Add noinput directive to all lex files to avoid a compiler warning.
[wine] / programs / winedbg / debug.l
1 /* -*-C-*-
2  * Lexical scanner for command line parsing
3  *
4  * Copyright 1993 Eric Youngdale
5  *           2000 Eric Pouech
6  *
7  * This library is free software; you can redistribute it and/or
8  * modify it under the terms of the GNU Lesser General Public
9  * License as published by the Free Software Foundation; either
10  * version 2.1 of the License, or (at your option) any later version.
11  *
12  * This library is distributed in the hope that it will be useful,
13  * but WITHOUT ANY WARRANTY; without even the implied warranty of
14  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
15  * Lesser General Public License for more details.
16  *
17  * You should have received a copy of the GNU Lesser General Public
18  * License along with this library; if not, write to the Free Software
19  * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
20  */
21
22 %option noinput nounput interactive 8bit prefix="dbg_"
23
24 %{
25 #include "config.h"
26 #include <stdlib.h>
27 #include <string.h>
28 #include <stdarg.h>
29
30 #ifndef HAVE_UNISTD_H
31 #define YY_NO_UNISTD_H
32 #endif
33
34 #include "debugger.h"
35 #include "dbg.tab.h"
36
37 #undef YY_INPUT
38
39 static int read_input(const char* pfx, char* buf, int size)
40 {
41     int len;
42     static char*  last_line = NULL;
43     static size_t last_line_idx = 0;
44
45     /* try first to fetch the remaining of an existing line */
46     if (last_line_idx == 0)
47     {
48         char* tmp = NULL;
49         /* no remaining chars to be read from last line, grab a brand new line up to '\n' */
50         lexeme_flush();
51         len = input_fetch_entire_line(pfx, &tmp);
52         if (len < 0) return 0;  /* eof */
53         /* FIXME: should have a pair of buffers, and switch between the two, instead of
54          * reallocating a new one for each line
55          */
56         if (last_line && (len == 0 || (len == 1 && tmp[0] == '\n') || (len == 2 && tmp[0] == '\r' && tmp[1] == '\n')))
57         {
58             HeapFree(GetProcessHeap(), 0, tmp);
59         }
60         else
61         {
62             HeapFree(GetProcessHeap(), 0, last_line);
63             last_line = tmp;
64         }
65     }
66
67     len = min(strlen(last_line + last_line_idx), size - 1);
68     memcpy(buf, last_line + last_line_idx, len);
69     buf[len] = '\0';
70     if ((last_line_idx += len) >= strlen(last_line))
71         last_line_idx = 0;
72     return len;
73 }
74
75 #define YY_INPUT(buf,result,max_size) \
76         if ((result = read_input("Wine-dbg>", buf, max_size)) < 0) \
77             YY_FATAL_ERROR("read_input in flex scanner failed");
78
79 static int syntax_error;
80 %}
81
82 DIGIT      [0-9]
83 HEXDIGIT   [0-9a-fA-F]
84 FORMAT     [ubcdgiswx]
85 IDENTIFIER [_a-zA-Z~?][_a-zA-Z0-9~?@]*
86 PATHNAME   [\\/-_a-zA-Z0-9\.~@]+
87 STRING     \"[^\n"]+\"
88
89 %s FORMAT_EXPECTED
90 %s PATH_EXPECTED
91 %s INFO_CMD
92 %s HELP_CMD
93 %s BD_CMD
94 %s LOCAL_CMD
95 %s SHOW_CMD
96 %s MODE_CMD
97 %s MAINT_CMD
98 %s NOCMD
99
100 %x ASTRING_EXPECTED
101 %x NOPROCESS
102 %%
103                                         /* set to special state when no process is loaded. */
104                                         if (!dbg_num_processes() && YYSTATE == INITIAL) {BEGIN(NOPROCESS);}
105
106 <<EOF>>                                 { return tEOF; }
107 <*>\n                                   { BEGIN(INITIAL); syntax_error = 0; return tEOL; }
108                                         /* Indicates end of command. Reset state. */
109
110                                         /* This rule must precede the ones below, */
111                                         /* otherwise paths like '/' or '0x9' would */
112                                         /* get parsed as an operator or tNUM */
113 <PATH_EXPECTED>{PATHNAME}               { dbg_lval.string = lexeme_alloc(yytext); return tPATH; }
114
115 "||"                                    { return OP_LOR; }
116 "&&"                                    { return OP_LAND; }
117 "=="                                    { return OP_EQ; }
118 "!="                                    { return OP_NE; }
119 "<="                                    { return OP_LE; }
