 ast_value *entity = nullptr;
4504 ast_value *index = nullptr;
4505 ast_value *value = nullptr;
4509 if (!ast_istype(array->m_next, ast_value)) {
4510 parseerror(parser, "internal error: array accessor needs to build an ast_value with a copy of the element type");
4514 if (!parser_create_array_accessor(parser, array, funcname, &fval))
4516 func = fval->m_constval.vfunc;
4517 fval->m_next = new ast_value(array->m_context, "<void>", TYPE_VOID);
4519 entity = new ast_value(array->m_context, "entity", TYPE_ENTITY);
4520 index = new ast_value(array->m_context, "index", TYPE_FLOAT);
4521 value = new ast_value(ast_copy_type, *(ast_value*)array->m_next);
4522 if (!entity || !index || !value) {
4523 parseerror(parser, "failed to create locals for array accessor");
4526 value->m_name = "value"; // not important
4527 fval->m_type_params.emplace_back(entity);
4528 fval->m_type_params.emplace_back(index);
4529 fval->m_type_params.emplace_back(value);
4531 root = array_field_setter_node(parser, array, entity, index, value, 0, array->m_count);
4533 parseerror(parser, "failed to build accessor search tree");
4537 array->m_setter = fval;
4538 return func->m_blocks[0].get()->addExpr(root);
4540 if (entity) delete entity;
4541 if (index) delete index;
4542 if (value) delete value;
4543 if (root) delete root;
4549 static ast_value* parser_create_array_getter_proto(parser_t *parser, ast_value *array, const ast_expression *elemtype, const char *funcname)
4551 ast_value *index = nullptr;
4555 /* NOTE: checking array->m_next rather than elemtype since
4556 * for fields elemtype is a temporary fieldtype.
4558 if (!ast_istype(array->m_next, ast_value)) {
4559 parseerror(parser, "internal error: array accessor needs to build an ast_value with a copy of the element type");
4563 if (!parser_create_array_accessor(parser, array, funcname, &fval))
4565 func = fval->m_constval.vfunc;
4566 fval->m_next = new ast_expression(ast_copy_type, array->m_context, *elemtype);
4568 index = new ast_value(array->m_context, "index", TYPE_FLOAT);
4571 parseerror(parser, "failed to create locals for array accessor");
4574 fval->m_type_params.emplace_back(index);
4576 array->m_getter = fval;
4579 if (index) delete index;
4585 static bool parser_create_array_getter_impl(parser_t *parser, ast_value *array)
4587 ast_expression *root = nullptr;
4589 root = array_getter_node(parser, array, array->m_getter->m_type_params[0].get(), 0, array->m_count);
4591 parseerror(parser, "failed to build accessor search tree");
4594 if (!array->m_getter->m_constval.vfunc->m_blocks[0].get()->addExpr(root)) {
4601 static bool parser_create_array_getter(parser_t *parser, ast_value *array, const ast_expression *elemtype, const char *funcname)
4603 if (!parser_create_array_getter_proto(parser, array, elemtype, funcname))
4605 return parser_create_array_getter_impl(parser, array);
4608 static ast_value *parse_parameter_list(parser_t *parser, ast_value *var)
4610 lex_ctx_t ctx = parser_ctx(parser);
4611 std::vector<std::unique_ptr<ast_value>> params;
4614 bool variadic = false;
4615 ast_value *varparam = nullptr;
4616 char *argcounter = nullptr;
4618 /* for the sake of less code we parse-in in this function */
4619 if (!parser_next(parser)) {
4621 parseerror(parser, "expected parameter list");
4625 /* parse variables until we hit a closing paren */
4626 while (parser->tok != ')') {
4627 bool is_varargs = false;
4630 /* there must be commas between them */
4631 if (parser->tok != ',') {
4632 parseerror(parser, "expected comma or end of parameter list");
4635 if (!parser_next(parser)) {
4636 parseerror(parser, "expected parameter");
4642 ast_value *param = parse_typename(parser, nullptr, nullptr, &is_varargs);
4643 if (!param && !is_varargs)
4646 /* '...' indicates a varargs function */
4648 if (parser->tok != ')' && parser->tok != TOKEN_IDENT) {
4649 parseerror(parser, "`...` must be the last parameter of a variadic function declaration");
4652 if (parser->tok == TOKEN_IDENT) {
4653 argcounter = util_strdup(parser_tokval(parser));
4654 if (!parser_next(parser) || parser->tok != ')') {
4655 parseerror(parser, "`...` must be the last parameter of a variadic function declaration");
4660 params.emplace_back(param);
4661 if (param->m_vtype >= TYPE_VARIANT) {
4662 char tname[1024]; /* typename is reserved in C++ */
4663 ast_type_to_string(param, tname, sizeof(tname));
4664 parseerror(parser, "type not supported as part of a parameter list: %s", tname);
4667 /* type-restricted varargs */
4668 if (parser->tok == TOKEN_DOTS) {
4670 varparam = params.back().release();
4672 if (!parser_next(parser) || (parser->tok != ')' && parser->tok != TOKEN_IDENT)) {
4673 parseerror(parser, "`...` must be the last parameter of a variadic function declaration");
4676 if (parser->tok == TOKEN_IDENT) {
4677 argcounter = util_strdup(parser_tokval(parser));
4678 param->m_name = argcounter;
4679 if (!parser_next(parser) || parser->tok != ')') {
4680 parseerror(parser, "`...` must be the last parameter of a variadic function declaration");
4685 if (OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_FTEQCC && param->m_name[0] == '<') {
4686 parseerror(parser, "parameter name omitted");
4692 if (params.size() == 1 && params[0]->m_vtype == TYPE_VOID)
4696 if (params.size() > 8 && OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC)
4697 (void)!parsewarning(parser, WARN_EXTENSIONS, "more than 8 parameters are not supported by this standard");
4700 if (!parser_next(parser)) {
4701 parseerror(parser, "parse error after typename");
4705 /* now turn 'var' into a function type */
4706 fval = new ast_value(ctx, "<type()>", TYPE_FUNCTION);
4709 fval->m_flags |= AST_FLAG_VARIADIC;
4712 var->m_type_params = move(params);
4713 var->m_varparam = varparam;
4714 var->m_argcounter = argcounter;
4727 static ast_value *parse_arraysize(parser_t *parser, ast_value *var)
4729 ast_expression *cexp;
4730 ast_value *cval, *tmp;
4733 ctx = parser_ctx(parser);
4735 if (!parser_next(parser)) {
4737 parseerror(parser, "expected array-size");
4741 if (parser->tok != ']') {
4742 cexp = parse_expression_leave(parser, true, false, false);
4744 if (!cexp || !ast_istype(cexp, ast_value)) {
4748 parseerror(parser, "expected array-size as constant positive integer");
4751 cval = (ast_value*)cexp;
4758 tmp = new ast_value(ctx, "<type[]>", TYPE_ARRAY);
4763 if (cval->m_vtype == TYPE_INTEGER)
4764 tmp->m_count = cval->m_constval.vint;
4765 else if (cval->m_vtype == TYPE_FLOAT)
4766 tmp->m_count = cval->m_constval.vfloat;
4770 parseerror(parser, "array-size must be a positive integer constant");
4777 var->m_flags |= AST_FLAG_ARRAY_INIT;
4780 if (parser->tok != ']') {
4782 parseerror(parser, "expected ']' after array-size");
4785 if (!parser_next(parser)) {
4787 parseerror(parser, "error after parsing array size");
4793 /* Parse a complete typename.
