3b8a6b14846e593d9bbaf7b31385993475362a8c
11 #include "../include/oberon.h"
13 #include "oberon-internals.h"
14 #include "oberon-type-compat.h"
15 #include "oberon-common.h"
16 #include "generator.h"
18 // =======================================================================
20 // =======================================================================
23 oberon_make_copy_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
);
25 static oberon_type_t
*
26 oberon_new_type_ptr(int class)
28 oberon_type_t
* x
= malloc(sizeof *x
);
29 memset(x
, 0, sizeof *x
);
34 static oberon_type_t
*
35 oberon_new_type_integer(int size
)
38 x
= oberon_new_type_ptr(OBERON_TYPE_INTEGER
);
43 static oberon_type_t
*
44 oberon_new_type_boolean()
47 x
= oberon_new_type_ptr(OBERON_TYPE_BOOLEAN
);
51 static oberon_type_t
*
52 oberon_new_type_real(int size
)
55 x
= oberon_new_type_ptr(OBERON_TYPE_REAL
);
60 static oberon_type_t
*
61 oberon_new_type_char(int size
)
64 x
= oberon_new_type_ptr(OBERON_TYPE_CHAR
);
69 static oberon_type_t
*
70 oberon_new_type_string(int size
)
73 x
= oberon_new_type_ptr(OBERON_TYPE_STRING
);
78 static oberon_type_t
*
79 oberon_new_type_set(int size
)
82 x
= oberon_new_type_ptr(OBERON_TYPE_SET
);
87 static oberon_expr_t
*
88 oberon_new_operator(int op
, oberon_type_t
* result
, oberon_expr_t
* left
, oberon_expr_t
* right
)
90 oberon_oper_t
* operator;
91 operator = malloc(sizeof *operator);
92 memset(operator, 0, sizeof *operator);
94 operator -> is_item
= 0;
95 operator -> result
= result
;
96 operator -> read_only
= 1;
98 operator -> left
= left
;
99 operator -> right
= right
;
101 return (oberon_expr_t
*) operator;
104 static oberon_expr_t
*
105 oberon_new_item(int mode
, oberon_type_t
* result
, int read_only
)
107 oberon_item_t
* item
;
108 item
= malloc(sizeof *item
);
109 memset(item
, 0, sizeof *item
);
112 item
-> result
= result
;
113 item
-> read_only
= read_only
;
116 return (oberon_expr_t
*)item
;
119 static oberon_type_t
*
120 oberon_get_type_of_int_value(oberon_context_t
* ctx
, int64_t i
)
122 if(i
>= -128 && i
<= 127)
124 return ctx
-> byte_type
;
126 else if(i
>= -32768 && i
<= 32767)
128 return ctx
-> shortint_type
;
130 else if(i
>= -2147483648 && i
<= 2147483647)
132 return ctx
-> int_type
;
136 return ctx
-> longint_type
;
140 static oberon_expr_t
*
141 oberon_make_integer(oberon_context_t
* ctx
, int64_t i
)
143 oberon_expr_t
* expr
;
144 oberon_type_t
* result
;
145 result
= oberon_get_type_of_int_value(ctx
, i
);
146 expr
= oberon_new_item(MODE_INTEGER
, result
, true);
147 expr
-> item
.integer
= i
;
148 expr
-> item
.real
= i
;
152 static oberon_expr_t
*
153 oberon_make_char(oberon_context_t
* ctx
, int64_t i
)
155 oberon_expr_t
* expr
;
156 expr
= oberon_new_item(MODE_CHAR
, ctx
-> char_type
, true);
157 expr
-> item
.integer
= i
;
158 expr
-> item
.real
= i
;
162 static oberon_expr_t
*
163 oberon_make_real_typed(oberon_context_t
* ctx
, double r
, oberon_type_t
* result
)
165 oberon_expr_t
* expr
;
166 expr
= oberon_new_item(MODE_REAL
, result
, true);
167 expr
-> item
.integer
= r
;
168 expr
-> item
.real
= r
;
172 static oberon_expr_t
*
173 oberon_make_real(oberon_context_t
* ctx
, double r
, bool longmode
)
175 oberon_type_t
* result
;
176 result
= (longmode
) ? (ctx
-> longreal_type
) : (ctx
-> real_type
);
177 return oberon_make_real_typed(ctx
, r
, result
);
180 static oberon_expr_t
*
181 oberon_make_boolean(oberon_context_t
* ctx
, bool cond
)
183 oberon_expr_t
* expr
;
184 expr
= oberon_new_item(MODE_BOOLEAN
, ctx
-> bool_type
, true);
185 expr
-> item
.integer
= cond
;
186 expr
-> item
.real
= cond
;
190 static oberon_expr_t
*
191 oberon_make_set(oberon_context_t
* ctx
, int64_t i
)
193 oberon_expr_t
* expr
;
194 expr
= oberon_new_item(MODE_SET
, ctx
-> set_type
, true);
195 expr
-> item
.integer
= i
;
196 expr
-> item
.real
= i
;
200 static oberon_expr_t
*
201 oberon_make_set_index(oberon_context_t
* ctx
, int64_t i
)
203 oberon_expr_t
* expr
;
204 expr
= oberon_new_item(MODE_SET
, ctx
-> set_type
, true);
205 expr
-> item
.integer
= 1 << i
;
206 expr
-> item
.real
= 1 << i
;
210 static oberon_expr_t
*
211 oberon_make_set_range(oberon_context_t
* ctx
, int64_t x
, int64_t y
)
213 oberon_expr_t
* expr
;
214 expr
= oberon_new_item(MODE_SET
, ctx
-> set_type
, true);
215 expr
-> item
.integer
= (x
<= y
) ? ((2 << y
) - (1 << x
)) : (0);
216 expr
-> item
.real
= expr
-> item
.integer
;
220 // =======================================================================
222 // =======================================================================
224 static oberon_scope_t
*
225 oberon_open_scope(oberon_context_t
* ctx
)
227 oberon_scope_t
* scope
= calloc(1, sizeof *scope
);
228 oberon_object_t
* list
= calloc(1, sizeof *list
);
231 scope
-> list
= list
;
232 scope
-> up
= ctx
-> decl
;
236 scope
-> local
= scope
-> up
-> local
;
237 scope
-> parent
= scope
-> up
-> parent
;
238 scope
-> parent_type
= scope
-> up
-> parent_type
;
239 scope
-> exit_label
= scope
-> up
-> exit_label
;
247 oberon_close_scope(oberon_scope_t
* scope
)
249 oberon_context_t
* ctx
= scope
-> ctx
;
250 ctx
-> decl
= scope
-> up
;
253 static oberon_object_t
*
254 oberon_find_object_in_list(oberon_object_t
* list
, char * name
)
256 oberon_object_t
* x
= list
;
257 while(x
-> next
&& strcmp(x
-> next
-> name
, name
) != 0)
264 static oberon_object_t
*
265 oberon_find_object(oberon_scope_t
* scope
, char * name
, bool check_it
)
267 oberon_object_t
* result
= NULL
;
269 oberon_scope_t
* s
= scope
;
270 while(result
== NULL
&& s
!= NULL
)
272 result
= oberon_find_object_in_list(s
-> list
, name
);
276 if(check_it
&& result
== NULL
)
278 oberon_error(scope
-> ctx
, "undefined ident %s", name
);
284 static oberon_object_t
*
285 oberon_create_object(oberon_scope_t
* scope
, char * name
, int class, bool export
, bool read_only
)
287 oberon_object_t
* newvar
= malloc(sizeof *newvar
);
288 memset(newvar
, 0, sizeof *newvar
);
289 newvar
-> name
= name
;
290 newvar
-> class = class;
291 newvar
-> export
= export
;
292 newvar
-> read_only
= read_only
;
293 newvar
-> local
= scope
-> local
;
294 newvar
-> parent
= scope
-> parent
;
295 newvar
-> parent_type
= scope
-> parent_type
;
296 newvar
-> module
= scope
-> ctx
-> mod
;
300 static oberon_object_t
*
301 oberon_define_object(oberon_scope_t
* scope
, char * name
, int class, bool export
, bool read_only
, bool check_upscope
)
305 if(oberon_find_object(scope
-> up
, name
, false))
307 oberon_error(scope
-> ctx
, "already defined");
311 oberon_object_t
* x
= scope
-> list
;
312 while(x
-> next
&& strcmp(x
-> next
-> name
, name
) != 0)
319 oberon_error(scope
-> ctx
, "already defined");
322 oberon_object_t
* newvar
;
323 newvar
= oberon_create_object(scope
, name
, class, export
, read_only
);
329 static oberon_object_t
*
330 oberon_define_type(oberon_scope_t
* scope
, char * name
, oberon_type_t
* type
, int export
)
332 oberon_object_t
* id
;
333 id
= oberon_define_object(scope
, name
, OBERON_CLASS_TYPE
, export
, false, false);
335 oberon_generator_init_type(scope
-> ctx
, type
);
339 // =======================================================================
341 // =======================================================================
344 oberon_get_char(oberon_context_t
* ctx
)
346 if(ctx
-> code
[ctx
-> code_index
])
348 ctx
-> code_index
+= 1;
349 ctx
-> c
= ctx
-> code
[ctx
-> code_index
];
354 oberon_init_scaner(oberon_context_t
* ctx
, const char * code
)
357 ctx
-> code_index
= 0;
358 ctx
-> c
= ctx
-> code
[ctx
-> code_index
];
362 oberon_read_ident(oberon_context_t
* ctx
)
365 int i
= ctx
-> code_index
;
367 int c
= ctx
-> code
[i
];
375 char * ident
= malloc(len
+ 1);
376 memcpy(ident
, &ctx
->code
[ctx
->code_index
], len
);
379 ctx
-> code_index
= i
;
380 ctx
-> c
= ctx
-> code
[i
];
381 ctx
-> string
= ident
;
382 ctx
-> token
= IDENT
;
384 if(strcmp(ident
, "MODULE") == 0)
386 ctx
-> token
= MODULE
;
388 else if(strcmp(ident
, "END") == 0)
392 else if(strcmp(ident
, "VAR") == 0)
396 else if(strcmp(ident
, "BEGIN") == 0)
398 ctx
-> token
= BEGIN
;
400 else if(strcmp(ident
, "OR") == 0)
404 else if(strcmp(ident
, "DIV") == 0)
408 else if(strcmp(ident
, "MOD") == 0)
412 else if(strcmp(ident
, "PROCEDURE") == 0)
414 ctx
-> token
= PROCEDURE
;
416 else if(strcmp(ident
, "RETURN") == 0)
418 ctx
-> token
= RETURN
;
420 else if(strcmp(ident
, "CONST") == 0)
422 ctx
-> token
= CONST
;
424 else if(strcmp(ident
, "TYPE") == 0)
428 else if(strcmp(ident
, "ARRAY") == 0)
430 ctx
-> token
= ARRAY
;
432 else if(strcmp(ident
, "OF") == 0)
436 else if(strcmp(ident
, "RECORD") == 0)
438 ctx
-> token
= RECORD
;
440 else if(strcmp(ident
, "POINTER") == 0)
442 ctx
-> token
= POINTER
;
444 else if(strcmp(ident
, "TO") == 0)
448 else if(strcmp(ident
, "NIL") == 0)
452 else if(strcmp(ident
, "IMPORT") == 0)
454 ctx
-> token
= IMPORT
;
456 else if(strcmp(ident
, "IN") == 0)
460 else if(strcmp(ident
, "IS") == 0)
464 else if(strcmp(ident
, "IF") == 0)
468 else if(strcmp(ident
, "THEN") == 0)
472 else if(strcmp(ident
, "ELSE") == 0)
476 else if(strcmp(ident
, "ELSIF") == 0)
478 ctx
-> token
= ELSIF
;
480 else if(strcmp(ident
, "WHILE") == 0)
482 ctx
-> token
= WHILE
;
484 else if(strcmp(ident
, "DO") == 0)
488 else if(strcmp(ident
, "REPEAT") == 0)
490 ctx
-> token
= REPEAT
;
492 else if(strcmp(ident
, "UNTIL") == 0)
494 ctx
-> token
= UNTIL
;
496 else if(strcmp(ident
, "FOR") == 0)
500 else if(strcmp(ident
, "BY") == 0)
504 else if(strcmp(ident
, "LOOP") == 0)
508 else if(strcmp(ident
, "EXIT") == 0)
512 else if(strcmp(ident
, "CASE") == 0)
516 else if(strcmp(ident
, "WITH") == 0)
522 #define ISHEXDIGIT(x) \
523 (((x) >= '0' && (x) <= '9') || ((x) >= 'A' && (x) <= 'F'))
526 oberon_read_number(oberon_context_t
* ctx
)
539 * mode = 3 == LONGREAL
543 start_i
= ctx
-> code_index
;
545 while(isdigit(ctx
-> c
))
547 oberon_get_char(ctx
);
550 end_i
= ctx
-> code_index
;
552 if(ISHEXDIGIT(ctx
-> c
))
555 while(ISHEXDIGIT(ctx
-> c
))
557 oberon_get_char(ctx
);
560 end_i
= ctx
-> code_index
;
565 oberon_get_char(ctx
);
567 else if(ctx
-> c
== 'X')
570 oberon_get_char(ctx
);
574 oberon_error(ctx
, "invalid hex number");
577 else if(ctx
-> c
== '.')
