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Direktori : /usr/src/linux-headers-5.15.0-125-generic/scripts/kconfig/ |
Current File : //usr/src/linux-headers-5.15.0-125-generic/scripts/kconfig/lexer.l |
/* SPDX-License-Identifier: GPL-2.0 */ /* * Copyright (C) 2002 Roman Zippel <zippel@linux-m68k.org> */ %option nostdinit noyywrap never-interactive full ecs %option 8bit nodefault yylineno %x ASSIGN_VAL HELP STRING %{ #include <assert.h> #include <limits.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include "lkc.h" #include "parser.tab.h" #define YY_DECL static int yylex1(void) #define START_STRSIZE 16 static struct { struct file *file; int lineno; } current_pos; static int prev_prev_token = T_EOL; static int prev_token = T_EOL; static char *text; static int text_size, text_asize; struct buffer { struct buffer *parent; YY_BUFFER_STATE state; }; static struct buffer *current_buf; static int last_ts, first_ts; static char *expand_token(const char *in, size_t n); static void append_expanded_string(const char *in); static void zconf_endhelp(void); static void zconf_endfile(void); static void new_string(void) { text = xmalloc(START_STRSIZE); text_asize = START_STRSIZE; text_size = 0; *text = 0; } static void append_string(const char *str, int size) { int new_size = text_size + size + 1; if (new_size > text_asize) { new_size += START_STRSIZE - 1; new_size &= -START_STRSIZE; text = xrealloc(text, new_size); text_asize = new_size; } memcpy(text + text_size, str, size); text_size += size; text[text_size] = 0; } static void alloc_string(const char *str, int size) { text = xmalloc(size + 1); memcpy(text, str, size); text[size] = 0; } static void warn_ignored_character(char chr) { fprintf(stderr, "%s:%d:warning: ignoring unsupported character '%c'\n", current_file->name, yylineno, chr); } %} n [A-Za-z0-9_-] %% int str = 0; int ts, i; #.* /* ignore comment */ [ \t]* /* whitespaces */ \\\n /* escaped new line */ \n return T_EOL; "bool" return T_BOOL; "choice" return T_CHOICE; "comment" return T_COMMENT; "config" return T_CONFIG; "def_bool" return T_DEF_BOOL; "def_tristate" return T_DEF_TRISTATE; "default" return T_DEFAULT; "depends" return T_DEPENDS; "endchoice" return T_ENDCHOICE; "endif" return T_ENDIF; "endmenu" return T_ENDMENU; "help" return T_HELP; "hex" return T_HEX; "if" return T_IF; "imply" return T_IMPLY; "int" return T_INT; "mainmenu" return T_MAINMENU; "menu" return T_MENU; "menuconfig" return T_MENUCONFIG; "modules" return T_MODULES; "on" return T_ON; "optional" return T_OPTIONAL; "prompt" return T_PROMPT; "range" return T_RANGE; "select" return T_SELECT; "source" return T_SOURCE; "string" return T_STRING; "tristate" return T_TRISTATE; "visible" return T_VISIBLE; "||" return T_OR; "&&" return T_AND; "=" return T_EQUAL; "!=" return T_UNEQUAL; "<" return T_LESS; "<=" return T_LESS_EQUAL; ">" return T_GREATER; ">=" return T_GREATER_EQUAL; "!" return T_NOT; "(" return T_OPEN_PAREN; ")" return T_CLOSE_PAREN; ":=" return T_COLON_EQUAL; "+=" return T_PLUS_EQUAL; \"|\' { str = yytext[0]; new_string(); BEGIN(STRING); } {n}+ { alloc_string(yytext, yyleng); yylval.string = text; return T_WORD; } ({n}|$)+ { /* this token includes at least one '$' */ yylval.string = expand_token(yytext, yyleng); if (strlen(yylval.string)) return T_WORD; free(yylval.string); } . warn_ignored_character(*yytext); <ASSIGN_VAL>{ [^[:blank:]\n]+.* { alloc_string(yytext, yyleng); yylval.string = text; return T_ASSIGN_VAL; } \n { BEGIN(INITIAL); return T_EOL; } . } <STRING>{ "$".* append_expanded_string(yytext); [^$'"\\\n]+ { append_string(yytext, yyleng); } \\.? { append_string(yytext + 1, yyleng - 1); } \'|\" { if (str == yytext[0]) { BEGIN(INITIAL); yylval.string = text; return T_WORD_QUOTE; } else append_string(yytext, 1); } \n { fprintf(stderr, "%s:%d:warning: multi-line strings not supported\n", zconf_curname(), zconf_lineno()); unput('\n'); BEGIN(INITIAL); yylval.string = text; return T_WORD_QUOTE; } <<EOF>> { BEGIN(INITIAL); yylval.string = text; return T_WORD_QUOTE; } } <HELP>{ [ \t]+ { ts = 0; for (i = 0; i < yyleng; i++) { if (yytext[i] == '\t') ts = (ts & ~7) + 8; else ts++; } last_ts = ts; if (first_ts) { if (ts < first_ts) { zconf_endhelp(); return T_HELPTEXT; } ts -= first_ts; while (ts > 8) { append_string(" ", 8); ts -= 8; } append_string(" ", ts); } } [ \t]*\n/[^ \t\n] { zconf_endhelp(); return T_HELPTEXT; } [ \t]*\n { append_string("\n", 1); } [^ \t\n].