4794 * for single-variables (ie. function parameters or typedefs) storebase should be nullptr
4795 * but when parsing variables separated by comma
4796 * 'storebase' should point to where the base-type should be kept.
4797 * The base type makes up every bit of type information which comes *before* the
4800 * NOTE: The value must either be named, have a nullptr name, or a name starting
4801 * with '<'. In the first case, this will be the actual variable or type
4802 * name, in the other cases it is assumed that the name will appear
4803 * later, and an error is generated otherwise.
4805 * The following will be parsed in its entirety:
4807 * The 'basetype' in this case is 'void()'
4808 * and if there's a comma after it, say:
4810 * then the type-information 'void()' can be stored in 'storebase'
4812 static ast_value *parse_typename(parser_t *parser, ast_value **storebase, ast_value *cached_typedef, bool *is_vararg)
4814 ast_value *var, *tmp;
4817 const char *name = nullptr;
4818 bool isfield = false;
4819 bool wasarray = false;
4820 size_t morefields = 0;
4822 bool vararg = (parser->tok == TOKEN_DOTS);
4824 ctx = parser_ctx(parser);
4826 /* types may start with a dot */
4827 if (parser->tok == '.' || parser->tok == TOKEN_DOTS) {
4829 if (parser->tok == TOKEN_DOTS)
4831 /* if we parsed a dot we need a typename now */
4832 if (!parser_next(parser)) {
4833 parseerror(parser, "expected typename for field definition");
4837 /* Further dots are handled seperately because they won't be part of the
4841 if (parser->tok == '.')
4843 else if (parser->tok == TOKEN_DOTS)
4848 if (!parser_next(parser)) {
4849 parseerror(parser, "expected typename for field definition");
4854 if (parser->tok == TOKEN_IDENT)
4855 cached_typedef = parser_find_typedef(parser, parser_tokval(parser), 0);
4856 if (!cached_typedef && parser->tok != TOKEN_TYPENAME) {
4857 if (vararg && is_vararg) {
4861 parseerror(parser, "expected typename");
4865 /* generate the basic type value */
4866 if (cached_typedef) {
4867 var = new ast_value(ast_copy_type, *cached_typedef);
4868 var->m_name = "<type(from_def)>";
4870 var = new ast_value(ctx, "<type>", parser_token(parser)->constval.t);
4872 for (; morefields; --morefields) {
4873 tmp = new ast_value(ctx, "<.type>", TYPE_FIELD);
4878 /* do not yet turn into a field - remember:
4879 * .void() foo; is a field too
4880 * .void()() foo; is a function
4884 if (!parser_next(parser)) {
4886 parseerror(parser, "parse error after typename");
4890 /* an opening paren now starts the parameter-list of a function
4891 * this is where original-QC has parameter lists.
4892 * We allow a single parameter list here.
4893 * Much like fteqcc we don't allow `float()() x`
4895 if (parser->tok == '(') {
4896 var = parse_parameter_list(parser, var);
4901 /* store the base if requested */
4903 *storebase = new ast_value(ast_copy_type, *var);
4905 tmp = new ast_value(ctx, "<type:f>", TYPE_FIELD);
4906 tmp->m_next = *storebase;
4911 /* there may be a name now */
4912 if (parser->tok == TOKEN_IDENT || parser->tok == TOKEN_KEYWORD) {
4913 if (!strcmp(parser_tokval(parser), "break"))
4914 (void)!parsewarning(parser, WARN_BREAKDEF, "break definition ignored (suggest removing it)");
4915 else if (parser->tok == TOKEN_KEYWORD)
4918 name = util_strdup(parser_tokval(parser));
4921 if (!parser_next(parser)) {
4924 parseerror(parser, "error after variable or field declaration");
4930 /* now this may be an array */
4931 if (parser->tok == '[') {
4933 var = parse_arraysize(parser, var);
4935 if (name) mem_d(name);
4940 /* This is the point where we can turn it into a field */
4942 /* turn it into a field if desired */
4943 tmp = new ast_value(ctx, "<type:f>", TYPE_FIELD);
4948 /* now there may be function parens again */
4949 if (parser->tok == '(' && OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC)
4950 parseerror(parser, "C-style function syntax is not allowed in -std=qcc");
4951 if (parser->tok == '(' && wasarray)
4952 parseerror(parser, "arrays as part of a return type is not supported");
4953 while (parser->tok == '(') {
4954 var = parse_parameter_list(parser, var);
4956 if (name) mem_d(name);
4961 /* finally name it */
4964 // free the name, ast_value_set_name duplicates
4971 static bool parse_typedef(parser_t *parser)
4973 ast_value *typevar, *oldtype;
4974 ast_expression *old;
4976 typevar = parse_typename(parser, nullptr, nullptr, nullptr);
4981 // while parsing types, the ast_value's get named '<something>'
4982 if (!typevar->m_name.length() || typevar->m_name[0] == '<') {
4983 parseerror(parser, "missing name in typedef");
4988 if ( (old = parser_find_var(parser, typevar->m_name)) ) {
4989 parseerror(parser, "cannot define a type with the same name as a variable: %s\n"
4990 " -> `%s` has been declared here: %s:%i",
4991 typevar->m_name, old->m_context.file, old->m_context.line);
4996 if ( (oldtype = parser_find_typedef(parser, typevar->m_name, vec_last(parser->_blocktypedefs))) ) {
4997 parseerror(parser, "type `%s` has already been declared here: %s:%i",
4998 typevar->m_name, oldtype->m_context.file, oldtype->m_context.line);
5003 vec_push(parser->_typedefs, typevar);
5004 util_htset(vec_last(parser->typedefs), typevar->m_name.c_str(), typevar);
5006 if (parser->tok != ';') {
5007 parseerror(parser, "expected semicolon after typedef");
5010 if (!parser_next(parser)) {
5011 parseerror(parser, "parse error after typedef");