579 oberon_get_char(ctx
);
582 /* Чит: избегаем конфликта с DOTDOT */
583 ctx
-> code_index
-= 1;
589 while(isdigit(ctx
-> c
))
591 oberon_get_char(ctx
);
594 if(ctx
-> c
== 'E' || ctx
-> c
== 'D')
596 exp_i
= ctx
-> code_index
;
603 oberon_get_char(ctx
);
605 if(ctx
-> c
== '+' || ctx
-> c
== '-')
607 oberon_get_char(ctx
);
610 while(isdigit(ctx
-> c
))
612 oberon_get_char(ctx
);
616 end_i
= ctx
-> code_index
;
624 oberon_get_char(ctx
);
626 else if(ctx
-> c
== 'X')
629 oberon_get_char(ctx
);
633 int len
= end_i
- start_i
;
634 ident
= malloc(len
+ 1);
635 memcpy(ident
, &ctx
-> code
[start_i
], len
);
638 ctx
-> longmode
= false;
641 int i
= exp_i
- start_i
;
643 ctx
-> longmode
= true;
649 integer
= atol(ident
);
651 ctx
-> token
= INTEGER
;
654 sscanf(ident
, "%lx", &integer
);
656 ctx
-> token
= INTEGER
;
660 sscanf(ident
, "%lf", &real
);
665 sscanf(ident
, "%lx", &integer
);
670 oberon_error(ctx
, "oberon_read_number: wat");
674 ctx
-> string
= ident
;
675 ctx
-> integer
= integer
;
680 oberon_skip_space(oberon_context_t
* ctx
)
682 while(isspace(ctx
-> c
))
684 oberon_get_char(ctx
);
689 oberon_read_comment(oberon_context_t
* ctx
)
696 oberon_get_char(ctx
);
699 oberon_get_char(ctx
);
703 else if(ctx
-> c
== '*')
705 oberon_get_char(ctx
);
708 oberon_get_char(ctx
);
712 else if(ctx
-> c
== 0)
714 oberon_error(ctx
, "unterminated comment");
718 oberon_get_char(ctx
);
723 static void oberon_read_string(oberon_context_t
* ctx
)
726 oberon_get_char(ctx
);
728 int start
= ctx
-> code_index
;
730 while(ctx
-> c
!= 0 && ctx
-> c
!= c
)
732 oberon_get_char(ctx
);
737 oberon_error(ctx
, "unterminated string");
740 int end
= ctx
-> code_index
;
742 oberon_get_char(ctx
);
744 char * string
= calloc(1, end
- start
+ 1);
745 strncpy(string
, &ctx
-> code
[start
], end
- start
);
747 ctx
-> token
= STRING
;
748 ctx
-> string
= string
;
749 ctx
-> integer
= string
[0];
752 static void oberon_read_token(oberon_context_t
* ctx
);
755 oberon_read_symbol(oberon_context_t
* ctx
)
764 ctx
-> token
= SEMICOLON
;
765 oberon_get_char(ctx
);
768 ctx
-> token
= COLON
;
769 oberon_get_char(ctx
);
772 ctx
-> token
= ASSIGN
;
773 oberon_get_char(ctx
);
778 oberon_get_char(ctx
);
781 ctx
-> token
= DOTDOT
;
782 oberon_get_char(ctx
);
786 ctx
-> token
= LPAREN
;
787 oberon_get_char(ctx
);
790 oberon_get_char(ctx
);
791 oberon_read_comment(ctx
);
792 oberon_read_token(ctx
);
796 ctx
-> token
= RPAREN
;
797 oberon_get_char(ctx
);
800 ctx
-> token
= EQUAL
;
801 oberon_get_char(ctx
);
805 oberon_get_char(ctx
);
809 oberon_get_char(ctx
);
813 oberon_get_char(ctx
);
817 ctx
-> token
= GREAT
;
818 oberon_get_char(ctx
);
822 oberon_get_char(ctx
);
827 oberon_get_char(ctx
);
830 ctx
-> token
= MINUS
;
831 oberon_get_char(ctx
);
835 oberon_get_char(ctx
);
838 oberon_get_char(ctx
);
839 oberon_error(ctx
, "unstarted comment");
843 ctx
-> token
= SLASH
;
844 oberon_get_char(ctx
);
848 oberon_get_char(ctx
);
852 oberon_get_char(ctx
);
855 ctx
-> token
= COMMA
;
856 oberon_get_char(ctx
);
859 ctx
-> token
= LBRACK
;
860 oberon_get_char(ctx
);
863 ctx
-> token
= RBRACK
;
864 oberon_get_char(ctx
);
867 ctx
-> token
= UPARROW
;
868 oberon_get_char(ctx
);
871 oberon_read_string(ctx
);
874 oberon_read_string(ctx
);
877 ctx
-> token
= LBRACE
;
878 oberon_get_char(ctx
);
881 ctx
-> token
= RBRACE
;
882 oberon_get_char(ctx
);
886 oberon_get_char(ctx
);
889 oberon_error(ctx
, "invalid char %c", ctx
-> c
);
895 oberon_read_token(oberon_context_t
* ctx
)
897 oberon_skip_space(ctx
);
902 oberon_read_ident(ctx
);
906 oberon_read_number(ctx
);
910 oberon_read_symbol(ctx
);
914 // =======================================================================
916 // =======================================================================
918 static void oberon_expect_token(oberon_context_t
* ctx
, int token
);
919 static oberon_expr_t
* oberon_expr(oberon_context_t
* ctx
);
920 static void oberon_assert_token(oberon_context_t
* ctx
, int token
);
921 static char * oberon_assert_ident(oberon_context_t
* ctx
);
922 static void oberon_type(oberon_context_t
* ctx
, oberon_type_t
** type
);
923 static oberon_item_t
* oberon_const_expr(oberon_context_t
* ctx
);
924 static oberon_expr_t
* oberno_make_dereferencing(oberon_context_t
* ctx
, oberon_expr_t
* expr
);
925 static bool oberon_is_const(oberon_expr_t
* expr
);
927 static oberon_expr_t
*
928 oberon_make_unary_op(oberon_context_t
* ctx
, int token
, oberon_expr_t
* a
)
930 oberon_expr_t
* expr
;
931 oberon_type_t
* result
;
933 result
= a
-> result
;
937 if(result
-> class == OBERON_TYPE_SET
)
939 if(oberon_is_const(a
))
941 expr
= oberon_make_set(ctx
, ~(a
-> item
.integer
));
945 expr
= oberon_new_operator(OP_COMPLEMENTATION
, result
, a
, NULL
);
948 else if(result
-> class == OBERON_TYPE_INTEGER
)
950 if(oberon_is_const(a
))
952 expr
= oberon_make_integer(ctx
, -(a
-> item
.integer
));
956 expr
= oberon_new_operator(OP_UNARY_MINUS
, result
, a
, NULL
);
959 else if(result
-> class == OBERON_TYPE_REAL
)
961 if(oberon_is_const(a
))
963 expr
= oberon_make_real_typed(ctx
, -(a
-> item
.real
), result
);
967 expr
= oberon_new_operator(OP_UNARY_MINUS
, result
, a
, NULL
);
972 oberon_error(ctx
, "incompatible operator type");
975 else if(token
== NOT
)
977 if(result
-> class != OBERON_TYPE_BOOLEAN
)
979 oberon_error(ctx
, "incompatible operator type");
982 if(oberon_is_const(a
))
984 expr
= oberon_make_boolean(ctx
, !(a
-> item
.integer
));
988 expr
= oberon_new_operator(OP_LOGIC_NOT
, result
, a
, NULL
);
993 oberon_error(ctx
, "oberon_make_unary_op: wat");
1000 oberon_expr_list(oberon_context_t
* ctx
, int * num_expr
, oberon_expr_t
** first
, int const_expr
)
1002 oberon_expr_t
* last
;
1007 *first
= last
= (oberon_expr_t
*) oberon_const_expr(ctx
);
1011 *first
= last
= oberon_expr(ctx
);
1013 while(ctx
-> token
== COMMA
)
1015 oberon_assert_token(ctx
, COMMA
);
1016 oberon_expr_t
* current
;
1020 current
= (oberon_expr_t
*) oberon_const_expr(ctx
);
1024 current
= oberon_expr(ctx
);
1027 last
-> next
= current
;
1033 static oberon_expr_t
*
1034 oberon_cast_expr(oberon_context_t
* ctx
, oberon_expr_t
* expr
, oberon_type_t
* pref
)
1036 oberon_expr_t
* cast
;
1038 if((oberon_is_char_type(pref
) && oberon_is_const_string(expr
) && strlen(expr
-> item
.string
) == 1))
1040 /* Автоматически преобразуем строку единичного размера в символ */
1041 cast
= oberon_new_item(MODE_CHAR
, ctx
-> char_type
, true);
1042 cast
-> item
.integer
= expr
-> item
.string
[0];
1046 cast
= oberon_new_operator(OP_CAST
, pref
, expr
, NULL
);
1053 oberon_check_dst(oberon_context_t
* ctx
, oberon_expr_t
* dst
)
1055 if(dst
-> read_only
)
1057 oberon_error(ctx
, "read-only destination");
1060 if(dst
-> is_item
== false)
1062 oberon_error(ctx
, "not variable");
1065 switch(dst
-> item
.mode
)
1076 oberon_error(ctx
, "not variable");
1082 oberon_check_src(oberon_context_t
* ctx
, oberon_expr_t
* src
)
1086 if(src
-> item
.mode
== MODE_TYPE
)
1088 oberon_error(ctx
, "not variable");
1094 oberon_autocast_call(oberon_context_t
* ctx
, oberon_item_t
* desig
)
1096 if(desig
-> mode
!= MODE_CALL
)
1098 oberon_error(ctx
, "expected mode CALL");
1101 oberon_type_t
* fn
= desig
-> parent
-> result
;
1102 int num_args
= desig
-> num_args
;
1103 int num_decl
= fn
-> num_decl
;
1105 if(num_args
< num_decl
)
1107 oberon_error(ctx
, "too few arguments");
1109 else if(num_args
> num_decl
)
1111 oberon_error(ctx
, "too many arguments");
1114 /* Делаем проверку на запись и делаем автокаст */
1115 oberon_expr_t
* casted
[num_args
];
1116 oberon_expr_t
* arg
= desig
-> args
;
1117 oberon_object_t
* param
= fn
-> decl
;
1118 for(int i
= 0; i
< num_args
; i
++)
1120 if(param
-> class == OBERON_CLASS_VAR_PARAM
)
1122 oberon_check_dst(ctx
, arg
);
1123 if(!oberon_is_compatible_arrays(param
, arg
))
1125 oberon_check_compatible_var_param(ctx
, param
-> type
, arg
-> result
);
1127 casted
[i
] = oberon_cast_expr(ctx
, arg
, param
-> type
);
1131 oberon_check_src(ctx
, arg
);
1132 if(!oberon_is_compatible_arrays(param
, arg
))
1134 oberon_check_assignment_compatible(ctx
, arg
, param
-> type
);
1136 casted
[i
] = oberon_cast_expr(ctx
, arg
, param
-> type
);
1140 param
= param
-> next
;
1143 /* Создаём новый список выражений */
1147 for(int i
= 0; i
< num_args
- 1; i
++)
1149 casted
[i
] -> next
= casted
[i
+ 1];
1151 desig
-> args
= arg
;
1155 static oberon_expr_t
*
1156 oberon_make_call_func(oberon_context_t
* ctx
, oberon_item_t
* item
, int num_args
, oberon_expr_t
* list_args
)
1158 oberon_type_t
* signature
= item
-> result
;
1159 if(signature
-> class != OBERON_TYPE_PROCEDURE
)
1161 oberon_error(ctx
, "not a procedure");
1164 oberon_expr_t
* call
;
1166 if(signature
-> sysproc
)
1168 if(signature
-> genfunc
== NULL
)
1170 oberon_error(ctx
, "not a function-procedure");
1173 call
= signature
-> genfunc(ctx
, num_args
, list_args
);
1177 if(signature
-> base
-> class == OBERON_TYPE_NOTYPE
)
1179 oberon_error(ctx
, "attempt to call procedure in expression");
1182 call
= oberon_new_item(MODE_CALL
, signature
-> base
, true);
1183 call
-> item
.parent
= item
;
1184 call
-> item
.num_args
= num_args
;
1185 call
-> item
.args
= list_args
;
1186 oberon_autocast_call(ctx
, (oberon_item_t
*) call
);
1193 oberon_make_call_proc(oberon_context_t
* ctx
, oberon_item_t
* item
, int num_args
, oberon_expr_t
* list_args
)
1195 oberon_type_t
* signature
= item
-> result
;
1196 if(signature
-> class != OBERON_TYPE_PROCEDURE
)
1198 oberon_error(ctx
, "not a procedure");
1201 oberon_expr_t
* call
;
1203 if(signature
-> sysproc
)
1205 if(signature
-> genproc
== NULL
)
1207 oberon_error(ctx
, "not a procedure");
1210 signature
-> genproc(ctx
, num_args
, list_args
);
1214 if(signature
-> base
-> class != OBERON_TYPE_NOTYPE
)
1216 oberon_error(ctx
, "attempt to call function as non-typed procedure");
1219 call
= oberon_new_item(MODE_CALL
, signature
-> base
, true);
1220 call
-> item
.parent
= item
;
1221 call
-> item
.num_args
= num_args
;
1222 call
-> item
.args
= list_args
;
1223 oberon_autocast_call(ctx
, (oberon_item_t
*) call
);
1224 oberon_generate_call_proc(ctx
, call
);
1232 || ((x) == INTEGER) \
1235 || ((x) == STRING) \
1237 || ((x) == LPAREN) \
1240 static oberon_expr_t
*
1241 oberno_make_dereferencing(oberon_context_t
* ctx
, oberon_expr_t
* expr
)
1243 if(expr
-> result
-> class != OBERON_TYPE_POINTER
)
1245 oberon_error(ctx
, "not a pointer");
1248 assert(expr
-> is_item
);
1250 oberon_expr_t
* selector
;
1251 selector
= oberon_new_item(MODE_DEREF
, expr
-> result
-> base
, false);
1252 selector
-> item
.parent
= (oberon_item_t
*) expr
;
1257 static oberon_expr_t
*
1258 oberon_make_array_selector(oberon_context_t
* ctx
, oberon_expr_t
* desig
, oberon_expr_t
* index
)
1260 if(desig
-> result
-> class == OBERON_TYPE_POINTER
)
1262 desig
= oberno_make_dereferencing(ctx
, desig
);
1265 assert(desig
-> is_item
);
1267 if(desig
-> result
-> class != OBERON_TYPE_ARRAY
)
1269 oberon_error(ctx
, "not array");
1272 oberon_type_t
* base
;
1273 base
= desig
-> result
-> base
;
1275 if(index
-> result
-> class != OBERON_TYPE_INTEGER
)
1277 oberon_error(ctx
, "index must be integer");
1280 // Статическая проверка границ массива
1281 if(desig
-> result
-> size
!= 0)
1283 if(index
-> is_item
)
1285 if(index
-> item
.mode
== MODE_INTEGER
)
1287 int arr_size
= desig
-> result
-> size
;
1288 int index_int
= index
-> item
.integer
;
1289 if(index_int
< 0 || index_int
> arr_size
- 1)
1291 oberon_error(ctx
, "not in range (dimension size 0..%i)", arr_size
- 1);
1297 oberon_expr_t
* selector
;
1298 selector
= oberon_new_item(MODE_INDEX
, base
, desig
-> read_only
);
1299 selector
-> item
.parent
= (oberon_item_t
*) desig
;
1300 selector
-> item
.num_args
= 1;
1301 selector
-> item
.args
= index
;
1306 static oberon_expr_t
*
1307 oberon_make_record_selector(oberon_context_t
* ctx
, oberon_expr_t
* expr
, char * name
)
1309 if(expr
-> result
-> class == OBERON_TYPE_POINTER
)
1311 expr
= oberno_make_dereferencing(ctx
, expr
);
1314 assert(expr
-> is_item
);
1316 if(expr
-> result