120 ">="                                    { return OP_GE; }
121 "<<"                                    { return OP_SHL; }
122 ">>"                                    { return OP_SHR; }
123 "->"                                    { return OP_DRF; }
124 "::"                                    { return OP_SCOPE; }
125 [-+<=>|&^()*/%:!~,\.]                   { return *yytext; }
126 "["                                     { return *yytext; }
127 "]"                                     { return *yytext; }
128
129 "0x"{HEXDIGIT}+                         { sscanf(yytext, "%x", &dbg_lval.integer); return tNUM; }
130 {DIGIT}+                                { sscanf(yytext, "%d", &dbg_lval.integer); return tNUM; }
131
132 <FORMAT_EXPECTED>"/"{DIGIT}+{FORMAT}    { char* last;
133                                           dbg_lval.integer = strtol(yytext+1, &last, 0) << 8;
134                                           dbg_lval.integer |= *last;
135                                           return tFORMAT; }
136
137 <FORMAT_EXPECTED>"/"{FORMAT}            { dbg_lval.integer = (1 << 8) | yytext[1]; return tFORMAT; }
138
139 {STRING}                                { dbg_lval.string = lexeme_alloc(yytext + 1); dbg_lval.string[strlen(dbg_lval.string) - 1] = '\0'; return tSTRING; }
140 <ASTRING_EXPECTED>[^\n]+                { char* p = yytext; while (*p == ' ' || *p == '\t') p++;
141                                           dbg_lval.string = lexeme_alloc(p); return tSTRING; }
142
143 <INITIAL,NOPROCESS>info|inf|in          { BEGIN(INFO_CMD); return tINFO; }
144 <INITIAL>up                             { BEGIN(NOCMD); return tUP; }
145 <INITIAL>down|dow|do                    { BEGIN(NOCMD); return tDOWN; }
146 <INITIAL>frame|fram|fra|fr              { BEGIN(NOCMD); return tFRAME; }
147 <INITIAL>list|lis|li|l                  { BEGIN(PATH_EXPECTED); return tLIST; }
148 <INITIAL>enable|enabl|enab|ena          { BEGIN(BD_CMD); return tENABLE;}
149 <INITIAL>disable|disabl|disab|disa|dis  { BEGIN(BD_CMD); return tDISABLE; }
150 <INITIAL>disassemble|disassembl|disassemb|disassem|disasse|disass|disas { BEGIN(NOCMD); return tDISASSEMBLE; }
151 <INITIAL>locally|local                  { BEGIN(LOCAL_CMD); return tLOCAL; }
152 <INITIAL,LOCAL_CMD>display|displa|displ|disp    { BEGIN(FORMAT_EXPECTED); return tDISPLAY; }
153 <INFO_CMD,BD_CMD>display|displa|displ|disp|dis|di|d     { BEGIN(NOCMD); return tDISPLAY; }
154 <INITIAL>undisplay|undispla|undispl|undisp|undis|undi|und       { BEGIN(NOCMD); return tUNDISPLAY; }
155 <INITIAL>delete|delet|dele|del          { BEGIN(BD_CMD); return tDELETE; }
156 <INITIAL,NOPROCESS>quit|qui|qu|q        { BEGIN(NOCMD); return tQUIT; }
157 <INITIAL>set|se                         { BEGIN(NOCMD); return tSET; }
158 <INITIAL>x                              { BEGIN(FORMAT_EXPECTED); return tEXAM; }
159 <INITIAL,NOPROCESS>help|hel|he|"?"      { BEGIN(HELP_CMD); return tHELP; }
160
161 <INITIAL,NOPROCESS>backtrace|backtrac|backtra|backt|back|bac|ba|bt { BEGIN(NOCMD); return tBACKTRACE; }
162 <INITIAL,NOPROCESS>where|wher|whe       { BEGIN(NOCMD); return tBACKTRACE; }
163
164 <INITIAL>cont|con|co|c                  { BEGIN(NOCMD); return tCONT; }
165 <INITIAL>pass|pas|pa                    { BEGIN(NOCMD); return tPASS; }
166 <INITIAL>condition|conditio|conditi|condit|condi|cond   { BEGIN(NOCMD); return tCOND; }
167 <INITIAL>step|ste|st|s                  { BEGIN(NOCMD); return tSTEP; }
168 <INITIAL>next|nex|ne|n                  { BEGIN(NOCMD); return tNEXT; }
169 <INITIAL>stepi|si                       { BEGIN(NOCMD); return tSTEPI; }
170 <INITIAL>nexti|ni                       { BEGIN(NOCMD); return tNEXTI; }
171 <INITIAL>finish|finis|fini|fin|fi       { BEGIN(NOCMD); return tFINISH; }
172
173 <INITIAL>abort|abor|abo                 { BEGIN(NOCMD); return tABORT; }
174 <INITIAL>print|prin|pri|pr|p            { BEGIN(FORMAT_EXPECTED); return tPRINT; }
175
176 <INITIAL>show|sho|sh                    { BEGIN(SHOW_CMD); return tSHOW; }
177 <INITIAL,NOPROCESS>source|sourc|sour|src { BEGIN(PATH_EXPECTED); return tSOURCE; }
178 <INITIAL>symbolfile|symbols|symbol|sf   { BEGIN(PATH_EXPECTED); return tSYMBOLFILE; }
179
180 <INITIAL,INFO_CMD,BD_CMD>break|brea|bre|br|b    { BEGIN(NOCMD); return tBREAK; }