5018 static const char *cvq_to_str(int cvq) {
5020 case CV_NONE: return "none";
5021 case CV_VAR: return "`var`";
5022 case CV_CONST: return "`const`";
5023 default: return "<INVALID>";
5027 static bool parser_check_qualifiers(parser_t *parser, const ast_value *var, const ast_value *proto)
5030 if (proto->m_cvq != var->m_cvq) {
5031 if (!(proto->m_cvq == CV_CONST && var->m_cvq == CV_NONE &&
5032 !OPTS_FLAG(INITIALIZED_NONCONSTANTS) &&
5033 parser->tok == '='))
5035 return !parsewarning(parser, WARN_DIFFERENT_QUALIFIERS,
5036 "`%s` declared with different qualifiers: %s\n"
5037 " -> previous declaration here: %s:%i uses %s",
5038 var->m_name, cvq_to_str(var->m_cvq),
5039 proto->m_context.file, proto->m_context.line,
5040 cvq_to_str(proto->m_cvq));
5043 av = (var ->m_flags & AST_FLAG_NORETURN);
5044 ao = (proto->m_flags & AST_FLAG_NORETURN);
5046 return !parsewarning(parser, WARN_DIFFERENT_ATTRIBUTES,
5047 "`%s` declared with different attributes%s\n"
5048 " -> previous declaration here: %s:%i",
5049 var->m_name, (av ? ": noreturn" : ""),
5050 proto->m_context.file, proto->m_context.line,
5051 (ao ? ": noreturn" : ""));
5056 static bool create_array_accessors(parser_t *parser, ast_value *var)
5059 util_snprintf(name, sizeof(name), "%s##SET", var->m_name.c_str());
5060 if (!parser_create_array_setter(parser, var, name))
5062 util_snprintf(name, sizeof(name), "%s##GET", var->m_name.c_str());
5063 if (!parser_create_array_getter(parser, var, var->m_next, name))
5068 static bool parse_array(parser_t *parser, ast_value *array)
5071 if (array->m_initlist.size()) {
5072 parseerror(parser, "array already initialized elsewhere");
5075 if (!parser_next(parser)) {
5076 parseerror(parser, "parse error in array initializer");
5080 while (parser->tok != '}') {
5081 ast_value *v = (ast_value*)parse_expression_leave(parser, true, false, false);
5084 if (!ast_istype(v, ast_value) || !v->m_hasvalue || v->m_cvq != CV_CONST) {
5086 parseerror(parser, "initializing element must be a compile time constant");
5089 array->m_initlist.push_back(v->m_constval);
5090 if (v->m_vtype == TYPE_STRING) {
5091 array->m_initlist[i].vstring = util_strdupe(array->m_initlist[i].vstring);
5095 if (parser->tok == '}')
5097 if (parser->tok != ',' || !parser_next(parser)) {
5098 parseerror(parser, "expected comma or '}' in element list");
5102 if (!parser_next(parser) || parser->tok != ';') {
5103 parseerror(parser, "expected semicolon after initializer, got %s");
5107 if (!parser_next(parser)) {
5108 parseerror(parser, "parse error after initializer");
5113 if (array->m_flags & AST_FLAG_ARRAY_INIT) {
5114 if (array->m_count != (size_t)-1) {
5115 parseerror(parser, "array `%s' has already been initialized with %u elements",
5116 array->m_name, (unsigned)array->m_count);
5118 array->m_count = array->m_initlist.size();
5119 if (!create_array_accessors(parser, array))
5125 static bool parse_variable(parser_t *parser, ast_block *localblock, bool nofields, int qualifier, ast_value *cached_typedef, bool noref, bool is_static, uint32_t qflags, char *vstring)
5129 ast_expression *old;
5133 ast_value *basetype = nullptr;
5135 bool isparam = false;
5136 bool isvector = false;
5137 bool cleanvar = true;
5138 bool wasarray = false;
5140 ast_member *me[3] = { nullptr, nullptr, nullptr };
5141 ast_member *last_me[3] = { nullptr, nullptr, nullptr };
5143 if (!localblock && is_static)
5144 parseerror(parser, "`static` qualifier is not supported in global scope");
5146 /* get the first complete variable */
5147 var = parse_typename(parser, &basetype, cached_typedef, nullptr);
5154 /* while parsing types, the ast_value's get named '<something>' */
5155 if (!var->m_name.length() || var->m_name[0] == '<') {
5156 parseerror(parser, "declaration does not declare anything");
5166 /* Part 0: finish the type */
5167 if (parser->tok == '(') {
5168 if (OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC)
5169 parseerror(parser, "C-style function syntax is not allowed in -std=qcc");
5170 var = parse_parameter_list(parser, var);
5176 /* we only allow 1-dimensional arrays */
5177 if (parser->tok == '[') {
5179 var = parse_arraysize(parser, var);
5185 if (parser->tok == '(' && wasarray) {
5186 parseerror(parser, "arrays as part of a return type is not supported");
5187 /* we'll still parse the type completely for now */
5189 /* for functions returning functions */
5190 while (parser->tok == '(') {
5191 if (OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC)
5192 parseerror(parser, "C-style function syntax is not allowed in -std=qcc");
5193 var = parse_parameter_list(parser, var);
5200 var->m_cvq = qualifier;
5201 if (qflags & AST_FLAG_COVERAGE) /* specified in QC, drop our default */
5202 var->m_flags &= ~(AST_FLAG_COVERAGE_MASK);
5203 var->m_flags |= qflags;
5206 * store the vstring back to var for alias and
5207 * deprecation messages.
5209 if (var->m_flags & AST_FLAG_DEPRECATED ||
5210 var->m_flags & AST_FLAG_ALIAS)
5211 var->m_desc = vstring;
5213 if (parser_find_global(parser, var->m_name) && var->m_flags & AST_FLAG_ALIAS) {
5214 parseerror(parser, "function aliases cannot be forward declared");
5221 * check for validity: (end_sys_..., multiple-definitions, prototypes, ...)
5222 * Also: if there was a prototype, `var` will be deleted and set to `proto` which
5223 * is then filled with the previous definition and the parameter-names replaced.