-> class != OBERON_TYPE_RECORD
)
1318 oberon_error(ctx
, "not record");
1321 oberon_type_t
* rec
= expr
-> result
;
1323 oberon_object_t
* field
;
1324 field
= oberon_find_object(rec
-> scope
, name
, true);
1326 if(field
-> export
== 0)
1328 if(field
-> module
!= ctx
-> mod
)
1330 oberon_error(ctx
, "field not exported");
1334 int read_only
= expr
-> read_only
;
1335 if(field
-> read_only
)
1337 if(field
-> module
!= ctx
-> mod
)
1343 oberon_expr_t
* selector
;
1344 selector
= oberon_new_item(MODE_FIELD
, field
-> type
, read_only
);
1345 selector
-> item
.var
= field
;
1346 selector
-> item
.parent
= (oberon_item_t
*) expr
;
1351 #define ISSELECTOR(x) \
1354 || ((x) == UPARROW) \
1357 static oberon_object_t
*
1358 oberon_qualident(oberon_context_t
* ctx
, char ** xname
, int check
)
1361 oberon_object_t
* x
;
1363 name
= oberon_assert_ident(ctx
);
1364 x
= oberon_find_object(ctx
-> decl
, name
, check
);
1368 if(x
-> class == OBERON_CLASS_MODULE
)
1370 oberon_assert_token(ctx
, DOT
);
1371 name
= oberon_assert_ident(ctx
);
1372 /* Наличие объектов в левых модулях всегда проверяется */
1373 x
= oberon_find_object(x
-> module
-> decl
, name
, 1);
1375 if(x
-> export
== 0)
1377 oberon_error(ctx
, "not exported");
1390 static oberon_expr_t
*
1391 oberon_ident_item(oberon_context_t
* ctx
, char * name
)
1394 oberon_object_t
* x
;
1395 oberon_expr_t
* expr
;
1397 x
= oberon_find_object(ctx
-> decl
, name
, true);
1400 if(x
-> class == OBERON_CLASS_CONST
|| x
-> class == OBERON_CLASS_PROC
)
1405 expr
= oberon_new_item(MODE_VAR
, x
-> type
, read_only
);
1406 expr
-> item
.var
= x
;
1410 static oberon_expr_t
*
1411 oberon_qualident_expr(oberon_context_t
* ctx
)
1413 oberon_object_t
* var
;
1414 oberon_expr_t
* expr
;
1416 var
= oberon_qualident(ctx
, NULL
, 1);
1419 if(var
-> read_only
)
1421 if(var
-> module
!= ctx
-> mod
)
1427 switch(var
-> class)
1429 case OBERON_CLASS_CONST
:
1431 expr
= (oberon_expr_t
*) var
-> value
;
1433 case OBERON_CLASS_TYPE
:
1434 expr
= oberon_new_item(MODE_TYPE
, var
-> type
, read_only
);
1436 case OBERON_CLASS_VAR
:
1437 case OBERON_CLASS_VAR_PARAM
:
1438 case OBERON_CLASS_PARAM
:
1439 expr
= oberon_new_item(MODE_VAR
, var
-> type
, read_only
);
1441 case OBERON_CLASS_PROC
:
1442 expr
= oberon_new_item(MODE_VAR
, var
-> type
, true);
1445 oberon_error(ctx
, "invalid designator");
1449 expr
-> item
.var
= var
;
1454 static oberon_expr_t
*
1455 oberon_designator(oberon_context_t
* ctx
)
1458 oberon_expr_t
* expr
;
1459 oberon_object_t
* objtype
;
1461 expr
= oberon_qualident_expr(ctx
);
1463 while(expr
-> result
-> class != OBERON_TYPE_PROCEDURE
&& ISSELECTOR(ctx
-> token
))
1465 switch(ctx
-> token
)
1468 oberon_assert_token(ctx
, DOT
);
1469 name
= oberon_assert_ident(ctx
);
1470 expr
= oberon_make_record_selector(ctx
, expr
, name
);
1473 oberon_assert_token(ctx
, LBRACK
);
1474 int num_indexes
= 0;
1475 oberon_expr_t
* indexes
= NULL
;
1476 oberon_expr_list(ctx
, &num_indexes
, &indexes
, 0);
1477 oberon_assert_token(ctx
, RBRACK
);
1479 for(int i
= 0; i
< num_indexes
; i
++)
1481 expr
= oberon_make_array_selector(ctx
, expr
, indexes
);
1482 indexes
= indexes
-> next
;
1486 oberon_assert_token(ctx
, UPARROW
);
1487 expr
= oberno_make_dereferencing(ctx
, expr
);
1490 oberon_assert_token(ctx
, LPAREN
);
1491 objtype
= oberon_qualident(ctx
, NULL
, true);
1492 oberon_assert_token(ctx
, RPAREN
);
1493 oberon_check_extension_of(ctx
, expr
-> result
, objtype
-> type
);
1494 expr
= oberon_cast_expr(ctx
, expr
, objtype
-> type
);
1497 oberon_error(ctx
, "oberon_designator: wat");
1505 static oberon_expr_t
*
1506 oberon_opt_func_parens(oberon_context_t
* ctx
, oberon_expr_t
* expr
)
1508 /* Если есть скобки - значит вызов. Если нет, то передаём указатель. */
1509 if(ctx
-> token
== LPAREN
)
1511 oberon_assert_token(ctx
, LPAREN
);
1514 oberon_expr_t
* arguments
= NULL
;
1516 if(ISEXPR(ctx
-> token
))
1518 oberon_expr_list(ctx
, &num_args
, &arguments
, 0);
1521 assert(expr
-> is_item
== 1);
1522 expr
= oberon_make_call_func(ctx
, (oberon_item_t
*) expr
, num_args
, arguments
);
1524 oberon_assert_token(ctx
, RPAREN
);
1531 oberon_opt_proc_parens(oberon_context_t
* ctx
, oberon_expr_t
* expr
)
1533 assert(expr
-> is_item
);
1536 oberon_expr_t
* arguments
= NULL
;
1538 if(ctx
-> token
== LPAREN
)
1540 oberon_assert_token(ctx
, LPAREN
);
1542 if(ISEXPR(ctx
-> token
))
1544 oberon_expr_list(ctx
, &num_args
, &arguments
, 0);
1547 oberon_assert_token(ctx
, RPAREN
);
1550 /* Вызов происходит даже без скобок */
1551 oberon_make_call_proc(ctx
, (oberon_item_t
*) expr
, num_args
, arguments
);
1554 static oberon_expr_t
*
1555 oberon_element(oberon_context_t
* ctx
)
1560 e1
= oberon_expr(ctx
);
1561 oberon_check_src(ctx
, e1
);
1562 if(e1
-> result
-> class != OBERON_TYPE_INTEGER
)
1564 oberon_error(ctx
, "expected integer");
1568 if(ctx
-> token
== DOTDOT
)
1570 oberon_assert_token(ctx
, DOTDOT
);
1571 e2
= oberon_expr(ctx
);
1572 oberon_check_src(ctx
, e2
);
1573 if(e2
-> result
-> class != OBERON_TYPE_INTEGER
)
1575 oberon_error(ctx
, "expected integer");
1579 oberon_expr_t
* set
;
1580 if(e2
== NULL
&& oberon_is_const(e1
))
1582 set
= oberon_make_set_index(ctx
, e1
-> item
.integer
);
1584 else if(e2
!= NULL
&& oberon_is_const(e1
) && oberon_is_const(e2
))
1586 set
= oberon_make_set_range(ctx
, e1
-> item
.integer
, e2
-> item
.integer
);
1590 set
= oberon_new_operator(OP_RANGE
, ctx
-> set_type
, e1
, e2
);
1595 static oberon_expr_t
*
1596 oberon_make_set_union(oberon_context_t
* ctx
, oberon_expr_t
* a
, oberon_expr_t
* b
)
1598 if(oberon_is_const(a
) && oberon_is_const(b
))
1600 return oberon_make_set(ctx
, (a
-> item
.integer
| b
-> item
.integer
));
1604 return oberon_new_operator(OP_UNION
, ctx
-> set_type
, a
, b
);
1608 static oberon_expr_t
*
1609 oberon_set(oberon_context_t
* ctx
)
1611 oberon_expr_t
* set
;
1612 oberon_expr_t
* elements
;
1613 set
= oberon_make_set(ctx
, 0);
1615 oberon_assert_token(ctx
, LBRACE
);
1616 if(ISEXPR(ctx
-> token
))
1618 elements
= oberon_element(ctx
);
1619 set
= oberon_make_set_union(ctx
, set
, elements
);
1620 while(ctx
-> token
== COMMA
)
1622 oberon_assert_token(ctx
, COMMA
);
1623 elements
= oberon_element(ctx
);
1624 set
= oberon_make_set_union(ctx
, set
, elements
);
1627 oberon_assert_token(ctx
, RBRACE
);
1632 static oberon_expr_t
*
1633 oberon_factor(oberon_context_t
* ctx
)
1635 oberon_expr_t
* expr
;
1636 oberon_type_t
* result
;
1638 switch(ctx
-> token
)
1641 expr
= oberon_designator(ctx
);
1642 expr
= oberon_opt_func_parens(ctx
, expr
);
1645 expr
= oberon_make_integer(ctx
, ctx
-> integer
);
1646 oberon_assert_token(ctx
, INTEGER
);
1649 result
= ctx
-> char_type
;
1650 expr
= oberon_new_item(MODE_CHAR
, result
, true);
1651 expr
-> item
.integer
= ctx
-> integer
;
1652 oberon_assert_token(ctx
, CHAR
);
1655 result
= ctx
-> string_type
;
1656 expr
= oberon_new_item(MODE_STRING
, result
, true);
1657 expr
-> item
.string
= ctx
-> string
;
1658 oberon_assert_token(ctx
, STRING
);
1661 expr
= oberon_make_real(ctx
, ctx
-> real
, ctx
-> longmode
);
1662 oberon_assert_token(ctx
, REAL
);
1665 expr
= oberon_set(ctx
);
1668 oberon_assert_token(ctx
, LPAREN
);
1669 expr
= oberon_expr(ctx
);
1670 oberon_assert_token(ctx
, RPAREN
);
1673 oberon_assert_token(ctx
, NOT
);
1674 expr
= oberon_factor(ctx
);
1675 expr
= oberon_make_unary_op(ctx
, NOT
, expr
);
1678 oberon_assert_token(ctx
, NIL
);
1679 expr
= oberon_new_item(MODE_NIL
, ctx
-> nil_type
, true);
1682 oberon_error(ctx
, "invalid expression");
1688 static oberon_expr_t
*
1689 oberon_make_bin_op(oberon_context_t
* ctx
, int token
, oberon_expr_t
* a
, oberon_expr_t
* b
)
1691 oberon_expr_t
* expr
;
1692 oberon_type_t
* result
;
1694 oberon_check_compatible_bin_expr_types(ctx
, token
, a
-> result
, b
-> result
);
1695 oberon_check_src(ctx
, a
);
1698 oberon_check_src(ctx
, b
);
1703 if(oberon_is_const(a
) && oberon_is_const(b
))
1705 expr
= oberon_make_boolean(ctx
, (1 << a
-> item
.integer
) & b
-> item
.integer
);
1709 expr
= oberon_new_operator(OP_IN
, ctx
-> bool_type
, a
, b
);
1712 else if(token
== IS
)
1714 oberon_check_type_expr(ctx
, b
);
1715 expr
= oberon_new_operator(OP_IS
, ctx
-> bool_type
, a
, b
);
1717 else if((token
>= EQUAL
&& token
<= GEQ
) || token
== OR
|| token
== AND
)
1719 result
= oberon_get_longer_type(ctx
, a
-> result
, b
-> result
);
1721 if(oberon_is_const(a
) && oberon_is_const(b
)
1722 && (oberon_is_real_type(result
) || oberon_is_integer_type(result
)))
1724 if(oberon_is_real_type(result
))
1726 double x
= a
-> item
.real
;
1727 double y
= b
-> item
.real
;
1730 case EQUAL
: expr
= oberon_make_boolean(ctx
, x
== y
); break;
1731 case NEQ
: expr
= oberon_make_boolean(ctx
, x
!= y
); break;
1732 case LESS
: expr
= oberon_make_boolean(ctx
, x
< y
); break;
1733 case LEQ
: expr
= oberon_make_boolean(ctx
, x
<= y
); break;
1734 case GREAT
: expr
= oberon_make_boolean(ctx
, x
> y
); break;
1735 case GEQ
: expr
= oberon_make_boolean(ctx
, x
>= y
); break;
1736 case OR
: expr
= oberon_make_boolean(ctx
, x
|| y
); break;
1737 case AND
: expr
= oberon_make_boolean(ctx
, x
&& y
); break;
1738 default: assert(0); break;
1741 else if(oberon_is_integer_type(result
))
1743 int64_t x
= a
-> item
.integer
;
1744 int64_t y
= b
-> item
.integer
;
1747 case EQUAL
: expr
= oberon_make_boolean(ctx
, x
== y
); break;
1748 case NEQ
: expr
= oberon_make_boolean(ctx
, x
!= y
); break;
1749 case LESS
: expr
= oberon_make_boolean(ctx
, x
< y
); break;
1750 case LEQ
: expr
= oberon_make_boolean(ctx
, x
<= y
); break;
1751 case GREAT
: expr
= oberon_make_boolean(ctx
, x
> y
); break;
1752 case GEQ
: expr
= oberon_make_boolean(ctx
, x
>= y
); break;
1753 case OR
: expr
= oberon_make_boolean(ctx
, x
|| y
); break;
1754 case AND
: expr
= oberon_make_boolean(ctx
, x
&& y
); break;
1755 default: assert(0); break;
1765 a
= oberon_cast_expr(ctx
, a
, result
);
1766 b
= oberon_cast_expr(ctx
, b
, result
);
1767 result
= ctx
-> bool_type
;
1770 case EQUAL
: expr
= oberon_new_operator(OP_EQ
, result
, a
, b
); break;
1771 case NEQ
: expr
= oberon_new_operator(OP_NEQ
, result
, a
, b
); break;
1772 case LESS
: expr
= oberon_new_operator(OP_LSS
, result
, a
, b
); break;
1773 case LEQ
: expr
= oberon_new_operator(OP_LEQ
, result
, a
, b
); break;
1774 case GREAT
: expr
= oberon_new_operator(OP_GRT
, result
, a
, b
); break;
1775 case GEQ
: expr
= oberon_new_operator(OP_GEQ
, result
, a
, b
); break;
1776 case OR
: expr
= oberon_new_operator(OP_LOGIC_OR
, result
, a
, b
); break;
1777 case AND
: expr
= oberon_new_operator(OP_LOGIC_AND
, result
, a
, b
); break;
1778 default: assert(0); break;
1782 else if(token
== SLASH
)
1784 if(oberon_is_set_type(a
-> result
) && oberon_is_set_type(b
-> result
))
1786 if(oberon_is_const(a
) && oberon_is_const(b
))
1788 int64_t x
= a
-> item
.integer
;
1789 int64_t y
= b
-> item
.integer
;
1790 expr
= oberon_make_set(ctx
, x
^ y
);
1794 result
= oberon_get_longer_type(ctx
, a
-> result
, b
-> result
);
1795 a
= oberon_cast_expr(ctx
, a
, result
);
1796 b
= oberon_cast_expr(ctx
, b
, result
);
1797 expr
= oberon_new_operator(OP_SYM_DIFFERENCE
, result
, a
, b
);
1802 result
= oberon_get_longer_real_type(ctx
, a
-> result
, b
-> result
);
1803 if(oberon_is_const(a
) && oberon_is_const(b
))
1805 double x
= a
-> item
.real
;
1806 double y
= b
-> item
.real
;
1807 expr
= oberon_make_real_typed(ctx
, x
/ y
, result
);
1811 a
= oberon_cast_expr(ctx
, a
, result
);
1812 b
= oberon_cast_expr(ctx
, b
, result
);
1813 expr
= oberon_new_operator(OP_DIV
, result
, a
, b
);
1819 result
= oberon_get_longer_type(ctx
, a
-> result
, b
-> result
);
1821 if(oberon_is_const(a
) && oberon_is_const(b
))
1823 if(oberon_is_set_type(result
))
1825 int64_t x
= a
-> item
.integer
;
1826 int64_t y
= b
-> item
.integer
;
1829 case PLUS
: expr
= oberon_make_set(ctx
, x
| y
); break;
1830 case MINUS
: expr
= oberon_make_set(ctx
, x
& ~y
); break;
1831 case STAR
: expr
= oberon_make_set(ctx
, x
& y
); break;
1832 default: assert(0); break;
1835 if(oberon_is_real_type(result
))