* { while (yyleng) { if ((yytext[yyleng-1] != ' ') && (yytext[yyleng-1] != '\t')) break; yyleng--; } append_string(yytext, yyleng); if (!first_ts) first_ts = last_ts; } <<EOF>> { zconf_endhelp(); return T_HELPTEXT; } } <<EOF>> { BEGIN(INITIAL); if (prev_token != T_EOL && prev_token != T_HELPTEXT) fprintf(stderr, "%s:%d:warning: no new line at end of file\n", current_file->name, yylineno); if (current_file) { zconf_endfile(); return T_EOL; } fclose(yyin); yyterminate(); } %% /* second stage lexer */ int yylex(void) { int token; repeat: token = yylex1(); if (prev_token == T_EOL || prev_token == T_HELPTEXT) { if (token == T_EOL) { /* Do not pass unneeded T_EOL to the parser. */ goto repeat; } else { /* * For the parser, update file/lineno at the first token * of each statement. Generally, \n is a statement * terminator in Kconfig, but it is not always true * because \n could be escaped by a backslash. */ current_pos.file = current_file; current_pos.lineno = yylineno; } } if (prev_prev_token == T_EOL && prev_token == T_WORD && (token == T_EQUAL || token == T_COLON_EQUAL || token == T_PLUS_EQUAL)) BEGIN(ASSIGN_VAL); prev_prev_token = prev_token; prev_token = token; return token; } static char *expand_token(const char *in, size_t n) { char *out; int c; char c2; const char *rest, *end; new_string(); append_string(in, n); /* * get the whole line because we do not know the end of token. * input() returns 0 (not EOF!) when it reachs the end of file. */ while ((c = input()) != 0) { if (c == '\n') { unput(c); break; } c2 = c; append_string(&c2, 1); } rest = text; out = expand_one_token(&rest); /* push back unused characters to the input stream */ end = rest + strlen(rest); while (end > rest) unput(*--end); free(text); return out; } static void append_expanded_string(const char *str) { const char *end; char *res; str++; res = expand_dollar(&str); /* push back unused characters to the input stream */ end = str + strlen(str); while (end > str) unput(*--end); append_string(res, strlen(res)); free(res); } void zconf_starthelp(void) { new_string(); last_ts = first_ts = 0; BEGIN(HELP); } static void zconf_endhelp(void) { yylval.string = text; BEGIN(INITIAL); } /* * Try to open specified file with following names: * ./name * $(srctree)/name * The latter is used when srctree is separate from objtree * when compiling the kernel. * Return NULL if file is not found. */ FILE *zconf_fopen(const char *name) { char *env, fullname[PATH_MAX+1]; FILE *f; f = fopen(name, "r"); if (!f && name != NULL && name[0] != '/') { env = getenv(SRCTREE); if (env) { snprintf(fullname, sizeof(fullname), "%s/%s", env, name); f = fopen(fullname, "r"); } } return f; } void zconf_initscan(const char *name) { yyin = zconf_fopen(name); if (!yyin) { fprintf(stderr, "can't find file %s\n", name); exit(1); } current_buf = xmalloc(sizeof(*current_buf)); memset(current_buf, 0, sizeof(*current_buf)); current_file = file_lookup(name); yylineno = 1; } void zconf_nextfile(const char *name) { struct file *iter; struct file *file = file_lookup(name); struct buffer *buf = xmalloc(sizeof(*buf)); memset(buf, 0, sizeof(*buf)); current_buf->state = YY_CURRENT_BUFFER; yyin = zconf_fopen(file->name); if (!yyin) { fprintf(stderr, "%s:%d: can't open file \"%s\"\n", zconf_curname(), zconf_lineno(), file->name); exit(1); } yy_switch_to_buffer(yy_create_buffer(yyin, YY_BUF_SIZE)); buf->parent = current_buf; current_buf = buf; current_file->lineno = yylineno; file->parent = current_file; for (iter = current_file; iter; iter = iter->parent) { if (!strcmp(iter->name, file->name)) { fprintf(stderr, "Recursive inclusion detected.\n" "Inclusion path:\n" " current file : %s\n", file->name); iter = file; do { iter = iter->parent; fprintf(stderr, " included from: %s:%d\n", iter->name, iter->lineno - 1); } while (strcmp(iter->name, file->name)); exit(1); } } yylineno = 1; current_file = file; } static void zconf_endfile(void) { struct buffer *parent; current_file = current_file->parent; if (current_file) yylineno = current_file->lineno; parent = current_buf->parent; if (parent) { fclose(yyin); yy_delete_buffer(YY_CURRENT_BUFFER); yy_switch_to_buffer(parent->state); } free(current_buf); current_buf = parent; } int zconf_lineno(void) { return current_pos.lineno; } const char *zconf_curname(void) { return current_pos.file ? current_pos.file->name : "<none>"; }