181 <INITIAL,INFO_CMD,BD_CMD>hbreak|hbrea|hbre|hbr|hb { BEGIN(NOCMD); return tHBREAK; }
182 <INITIAL>watch|watc|wat                 { BEGIN(NOCMD); return tWATCH; }
183 <INITIAL>whatis|whati|what              { BEGIN(NOCMD); return tWHATIS; }
184 <INITIAL,NOPROCESS>run|ru|r             { BEGIN(ASTRING_EXPECTED); return tRUN;}
185 <INITIAL>detach|detac|deta|det          { BEGIN(NOCMD); return tDETACH; }
186 <INITIAL,NOPROCESS>maintenance|maint    { BEGIN(MAINT_CMD); return tMAINTENANCE; }
187 <INITIAL>minidump|mdmp                  { BEGIN(PATH_EXPECTED); return tMINIDUMP; }
188 <INITIAL>echo                           { BEGIN(ASTRING_EXPECTED); return tECHO; }
189 <NOPROCESS>attach|attac|atta|att        { BEGIN(NOCMD); return tATTACH; }
190 <INFO_CMD>share|shar|sha                { return tSHARE; }
191 <MAINT_CMD>module|modul|mod             { BEGIN(ASTRING_EXPECTED); return tMODULE; }
192 <INFO_CMD>locals|local|loca|loc         { return tLOCAL; }
193 <INFO_CMD>class|clas|cla                { return tCLASS; }
194 <INFO_CMD>process|proces|proce|proc     { return tPROCESS; }
195 <INFO_CMD>threads|thread|threa|thre|thr|th { return tTHREAD; }
196 <INFO_CMD>exception|except|exc|ex       { return tEXCEPTION; }
197 <INFO_CMD>registers|regs|reg|re         { return tREGS; }
198 <INFO_CMD>allregs|allreg|allre          { return tALLREGS; }
199 <INFO_CMD>"all-registers"|"all-regs"|"all-reg"|"all-re" { return tALLREGS; }
200 <INFO_CMD>segments|segment|segm|seg|se  { return tSEGMENTS; }
201 <INFO_CMD>stack|stac|sta|st             { return tSTACK; }
202 <INFO_CMD>symbol|symbo|symb|sym         { BEGIN(ASTRING_EXPECTED); return tSYMBOL; }
203 <INFO_CMD>maps|map                      { return tMAPS; }
204 <INFO_CMD>window|windo|wind|win|wnd     { return tWND; }
205 <HELP_CMD>info|inf|in                   { return tINFO; }
206 <MAINT_CMD>type                         { return tTYPE; }
207
208 <INITIAL,SHOW_CMD>directories|directorie|directori|director|directo|direct|direc|direc|dir {
209                                           BEGIN(PATH_EXPECTED); return tDIR; }
210
211 char                                    { return tCHAR; }
212 short                                   { return tSHORT; }
213 int                                     { return tINT; }
214 long                                    { return tLONG; }
215 float                                   { return tFLOAT; }
216 double                                  { return tDOUBLE; }
217 unsigned                                { return tUNSIGNED; }
218 signed                                  { return tSIGNED; }
219 struct                                  { return tSTRUCT; }
220 union                                   { return tUNION; }
221 enum                                    { return tENUM; }
222 all                                     { return tALL; }
223
224 {IDENTIFIER}                            { dbg_lval.string = lexeme_alloc(yytext); return tIDENTIFIER; }
225 "$"{IDENTIFIER}                         { dbg_lval.string = lexeme_alloc(yytext+1); return tINTVAR; }
226
227 <*>[ \t\r]+                             /* Eat up whitespace and DOS LF */
228
229 <NOPROCESS>.                            { BEGIN(ASTRING_EXPECTED); yyless(0); return tNOPROCESS;}
230 <*>.                                    { if (syntax_error == 0) { syntax_error++; dbg_printf("Syntax Error (%s)\n", yytext); } }
231 %%
232
233 #ifndef dbg_wrap
234 int dbg_wrap(void) { return 1; }
235 #endif
236
237 static char** local_lexemes /* = NULL */;
238 static int next_lexeme /* = 0 */;
239 static int alloc_lexeme /* = 0 */;
240
241 char* lexeme_alloc_size(int size)
242 {
243     assert(0 <= next_lexeme && next_lexeme < alloc_lexeme + 1);
244     if (next_lexeme >= alloc_lexeme)
245     {
246         alloc_lexeme += 32;
247         local_lexemes = dbg_heap_realloc(local_lexemes, alloc_lexeme * sizeof(local_lexemes[0]));
248         assert(local_lexemes);
249     }
250     return local_lexemes[next_lexeme++] = HeapAlloc(GetProcessHeap(), 0, size + 1);
251 }
252
253 char* lexeme_alloc(const char* lexeme)
254 {
255     char*       ptr = lexeme_alloc_size(strlen(lexeme) + 1);
256     return strcpy(ptr, lexeme);
257 }
258
259 void lexeme_flush(void)
260 {
261     while (--next_lexeme >= 0) HeapFree(GetProcessHeap(), 0, local_lexemes[next_lexeme]);
262     next_lexeme = 0;
263 }