5225 if (var->m_name == "nil") {
5226 if (OPTS_FLAG(UNTYPED_NIL)) {
5227 if (!localblock || !OPTS_FLAG(PERMISSIVE))
5228 parseerror(parser, "name `nil` not allowed (try -fpermissive)");
5230 (void)!parsewarning(parser, WARN_RESERVED_NAMES, "variable name `nil` is reserved");
5233 /* Deal with end_sys_ vars */
5235 if (var->m_name == "end_sys_globals") {
5236 var->m_flags |= AST_FLAG_NOREF;
5237 parser->crc_globals = parser->globals.size();
5240 else if (var->m_name == "end_sys_fields") {
5241 var->m_flags |= AST_FLAG_NOREF;
5242 parser->crc_fields = parser->fields.size();
5245 if (was_end && var->m_vtype == TYPE_FIELD) {
5246 if (parsewarning(parser, WARN_END_SYS_FIELDS,
5247 "global '%s' hint should not be a field",
5248 parser_tokval(parser)))
5255 if (!nofields && var->m_vtype == TYPE_FIELD)
5257 /* deal with field declarations */
5258 old = parser_find_field(parser, var->m_name);
5260 if (parsewarning(parser, WARN_FIELD_REDECLARED, "field `%s` already declared here: %s:%i",
5261 var->m_name, old->m_context.file, (int)old->m_context.line))
5270 parseerror(parser, "field `%s` already declared here: %s:%i",
5271 var->m_name, old->m_context.file, old->m_context.line);
5276 if ((OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC || OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_FTEQCC) &&
5277 (old = parser_find_global(parser, var->m_name)))
5279 parseerror(parser, "cannot declare a field and a global of the same name with -std=qcc");
5280 parseerror(parser, "field `%s` already declared here: %s:%i",
5281 var->m_name, old->m_context.file, old->m_context.line);
5288 /* deal with other globals */
5289 old = parser_find_global(parser, var->m_name);
5290 if (old && var->m_vtype == TYPE_FUNCTION && old->m_vtype == TYPE_FUNCTION)
5292 /* This is a function which had a prototype */
5293 if (!ast_istype(old, ast_value)) {
5294 parseerror(parser, "internal error: prototype is not an ast_value");
5298 proto = (ast_value*)old;
5299 proto->m_desc = var->m_desc;
5300 if (!proto->compareType(*var)) {
5301 parseerror(parser, "conflicting types for `%s`, previous declaration was here: %s:%i",
5303 proto->m_context.file, proto->m_context.line);
5307 /* we need the new parameter-names */
5308 for (i = 0; i < proto->m_type_params.size(); ++i)
5309 proto->m_type_params[i]->m_name = var->m_type_params[i]->m_name;
5310 if (!parser_check_qualifiers(parser, var, proto)) {
5315 proto->m_flags |= var->m_flags;
5323 if (parsewarning(parser, WARN_DOUBLE_DECLARATION,
5324 "global `%s` already declared here: %s:%i",
5325 var->m_name, old->m_context.file, old->m_context.line))
5330 if (old->m_flags & AST_FLAG_FINAL_DECL) {
5331 parseerror(parser, "cannot redeclare variable `%s`, declared final here: %s:%i",
5332 var->m_name, old->m_context.file, old->m_context.line);
5336 proto = (ast_value*)old;
5337 if (!ast_istype(old, ast_value)) {
5338 parseerror(parser, "internal error: not an ast_value");
5343 if (!parser_check_qualifiers(parser, var, proto)) {
5348 proto->m_flags |= var->m_flags;
5349 /* copy the context for finals,
5350 * so the error can show where it was actually made 'final'
5352 if (proto->m_flags & AST_FLAG_FINAL_DECL)
5353 old->m_context = var->m_context;
5357 if (OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC &&
5358 (old = parser_find_field(parser, var->m_name)))
5360 parseerror(parser, "cannot declare a field and a global of the same name with -std=qcc");
5361 parseerror(parser, "global `%s` already declared here: %s:%i",
5362 var->m_name, old->m_context.file, old->m_context.line);
5369 else /* it's not a global */
5371 old = parser_find_local(parser, var->m_name, vec_size(parser->variables)-1, &isparam);
5372 if (old && !isparam) {
5373 parseerror(parser, "local `%s` already declared here: %s:%i",
5374 var->m_name, old->m_context.file, (int)old->m_context.line);
5378 /* doing this here as the above is just for a single scope */
5379 old = parser_find_local(parser, var->m_name, 0, &isparam);
5380 if (old && isparam) {
5381 if (parsewarning(parser, WARN_LOCAL_SHADOWS,
5382 "local `%s` is shadowing a parameter", var->m_name))
5384 parseerror(parser, "local `%s` already declared here: %s:%i",
5385 var->m_name, old->m_context.file, (int)old->m_context.line);
5389 if (OPTS_OPTION_U32(OPTION_STANDARD) != COMPILER_GMQCC) {
5391 if (ast_istype(old, ast_value))
5392 var = proto = (ast_value*)old;
5401 if (noref || parser->noref)
5402 var->m_flags |= AST_FLAG_NOREF;
5405 * Create the global/local, and deal with vector types.
5408 if (var->m_vtype == TYPE_VECTOR)
5410 else if (var->m_vtype == TYPE_FIELD &&
5411 var->m_next->m_vtype == TYPE_VECTOR)
5415 if (!create_vector_members(var, me)) {
5422 /* deal with global variables, fields, functions */
5423 if (!nofields && var->m_vtype == TYPE_FIELD && parser->tok != '=') {
5424 var->m_isfield = true;
5425 parser->fields.push_back(var);
5426 util_htset(parser->htfields, var->m_name.c_str(), var);
5428 for (i = 0; i < 3; ++i) {
5429 parser->fields.push_back(me[i]);
5430 util_htset(parser->htfields, me[i]->m_name.c_str(), me[i]);
5435 if (!(var->m_flags & AST_FLAG_ALIAS)) {
5436 parser_addglobal(parser, var->m_name, var);
5438 for (i = 0; i < 3; ++i) {
5439 parser_addglobal(parser, me[i]->m_name.c_str(), me[i]);
5443 ast_expression *find = parser_find_global(parser, var->m_desc);
5446 compile_error(parser_ctx(parser), "undeclared variable `%s` for alias `%s`", var->m_desc, var->m_name);
5450 if (!var->compareType(*find)) {
5454 ast_type_to_string(find, ty1, sizeof(ty1));
5455 ast_type_to_string(var, ty2, sizeof(ty2));
5457 compile_error(parser_ctx(parser), "incompatible types `%s` and `%s` for alias `%s`",
5458 ty1, ty2, var->m_name
5463 util_htset(parser->aliases, var->m_name.c_str(), find);
5465 /* generate aliases for vector components */
5469 util_asprintf(&buffer[0], "%s_x", var->m_desc.c_str());
5470 util_asprintf(&buffer[1], "%s_y", var->m_desc.c_str());
5471 util_asprintf(&buffer[2], "%s_z", var->m_desc.c_str());
5473 util_htset(parser->aliases, me[0]->m_name.c_str(), parser_find_global(parser, buffer[0]));
5474 util_htset(parser->aliases, me[1]->m_name.c_str(), parser_find_global(parser, buffer[1]));
5475 util_htset(parser->aliases, me[2]->m_name.c_str(), parser_find_global(parser, buffer[2]));
5485 // a static adds itself to be generated like any other global
5486 // but is added to the local namespace instead
5487 std::string defname;
5491 defname = parser->function->m_name;
5492 defname.append(2, ':');
5494 // remember the length up to here
5495 prefix_len = defname.length();
5497 // Add it to the local scope
5498 util_htset(vec_last(parser->variables), var->m_name.c_str(), (void*)var);
5500 // now rename the global
5501 defname.append(var->m_name);
5502 // if a variable of that name already existed, add the
5504 // The counter is incremented either way.