1837 double x
= a
-> item
.real
;
1838 double y
= b
-> item
.real
;
1841 case PLUS
: expr
= oberon_make_real_typed(ctx
, x
+ y
, result
); break;
1842 case MINUS
: expr
= oberon_make_real_typed(ctx
, x
- y
, result
); break;
1843 case STAR
: expr
= oberon_make_real_typed(ctx
, x
* y
, result
); break;
1844 default: assert(0); break;
1847 else if(oberon_is_integer_type(result
))
1849 int64_t x
= a
-> item
.integer
;
1850 int64_t y
= b
-> item
.integer
;
1853 case PLUS
: expr
= oberon_make_integer(ctx
, x
+ y
); break;
1854 case MINUS
: expr
= oberon_make_integer(ctx
, x
- y
); break;
1855 case STAR
: expr
= oberon_make_integer(ctx
, x
* y
); break;
1856 case DIV
: expr
= oberon_make_integer(ctx
, x
/ y
); break;
1857 case MOD
: expr
= oberon_make_integer(ctx
, x
% y
); break;
1858 default: assert(0); break;
1868 a
= oberon_cast_expr(ctx
, a
, result
);
1869 b
= oberon_cast_expr(ctx
, b
, result
);
1872 if(oberon_is_set_type(result
))
1877 expr
= oberon_new_operator(OP_UNION
, result
, a
, b
);
1880 expr
= oberon_new_operator(OP_DIFFERENCE
, result
, a
, b
);
1883 expr
= oberon_new_operator(OP_INTERSECTION
, result
, a
, b
);
1890 else if(oberon_is_number_type(result
))
1895 expr
= oberon_new_operator(OP_ADD
, result
, a
, b
);
1898 expr
= oberon_new_operator(OP_SUB
, result
, a
, b
);
1901 expr
= oberon_new_operator(OP_MUL
, result
, a
, b
);
1918 #define ISMULOP(x) \
1919 ((x) >= STAR && (x) <= AND)
1921 static oberon_expr_t
*
1922 oberon_term_expr(oberon_context_t
* ctx
)
1924 oberon_expr_t
* expr
;
1926 expr
= oberon_factor(ctx
);
1927 while(ISMULOP(ctx
-> token
))
1929 int token
= ctx
-> token
;
1930 oberon_read_token(ctx
);
1932 oberon_expr_t
* inter
= oberon_factor(ctx
);
1933 expr
= oberon_make_bin_op(ctx
, token
, expr
, inter
);
1939 #define ISADDOP(x) \
1940 ((x) >= PLUS && (x) <= OR)
1942 static oberon_expr_t
*
1943 oberon_simple_expr(oberon_context_t
* ctx
)
1945 oberon_expr_t
* expr
;
1948 if(ctx
-> token
== PLUS
)
1951 oberon_assert_token(ctx
, PLUS
);
1953 else if(ctx
-> token
== MINUS
)
1956 oberon_assert_token(ctx
, MINUS
);
1959 expr
= oberon_term_expr(ctx
);
1961 while(ISADDOP(ctx
-> token
))
1963 int token
= ctx
-> token
;
1964 oberon_read_token(ctx
);
1966 oberon_expr_t
* inter
= oberon_term_expr(ctx
);
1967 expr
= oberon_make_bin_op(ctx
, token
, expr
, inter
);
1972 expr
= oberon_make_unary_op(ctx
, MINUS
, expr
);
1978 #define ISRELATION(x) \
1979 ((x) >= EQUAL && (x) <= IS)
1981 static oberon_expr_t
*
1982 oberon_expr(oberon_context_t
* ctx
)
1984 oberon_expr_t
* expr
;
1986 expr
= oberon_simple_expr(ctx
);
1987 while(ISRELATION(ctx
-> token
))
1989 int token
= ctx
-> token
;
1990 oberon_read_token(ctx
);
1992 oberon_expr_t
* inter
= oberon_simple_expr(ctx
);
1993 expr
= oberon_make_bin_op(ctx
, token
, expr
, inter
);
2000 oberon_is_const(oberon_expr_t
* expr
)
2002 if(expr
-> is_item
== false)
2007 switch(expr
-> item
.mode
)
2028 oberon_check_const(oberon_context_t
* ctx
, oberon_expr_t
* expr
)
2030 if(!oberon_is_const(expr
))
2032 oberon_error(ctx
, "const expression are required");
2036 static oberon_item_t
*
2037 oberon_const_expr(oberon_context_t
* ctx
)
2039 oberon_expr_t
* expr
;
2040 expr
= oberon_expr(ctx
);
2041 oberon_check_const(ctx
, expr
);
2042 return (oberon_item_t
*) expr
;
2045 // =======================================================================
2047 // =======================================================================
2049 static void oberon_decl_seq(oberon_context_t
* ctx
);
2050 static void oberon_statement_seq(oberon_context_t
* ctx
);
2051 static void oberon_initialize_decl(oberon_context_t
* ctx
);
2054 oberon_expect_token(oberon_context_t
* ctx
, int token
)
2056 if(ctx
-> token
!= token
)
2058 oberon_error(ctx
, "unexpected token %i (%i)", ctx
-> token
, token
);
2063 oberon_assert_token(oberon_context_t
* ctx
, int token
)
2065 oberon_expect_token(ctx
, token
);
2066 oberon_read_token(ctx
);
2070 oberon_assert_ident(oberon_context_t
* ctx
)
2072 oberon_expect_token(ctx
, IDENT
);
2073 char * ident
= ctx
-> string
;
2074 oberon_read_token(ctx
);
2079 oberon_def(oberon_context_t
* ctx
, int * export
, int * read_only
)
2081 switch(ctx
-> token
)
2084 oberon_assert_token(ctx
, STAR
);
2089 oberon_assert_token(ctx
, MINUS
);
2100 static oberon_object_t
*
2101 oberon_ident_def(oberon_context_t
* ctx
, int class, bool check_upscope
)
2106 oberon_object_t
* x
;
2108 name
= oberon_assert_ident(ctx
);
2109 oberon_def(ctx
, &export
, &read_only
);
2111 x
= oberon_define_object(ctx
-> decl
, name
, class, export
, read_only
, check_upscope
);
2116 oberon_ident_list(oberon_context_t
* ctx
, int class, bool check_upscope
, int * num
, oberon_object_t
** list
)
2119 *list
= oberon_ident_def(ctx
, class, check_upscope
);
2120 while(ctx
-> token
== COMMA
)
2122 oberon_assert_token(ctx
, COMMA
);
2123 oberon_ident_def(ctx
, class, check_upscope
);
2129 oberon_var_decl(oberon_context_t
* ctx
)
2132 oberon_object_t
* list
;
2133 oberon_type_t
* type
;
2134 type
= oberon_new_type_ptr(OBERON_TYPE_NOTYPE
);
2136 oberon_ident_list(ctx
, OBERON_CLASS_VAR
, false, &num
, &list
);
2137 oberon_assert_token(ctx
, COLON
);
2138 oberon_type(ctx
, &type
);
2140 oberon_object_t
* var
= list
;
2141 for(int i
= 0; i
< num
; i
++)
2148 static oberon_object_t
*
2149 oberon_fp_section(oberon_context_t
* ctx
, int * num_decl
)
2151 int class = OBERON_CLASS_PARAM
;
2152 if(ctx
-> token
== VAR
)
2154 oberon_read_token(ctx
);
2155 class = OBERON_CLASS_VAR_PARAM
;
2159 oberon_object_t
* list
;
2160 oberon_ident_list(ctx
, class, false, &num
, &list
);
2162 oberon_assert_token(ctx
, COLON
);
2164 oberon_type_t
* type
;
2165 type
= oberon_new_type_ptr(OBERON_TYPE_NOTYPE
);
2166 oberon_type(ctx
, &type
);
2168 oberon_object_t
* param
= list
;
2169 for(int i
= 0; i
< num
; i
++)
2171 param
-> type
= type
;
2172 param
= param
-> next
;
2179 #define ISFPSECTION \
2180 ((ctx -> token == VAR) || (ctx -> token == IDENT))
2183 oberon_formal_pars(oberon_context_t
* ctx
, oberon_type_t
* signature
)
2185 oberon_assert_token(ctx
, LPAREN
);
2189 signature
-> decl
= oberon_fp_section(ctx
, &signature
-> num_decl
);
2190 while(ctx
-> token
== SEMICOLON
)
2192 oberon_assert_token(ctx
, SEMICOLON
);
2193 oberon_fp_section(ctx
, &signature
-> num_decl
);
2197 oberon_assert_token(ctx
, RPAREN
);
2199 if(ctx
-> token
== COLON
)
2201 oberon_assert_token(ctx
, COLON
);
2203 oberon_object_t
* typeobj
;
2204 typeobj
= oberon_qualident(ctx
, NULL
, 1);
2205 if(typeobj
-> class != OBERON_CLASS_TYPE
)
2207 oberon_error(ctx
, "function result is not type");
2209 if(typeobj
-> type
-> class == OBERON_TYPE_RECORD
2210 || typeobj
-> type
-> class == OBERON_TYPE_ARRAY
)
2212 oberon_error(ctx
, "records or arrays could not be result of function");
2214 signature
-> base
= typeobj
-> type
;
2219 oberon_opt_formal_pars(oberon_context_t
* ctx
, oberon_type_t
** type
)
2221 oberon_type_t
* signature
;
2223 signature
-> class = OBERON_TYPE_PROCEDURE
;
2224 signature
-> num_decl
= 0;
2225 signature
-> base
= ctx
-> notype_type
;
2226 signature
-> decl
= NULL
;
2228 if(ctx
-> token
== LPAREN
)
2230 oberon_formal_pars(ctx
, signature
);
2235 oberon_compare_signatures(oberon_context_t
* ctx
, oberon_type_t
* a
, oberon_type_t
* b
)
2237 if(a
-> num_decl
!= b
-> num_decl
)
2239 oberon_error(ctx
, "number parameters not matched");
2242 int num_param
= a
-> num_decl
;
2243 oberon_object_t
* param_a
= a
-> decl
;
2244 oberon_object_t
* param_b
= b
-> decl
;
2245 for(int i
= 0; i
< num_param
; i
++)
2247 if(strcmp(param_a
-> name
, param_b
-> name
) != 0)
2249 oberon_error(ctx
, "param %i name not matched", i
+ 1);
2252 if(param_a
-> type
!= param_b
-> type
)
2254 oberon_error(ctx
, "param %i type not matched", i
+ 1);
2257 param_a
= param_a
-> next
;
2258 param_b
= param_b
-> next
;
2263 oberon_make_return(oberon_context_t
* ctx
, oberon_expr_t
* expr
)
2265 oberon_object_t
* proc
= ctx
-> decl
-> parent
;
2266 oberon_type_t
* result_type
= proc
-> type
-> base
;
2268 if(result_type
-> class == OBERON_TYPE_NOTYPE
)
2272 oberon_error(ctx
, "procedure has no result type");
2279 oberon_error(ctx
, "procedure requires expression on result");
2282 oberon_check_src(ctx
, expr
);
2283 oberon_check_assignment_compatible(ctx
, expr
, result_type
);
2284 expr
= oberon_cast_expr(ctx
, expr
, result_type
);
2287 proc
-> has_return
= 1;
2289 oberon_generate_return(ctx
, expr
);
2293 oberon_proc_decl_body(oberon_context_t
* ctx
, oberon_object_t
* proc
)
2295 oberon_assert_token(ctx
, SEMICOLON
);
2297 ctx
-> decl
= proc
-> scope
;
2299 oberon_decl_seq(ctx
);
2301 oberon_generate_begin_proc(ctx
, proc
);
2303 if(ctx
-> token
== BEGIN
)
2305 oberon_assert_token(ctx
, BEGIN
);
2306 oberon_statement_seq(ctx
);
2309 oberon_assert_token(ctx
, END
);
2310 char * name
= oberon_assert_ident(ctx
);
2311 if(strcmp(name
, proc
-> name
) != 0)
2313 oberon_error(ctx
, "procedure name not matched");
2316 if(proc
-> type
-> base
-> class == OBERON_TYPE_NOTYPE
2317 && proc
-> has_return
== 0)
2319 oberon_make_return(ctx
, NULL
);
2322 if(proc
-> has_return
== 0)
2324 oberon_error(ctx
, "procedure requires return");
2327 oberon_generate_end_proc(ctx
);
2328 oberon_close_scope(ctx
-> decl
);
2332 oberon_proc_decl(oberon_context_t
* ctx
)
2334 oberon_assert_token(ctx
, PROCEDURE
);
2337 if(ctx
-> token
== UPARROW
)
2339 oberon_assert_token(ctx
, UPARROW
);
2346 name
= oberon_assert_ident(ctx
);
2347 oberon_def(ctx
, &export
, &read_only
);
2349 oberon_scope_t
* proc_scope
;
2350 proc_scope
= oberon_open_scope(ctx
);
2351 ctx
-> decl
-> local
= 1;
2353 oberon_type_t
* signature
;
2354 signature
= oberon_new_type_ptr(OBERON_TYPE_NOTYPE
);
2355 oberon_opt_formal_pars(ctx
, &signature
);
2357 //oberon_initialize_decl(ctx);
2358 oberon_generator_init_type(ctx
, signature
);
2359 oberon_close_scope(ctx
-> decl
);
2361 oberon_object_t
* proc
;
2362 proc
= oberon_find_object(ctx
-> decl
, name
, 0);
2365 proc
= oberon_define_object(ctx
-> decl
, name
, OBERON_CLASS_PROC
, export
, read_only
, false);
2366 proc
-> type
= signature
;
2367 proc
-> scope
= proc_scope
;
2368 oberon_generator_init_proc(ctx
, proc
);
2372 if(proc
-> class != OBERON_CLASS_PROC
)
2374 oberon_error(ctx
, "mult definition");
2381 oberon_error(ctx
, "mult procedure definition");
2385 if(proc
-> export
!= export
|| proc
-> read_only
!= read_only
)
2387 oberon_error(ctx
, "export type not matched");
2390 oberon_compare_signatures(ctx
, proc
-> type
, signature
);
2393 proc_scope
-> parent
= proc
;
2394 oberon_object_t
* param
= proc_scope
-> list
-> next
;
2397 param
-> parent
= proc
;
2398 param
= param
-> next
;
2404 oberon_proc_decl_body(ctx
, proc
);
2409 oberon_const_decl(oberon_context_t
* ctx
)
2411 oberon_item_t
* value
;
2412 oberon_object_t
* constant
;
2414 constant
= oberon_ident_def(ctx
, OBERON_CLASS_CONST
, false);
2415 oberon_assert_token(ctx
, EQUAL
);
2416 value
= oberon_const_expr(ctx
);
2417 constant
-> value
= value
;
2421 oberon_make_array_type(oberon_context_t
* ctx
, oberon_expr_t
* size
, oberon_type_t
* base
, oberon_type_t
** type
)
2423 if(size
-> is_item
== 0)
2425 oberon_error(ctx
, "requires constant");
2428 if(size
-> item
.mode
!= MODE_INTEGER
)
2430 oberon_error(ctx
, "requires integer constant");
2433 oberon_type_t
* arr
;
2435 arr
-> class = OBERON_TYPE_ARRAY
;
2436 arr
-> size
= size
-> item
.integer
;
2441 oberon_qualident_type(oberon_context_t
* ctx
, oberon_type_t
** type
)
2444 oberon_object_t
* to
;
2446 to
= oberon_qualident(ctx
, &name
, 0);
2448 //name = oberon_assert_ident(ctx);
2449 //to = oberon_find_object(ctx -> decl, name, 0);
2453 if(to
-> class != OBERON_CLASS_TYPE
)
2455 oberon_error(ctx
, "not a type");
2460 to
= oberon_define_object(ctx
-> decl
, name
, OBERON_CLASS_TYPE
, false, false, false);
2461 to
-> type
= oberon_new_type_ptr(OBERON_TYPE_NOTYPE
);
2467 static void oberon_opt_formal_pars(oberon_context_t
* ctx
, oberon_type_t
** type
);
2470 * Правило граматики "type". Указатель type должен указывать на существующий объект!
