Mercurial > ~dholland > hg > ag > index.cgi
view tests/agcl/oldagsrc/cf-old.syn @ 8:ec2b657edf13
Add explicit lint-comment-style fallthrough annotations.
GCC now assumes that if you don't have these you're making a mistake,
which is annoying.
XXX: This changeset updates the AG output files only (by hand) and is
XXX: abusive - rebuilding them will erase the change. However, I need
XXX: to get things to build before I can try to get AG to issue the
XXX: annotations itself, so this seems like a reasonable expedient.
author | David A. Holland |
---|---|
date | Mon, 30 May 2022 23:51:43 -0400 |
parents | 13d2b8934445 |
children |
line wrap: on
line source
{/* AnaGram Syntax Analyzer. Copyright (c) Parsifal Software, 1993. All Rights Reserved. Configuration file module */ #include HEADERS #include DATA #include ASSERT #include CTYPE #include STDLIB #include STRING #include ARRAYS #include MYALLOC #include CF #include PARAMS #include PF } [ auto resynch context type = cint grammar token = config file ~declare pcb diagnose errors // enum constant name = "cf_%_token" lines and columns line numbers ~allow macros line numbers error frame nest comments ~test range token names pointer input default token type = int near functions ] any digit = digit + hex letter backslash = '\\' blank char = ' ' + '\t' carriage return = '\r' digit = '0-9' double quote = '"' eof = 0 + 26 eol chars = newline + carriage return hex letter = 'a-f' + 'A-F' letter = 'a-z' + 'A-Z' + '_' newline = '\n' nonoctal digit = any digit - octal digit octal digit = '0-7' simple string char = ~eof - (any digit + double quote + backslash + eol chars) tab = '\t' vertical space = '\f' + '\v' equals -> '=', space? minus -> '-', space? plus -> '+', space? tilde -> '~', space? /* left bracket -> '[', space? right bracket -> ']', blank?... */ left parenthesis -> '(', space? right parenthesis -> ')', blank?... config file -> blank?..., [global parameter | end of line]/..., eof (void) global parameter -> name =cf_gp4(1); -> tilde, name =cf_gp4(0); -> name, equals, data type =cf_gp2(); -> name, equals, keyword string =cf_gp3(); -> name, equals, number:n =cf_gp5(n); -> "trial", blank..., "copy", blank..., "code", blank?..., equals, trial copy code:n =trial_copy_code = n; (unsigned long) trial copy code -> '0-9':d =d-'0'; -> trial copy code:n, '0-9':d =10*n + d-'0'; (void) data type -> name -> name, abstract declarator =concat_string(); (void) abstract declarator -> indirect data type -> direct abstract declarator -> indirect data type, direct abstract declarator =concat_string(); (void) direct abstract declarator -> {left parenthesis =scs('('),0;}, abstract declarator, right parenthesis =concat_string(), acs(')'); /* -> brackets -> direct abstract declarator, brackets =concat_string(); (void) brackets -> left bracket, right bracket =sss("[]"); -> left parenthesis, right parenthesis =sss("()"); */ (void) pointer -> star -> star, name =concat_string(); (void) star -> '*', blank?... =sss(" *"); (void) indirect data type -> pointer -> indirect data type, pointer =concat_string(); (void) name string -> letter:a =scs(a); -> name string, letter + digit :a =acs(a); -> name string, blank..., letter + digit :a =acs(' '), acs(a); name -> name string, blank?... blank -> blank char -> c comment space -> blank... -> blank..., continuation -> continuation continuation -> comment, next line -> next line next line -> carriage return?, newline -> carriage return?, newline, blank... white -> blank -> carriage return?, newline -> comment, carriage return?, newline end of line -> comment, carriage return?, newline -> carriage return?, newline -> end of line, white -> end of line, vertical space //form feed comment -> "//", ~eol chars & ~eof?... decimal number -> '1-9':d =d - '0'; -> decimal number:n, '0-9':d =10*n + d - '0'; octal number -> '0' =0; -> octal number:n, '0-7':d =8*n + d - '0'; hex number -> "0x" =0; -> "0X" =0; -> hex number:n, '0-9':d =16*n + d - '0'; -> hex number:n, 'A-F' + 'a-f':d =16*n + (d&7) + 9; simple number -> decimal number -> octal number -> hex number number -> sign:s, simple number:n, blank?... =s*n; sign -> plus? =1; -> minus =-1; keyword string -> keyword string head, string, double quote, blank?... string -> string A | string B | string C (void) keyword string head -> double quote =ics(); string char -> simple string char -> escape sequence escape sequence -> "\\a" ='\a'; -> "\\b" ='\b'; -> "\\f" ='\f'; -> "\\n" ='\n'; -> "\\r" ='\r'; -> "\\t" ='\t'; -> "\\v" ='\v'; -> "\\\\" ='\\'; -> "\\?" = '\?'; -> "\\'" ='\''; -> "\\\"" ='"'; -> three octal:n =n==0?cf_error("Null character in string"),0 : n; one octal -> backslash, '0-7':n =n&7; two octal -> one octal:n, '0-7':d = n*8 + (d&7); three octal -> two octal:n, '0-7':d = n*8 + (d&7); octal escape -> {one octal | two octal}:n = n==0?cf_error("Null character in string"),0 : n; hex escape -> "\\x", hex number:n =n; (void) string A -> string char:c =acs(c); -> any digit:c =acs(c); -> string, string char:c =acs(c); -> string A, any digit:c =acs(c); -> string B, nonoctal digit:c =acs(c); (void) string B -> octal escape:n =acs(n); -> string, octal escape:n =acs(n); (void) string C -> hex escape:n =acs(n); -> string, hex escape:n =acs(n); (void) c comment -> c comment text, "*/" (void) c comment text -> "/*" -> c comment text, ~eof c comment, c comment text -> c comment text, c comment = {if (nest_comments) PCB.reduction_token = cf_c_comment_text_token;} [ hidden { left parenthesis, right parenthesis, pointer, indirect data type, name string, space, next line, sign, one octal, two octal, three octal, string A, string B, string C, c comment text, escape sequence, octal escape, hex escape, name string } ] { #define PARSE_STACK_OVERFLOW\ {fprintf(stderr,"Parse stack overflow\n");myabort();} #define SYNTAX_ERROR cf_syn_error() #define GET_CONTEXT CONTEXT.x = PCB.column, CONTEXT.y = PCB.line #define N_PARAMS 80 static cf_pcb_type cfcb; #define PCB cfcb extern string_dict *param_dict; extern unsigned char *input_base; extern int precedence_level; extern int int_token_type; void reset_stack(void); void log_error(void); static void cf_gp2(void); static void cf_gp3(void); static void cf_gp4(int); static void cf_gp5(int); void acs(int); void scs(int); void init_params(void); unsigned char *read_file(char *); static char *config_file; static void cf_error(char *); static void cf_bad_param(int pn) { char *dm; if (pn) dm = "Inappropriate value"; else dm = "No such parameter"; cf_error(dm); rcs(); return; } void xgp5(int, void bad(int), int); static void cf_gp5(int tv) { xgp5(tv,cf_bad_param,0); } void xgp4(int, void bad(int), int); static void cf_gp4(int tv) { xgp4(tv,cf_bad_param,0); } void xgp2(void bad(int), int); static void cf_gp2(void) { xgp2(cf_bad_param,0); } void xgp3(void bad(int), int); static void cf_gp3(void) { xgp3(cf_bad_param,0); } static int read_config_file(char *path) { char* file_name = allocate(strlen(path)+20,char); char *cp; strcpy(file_name, path); cp = strrchr(file_name,PATH_DELIMITER); /* assert(cp != NULL); strcpy(cp+1,"AnaGram.cfg"); */ if (cp) cp++; else cp = file_name; strcpy(cp,"AnaGram.cfg"); config_file = file_name; cfcb.pointer = input_base = read_file(file_name); return input_base != NULL; } static void get_config(char *path) { cfcb.pointer = input_base = read_file(path); if (input_base != NULL) { cf(); free(input_base); } input_base = NULL; } int in_cur_dir(char *); void read_config(char *path) { if (read_config_file(path)) { cf(); free(input_base); free(config_file); } if (in_cur_dir(path)) return; config_file = "AnaGram.cfg"; get_config("anagram.cfg"); } static void cf_error(char *msg) { int eline = PCB.line, ecol = PCB.column; if (PCB.token_number == cf_eof_token) { eline = ERROR_CONTEXT.y; ecol = ERROR_CONTEXT.x; } ssprintf("%s, Line %d, Col %d: %s", config_file, eline, ecol, msg); log_error(); } static void cf_syn_error(void) { reset_stk(); cf_error(PCB.error_message); } param_number_map *map_param_number; static void init_param_val_proc(int *pn, char *name, int v) { param_number_map *mpn; *pn = add_string_dict(name,param_dict); check_size(map_param_number,*pn,*pn); mpn = &map_param_number[*pn]; /* mpn->value_name = 1; */ mpn->value = v; } #define init_param_val(p,v) \ init_param_val_proc(&p##_pn, #p,v) static param_number_map *id_param(int *pn, void *p, char *name) { int k = add_string_dict(name,param_dict); param_number_map *mpn; check_size(map_param_number, k,3*k/2); *pn = k; mpn = &map_param_number[k]; mpn->param = p; return mpn; } #define init_param(p, global, implicit)\ {param_number_map *mpn = id_param(&p##_pn,&p, #p);\ mpn->global = 1;\ mpn->implicit = 1;} #define init_param_co(p, global, implicit)\ {param_number_map *mpn = id_param(&p##_pn,&p, #p);\ mpn->global = mpn->config_only = 1;\ mpn->implicit = 1;} /* #define init_verb(p,param)\ {param_number_map *mpn =\ &map_param_number[p##_pn = add_string_dict(#p, param_dict)];\ mpn->verb = 1;\ mpn->value = param##_pn;} */ /* #define init_token_param(p,implicit)\ {param_number_map *mpn =\ &map_param_number[p##_pn = add_string_dict(#p, param_dict)];\ mpn->token = 1;\ mpn->implicit = 1;} */ #define init_dict_param(p,global,dict_name)\ {param_number_map *mpn = id_param(&p##_pn,&p, #p);\ mpn->global = 1;\ mpn->dict = dict_name;\ mpn->value_id = 1;} /* #define init_literal_param(p,global,first_value)\ {param_number_map *mpn = id_param(&p##_pn,&p, #p);\ mpn->value = first_value##_pn;\ mpn->global = 1;\ mpn->dict = param_dict;\ mpn->literal = 1;} */ #define init_proc_param(p,global,proc_name)\ {param_number_map *mpn = id_param(&p##_pn,&p, #p);\ mpn->global = 1;\ mpn->proc = proc_name;\ mpn->proc_call = 1;} #define init_token_id_param(p,global)\ {param_number_map *mpn = id_param(&p##_pn,&p, #p);\ mpn->global = 1;\ mpn->proc = name_token;\ mpn->proc_call = 1;\ mpn->token_id = 1;} #define dp(p)\ static int p##_pn dp(on); dp(off); extern int allow_macros; dp(allow_macros); int auto_init = 1; dp(auto_init); int auto_resynch = 0; dp(auto_resynch); extern int backtrack; dp(backtrack); int bottom_margin = 3; dp(bottom_margin); int bright_background = 1; dp(bright_background); int case_sensitive = 1; dp(case_sensitive); char *compile_command = ""; dp(compile_command); char *context_type = NULL; dp(context_type); char *coverage_file_name = "#.nrc"; dp(coverage_file_name); int declare_pcb = 1; dp(declare_pcb); extern int default_input_type; dp(default_input_type); extern int default_token_type; dp(default_token_type); extern int default_reductions; dp(default_reductions); int diagnose_errors = 1; dp(diagnose_errors); extern char *edit_command; dp(edit_command); char *enum_constant_name = "$_%_token"; dp(enum_constant_name); int error_frame = 0; dp(error_frame); int error_trace = 0; dp(error_trace); int escape_backslashes = 0; dp(escape_backslashes); int event_driven = 0; dp(event_driven); extern int far_tables; dp(far_tables); extern int grammar_token; dp(grammar_token); extern char *header_file_name; dp(header_file_name); int input_values = 0; dp(input_values); int line_length = 80; dp(line_length); extern int line_numbers; dp(line_numbers); char *line_numbers_path = NULL; dp(line_numbers_path); extern int lines_and_columns; dp(lines_and_columns); int main_program = 1; dp(main_program); int max_conflicts = 50; dp(max_conflicts); int near_functions = 0; dp(near_functions); int nest_comments = 0; dp(nest_comments); int old_style = 0; dp(old_style); int page_length = 66; dp(page_length); extern char *parser_file_name; dp(parser_file_name); char *parser_name = "#"; dp(parser_name); int parser_stack_alignment; dp(parser_stack_alignment); int parser_stack_size = 32; dp(parser_stack_size); int pointer_input = 0; dp(pointer_input); char *pointer_type = "unsigned char *"; dp(pointer_type); char *print_file_name = "LPT1"; dp(print_file_name); int quick_reference = 1; dp(quick_reference); int reduction_choices =0; dp(reduction_choices); int rule_coverage = 0; dp(rule_coverage); int tab_spacing = 8; dp(tab_spacing); int test_file_binary = 0; dp(test_file_binary); char *test_file_mask = "*.