5505 sn_size = parser->function->m_static_names.size();
5506 for (sn = 0; sn != sn_size; ++sn) {
5507 if (parser->function->m_static_names[sn] == var->m_name.c_str())
5510 if (sn != sn_size) {
5511 char *num = nullptr;
5512 int len = util_asprintf(&num, "#%u", parser->function->m_static_count);
5513 defname.append(num, 0, len);
5517 parser->function->m_static_names.emplace_back(var->m_name);
5518 parser->function->m_static_count++;
5519 var->m_name = defname;
5521 // push it to the to-be-generated globals
5522 parser->globals.push_back(var);
5524 // same game for the vector members
5526 defname.erase(prefix_len);
5527 for (i = 0; i < 3; ++i) {
5528 util_htset(vec_last(parser->variables), me[i]->m_name.c_str(), (void*)(me[i]));
5529 me[i]->m_name = move(defname + me[i]->m_name);
5530 parser->globals.push_back(me[i]);
5534 localblock->m_locals.push_back(var);
5535 parser_addlocal(parser, var->m_name, var);
5537 for (i = 0; i < 3; ++i) {
5538 parser_addlocal(parser, me[i]->m_name, me[i]);
5539 localblock->collect(me[i]);
5545 memcpy(last_me, me, sizeof(me));
5546 me[0] = me[1] = me[2] = nullptr;
5551 if (var->m_vtype == TYPE_ARRAY) {
5552 if (var->m_count != (size_t)-1) {
5553 if (!create_array_accessors(parser, var))
5557 else if (!localblock && !nofields &&
5558 var->m_vtype == TYPE_FIELD &&
5559 var->m_next->m_vtype == TYPE_ARRAY)
5562 ast_expression *telem;
5564 ast_value *array = (ast_value*)var->m_next;
5566 if (!ast_istype(var->m_next, ast_value)) {
5567 parseerror(parser, "internal error: field element type must be an ast_value");
5571 util_snprintf(name, sizeof(name), "%s##SETF", var->m_name.c_str());
5572 if (!parser_create_array_field_setter(parser, array, name))
5575 telem = new ast_expression(ast_copy_type, var->m_context, *array->m_next);
5576 tfield = new ast_value(var->m_context, "<.type>", TYPE_FIELD);
5577 tfield->m_next = telem;
5578 util_snprintf(name, sizeof(name), "%s##GETFP", var->m_name.c_str());
5579 if (!parser_create_array_getter(parser, array, tfield, name)) {
5587 if (parser->tok == ';') {
5589 if (!parser_next(parser)) {
5590 parseerror(parser, "error after variable declaration");
5596 if (parser->tok == ',')
5600 if (!var || (!localblock && !nofields && basetype->m_vtype == TYPE_FIELD)) {
5603 parseerror(parser, "missing comma or semicolon while parsing variables");
5607 if (localblock && OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC) {
5608 if (parsewarning(parser, WARN_LOCAL_CONSTANTS,
5609 "initializing expression turns variable `%s` into a constant in this standard",
5616 if (parser->tok != '{' || var->m_vtype != TYPE_FUNCTION) {
5617 if (parser->tok != '=') {
5618 parseerror(parser, "missing semicolon or initializer, got: `%s`", parser_tokval(parser));
5622 if (!parser_next(parser)) {
5623 parseerror(parser, "error parsing initializer");
5627 else if (OPTS_OPTION_U32(OPTION_STANDARD) == COMPILER_QCC) {
5628 parseerror(parser, "expected '=' before function body in this standard");
5631 if (parser->tok == '#') {
5632 ast_function *func = nullptr;
5633 ast_value *number = nullptr;
5639 parseerror(parser, "cannot declare builtins within functions");
5642 if (var->m_vtype != TYPE_FUNCTION) {
5643 parseerror(parser, "unexpected builtin number, '%s' is not a function", var->m_name);
5646 if (!parser_next(parser)) {
5647 parseerror(parser, "expected builtin number");
5651 if (OPTS_FLAG(EXPRESSIONS_FOR_BUILTINS)) {
5652 number = (ast_value*)parse_expression_leave(parser, true, false, false);
5654 parseerror(parser, "builtin number expected");
5657 if (!ast_istype(number, ast_value) || !number->m_hasvalue || number->m_cvq != CV_CONST)
5660 parseerror(parser, "builtin number must be a compile time constant");
5663 if (number->m_vtype == TYPE_INTEGER)
5664 builtin_num = number->m_constval.vint;
5665 else if (number->m_vtype == TYPE_FLOAT)
5666 builtin_num = number->m_constval.vfloat;
5669 parseerror(parser, "builtin number must be an integer constant");
5674 fractional = modff(builtin_num, &integral);
5675 if (builtin_num < 0 || fractional != 0) {
5676 parseerror(parser, "builtin number must be an integer greater than zero");
5680 /* we only want the integral part anyways */
5681 builtin_num = integral;
5682 } else if (parser->tok == TOKEN_INTCONST) {
5683 builtin_num = parser_token(parser)->constval.i;
5685 parseerror(parser, "builtin number must be a compile time constant");
5689 if (var->m_hasvalue) {
5690 (void)!parsewarning(parser, WARN_DOUBLE_DECLARATION,
5691 "builtin `%s` has already been defined\n"
5692 " -> previous declaration here: %s:%i",
5693 var->m_name, var->m_context.file, (int)var->m_context.line);
5697 func = ast_function::make(var->m_context, var->m_name, var);
5699 parseerror(parser, "failed to allocate function for `%s`", var->m_name);
5702 parser->functions.push_back(func);
5704 func->m_builtin = -builtin_num-1;
5707 if (OPTS_FLAG(EXPRESSIONS_FOR_BUILTINS)
5708 ? (parser->tok != ',' && parser->tok != ';')
5709 : (!parser_next(parser)))
5711 parseerror(parser, "expected comma or semicolon");
5713 var->m_constval.vfunc = nullptr;
5717 else if (var->m_vtype == TYPE_ARRAY && parser->tok == '{')
5720 /* Note that fteqcc and most others don't even *have*
5721 * local arrays, so this is not a high priority.