2474 oberon_make_multiarray(oberon_context_t
* ctx
, oberon_expr_t
* sizes
, oberon_type_t
* base
, oberon_type_t
** type
)
2482 oberon_type_t
* dim
;
2483 dim
= oberon_new_type_ptr(OBERON_TYPE_NOTYPE
);
2485 oberon_make_multiarray(ctx
, sizes
-> next
, base
, &dim
);
2487 oberon_make_array_type(ctx
, sizes
, dim
, type
);
2491 oberon_make_open_array(oberon_context_t
* ctx
, oberon_type_t
* base
, oberon_type_t
* type
)
2493 type
-> class = OBERON_TYPE_ARRAY
;
2495 type
-> base
= base
;
2499 oberon_field_list(oberon_context_t
* ctx
, oberon_type_t
* rec
, oberon_scope_t
* modscope
)
2501 if(ctx
-> token
== IDENT
)
2504 oberon_object_t
* list
;
2505 oberon_type_t
* type
;
2506 type
= oberon_new_type_ptr(OBERON_TYPE_NOTYPE
);
2508 oberon_ident_list(ctx
, OBERON_CLASS_FIELD
, true, &num
, &list
);
2509 oberon_assert_token(ctx
, COLON
);
2511 oberon_scope_t
* current
= ctx
-> decl
;
2512 ctx
-> decl
= modscope
;
2513 oberon_type(ctx
, &type
);
2514 ctx
-> decl
= current
;
2516 oberon_object_t
* field
= list
;
2517 for(int i
= 0; i
< num
; i
++)
2519 field
-> type
= type
;
2520 field
= field
-> next
;
2523 rec
-> num_decl
+= num
;
2528 oberon_type_record_body(oberon_context_t
* ctx
, oberon_type_t
* rec
)
2530 oberon_scope_t
* modscope
= ctx
-> mod
-> decl
;
2531 oberon_scope_t
* oldscope
= ctx
-> decl
;
2532 ctx
-> decl
= modscope
;
2534 if(ctx
-> token
== LPAREN
)
2536 oberon_assert_token(ctx
, LPAREN
);
2538 oberon_object_t
* typeobj
;
2539 typeobj
= oberon_qualident(ctx
, NULL
, true);
2541 if(typeobj
-> class != OBERON_CLASS_TYPE
)
2543 oberon_error(ctx
, "base must be type");
2546 oberon_type_t
* base
= typeobj
-> type
;
2547 if(base
-> class == OBERON_TYPE_POINTER
)
2549 base
= base
-> base
;
2552 if(base
-> class != OBERON_TYPE_RECORD
)
2554 oberon_error(ctx
, "base must be record type");
2558 ctx
-> decl
= base
-> scope
;
2560 oberon_assert_token(ctx
, RPAREN
);
2567 oberon_scope_t
* this_scope
;
2568 this_scope
= oberon_open_scope(ctx
);
2569 this_scope
-> local
= true;
2570 this_scope
-> parent
= NULL
;
2571 this_scope
-> parent_type
= rec
;
2573 oberon_field_list(ctx
, rec
, modscope
);
2574 while(ctx
-> token
== SEMICOLON
)
2576 oberon_assert_token(ctx
, SEMICOLON
);
2577 oberon_field_list(ctx
, rec
, modscope
);
2580 rec
-> scope
= this_scope
;
2581 rec
-> decl
= this_scope
-> list
-> next
;
2582 ctx
-> decl
= oldscope
;
2586 oberon_type(oberon_context_t
* ctx
, oberon_type_t
** type
)
2588 if(ctx
-> token
== IDENT
)
2590 oberon_qualident_type(ctx
, type
);
2592 else if(ctx
-> token
== ARRAY
)
2594 oberon_assert_token(ctx
, ARRAY
);
2597 oberon_expr_t
* sizes
;
2599 if(ISEXPR(ctx
-> token
))
2601 oberon_expr_list(ctx
, &num_sizes
, &sizes
, 1);
2604 oberon_assert_token(ctx
, OF
);
2606 oberon_type_t
* base
;
2607 base
= oberon_new_type_ptr(OBERON_TYPE_NOTYPE
);
2608 oberon_type(ctx
, &base
);
2612 oberon_make_open_array(ctx
, base
, *type
);
2616 oberon_make_multiarray(ctx
, sizes
, base
, type
);
2619 else if(ctx
-> token
== RECORD
)
2621 oberon_type_t
* rec
;
2623 rec
-> class = OBERON_TYPE_RECORD
;
2624 rec
-> module
= ctx
-> mod
;
2626 oberon_assert_token(ctx
, RECORD
);
2627 oberon_type_record_body(ctx
, rec
);
2628 oberon_assert_token(ctx
, END
);
2632 else if(ctx
-> token
== POINTER
)
2634 oberon_assert_token(ctx
, POINTER
);
2635 oberon_assert_token(ctx
, TO
);
2637 oberon_type_t
* base
;
2638 base
= oberon_new_type_ptr(OBERON_TYPE_NOTYPE
);
2639 oberon_type(ctx
, &base
);
2641 oberon_type_t
* ptr
;
2643 ptr
-> class = OBERON_TYPE_POINTER
;
2646 else if(ctx
-> token
== PROCEDURE
)
2648 oberon_open_scope(ctx
);
2649 oberon_assert_token(ctx
, PROCEDURE
);
2650 oberon_opt_formal_pars(ctx
, type
);
2651 oberon_close_scope(ctx
-> decl
);
2655 oberon_error(ctx
, "invalid type declaration");
2660 oberon_type_decl(oberon_context_t
* ctx
)
2663 oberon_object_t
* newtype
;
2664 oberon_type_t
* type
;
2668 name
= oberon_assert_ident(ctx
);
2669 oberon_def(ctx
, &export
, &read_only
);
2671 newtype
= oberon_find_object(ctx
-> decl
, name
, 0);
2674 newtype
= oberon_define_object(ctx
-> decl
, name
, OBERON_CLASS_TYPE
, export
, read_only
, false);
2675 newtype
-> type
= oberon_new_type_ptr(OBERON_TYPE_NOTYPE
);
2676 assert(newtype
-> type
);
2680 if(newtype
-> class != OBERON_CLASS_TYPE
)
2682 oberon_error(ctx
, "mult definition");
2685 if(newtype
-> linked
)
2687 oberon_error(ctx
, "mult definition - already linked");
2690 newtype
-> export
= export
;
2691 newtype
-> read_only
= read_only
;
2694 oberon_assert_token(ctx
, EQUAL
);
2696 type
= newtype
-> type
;
2697 oberon_type(ctx
, &type
);
2699 if(type
-> class == OBERON_TYPE_NOTYPE
)
2701 oberon_error(ctx
, "recursive alias declaration");
2704 newtype
-> type
= type
;
2705 newtype
-> linked
= 1;
2708 static void oberon_prevent_recursive_object(oberon_context_t
* ctx
, oberon_object_t
* x
);
2709 static void oberon_prevent_recursive_type(oberon_context_t
* ctx
, oberon_type_t
* type
);
2712 oberon_prevent_recursive_pointer(oberon_context_t
* ctx
, oberon_type_t
* type
)
2714 if(type
-> class != OBERON_TYPE_POINTER
2715 && type
-> class != OBERON_TYPE_ARRAY
)
2720 if(type
-> recursive
)
2722 oberon_error(ctx
, "recursive pointer declaration");
2725 if(type
-> class == OBERON_TYPE_POINTER
2726 && type
-> base
-> class == OBERON_TYPE_POINTER
)
2728 oberon_error(ctx
, "attempt to make pointer to pointer");
2731 type
-> recursive
= 1;
2733 oberon_prevent_recursive_pointer(ctx
, type
-> base
);
2735 type
-> recursive
= 0;
2739 oberon_prevent_recursive_record(oberon_context_t
* ctx
, oberon_type_t
* type
)
2741 if(type
-> class != OBERON_TYPE_RECORD
)
2746 if(type
-> recursive
)
2748 oberon_error(ctx
, "recursive record declaration");
2751 type
-> recursive
= 1;
2755 oberon_prevent_recursive_record(ctx
, type
-> base
);
2758 int num_fields
= type
-> num_decl
;
2759 oberon_object_t
* field
= type
-> decl
;
2760 for(int i
= 0; i
< num_fields
; i
++)
2762 oberon_prevent_recursive_object(ctx
, field
);
2763 field
= field
-> next
;
2766 type
-> recursive
= 0;
2769 oberon_prevent_recursive_procedure(oberon_context_t
* ctx
, oberon_type_t
* type
)
2771 if(type
-> class != OBERON_TYPE_PROCEDURE
)
2776 if(type
-> recursive
)
2778 oberon_error(ctx
, "recursive procedure declaration");
2781 type
-> recursive
= 1;
2783 int num_fields
= type
-> num_decl
;
2784 oberon_object_t
* field
= type
-> decl
;
2785 for(int i
= 0; i
< num_fields
; i
++)
2787 oberon_prevent_recursive_object(ctx
, field
);
2788 field
= field
-> next
;
2791 type
-> recursive
= 0;
2795 oberon_prevent_recursive_array(oberon_context_t
* ctx
, oberon_type_t
* type
)
2797 if(type
-> class != OBERON_TYPE_ARRAY
)
2802 if(type
-> recursive
)
2804 oberon_error(ctx
, "recursive array declaration");
2807 type
-> recursive
= 1;
2809 oberon_prevent_recursive_type(ctx
, type
-> base
);
2811 type
-> recursive
= 0;
2815 oberon_prevent_recursive_type(oberon_context_t
* ctx
, oberon_type_t
* type
)
2817 if(type
-> class == OBERON_TYPE_POINTER
)
2819 oberon_prevent_recursive_pointer(ctx
, type
);
2821 else if(type
-> class == OBERON_TYPE_RECORD
)
2823 oberon_prevent_recursive_record(ctx
, type
);
2825 else if(type
-> class == OBERON_TYPE_ARRAY
)
2827 oberon_prevent_recursive_array(ctx
, type
);
2829 else if(type
-> class == OBERON_TYPE_PROCEDURE
)
2831 oberon_prevent_recursive_procedure(ctx
, type
);
2836 oberon_prevent_recursive_object(oberon_context_t
* ctx
, oberon_object_t
* x
)
2840 case OBERON_CLASS_VAR
:
2841 case OBERON_CLASS_TYPE
:
2842 case OBERON_CLASS_PARAM
:
2843 case OBERON_CLASS_VAR_PARAM
:
2844 case OBERON_CLASS_FIELD
:
2845 oberon_prevent_recursive_type(ctx
, x
-> type
);
2847 case OBERON_CLASS_CONST
:
2848 case OBERON_CLASS_PROC
:
2849 case OBERON_CLASS_MODULE
:
2852 oberon_error(ctx
, "oberon_prevent_recursive_object: wat");
2858 oberon_prevent_recursive_decl(oberon_context_t
* ctx
)
2860 oberon_object_t
* x
= ctx
-> decl
-> list
-> next
;
2864 oberon_prevent_recursive_object(ctx
, x
);
2869 static void oberon_initialize_object(oberon_context_t
* ctx
, oberon_object_t
* x
);
2870 static void oberon_initialize_type(oberon_context_t
* ctx
, oberon_type_t
* type
);
2873 oberon_initialize_record_fields(oberon_context_t
* ctx
, oberon_type_t
* type
)
2875 if(type
-> class != OBERON_TYPE_RECORD
)
2880 int num_fields
= type
-> num_decl
;
2881 oberon_object_t
* field
= type
-> decl
;
2882 for(int i
= 0; i
< num_fields
; i
++)
2884 if(field
-> type
-> class == OBERON_TYPE_POINTER
)
2886 oberon_initialize_type(ctx
, field
-> type
);
2889 oberon_initialize_object(ctx
, field
);
2890 field
= field
-> next
;
2893 oberon_generator_init_record(ctx
, type
);
2897 oberon_initialize_type(oberon_context_t
* ctx
, oberon_type_t
* type
)
2899 if(type
-> class == OBERON_TYPE_NOTYPE
)
2901 oberon_error(ctx
, "undeclarated type");
2904 if(type
-> initialized
)
2909 type
-> initialized
= 1;
2911 if(type
-> class == OBERON_TYPE_POINTER
)
2913 oberon_initialize_type(ctx
, type
-> base
);
2914 oberon_generator_init_type(ctx
, type
);
2916 else if(type
-> class == OBERON_TYPE_ARRAY
)
2918 if(type
-> size
!= 0)
2920 if(type
-> base
-> class == OBERON_TYPE_ARRAY
)
2922 if(type
-> base
-> size
== 0)
2924 oberon_error(ctx
, "open array not allowed as array element");
2929 oberon_initialize_type(ctx
, type
-> base
);
2930 oberon_generator_init_type(ctx
, type
);
2932 else if(type
-> class == OBERON_TYPE_RECORD
)
2934 oberon_generator_init_type(ctx
, type
);
2935 oberon_initialize_record_fields(ctx
, type
);
2937 else if(type
-> class == OBERON_TYPE_PROCEDURE
)
2939 int num_fields
= type
-> num_decl
;
2940 oberon_object_t
* field
= type
-> decl
;
2941 for(int i
= 0; i
< num_fields
; i
++)
2943 //oberon_initialize_object(ctx, field);
2944 oberon_initialize_type(ctx
, field
-> type
);
2945 field
= field
-> next
;
2948 oberon_generator_init_type(ctx
, type
);
2952 oberon_generator_init_type(ctx
, type
);
2957 oberon_initialize_object(oberon_context_t
* ctx
, oberon_object_t
* x
)
2959 if(x
-> initialized
)
2964 x
-> initialized
= 1;
2968 case OBERON_CLASS_TYPE
:
2969 oberon_initialize_type(ctx
, x
-> type
);
2971 case OBERON_CLASS_VAR
:
2972 case OBERON_CLASS_FIELD
:
2973 if(x
-> type
-> class == OBERON_TYPE_ARRAY
)
2975 if(x
-> type
-> size
== 0)
2977 oberon_error(ctx
, "open array not allowed as variable or field");
2980 oberon_initialize_type(ctx
, x
-> type
);
2981 oberon_generator_init_var(ctx
, x
);
2983 case OBERON_CLASS_PARAM
:
2984 case OBERON_CLASS_VAR_PARAM
:
2985 oberon_initialize_type(ctx
, x
-> type
);
2986 oberon_generator_init_var(ctx
, x
);
2988 case OBERON_CLASS_CONST
:
2989 case OBERON_CLASS_PROC
:
2990 case OBERON_CLASS_MODULE
:
2993 oberon_error(ctx
, "oberon_initialize_object: wat");
2999 oberon_initialize_decl(oberon_context_t
* ctx
)
3001 oberon_object_t
* x
= ctx
-> decl
-> list
;
3005 oberon_initialize_object(ctx
, x
-> next
);
3011 oberon_prevent_undeclarated_procedures(oberon_context_t
* ctx
)
3013 oberon_object_t
* x
= ctx
-> decl
-> list
;
3017 if(x
-> next
-> class == OBERON_CLASS_PROC
)
3019 if(x
-> next
-> linked
== 0)
3021 oberon_error(ctx
, "unresolved forward declaration");