*"; dp(test_file_mask); extern int test_range; dp(test_range); extern int token_names; dp(token_names); int top_margin = 3; dp(top_margin); extern int traditional_engine; dp(traditional_engine); extern int video_mode; dp(video_mode); unsigned long trial_copy_code = 0; /* char *note_file_name = "$.nf"; dp(note_file_name); */ char *input_type_name = "$_it_type"; /* dp(input_type_name); */ char *control_block_type = "$_pcb_type"; char *typedef_name = "$_token_type"; char *value_stack_type = "$_vs_type"; extern string_dict *cast_dict; extern string_dict *proc_dict; extern string_dict *tkn_dict; extern int error_token; dp(error_token); /* extern int noise_token; dp(noise_token); */ int eof_token = 0; dp(eof_token); extern int active_color; dp(active_color); extern int active_bar_color; dp(active_bar_color); extern int inactive_color; dp(inactive_color); extern int inactive_bar_color; dp(inactive_bar_color); extern int backdrop_color; dp(backdrop_color); extern int backdrop_bar_color; dp(backdrop_bar_color); int id_token(int); static int name_token(char *name){ sss(name); free(name); ids(tkn_dict); return id_token(fis()); } void init_params(void) { int n; map_param_number = init_array(N_PARAMS,sizeof(param_number_map)); init_param_val(off, 0); init_param_val(on, 1); /* N.B. The following list should be in alphabetical order. Make sure that when you enter a new parameter, you enter it in the right place! */ init_param(allow_macros, global, implicit); init_param(auto_init, global, implicit); init_param(auto_resynch, global, implicit); init_param(backtrack, global, implicit); init_param(bottom_margin, global, int_value); init_param_co(bright_background, global, implicit); init_param(case_sensitive, global, implicit); init_param(compile_command, global, string_value); init_param(context_type, global, text_value); init_param(coverage_file_name, global, string_value); init_param(declare_pcb, global,implicit); init_dict_param(default_input_type, global, cast_dict); init_param(default_reductions, global, implicit); init_dict_param(default_token_type, global, cast_dict); init_param(diagnose_errors, global, implicit); init_param(edit_command, global, string_value); init_param(enum_constant_name, global, string_value); init_token_id_param(eof_token, global); init_param(error_frame, global, implicit); init_token_id_param(error_token, global); init_param(error_trace, global, implicit); init_param(escape_backslashes, global, implicit); init_param(event_driven, global, implicit); init_param(far_tables, global, implicit); init_token_id_param(grammar_token, global); init_param(header_file_name, global, string_value); init_param(input_values, global, implicit); init_param(line_length, global, int_value); init_param(line_numbers, global, implicit); init_param(line_numbers_path, global, string_value); init_param(lines_and_columns, global, implicit); init_param(main_program, global, implicit); init_param(max_conflicts, global, int_value); init_param(near_functions, global, implicit); init_param(nest_comments, global, implicit); init_param(old_style, global, implicit); init_param(page_length, global, int_value); init_param(parser_file_name, global, string_value); init_param(parser_name, global, text_value); init_dict_param(parser_stack_alignment, global, cast_dict); init_param(parser_stack_size, global, int_value); init_param(pointer_input, global, implicit); init_param(pointer_type, global, text_value); init_param(print_file_name, global, string_value); init_param(quick_reference, global, implicit); init_param(reduction_choices, global, implicit); init_param(rule_coverage, global, implicit); init_param(tab_spacing, global, int_value); init_param(test_file_binary, global, implicit); init_param(test_file_mask, global, string_value); init_param(test_range, global, implicit); init_param(token_names, global, implicit); init_param(top_margin, global, int_value); init_param(traditional_engine, global, implicit); init_param_co(video_mode, global, int_value); init_param_co(active_bar_color, global, color_value); init_param_co(active_color, global, color_value); init_param_co(backdrop_bar_color, global, color_value); init_param_co(backdrop_color, global, color_value); init_param_co(inactive_bar_color, global, color_value); init_param_co(inactive_color, global, color_value); n = param_dict->nsx; assert(n < N_PARAMS); map_param_number = set_array_size(map_param_number, n); } }