5723 parseerror(parser, "TODO: initializers for local arrays");
5727 var->m_hasvalue = true;
5728 if (!parse_array(parser, var))
5731 else if (var->m_vtype == TYPE_FUNCTION && (parser->tok == '{' || parser->tok == '['))
5734 parseerror(parser, "cannot declare functions within functions");
5739 proto->m_context = parser_ctx(parser);
5741 if (!parse_function_body(parser, var))
5744 for (auto &it : parser->gotos)
5745 parseerror(parser, "undefined label: `%s`", it->m_name);
5746 parser->gotos.clear();
5747 parser->labels.clear();
5750 ast_expression *cexp;
5752 bool folded_const = false;
5754 cexp = parse_expression_leave(parser, true, false, false);
5757 cval = ast_istype(cexp, ast_value) ? (ast_value*)cexp : nullptr;
5759 /* deal with foldable constants: */
5761 var->m_cvq == CV_CONST && cval && cval->m_hasvalue && cval->m_cvq == CV_CONST && !cval->m_isfield)
5763 /* remove it from the current locals */
5765 for (i = 0; i < 3; ++i) {
5766 vec_pop(parser->_locals);
5767 localblock->m_collect.pop_back();
5770 /* do sanity checking, this function really needs refactoring */
5771 if (vec_last(parser->_locals) != var)
5772 parseerror(parser, "internal error: unexpected change in local variable handling");
5774 vec_pop(parser->_locals);
5775 if (localblock->m_locals.back() != var)
5776 parseerror(parser, "internal error: unexpected change in local variable handling (2)");
5778 localblock->m_locals.pop_back();
5779 /* push it to the to-be-generated globals */
5780 parser->globals.push_back(var);
5782 for (i = 0; i < 3; ++i)
5783 parser->globals.push_back(last_me[i]);
5784 folded_const = true;
5787 if (folded_const || !localblock || is_static) {
5788 if (cval != parser->nil &&
5789 (!cval || ((!cval->m_hasvalue || cval->m_cvq != CV_CONST) && !cval->m_isfield))
5792 parseerror(parser, "initializer is non constant");
5797 !OPTS_FLAG(INITIALIZED_NONCONSTANTS) &&
5798 qualifier != CV_VAR)
5800 var->m_cvq = CV_CONST;
5802 if (cval == parser->nil)
5804 var->m_flags |= AST_FLAG_INITIALIZED;
5805 var->m_flags |= AST_FLAG_NOREF;
5809 var->m_hasvalue = true;
5810 if (cval->m_vtype == TYPE_STRING)
5811 var->m_constval.vstring = parser_strdup(cval->m_constval.vstring);
5812 else if (cval->m_vtype == TYPE_FIELD)
5813 var->m_constval.vfield = cval;
5815 memcpy(&var->m_constval, &cval->m_constval, sizeof(var->m_constval));
5823 var->m_cvq = CV_NONE;
5824 sy.out.push_back(syexp(var->m_context, var));
5825 sy.out.push_back(syexp(cexp->m_context, cexp));
5826 sy.ops.push_back(syop(var->m_context, parser->assign_op));
5827 if (!parser_sy_apply_operator(parser, &sy))
5830 if (sy.out.size() != 1 && sy.ops.size() != 0)
5831 parseerror(parser, "internal error: leaked operands");
5832 if (!localblock->addExpr(sy.out[0].out))
5837 /* a constant initialized to an inexact value should be marked inexact:
5838 * const float x = <inexact>; should propagate the inexact flag
5840 if (var->m_cvq == CV_CONST && var->m_vtype == TYPE_FLOAT) {
5841 if (cval && cval->m_hasvalue && cval->m_cvq == CV_CONST)
5842 var->m_inexact = cval->m_inexact;
5847 if (parser->tok == ',') {
5848 if (!parser_next(parser)) {
5849 parseerror(parser, "expected another variable");
5853 if (parser->tok != TOKEN_IDENT) {
5854 parseerror(parser, "expected another variable");
5857 var = new ast_value(ast_copy_type, *basetype);
5859 var->m_name = parser_tokval(parser);
5860 if (!parser_next(parser)) {
5861 parseerror(parser, "error parsing variable declaration");
5867 if (parser->tok != ';') {
5868 parseerror(parser, "missing semicolon after variables");
5872 if (!parser_next(parser)) {
5873 parseerror(parser, "parse error after variable declaration");
5881 if (cleanvar && var)
5888 if (cleanvar && var)
5896 static bool parser_global_statement(parser_t *parser)
5900 bool is_static = false;
5901 uint32_t qflags = 0;
5902 ast_value *istype = nullptr;
5903 char *vstring = nullptr;
5905 if (parser->tok == TOKEN_IDENT)
5906 istype = parser_find_typedef(parser, parser_tokval(parser), 0);
5908 if (istype || parser->tok == TOKEN_TYPENAME || parser->tok == '.' || parser->tok == TOKEN_DOTS)
5910 return parse_variable(parser, nullptr, false, CV_NONE, istype, false, false, 0, nullptr);
5912 else if (parse_qualifiers(parser, false, &cvq, &noref, &is_static, &qflags, &vstring))
5914 if (cvq == CV_WRONG)
5916 return parse_variable(parser, nullptr, false, cvq, nullptr, noref, is_static, qflags, vstring);
5918 else if (parser->tok == TOKEN_IDENT && !strcmp(parser_tokval(parser), "enum"))
5920 return parse_enum(parser);
5922 else if (parser->tok == TOKEN_KEYWORD)
5924 if (!strcmp(parser_tokval(parser), "typedef")) {
5925 if (!parser_next(parser)) {
5926 parseerror(parser, "expected type definition after 'typedef'");
5929 return parse_typedef(parser);
5931 parseerror(parser, "unrecognized keyword `%s`", parser_tokval(parser));
5934 else if (parser->tok == '#')
5936 return parse_pragma(parser);
5938 else if (parser->tok == '$')
5940 if (!parser_next(parser)) {
5941 parseerror(parser, "parse error");
5947 parseerror(parser, "unexpected token: `%s`", parser->lex->tok.value);
5953 static uint16_t progdefs_crc_sum(uint16_t old, const char *str)
5955 return util_crc16(old, str, strlen(str));
5958 static void progdefs_crc_file(const char *str)
5960 /* write to progdefs.h here */
5964 static uint16_t progdefs_crc_both(uint16_t old, const char *str)
5966 old = progdefs_crc_sum(old, str);
5967 progdefs_crc_file(str);
5971 static void generate_checksum(parser_t *parser, ir_builder *ir)