3029 oberon_decl_seq(oberon_context_t
* ctx
)
3031 if(ctx
-> token
== CONST
)
3033 oberon_assert_token(ctx
, CONST
);
3034 while(ctx
-> token
== IDENT
)
3036 oberon_const_decl(ctx
);
3037 oberon_assert_token(ctx
, SEMICOLON
);
3041 if(ctx
-> token
== TYPE
)
3043 oberon_assert_token(ctx
, TYPE
);
3044 while(ctx
-> token
== IDENT
)
3046 oberon_type_decl(ctx
);
3047 oberon_assert_token(ctx
, SEMICOLON
);
3051 if(ctx
-> token
== VAR
)
3053 oberon_assert_token(ctx
, VAR
);
3054 while(ctx
-> token
== IDENT
)
3056 oberon_var_decl(ctx
);
3057 oberon_assert_token(ctx
, SEMICOLON
);
3061 oberon_prevent_recursive_decl(ctx
);
3062 oberon_initialize_decl(ctx
);
3064 while(ctx
-> token
== PROCEDURE
)
3066 oberon_proc_decl(ctx
);
3067 oberon_assert_token(ctx
, SEMICOLON
);
3070 oberon_prevent_undeclarated_procedures(ctx
);
3073 static oberon_expr_t
*
3074 oberon_make_temp_var_item(oberon_context_t
* ctx
, oberon_type_t
* type
)
3076 oberon_object_t
* x
;
3077 oberon_expr_t
* expr
;
3079 x
= oberon_create_object(ctx
-> decl
, "TEMP", OBERON_CLASS_VAR
, false, false);
3082 oberon_generator_init_temp_var(ctx
, x
);
3084 expr
= oberon_new_item(MODE_VAR
, type
, false);
3085 expr
-> item
.var
= x
;
3090 oberon_statement_seq(oberon_context_t
* ctx
);
3093 oberon_assign(oberon_context_t
* ctx
, oberon_expr_t
* src
, oberon_expr_t
* dst
)
3095 oberon_check_dst(ctx
, dst
);
3096 oberon_check_assignment_compatible(ctx
, src
, dst
-> result
);
3098 if(oberon_is_array_of_char_type(dst
-> result
)
3099 && oberon_is_string_type(src
-> result
))
3102 oberon_make_copy_call(ctx
, 2, src
);
3106 src
= oberon_cast_expr(ctx
, src
, dst
-> result
);
3107 oberon_generate_assign(ctx
, src
, dst
);
3111 static oberon_expr_t
*
3112 oberon_case_labels(oberon_context_t
* ctx
, oberon_expr_t
* val
)
3116 oberon_expr_t
* cond
;
3117 oberon_expr_t
* cond2
;
3119 e1
= (oberon_expr_t
*) oberon_const_expr(ctx
);
3122 if(ctx
-> token
== DOTDOT
)
3124 oberon_assert_token(ctx
, DOTDOT
);
3125 e2
= (oberon_expr_t
*) oberon_const_expr(ctx
);
3131 cond
= oberon_make_bin_op(ctx
, EQUAL
, val
, e1
);
3135 /* val >= e1 && val <= e2 */
3136 cond
= oberon_make_bin_op(ctx
, GEQ
, val
, e1
);
3137 cond2
= oberon_make_bin_op(ctx
, LEQ
, val
, e2
);
3138 cond
= oberon_make_bin_op(ctx
, AND
, cond
, cond2
);
3145 oberon_case(oberon_context_t
* ctx
, oberon_expr_t
* val
, gen_label_t
* end
)
3147 oberon_expr_t
* cond
;
3148 oberon_expr_t
* cond2
;
3149 gen_label_t
* this_end
;
3151 if(ISEXPR(ctx
-> token
))
3153 this_end
= oberon_generator_reserve_label(ctx
);
3155 cond
= oberon_case_labels(ctx
, val
);
3156 while(ctx
-> token
== COMMA
)
3158 oberon_assert_token(ctx
, COMMA
);
3160 cond2
= oberon_case_labels(ctx
, val
);
3161 cond
= oberon_make_bin_op(ctx
, OR
, cond
, cond2
);
3163 oberon_assert_token(ctx
, COLON
);
3165 oberon_generate_branch(ctx
, cond
, false, this_end
);
3166 oberon_statement_seq(ctx
);
3167 oberon_generate_goto(ctx
, end
);
3169 oberon_generate_label(ctx
, this_end
);
3174 oberon_case_statement(oberon_context_t
* ctx
)
3176 oberon_expr_t
* val
;
3177 oberon_expr_t
* expr
;
3180 end
= oberon_generator_reserve_label(ctx
);
3182 oberon_assert_token(ctx
, CASE
);
3183 expr
= oberon_expr(ctx
);
3184 val
= oberon_make_temp_var_item(ctx
, expr
-> result
);
3185 oberon_assign(ctx
, expr
, val
);
3186 oberon_assert_token(ctx
, OF
);
3187 oberon_case(ctx
, val
, end
);
3188 while(ctx
-> token
== BAR
)
3190 oberon_assert_token(ctx
, BAR
);
3191 oberon_case(ctx
, val
, end
);
3194 if(ctx
-> token
== ELSE
)
3196 oberon_assert_token(ctx
, ELSE
);
3197 oberon_statement_seq(ctx
);
3201 oberon_generate_trap(ctx
, -1);
3204 oberon_generate_label(ctx
, end
);
3205 oberon_assert_token(ctx
, END
);
3209 oberon_with_guard_do(oberon_context_t
* ctx
, gen_label_t
* end
)
3211 oberon_expr_t
* val
;
3212 oberon_expr_t
* var
;
3213 oberon_expr_t
* type
;
3214 oberon_expr_t
* cond
;
3215 oberon_expr_t
* cast
;
3216 oberon_type_t
* old_type
;
3217 gen_var_t
* old_var
;
3218 gen_label_t
* this_end
;
3220 this_end
= oberon_generator_reserve_label(ctx
);
3222 var
= oberon_qualident_expr(ctx
);
3223 oberon_assert_token(ctx
, COLON
);
3224 type
= oberon_qualident_expr(ctx
);
3225 cond
= oberon_make_bin_op(ctx
, IS
, var
, type
);
3227 oberon_assert_token(ctx
, DO
);
3228 oberon_generate_branch(ctx
, cond
, false, this_end
);
3230 /* Сохраняем ссылку во временной переменной */
3231 val
= oberon_make_temp_var_item(ctx
, type
-> result
);
3232 //cast = oberno_make_record_cast(ctx, var, type -> result);
3233 cast
= oberon_cast_expr(ctx
, var
, type
-> result
);
3234 oberon_assign(ctx
, cast
, val
);
3235 /* Подменяем тип у оригинальной переменной */
3236 old_type
= var
-> item
.var
-> type
;
3237 var
-> item
.var
-> type
= type
-> result
;
3238 /* Подменяем ссылку на переменную */
3239 old_var
= var
-> item
.var
-> gen_var
;
3240 var
-> item
.var
-> gen_var
= val
-> item
.var
-> gen_var
;
3242 oberon_statement_seq(ctx
);
3243 oberon_generate_goto(ctx
, end
);
3244 oberon_generate_label(ctx
, this_end
);
3246 /* Возвращаем исходное состояние */
3247 var
-> item
.var
-> gen_var
= old_var
;
3248 var
-> item
.var
-> type
= old_type
;
3252 oberon_with_statement(oberon_context_t
* ctx
)
3255 end
= oberon_generator_reserve_label(ctx
);
3257 oberon_assert_token(ctx
, WITH
);
3258 oberon_with_guard_do(ctx
, end
);
3259 while(ctx
-> token
== BAR
)
3261 oberon_assert_token(ctx
, BAR
);
3262 oberon_with_guard_do(ctx
, end
);
3265 if(ctx
-> token
== ELSE
)
3267 oberon_assert_token(ctx
, ELSE
);
3268 oberon_statement_seq(ctx
);
3272 oberon_generate_trap(ctx
, -2);
3275 oberon_generate_label(ctx
, end
);
3276 oberon_assert_token(ctx
, END
);
3280 oberon_statement(oberon_context_t
* ctx
)
3282 oberon_expr_t
* item1
;
3283 oberon_expr_t
* item2
;
3285 if(ctx
-> token
== IDENT
)
3287 item1
= oberon_designator(ctx
);
3288 if(ctx
-> token
== ASSIGN
)
3290 oberon_assert_token(ctx
, ASSIGN
);
3291 item2
= oberon_expr(ctx
);
3292 oberon_assign(ctx
, item2
, item1
);
3296 oberon_opt_proc_parens(ctx
, item1
);
3299 else if(ctx
-> token
== IF
)
3303 oberon_expr_t
* cond
;
3305 els
= oberon_generator_reserve_label(ctx
);
3306 end
= oberon_generator_reserve_label(ctx
);
3308 oberon_assert_token(ctx
, IF
);
3309 cond
= oberon_expr(ctx
);
3310 if(cond
-> result
-> class != OBERON_TYPE_BOOLEAN
)
3312 oberon_error(ctx
, "condition must be boolean");
3314 oberon_assert_token(ctx
, THEN
);
3315 oberon_generate_branch(ctx
, cond
, false, els
);
3316 oberon_statement_seq(ctx
);
3317 oberon_generate_goto(ctx
, end
);
3318 oberon_generate_label(ctx
, els
);
3320 while(ctx
-> token
== ELSIF
)
3322 els
= oberon_generator_reserve_label(ctx
);
3324 oberon_assert_token(ctx
, ELSIF
);
3325 cond
= oberon_expr(ctx
);
3326 if(cond
-> result
-> class != OBERON_TYPE_BOOLEAN
)
3328 oberon_error(ctx
, "condition must be boolean");
3330 oberon_assert_token(ctx
, THEN
);
3331 oberon_generate_branch(ctx
, cond
, false, els
);
3332 oberon_statement_seq(ctx
);
3333 oberon_generate_goto(ctx
, end
);
3334 oberon_generate_label(ctx
, els
);
3337 if(ctx
-> token
== ELSE
)
3339 oberon_assert_token(ctx
, ELSE
);
3340 oberon_statement_seq(ctx
);
3343 oberon_generate_label(ctx
, end
);
3344 oberon_assert_token(ctx
, END
);
3346 else if(ctx
-> token
== WHILE
)
3348 gen_label_t
* begin
;
3350 oberon_expr_t
* cond
;
3352 begin
= oberon_generator_reserve_label(ctx
);
3353 end
= oberon_generator_reserve_label(ctx
);
3355 oberon_assert_token(ctx
, WHILE
);
3356 oberon_generate_label(ctx
, begin
);
3357 cond
= oberon_expr(ctx
);
3358 if(cond
-> result
-> class != OBERON_TYPE_BOOLEAN
)
3360 oberon_error(ctx
, "condition must be boolean");
3362 oberon_generate_branch(ctx
, cond
, false, end
);
3364 oberon_assert_token(ctx
, DO
);
3365 oberon_statement_seq(ctx
);
3366 oberon_generate_goto(ctx
, begin
);
3368 oberon_assert_token(ctx
, END
);
3369 oberon_generate_label(ctx
, end
);
3371 else if(ctx
-> token
== REPEAT
)
3373 gen_label_t
* begin
;
3374 oberon_expr_t
* cond
;
3376 begin
= oberon_generator_reserve_label(ctx
);
3377 oberon_generate_label(ctx
, begin
);
3378 oberon_assert_token(ctx
, REPEAT
);
3380 oberon_statement_seq(ctx
);
3382 oberon_assert_token(ctx
, UNTIL
);
3384 cond
= oberon_expr(ctx
);
3385 if(cond
-> result
-> class != OBERON_TYPE_BOOLEAN
)
3387 oberon_error(ctx
, "condition must be boolean");
3390 oberon_generate_branch(ctx
, cond
, true, begin
);
3392 else if(ctx
-> token
== FOR
)
3394 oberon_expr_t
* from
;
3395 oberon_expr_t
* index
;
3397 oberon_expr_t
* bound
;
3399 oberon_expr_t
* cond
;
3400 oberon_expr_t
* count
;
3401 gen_label_t
* begin
;
3406 begin
= oberon_generator_reserve_label(ctx
);
3407 end
= oberon_generator_reserve_label(ctx
);
3409 oberon_assert_token(ctx
, FOR
);
3410 iname
= oberon_assert_ident(ctx
);
3411 index
= oberon_ident_item(ctx
, iname
);
3412 oberon_assert_token(ctx
, ASSIGN
);
3413 from
= oberon_expr(ctx
);
3414 oberon_assert_token(ctx
, TO
);
3415 bound
= oberon_make_temp_var_item(ctx
, index
-> result
);
3416 to
= oberon_expr(ctx
);
3417 oberon_assign(ctx
, to
, bound
); // сначала temp
3418 oberon_assign(ctx
, from
, index
); // потом i
3419 if(ctx
-> token
== BY
)
3421 oberon_assert_token(ctx
, BY
);
3422 by
= (oberon_expr_t
*) oberon_const_expr(ctx
);
3426 by
= oberon_make_integer(ctx
, 1);
3429 if(by
-> result
-> class != OBERON_TYPE_INTEGER
)
3431 oberon_error(ctx
, "must be integer");
3434 if(by
-> item
.integer
> 0)
3438 else if(by
-> item
.integer
< 0)
3444 oberon_error(ctx
, "zero step not allowed");
3447 oberon_assert_token(ctx
, DO
);
3448 oberon_generate_label(ctx
, begin
);
3449 cond
= oberon_make_bin_op(ctx
, op
, index
, bound
);
3450 oberon_generate_branch(ctx
, cond
, false, end
);
3451 oberon_statement_seq(ctx
);
3452 count
= oberon_make_bin_op(ctx
, PLUS
, index
, by
);
3453 oberon_assign(ctx
, count
, index
);
3454 oberon_generate_goto(ctx
, begin
);
3455 oberon_generate_label(ctx
, end
);
3456 oberon_assert_token(ctx
, END
);
3458 else if(ctx
-> token
== LOOP
)
3460 gen_label_t
* begin
;
3463 begin
= oberon_generator_reserve_label(ctx
);
3464 end
= oberon_generator_reserve_label(ctx
);
3466 oberon_open_scope(ctx
);
3467 oberon_assert_token(ctx
, LOOP
);
3468 oberon_generate_label(ctx
, begin
);
3469 ctx
-> decl
-> exit_label
= end
;
3470 oberon_statement_seq(ctx
);
3471 oberon_generate_goto(ctx
, begin
);
3472 oberon_generate_label(ctx
, end
);
3473 oberon_assert_token(ctx
, END
);
3474 oberon_close_scope(ctx
-> decl
);
3476 else if(ctx
-> token
== EXIT
)
3478 oberon_assert_token(ctx
, EXIT
);
3479 if(ctx
-> decl
-> exit_label
== NULL
)
3481 oberon_error(ctx
, "not in LOOP-END");
3483 oberon_generate_goto(ctx
, ctx
-> decl
-> exit_label
);
3485 else if(ctx
-> token
== CASE
)
3487 oberon_case_statement(ctx
);
3489 else if(ctx
-> token
== WITH
)
3491 oberon_with_statement(ctx
);
3493 else if(ctx
-> token
== RETURN
)
3495 oberon_assert_token(ctx
, RETURN
);
3496 if(ISEXPR(ctx
-> token
))
3498 oberon_expr_t
* expr
;
3499 expr
= oberon_expr(ctx
);
3500 oberon_make_return(ctx
, expr
);
3504 oberon_make_return(ctx
, NULL
);
3510 oberon_statement_seq(oberon_context_t