5973 uint16_t crc = 0xFFFF;
5977 crc = progdefs_crc_both(crc, "\n/* file generated by qcc, do not modify */\n\ntypedef struct\n{");
5978 crc = progdefs_crc_sum(crc, "\tint\tpad[28];\n");
5980 progdefs_crc_file("\tint\tpad;\n");
5981 progdefs_crc_file("\tint\tofs_return[3];\n");
5982 progdefs_crc_file("\tint\tofs_parm0[3];\n");
5983 progdefs_crc_file("\tint\tofs_parm1[3];\n");
5984 progdefs_crc_file("\tint\tofs_parm2[3];\n");
5985 progdefs_crc_file("\tint\tofs_parm3[3];\n");
5986 progdefs_crc_file("\tint\tofs_parm4[3];\n");
5987 progdefs_crc_file("\tint\tofs_parm5[3];\n");
5988 progdefs_crc_file("\tint\tofs_parm6[3];\n");
5989 progdefs_crc_file("\tint\tofs_parm7[3];\n");
5991 for (i = 0; i < parser->crc_globals; ++i) {
5992 if (!ast_istype(parser->globals[i], ast_value))
5994 value = (ast_value*)(parser->globals[i]);
5995 switch (value->m_vtype) {
5996 case TYPE_FLOAT: crc = progdefs_crc_both(crc, "\tfloat\t"); break;
5997 case TYPE_VECTOR: crc = progdefs_crc_both(crc, "\tvec3_t\t"); break;
5998 case TYPE_STRING: crc = progdefs_crc_both(crc, "\tstring_t\t"); break;
5999 case TYPE_FUNCTION: crc = progdefs_crc_both(crc, "\tfunc_t\t"); break;
6001 crc = progdefs_crc_both(crc, "\tint\t");
6004 crc = progdefs_crc_both(crc, value->m_name.c_str());
6005 crc = progdefs_crc_both(crc, ";\n");
6007 crc = progdefs_crc_both(crc, "} globalvars_t;\n\ntypedef struct\n{\n");
6008 for (i = 0; i < parser->crc_fields; ++i) {
6009 if (!ast_istype(parser->fields[i], ast_value))
6011 value = (ast_value*)(parser->fields[i]);
6012 switch (value->m_next->m_vtype) {
6013 case TYPE_FLOAT: crc = progdefs_crc_both(crc, "\tfloat\t"); break;
6014 case TYPE_VECTOR: crc = progdefs_crc_both(crc, "\tvec3_t\t"); break;
6015 case TYPE_STRING: crc = progdefs_crc_both(crc, "\tstring_t\t"); break;
6016 case TYPE_FUNCTION: crc = progdefs_crc_both(crc, "\tfunc_t\t"); break;
6018 crc = progdefs_crc_both(crc, "\tint\t");
6021 crc = progdefs_crc_both(crc, value->m_name.c_str());
6022 crc = progdefs_crc_both(crc, ";\n");
6024 crc = progdefs_crc_both(crc, "} entvars_t;\n\n");
6025 ir->m_code->crc = crc;
6028 parser_t *parser_create()
6031 lex_ctx_t empty_ctx;
6034 parser = (parser_t*)mem_a(sizeof(parser_t));
6038 memset(parser, 0, sizeof(*parser));
6041 new (parser) parser_t();
6043 for (i = 0; i < operator_count; ++i) {
6044 if (operators[i].id == opid1('=')) {
6045 parser->assign_op = operators+i;
6049 if (!parser->assign_op) {
6050 con_err("internal error: initializing parser: failed to find assign operator\n");
6055 vec_push(parser->variables, parser->htfields = util_htnew(PARSER_HT_SIZE));
6056 vec_push(parser->variables, parser->htglobals = util_htnew(PARSER_HT_SIZE));
6057 vec_push(parser->typedefs, util_htnew(TYPEDEF_HT_SIZE));
6058 vec_push(parser->_blocktypedefs, 0);
6060 parser->aliases = util_htnew(PARSER_HT_SIZE);
6062 empty_ctx.file = "<internal>";
6064 empty_ctx.column = 0;
6065 parser->nil = new ast_value(empty_ctx, "nil", TYPE_NIL);
6066 parser->nil->m_cvq = CV_CONST;
6067 if (OPTS_FLAG(UNTYPED_NIL))
6068 util_htset(parser->htglobals, "nil", (void*)parser->nil);
6070 parser->max_param_count = 1;
6072 parser->const_vec[0] = new ast_value(empty_ctx, "<vector.x>", TYPE_NOEXPR);
6073 parser->const_vec[1] = new ast_value(empty_ctx, "<vector.y>", TYPE_NOEXPR);
6074 parser->const_vec[2] = new ast_value(empty_ctx, "<vector.z>", TYPE_NOEXPR);
6076 if (OPTS_OPTION_BOOL(OPTION_ADD_INFO)) {
6077 parser->reserved_version = new ast_value(empty_ctx, "reserved:version", TYPE_STRING);
6078 parser->reserved_version->m_cvq = CV_CONST;
6079 parser->reserved_version->m_hasvalue = true;
6080 parser->reserved_version->m_flags |= AST_FLAG_INCLUDE_DEF;
6081 parser->reserved_version->m_flags |= AST_FLAG_NOREF;
6082 parser->reserved_version->m_constval.vstring = util_strdup(GMQCC_FULL_VERSION_STRING);
6084 parser->reserved_version = nullptr;
6087 parser->m_fold = fold(parser);
6088 parser->m_intrin = intrin(parser);
6092 static bool parser_compile(parser_t *parser)
6094 /* initial lexer/parser state */
6095 parser->lex->flags.noops = true;
6097 if (parser_next(parser))
6099 while (parser->tok != TOKEN_EOF && parser->tok < TOKEN_ERROR)
6101 if (!parser_global_statement(parser)) {
6102 if (parser->tok == TOKEN_EOF)
6103 parseerror(parser, "unexpected end of file");
6104 else if (compile_errors)
6105 parseerror(parser, "there have been errors, bailing out");
6106 lex_close(parser->lex);
6107 parser->lex = nullptr;
6112 parseerror(parser, "parse error");
6113 lex_close(parser->lex);
6114 parser->lex = nullptr;
6118 lex_close(parser->lex);
6119 parser->lex = nullptr;
6121 return !compile_errors;
6124 bool parser_compile_file(parser_t *parser, const char *filename)
6126 parser->lex = lex_open(filename);
6128 con_err("failed to open file \"%s\"\n", filename);
6131 return parser_compile(parser);
6134 bool parser_compile_string(parser_t *parser, const char *name, const char *str, size_t len)
6136 parser->lex = lex_open_string(str, len, name);
6138 con_err("failed to create lexer for string \"%s\"\n", name);
6141 return parser_compile(parser);
6144 static void parser_remove_ast(parser_t *parser)
6147 if (parser->ast_cleaned)
6149 parser->ast_cleaned = true;
6150 for (auto &it : parser->accessors) {
6151 delete it->m_constval.vfunc;
6152 it->m_constval.vfunc = nullptr;
6155 for (auto &it : parser->functions) delete it;
6156 for (auto &it : parser->globals) delete it;
6157 for (auto &it : parser->fields) delete it;