* ctx
)
3512 oberon_statement(ctx
);
3513 while(ctx
-> token
== SEMICOLON
)
3515 oberon_assert_token(ctx
, SEMICOLON
);
3516 oberon_statement(ctx
);
3521 oberon_import_module(oberon_context_t
* ctx
, char * alias
, char * name
)
3523 oberon_module_t
* m
= ctx
-> module_list
;
3524 while(m
&& strcmp(m
-> name
, name
) != 0)
3532 code
= ctx
-> import_module(name
);
3535 oberon_error(ctx
, "no such module");
3538 m
= oberon_compile_module(ctx
, code
);
3544 oberon_error(ctx
, "cyclic module import");
3547 oberon_object_t
* ident
;
3548 ident
= oberon_define_object(ctx
-> decl
, alias
, OBERON_CLASS_MODULE
, false, false, false);
3549 ident
-> module
= m
;
3553 oberon_import_decl(oberon_context_t
* ctx
)
3558 alias
= name
= oberon_assert_ident(ctx
);
3559 if(ctx
-> token
== ASSIGN
)
3561 oberon_assert_token(ctx
, ASSIGN
);
3562 name
= oberon_assert_ident(ctx
);
3565 oberon_import_module(ctx
, alias
, name
);
3569 oberon_import_list(oberon_context_t
* ctx
)
3571 oberon_assert_token(ctx
, IMPORT
);
3573 oberon_import_decl(ctx
);
3574 while(ctx
-> token
== COMMA
)
3576 oberon_assert_token(ctx
, COMMA
);
3577 oberon_import_decl(ctx
);
3580 oberon_assert_token(ctx
, SEMICOLON
);
3584 oberon_parse_module(oberon_context_t
* ctx
)
3588 oberon_read_token(ctx
);
3590 oberon_assert_token(ctx
, MODULE
);
3591 name1
= oberon_assert_ident(ctx
);
3592 oberon_assert_token(ctx
, SEMICOLON
);
3593 ctx
-> mod
-> name
= name1
;
3595 oberon_generator_init_module(ctx
, ctx
-> mod
);
3597 if(ctx
-> token
== IMPORT
)
3599 oberon_import_list(ctx
);
3602 oberon_decl_seq(ctx
);
3604 oberon_generate_begin_module(ctx
);
3605 if(ctx
-> token
== BEGIN
)
3607 oberon_assert_token(ctx
, BEGIN
);
3608 oberon_statement_seq(ctx
);
3610 oberon_generate_end_module(ctx
);
3612 oberon_assert_token(ctx
, END
);
3613 name2
= oberon_assert_ident(ctx
);
3614 oberon_expect_token(ctx
, DOT
);
3616 if(strcmp(name1
, name2
) != 0)
3618 oberon_error(ctx
, "module name not matched");
3621 oberon_generator_fini_module(ctx
-> mod
);
3624 // =======================================================================
3626 // =======================================================================
3628 static oberon_expr_t
*
3629 oberon_make_min_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
3633 oberon_error(ctx
, "too few arguments");
3638 oberon_error(ctx
, "too mach arguments");
3641 oberon_expr_t
* arg
;
3644 if(!oberon_is_type_expr(arg
))
3646 oberon_error(ctx
, "MIN accept only type");
3649 oberon_expr_t
* expr
;
3650 int bits
= arg
-> result
-> size
* 8;
3651 switch(arg
-> result
-> class)
3653 case OBERON_TYPE_INTEGER
:
3654 expr
= oberon_make_integer(ctx
, -powl(2, bits
- 1));
3656 case OBERON_TYPE_BOOLEAN
:
3657 expr
= oberon_make_boolean(ctx
, false);
3659 case OBERON_TYPE_CHAR
:
3660 expr
= oberon_make_char(ctx
, 0);
3662 case OBERON_TYPE_REAL
:
3663 expr
= oberon_make_real_typed(ctx
, (bits
<= 32) ? (-FLT_MAX
) : (-DBL_MAX
), arg
-> result
);
3665 case OBERON_TYPE_SET
:
3666 expr
= oberon_make_integer(ctx
, 0);
3669 oberon_error(ctx
, "allowed only basic types");
3676 static oberon_expr_t
*
3677 oberon_make_max_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
3681 oberon_error(ctx
, "too few arguments");
3686 oberon_error(ctx
, "too mach arguments");
3689 oberon_expr_t
* arg
;
3692 if(!oberon_is_type_expr(arg
))
3694 oberon_error(ctx
, "MAX accept only type");
3697 oberon_expr_t
* expr
;
3698 int bits
= arg
-> result
-> size
* 8;
3699 switch(arg
-> result
-> class)
3701 case OBERON_TYPE_INTEGER
:
3702 expr
= oberon_make_integer(ctx
, powl(2, bits
- 1) - 1);
3704 case OBERON_TYPE_BOOLEAN
:
3705 expr
= oberon_make_boolean(ctx
, true);
3707 case OBERON_TYPE_CHAR
:
3708 expr
= oberon_make_char(ctx
, powl(2, bits
) - 1);
3710 case OBERON_TYPE_REAL
:
3711 expr
= oberon_make_real_typed(ctx
, (bits
<= 32) ? (FLT_MAX
) : (DBL_MAX
), arg
-> result
);
3713 case OBERON_TYPE_SET
:
3714 expr
= oberon_make_integer(ctx
, bits
);
3717 oberon_error(ctx
, "allowed only basic types");
3724 static oberon_expr_t
*
3725 oberon_make_size_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
3729 oberon_error(ctx
, "too few arguments");
3734 oberon_error(ctx
, "too mach arguments");
3737 oberon_expr_t
* arg
;
3739 if(!oberon_is_type_expr(arg
))
3741 oberon_error(ctx
, "SIZE accept only type");
3745 oberon_expr_t
* expr
;
3746 oberon_type_t
* type
= arg
-> result
;
3747 switch(type
-> class)
3749 case OBERON_TYPE_INTEGER
:
3750 case OBERON_TYPE_BOOLEAN
:
3751 case OBERON_TYPE_REAL
:
3752 case OBERON_TYPE_CHAR
:
3753 case OBERON_TYPE_SET
:
3754 size
= type
-> size
;
3757 oberon_error(ctx
, "TODO SIZE");
3761 expr
= oberon_make_integer(ctx
, size
);
3765 static oberon_expr_t
*
3766 oberon_make_abs_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
3770 oberon_error(ctx
, "too few arguments");
3775 oberon_error(ctx
, "too mach arguments");
3778 oberon_expr_t
* arg
;
3780 oberon_check_src(ctx
, arg
);
3782 if(oberon_is_number_type(arg
-> result
))
3784 oberon_error(ctx
, "ABS accepts only numbers");
3787 oberon_expr_t
* expr
;
3788 if(oberon_is_const(arg
))
3790 if(oberon_is_real_type(arg
-> result
))
3792 double x
= arg
-> item
.real
;
3793 expr
= oberon_make_real(ctx
, fabsl(x
), arg
-> result
);
3797 int64_t x
= arg
-> item
.integer
;
3798 expr
= oberon_make_integer(ctx
, llabs(x
));
3803 expr
= oberon_new_operator(OP_ABS
, arg
-> result
, arg
, NULL
);
3809 oberon_make_inc_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
3813 oberon_error(ctx
, "too few arguments");
3818 oberon_error(ctx
, "too mach arguments");
3821 oberon_expr_t
* dst
;
3823 oberon_check_dst(ctx
, dst
);
3825 if(!oberon_is_integer_type(dst
-> result
))
3827 oberon_error(ctx
, "expect integer");
3830 oberon_expr_t
* expr
;
3831 expr
= oberon_make_bin_op(ctx
, PLUS
, dst
, oberon_make_integer(ctx
, 1));
3832 oberon_assign(ctx
, expr
, dst
);
3836 oberon_make_incl_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
3840 oberon_error(ctx
, "too few arguments");
3845 oberon_error(ctx
, "too mach arguments");
3848 oberon_expr_t
* dst
;
3850 oberon_check_dst(ctx
, dst
);
3852 if(!oberon_is_set_type(dst
-> result
))
3854 oberon_error(ctx
, "expect integer");
3858 x
= list_args
-> next
;
3859 oberon_check_src(ctx
, x
);
3861 if(!oberon_is_integer_type(x
-> result
))
3863 oberon_error(ctx
, "expect integer");
3866 oberon_expr_t
* expr
;
3867 expr
= oberon_make_bin_op(ctx
, PLUS
, dst
, oberon_new_operator(OP_RANGE
, dst
-> result
, x
, NULL
));
3868 oberon_assign(ctx
, expr
, dst
);
3872 oberon_make_excl_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
3876 oberon_error(ctx
, "too few arguments");
3881 oberon_error(ctx
, "too mach arguments");
3884 oberon_expr_t
* dst
;
3886 oberon_check_dst(ctx
, dst
);
3888 if(!oberon_is_set_type(dst
-> result
))
3890 oberon_error(ctx
, "expect integer");
3894 x
= list_args
-> next
;
3895 oberon_check_src(ctx
, x
);
3897 if(!oberon_is_integer_type(x
-> result
))
3899 oberon_error(ctx
, "expect integer");
3902 oberon_expr_t
* expr
;
3903 expr
= oberon_make_bin_op(ctx
, MINUS
, dst
, oberon_new_operator(OP_RANGE
, dst
-> result
, x
, NULL
));
3904 oberon_assign(ctx
, expr
, dst
);
3908 oberon_make_dec_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
3912 oberon_error(ctx
, "too few arguments");
3917 oberon_error(ctx
, "too mach arguments");
3920 oberon_expr_t
* dst
;
3922 oberon_check_dst(ctx
, dst
);
3924 if(!oberon_is_integer_type(dst
-> result
))
3926 oberon_error(ctx
, "expect integer");
3929 oberon_expr_t
* expr
;
3930 expr
= oberon_make_bin_op(ctx
, MINUS
, dst
, oberon_make_integer(ctx
, 1));
3931 oberon_assign(ctx
, expr
, dst
);
3935 oberon_make_new_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
3939 oberon_error(ctx
, "too few arguments");
3942 oberon_expr_t
* dst
;
3944 oberon_check_dst(ctx
, dst
);
3946 oberon_type_t
* type
;
3947 type
= dst
-> result
;
3949 if(type
-> class != OBERON_TYPE_POINTER
)
3951 oberon_error(ctx
, "not a pointer");
3954 type
= type
-> base
;
3956 oberon_expr_t
* src
;
3957 src
= oberon_new_item(MODE_NEW
, dst
-> result
, 0);
3958 src
-> item
.num_args
= 0;
3959 src
-> item
.args
= NULL
;
3962 if(type
-> class == OBERON_TYPE_ARRAY
)
3964 if(type
-> size
== 0)
3966 oberon_type_t
* x
= type
;
3967 while(x
-> class == OBERON_TYPE_ARRAY
)
3977 if(num_args
< max_args
)
3979 oberon_error(ctx
, "too few arguments");
3982 if(num_args
> max_args
)
3984 oberon_error(ctx
, "too mach arguments");
3987 int num_sizes
= max_args
- 1;
3988 oberon_expr_t
* size_list
= list_args
-> next
;
3990 oberon_expr_t
* arg
= size_list
;
3991 for(int i
= 0; i
< max_args
- 1; i
++)
3993 oberon_check_src(ctx
, arg
);
3994 if(arg
-> result
-> class != OBERON_TYPE_INTEGER
)
3996 oberon_error(ctx
, "size must be integer");
4001 src
-> item
.num_args
= num_sizes
;
4002 src
-> item
.args
= size_list
;
4004 else if(type
-> class != OBERON_TYPE_RECORD
)
4006 oberon_error(ctx
, "oberon_make_new_call: wat");
4009 if(num_args
> max_args
)
4011 oberon_error(ctx
, "too mach arguments");
4014 oberon_assign(ctx
, src
, dst
);
4018 oberon_make_copy_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
4022 oberon_error(ctx
, "too few arguments");
4027 oberon_error(ctx
, "too mach arguments");
4030 oberon_expr_t
* src
;
4032 oberon_check_src(ctx
, src
);
4034 oberon_expr_t
* dst
;
4035 dst
= list_args
-> next
;
4036 oberon_check_dst(ctx
, dst
);
4038 if(!oberon_is_string_type(src
-> result
) && !oberon_is_array_of_char_type(src
-> result
))
4040 oberon_error(ctx
, "source must be string or array of char");
4043 if(!oberon_is_array_of_char_type(dst
-> result
))
4045 oberon_error(ctx
, "dst must be array of char");
4048 oberon_generate_copy(ctx
, src
, dst
);
4052 oberon_make_assert_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
4056 oberon_error(ctx
, "too few arguments");
4061 oberon_error(ctx
, "too mach arguments");
4064 oberon_expr_t
* cond
;
4066 oberon_check_src(ctx
, cond
);
4068 if(!oberon_is_boolean_type(cond
-> result
))
4070 oberon_error(ctx
, "expected boolean");
4075 oberon_generate_assert(ctx
, cond
);
4079 oberon_expr_t
* num
;
4080 num
= list_args
-> next
;
4081 oberon_check_src(ctx
, num
);
4083 if(!oberon_is_integer_type(num
-> result
))
4085 oberon_error(ctx
, "expected integer");
4088 oberon_check_const(ctx
, num
);
4090 oberon_generate_assert_n(ctx
, cond
, num
-> item
.integer
);
4095 oberon_make_halt_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
4099 oberon_error(ctx
, "too few arguments");
4104 oberon_error(ctx
, "too mach arguments");
4107 oberon_expr_t
* num
;
4109 oberon_check_src(ctx
, num
);
4111 if(num
-> result
-> class != OBERON_TYPE_INTEGER
)
4113 oberon_error(ctx
, "expected integer");
4116 oberon_check_const(ctx
, num
);
4118 oberon_generate_halt(ctx
, num
-> item
.integer
);
4121 static oberon_expr_t
*
4122 oberon_make_ash_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
4126 oberon_error(ctx
, "too few arguments");
4131 oberon_error(ctx
, "too mach arguments");
4134 oberon_expr_t
* arg1
;
4136 oberon_check_src(ctx
, arg1
);
4137 if(arg1
-> result
-> class != OBERON_TYPE_INTEGER