6159 for (i = 0; i < vec_size(parser->variables); ++i)
6160 util_htdel(parser->variables[i]);
6161 vec_free(parser->variables);
6162 vec_free(parser->_blocklocals);
6163 vec_free(parser->_locals);
6165 for (i = 0; i < vec_size(parser->_typedefs); ++i)
6166 delete parser->_typedefs[i];
6167 vec_free(parser->_typedefs);
6168 for (i = 0; i < vec_size(parser->typedefs); ++i)
6169 util_htdel(parser->typedefs[i]);
6170 vec_free(parser->typedefs);
6171 vec_free(parser->_blocktypedefs);
6173 vec_free(parser->_block_ctx);
6177 delete parser->const_vec[0];
6178 delete parser->const_vec[1];
6179 delete parser->const_vec[2];
6181 if (parser->reserved_version)
6182 delete parser->reserved_version;
6184 util_htdel(parser->aliases);
6187 void parser_cleanup(parser_t *parser)
6189 parser_remove_ast(parser);
6190 parser->~parser_t();
6194 static bool parser_set_coverage_func(parser_t *parser, ir_builder *ir) {
6195 ast_expression *expr;
6199 if (!OPTS_OPTION_BOOL(OPTION_COVERAGE))
6203 for (auto &it : parser->functions) {
6204 if (it->m_name == "coverage") {
6210 if (OPTS_OPTION_BOOL(OPTION_COVERAGE)) {
6211 con_out("coverage support requested but no coverage() builtin declared\n");
6218 cov = func->m_function_type;
6221 if (expr->m_vtype != TYPE_FUNCTION || expr->m_type_params.size()) {
6223 ast_type_to_string(expr, ty, sizeof(ty));
6224 con_out("invalid type for coverage(): %s\n", ty);
6229 ir->m_coverage_func = func->m_ir_func->m_value;
6233 bool parser_finish(parser_t *parser, const char *output)
6238 if (compile_errors) {
6239 con_out("*** there were compile errors\n");
6243 ir = new ir_builder("gmqcc_out");
6245 con_out("failed to allocate builder\n");
6249 for (auto &it : parser->fields) {
6251 if (!ast_istype(it, ast_value))
6253 ast_value *field = (ast_value*)it;
6254 hasvalue = field->m_hasvalue;
6255 field->m_hasvalue = false;
6256 if (!reinterpret_cast<ast_value*>(field)->generateGlobal(ir, true)) {
6257 con_out("failed to generate field %s\n", field->m_name.c_str());
6263 ast_expression *subtype;
6264 field->m_hasvalue = true;
6265 subtype = field->m_next;
6266 ifld = ir->createField(field->m_name, subtype->m_vtype);
6267 if (subtype->m_vtype == TYPE_FIELD)
6268 ifld->m_fieldtype = subtype->m_next->m_vtype;
6269 else if (subtype->m_vtype == TYPE_FUNCTION)
6270 ifld->m_outtype = subtype->m_next->m_vtype;
6271 (void)!field->m_ir_v->setField(ifld);
6274 for (auto &it : parser->globals) {
6276 if (!ast_istype(it, ast_value))
6278 asvalue = (ast_value*)it;
6279 if (!(asvalue->m_flags & AST_FLAG_NOREF) && asvalue->m_cvq != CV_CONST && asvalue->m_vtype != TYPE_FUNCTION) {
6280 retval = retval && !compile_warning(asvalue->m_context, WARN_UNUSED_VARIABLE,
6281 "unused global: `%s`", asvalue->m_name);
6283 if (!asvalue->generateGlobal(ir, false)) {
6284 con_out("failed to generate global %s\n", asvalue->m_name.c_str());
6289 /* Build function vararg accessor ast tree now before generating
6290 * immediates, because the accessors may add new immediates
6292 for (auto &f : parser->functions) {
6294 if (parser->max_param_count > f->m_function_type->m_type_params.size()) {
6295 f->m_varargs->m_count = parser->max_param_count - f->m_function_type->m_type_params.size();
6296 if (!parser_create_array_setter_impl(parser, f->m_varargs.get())) {
6297 con_out("failed to generate vararg setter for %s\n", f->m_name.c_str());
6301 if (!parser_create_array_getter_impl(parser, f->m_varargs.get())) {
6302 con_out("failed to generate vararg getter for %s\n", f->m_name.c_str());
6307 f->m_varargs = nullptr;
6311 /* Now we can generate immediates */
6312 if (!parser->m_fold.generate(ir))
6315 /* before generating any functions we need to set the coverage_func */
6316 if (!parser_set_coverage_func(parser, ir))
6318 for (auto &it : parser->globals) {
6319 if (!ast_istype(it, ast_value))
6321 ast_value *asvalue = (ast_value*)it;
6322 if (!(asvalue->m_flags & AST_FLAG_INITIALIZED))
6324 if (asvalue->m_cvq == CV_CONST && !asvalue->m_hasvalue)
6325 (void)!compile_warning(asvalue->m_context, WARN_UNINITIALIZED_CONSTANT,
6326 "uninitialized constant: `%s`",
6328 else if ((asvalue->m_cvq == CV_NONE || asvalue->m_cvq == CV_CONST) && !asvalue->m_hasvalue)
6329 (void)!compile_warning(asvalue->m_context, WARN_UNINITIALIZED_GLOBAL,
6330 "uninitialized global: `%s`",
6333 if (!asvalue->generateAccessors(ir)) {
6338 for (auto &it : parser->fields) {
6339 ast_value *asvalue = (ast_value*)it->m_next;
6340 if (!ast_istype(asvalue, ast_value))
6342 if (asvalue->m_vtype != TYPE_ARRAY)
6344 if (!asvalue->generateAccessors(ir)) {
6349 if (parser->reserved_version &&
6350 !parser->reserved_version->generateGlobal(ir, false))
6352 con_out("failed to generate reserved::version");
6356 for (auto &f : parser->functions) {
6357 if (!f->generateFunction(ir)) {
6358 con_out("failed to generate function %s\n", f->m_name.c_str());
6364 generate_checksum(parser, ir);
6366 if (OPTS_OPTION_BOOL(OPTION_DUMP))
6368 for (auto &it : parser->functions) {
6369 if (!ir_function_finalize(it->m_ir_func)) {
6370 con_out("failed to finalize function %s\n", it->m_name.c_str());
6375 parser_remove_ast(parser);
6377 auto fnCheckWErrors = [&retval]() {
6378 if (compile_Werrors) {
6379 con_out("*** there were warnings treated as errors\n");
6380 compile_show_werrors();
6388 if (OPTS_OPTION_BOOL(OPTION_DUMPFIN))
6391 if (!ir->generate(output)) {
6392 con_out("*** failed to generate output file\n");
6397 // ir->generate can generate compiler warnings