)
4139 oberon_error(ctx
, "expected integer");
4142 oberon_expr_t
* arg2
;
4143 arg2
= list_args
-> next
;
4144 oberon_check_src(ctx
, arg2
);
4145 if(arg2
-> result
-> class != OBERON_TYPE_INTEGER
)
4147 oberon_error(ctx
, "expected integer");
4150 oberon_expr_t
* expr
;
4151 if(oberon_is_const(arg1
) && oberon_is_const(arg2
))
4153 int64_t x
= arg1
-> item
.integer
;
4154 int64_t y
= arg2
-> item
.integer
;
4155 expr
= oberon_make_integer(ctx
, x
* powl(2, y
));
4159 expr
= oberon_new_operator(OP_ASH
, arg1
-> result
, arg1
, arg2
);
4165 static oberon_expr_t
*
4166 oberon_make_cap_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
4170 oberon_error(ctx
, "too few arguments");
4175 oberon_error(ctx
, "too mach arguments");
4178 oberon_expr_t
* arg
;
4180 oberon_check_src(ctx
, arg
);
4182 if(!oberon_is_char_type(arg
-> result
))
4184 oberon_error(ctx
, "expected char");
4187 oberon_expr_t
* expr
;
4188 if(oberon_is_const(arg
))
4190 expr
= oberon_make_char(ctx
, toupper(arg
-> item
.integer
));
4194 expr
= oberon_new_operator(OP_CAP
, arg
-> result
, arg
, NULL
);
4200 static oberon_expr_t
*
4201 oberon_make_chr_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
4205 oberon_error(ctx
, "too few arguments");
4210 oberon_error(ctx
, "too mach arguments");
4213 oberon_expr_t
* arg
;
4215 oberon_check_src(ctx
, arg
);
4217 if(!oberon_is_integer_type(arg
-> result
))
4219 oberon_error(ctx
, "expected integer");
4222 oberon_expr_t
* expr
;
4223 if(oberon_is_const(arg
))
4225 expr
= oberon_make_char(ctx
, arg
-> item
.integer
);
4229 expr
= oberon_cast_expr(ctx
, arg
, ctx
-> char_type
);
4234 static oberon_expr_t
*
4235 oberon_make_ord_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
4239 oberon_error(ctx
, "too few arguments");
4244 oberon_error(ctx
, "too mach arguments");
4247 oberon_expr_t
* arg
;
4249 oberon_check_src(ctx
, arg
);
4251 if(!oberon_is_char_type(arg
-> result
))
4253 oberon_error(ctx
, "expected char");
4256 oberon_expr_t
* expr
;
4257 if(oberon_is_const(arg
))
4259 expr
= oberon_make_integer(ctx
, arg
-> item
.integer
);
4263 expr
= oberon_cast_expr(ctx
, arg
, ctx
-> int_type
);
4268 static oberon_expr_t
*
4269 oberon_make_entier_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
4273 oberon_error(ctx
, "too few arguments");
4278 oberon_error(ctx
, "too mach arguments");
4281 oberon_expr_t
* arg
;
4283 oberon_check_src(ctx
, arg
);
4285 if(!oberon_is_real_type(arg
-> result
))
4287 oberon_error(ctx
, "expected real");
4290 oberon_expr_t
* expr
;
4291 if(oberon_is_const(arg
))
4293 expr
= oberon_make_integer(ctx
, floor(arg
-> item
.real
));
4297 expr
= oberon_new_operator(OP_ENTIER
, ctx
-> int_type
, arg
, NULL
);
4302 static oberon_expr_t
*
4303 oberon_make_odd_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
4307 oberon_error(ctx
, "too few arguments");
4312 oberon_error(ctx
, "too mach arguments");
4315 oberon_expr_t
* arg
;
4317 oberon_check_src(ctx
, arg
);
4319 if(!oberon_is_integer_type(arg
-> result
))
4321 oberon_error(ctx
, "expected integer");
4324 oberon_expr_t
* expr
;
4325 expr
= oberon_make_bin_op(ctx
, MOD
, arg
, oberon_make_integer(ctx
, 2));
4326 expr
= oberon_make_bin_op(ctx
, EQUAL
, expr
, oberon_make_integer(ctx
, 1));
4330 static oberon_expr_t
*
4331 oberon_make_short_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
4335 oberon_error(ctx
, "too few arguments");
4340 oberon_error(ctx
, "too mach arguments");
4343 oberon_expr_t
* arg
;
4345 oberon_check_src(ctx
, arg
);
4347 if(arg
-> result
-> shorter
== NULL
)
4349 oberon_error(ctx
, "already shorter");
4352 oberon_expr_t
* expr
;
4353 expr
= oberon_cast_expr(ctx
, arg
, arg
-> result
-> shorter
);
4357 static oberon_expr_t
*
4358 oberon_make_long_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
4362 oberon_error(ctx
, "too few arguments");
4367 oberon_error(ctx
, "too mach arguments");
4370 oberon_expr_t
* arg
;
4372 oberon_check_src(ctx
, arg
);
4374 if(arg
-> result
-> longer
== NULL
)
4376 oberon_error(ctx
, "already longer");
4379 oberon_expr_t
* expr
;
4380 expr
= oberon_cast_expr(ctx
, arg
, arg
-> result
-> longer
);
4384 static oberon_expr_t
*
4385 oberon_make_len_call(oberon_context_t
* ctx
, int num_args
, oberon_expr_t
* list_args
)
4389 oberon_error(ctx
, "too few arguments");
4394 oberon_error(ctx
, "too mach arguments");
4399 oberon_check_src(ctx
, v
);
4401 if(!oberon_is_array_type(v
-> result
))
4403 oberon_error(ctx
, "expected array");
4409 oberon_expr_t
* num
;
4410 num
= list_args
-> next
;
4411 oberon_check_src(ctx
, num
);
4413 if(!oberon_is_integer_type(num
-> result
))
4415 oberon_error(ctx
, "expected integer");
4417 oberon_check_const(ctx
, num
);
4419 n
= num
-> item
.integer
;
4423 oberon_type_t
* arr
= v
-> result
;
4424 while(arr
-> class == OBERON_TYPE_ARRAY
)
4430 if(n
< 0 || n
> dim
)
4432 oberon_error(ctx
, "not in range 0..%i", dim
- 1);
4435 assert(v
-> is_item
);
4437 oberon_expr_t
* expr
;
4438 expr
= oberon_new_item(MODE_LEN
, ctx
-> int_type
, true);
4439 expr
-> item
.parent
= (oberon_item_t
*) v
;
4440 expr
-> item
.integer
= n
;
4445 oberon_new_const(oberon_context_t
* ctx
, char * name
, oberon_expr_t
* expr
)
4447 oberon_object_t
* constant
;
4448 constant
= oberon_define_object(ctx
-> decl
, name
, OBERON_CLASS_CONST
, true, false, false);
4449 oberon_check_const(ctx
, expr
);
4450 constant
-> value
= (oberon_item_t
*) expr
;
4454 register_default_types(oberon_context_t
* ctx
)
4456 ctx
-> notype_type
= oberon_new_type_ptr(OBERON_TYPE_NOTYPE
);
4457 oberon_generator_init_type(ctx
, ctx
-> notype_type
);
4459 ctx
-> nil_type
= oberon_new_type_ptr(OBERON_TYPE_NIL
);
4460 oberon_generator_init_type(ctx
, ctx
-> nil_type
);
4462 ctx
-> string_type
= oberon_new_type_string(1);
4463 oberon_generator_init_type(ctx
, ctx
-> string_type
);
4465 ctx
-> bool_type
= oberon_new_type_boolean();
4466 oberon_define_type(ctx
-> world_scope
, "BOOLEAN", ctx
-> bool_type
, 1);
4468 ctx
-> char_type
= oberon_new_type_char(1);
4469 oberon_define_type(ctx
-> world_scope
, "CHAR", ctx
-> char_type
, 1);
4471 ctx
-> byte_type
= oberon_new_type_integer(1);
4472 oberon_define_type(ctx
-> world_scope
, "SHORTINT", ctx
-> byte_type
, 1);
4474 ctx
-> shortint_type
= oberon_new_type_integer(2);
4475 oberon_define_type(ctx
-> world_scope
, "INTEGER", ctx
-> shortint_type
, 1);
4477 ctx
-> int_type
= oberon_new_type_integer(4);
4478 oberon_define_type(ctx
-> world_scope
, "LONGINT", ctx
-> int_type
, 1);
4480 ctx
-> longint_type
= oberon_new_type_integer(8);
4481 oberon_define_type(ctx
-> world_scope
, "HUGEINT", ctx
-> longint_type
, 1);
4483 ctx
-> real_type
= oberon_new_type_real(4);
4484 oberon_define_type(ctx
-> world_scope
, "REAL", ctx
-> real_type
, 1);
4486 ctx
-> longreal_type
= oberon_new_type_real(8);
4487 oberon_define_type(ctx
-> world_scope
, "LONGREAL", ctx
-> longreal_type
, 1);
4489 ctx
-> set_type
= oberon_new_type_set(4);
4490 oberon_define_type(ctx
-> world_scope
, "SET", ctx
-> set_type
, 1);
4494 ctx
-> byte_type
-> shorter
= NULL
;
4495 ctx
-> byte_type
-> longer
= ctx
-> shortint_type
;
4497 ctx
-> shortint_type
-> shorter
= ctx
-> byte_type
;
4498 ctx
-> shortint_type
-> longer
= ctx
-> int_type
;
4500 ctx
-> int_type
-> shorter
= ctx
-> shortint_type
;
4501 ctx
-> int_type
-> longer
= ctx
-> longint_type
;
4503 ctx
-> longint_type
-> shorter
= ctx
-> int_type
;
4504 ctx
-> longint_type
-> longer
= NULL
;
4506 ctx
-> real_type
-> shorter
= NULL
;
4507 ctx
-> real_type
-> longer
= ctx
-> longreal_type
;
4509 ctx
-> longreal_type
-> shorter
= ctx
-> real_type
;
4510 ctx
-> longreal_type
-> longer
= NULL
;
4514 oberon_new_intrinsic(oberon_context_t
* ctx
, char * name
, GenerateFuncCallback f
, GenerateProcCallback p
)
4516 oberon_object_t
* proc
;
4517 proc
= oberon_define_object(ctx
-> decl
, name
, OBERON_CLASS_PROC
, true, false, false);
4518 proc
-> type
= oberon_new_type_ptr(OBERON_TYPE_PROCEDURE
);
4519 proc
-> type
-> sysproc
= true;
4520 proc
-> type
-> genfunc
= f
;
4521 proc
-> type
-> genproc
= p
;
4525 oberon_create_context(ModuleImportCallback import_module
)
4527 oberon_context_t
* ctx
= calloc(1, sizeof *ctx
);
4529 oberon_scope_t
* world_scope
;
4530 world_scope
= oberon_open_scope(ctx
);
4531 ctx
-> world_scope
= world_scope
;
4533 ctx
-> import_module
= import_module
;
4535 oberon_generator_init_context(ctx
);
4537 register_default_types(ctx
);
4540 oberon_new_const(ctx
, "TRUE", oberon_make_boolean(ctx
, true));
4541 oberon_new_const(ctx
, "FALSE", oberon_make_boolean(ctx
, false));
4544 oberon_new_intrinsic(ctx
, "ABS", oberon_make_abs_call
, NULL
);
4545 oberon_new_intrinsic(ctx
, "ASH", oberon_make_ash_call
, NULL
);
4546 oberon_new_intrinsic(ctx
, "CAP", oberon_make_cap_call
, NULL
);
4547 oberon_new_intrinsic(ctx
, "CHR", oberon_make_chr_call
, NULL
);
4548 oberon_new_intrinsic(ctx
, "ENTIER", oberon_make_entier_call
, NULL
);
4549 oberon_new_intrinsic(ctx
, "LEN", oberon_make_len_call
, NULL
);
4550 oberon_new_intrinsic(ctx
, "LONG", oberon_make_long_call
, NULL
);
4551 oberon_new_intrinsic(ctx
, "MAX", oberon_make_max_call
, NULL
);
4552 oberon_new_intrinsic(ctx
, "MIN", oberon_make_min_call
, NULL
);
4553 oberon_new_intrinsic(ctx
, "ODD", oberon_make_odd_call
, NULL
);
4554 oberon_new_intrinsic(ctx
, "ORD", oberon_make_ord_call
, NULL
);
4555 oberon_new_intrinsic(ctx
, "SHORT", oberon_make_short_call
, NULL
);
4556 oberon_new_intrinsic(ctx
, "SIZE", oberon_make_size_call
, NULL
);
4559 oberon_new_intrinsic(ctx
, "ASSERT", NULL
, oberon_make_assert_call
);
4560 oberon_new_intrinsic(ctx
, "COPY", NULL
, oberon_make_copy_call
);
4561 oberon_new_intrinsic(ctx
, "DEC", NULL
, oberon_make_dec_call
);
4562 oberon_new_intrinsic(ctx
, "EXCL", NULL
, oberon_make_excl_call
);
4563 oberon_new_intrinsic(ctx
, "HALT", NULL
, oberon_make_halt_call
);
4564 oberon_new_intrinsic(ctx
, "INC", NULL
, oberon_make_inc_call
);
4565 oberon_new_intrinsic(ctx
, "INCL", NULL
, oberon_make_incl_call
);
4566 oberon_new_intrinsic(ctx
, "NEW", NULL
, oberon_make_new_call
);
4572 oberon_destroy_context(oberon_context_t
* ctx
)
4574 oberon_generator_destroy_context(ctx
);
4579 oberon_compile_module(oberon_context_t
* ctx
, const char * newcode
)
4581 const char * code
= ctx
-> code
;
4582 int code_index
= ctx
-> code_index
;
4584 int token
= ctx
-> token
;
4585 char * string
= ctx
-> string
;
4586 int integer
= ctx
-> integer
;
4587 int real
= ctx
-> real
;
4588 bool longmode
= ctx
-> longmode
;
4589 oberon_scope_t
* decl
= ctx
-> decl
;
4590 oberon_module_t
* mod
= ctx
-> mod
;
4592 oberon_scope_t
* module_scope
;
4593 module_scope
= oberon_open_scope(ctx
);
4595 oberon_module_t
* module
;
4596 module
= calloc(1, sizeof *module
);
4597 module
-> decl
= module_scope
;
4598 module
-> next
= ctx
-> module_list
;
4600 ctx
-> mod
= module
;
4601 ctx
-> module_list
= module
;
4603 oberon_init_scaner(ctx
, newcode
);
4604 oberon_parse_module(ctx
);
4606 module
-> ready
= 1;
4609 ctx
-> code_index
= code_index
;
4611 ctx
-> token
= token
;
4612 ctx
-> string
= string
;
4613 ctx
-> integer
= integer
;
4615 ctx
-> longmode
= longmode
;