a 109 global/literal.c # define ccomp(a,b) (iflag ? lca(a)==lca(b) : a==b) a 70 gtags-cscope/display.c # define sigsetjmp(a,b) setjmp(a) a 71 gtags-cscope/display.c # define siglongjmp(a,b) longjmp(a,b) a 67 gtags-cscope/exec.c static int myexecvp(char *a, char **args); a 77 gtags-cscope/exec.c execute(char *a, ...) /* note: "exec" is already defined on u370 */ a 88 gtags-cscope/exec.c va_start(ap, a); a 94 gtags-cscope/exec.c exitcode = spawnvp(P_WAIT, a, argv); a 97 gtags-cscope/exec.c myexecvp(a, argv); /* child */ a 124 gtags-cscope/exec.c myexecvp(char *a, char **args) a 132 gtags-cscope/exec.c execvp(a, args); /* returns only on failure */ a 133 gtags-cscope/exec.c snprintf(msg, sizeof(msg), "\nCannot exec %s", a); a 353 gtags-cscope/global-cscope.h int execute(char *a, ...); a 46 gtags-cscope/mypopen.c #define tst(a,b) (*mode == 'r'? (b) : (a)) a 140 htags/anchor.c struct anchor *a; a 186 htags/anchor.c a = varray_append(vb); a 187 htags/anchor.c a->lineno = atoi(ptable.part[PART_LNO].start); a 188 htags/anchor.c a->type = type; a 189 htags/anchor.c a->done = 0; a 190 htags/anchor.c settag(a, ptable.part[PART_TAG].start); a 235 htags/anchor.c struct anchor *a; a 237 htags/anchor.c for (a = start; a && a < end; a++) { a 238 htags/anchor.c if (a->reserve) { a 239 htags/anchor.c free(a->reserve); a 240 htags/anchor.c a->reserve = NULL; a 395 htags/anchor.c struct anchor *a; a 399 htags/anchor.c for (a = start; a < end ; a++) a 400 htags/anchor.c if (lineno == 0 || a->lineno == lineno) a 402 htags/anchor.c a->lineno, gettag(a), a->type); a 43 htags/anchor.h #define gettag(a) (a->tag[0] ? a->tag : a->reserve) a 44 htags/anchor.h #define settag(a, b) do { \ a 46 htags/anchor.h (a)->length = strlen(tag); \ a 47 htags/anchor.h if ((a)->length < ANCHOR_NAMELEN) { \ a 48 htags/anchor.h strlimcpy((a)->tag, tag, sizeof((a)->tag)); \ a 49 htags/anchor.h (a)->reserve = NULL; \ a 51 htags/anchor.h (a)->reserve = check_strdup(tag); \ a 52 htags/anchor.h (a)->tag[0] = '\0'; \ a 1029 htags/asm.c struct anchor *a = anchor_get(LEXTEXT, LEXLENG, 0, LINENO); a 1030 htags/asm.c if (a) { a 1031 htags/asm.c put_anchor(gettag(a), a->type, LINENO); a 1032 htags/asm.c a->done = 1; a 1076 htags/c.c struct anchor *a = anchor_get(LEXTEXT, LEXLENG, 0, LINENO); a 1078 htags/c.c if (a) { a 1079 htags/c.c put_anchor(gettag(a), a->type, LINENO); a 1080 htags/c.c a->done = 1; a 1158 htags/c.c struct anchor *a = anchor_get(LEXTEXT, LEXLENG, 0, LINENO); a 1159 htags/c.c if (a) { a 1160 htags/c.c put_anchor(gettag(a), a->type, LINENO); a 1161 htags/c.c a->done = 1; a 1027 htags/cpp.c struct anchor *a = anchor_get(LEXTEXT, LEXLENG, 0, LINENO); a 1028 htags/cpp.c if (a) { a 1029 htags/cpp.c put_anchor(gettag(a), a->type, LINENO); a 1030 htags/cpp.c a->done = 1; a 929 htags/java.c struct anchor *a = anchor_get(LEXTEXT, LEXLENG, 0, LINENO); a 930 htags/java.c if (a) { a 931 htags/java.c put_anchor(gettag(a), a->type, LINENO); a 932 htags/java.c a->done = 1; a 1148 htags/php.c struct anchor *a = NULL; a 1169 htags/php.c if ((a = anchor_get(p, i, 'Y', LINENO)) != NULL) { a 1173 htags/php.c put_anchor(gettag(a), a->type, LINENO); a 1176 htags/php.c a->done = 1; a 1193 htags/php.c struct anchor *a = NULL; a 1197 htags/php.c a = anchor_get(LEXTEXT, LEXLENG, 0, LINENO); a 1198 htags/php.c if (a) { a 1199 htags/php.c put_anchor(gettag(a), a->type, LINENO); a 1200 htags/php.c a->done = 1; a 92 libdb/bt_split.c DBT a, b; a 193 libdb/bt_split.c a.size = tbl->ksize; a 194 libdb/bt_split.c a.data = tbl->bytes; a 197 libdb/bt_split.c nksize = t->bt_pfx(&a, &b); a 216 libdb/bt_utils.c __bt_defcmp(a, b) a 217 libdb/bt_utils.c const DBT *a, *b; a 228 libdb/bt_utils.c len = MIN(a->size, b->size); a 229 libdb/bt_utils.c for (p1 = a->data, p2 = b->data; len--; ++p1, ++p2) a 232 libdb/bt_utils.c return ((int)a->size - (int)b->size); a 245 libdb/bt_utils.c __bt_defpfx(a, b) a 246 libdb/bt_utils.c const DBT *a, *b; a 252 libdb/bt_utils.c len = MIN(a->size, b->size); a 253 libdb/bt_utils.c for (p1 = a->data, p2 = b->data; len--; ++p1, ++p2, ++cnt) a 258 libdb/bt_utils.c return (a->size < b->size ? a->size + 1 : a->size); a 111 libdb/compat.h #define index(a, b) strchr(a, b) a 114 libdb/compat.h #define rindex(a, b) strrchr(a, b) a 117 libdb/compat.h #define bzero(a, b) memset(a, 0, b) a 120 libdb/compat.h #define bcmp(a, b, n) memcmp(a, b, n) a 123 libdb/compat.h #define bcopy(a, b, n) memmove(b, a, n) a 127 libdb/compat.h #define strchr(a, b) index(a, b) a 130 libdb/compat.h #define strrchr(a, b) rindex(a, b) a 133 libdb/compat.h #define memcmp(a, b, n) bcmp(a, b, n) a 136 libdb/compat.h #define memmove(a, b, n) bcopy(b, a, n) a 210 libdb/db.h #define M_32_SWAP(a) { \ a 211 libdb/db.h u_int32_t _tmp = a; \ a 212 libdb/db.h ((char *)&a)[0] = ((char *)&_tmp)[3]; \ a 213 libdb/db.h ((char *)&a)[1] = ((char *)&_tmp)[2]; \ a 214 libdb/db.h ((char *)&a)[2] = ((char *)&_tmp)[1]; \ a 215 libdb/db.h ((char *)&a)[3] = ((char *)&_tmp)[0]; \ a 217 libdb/db.h #define P_32_SWAP(a) { \ a 218 libdb/db.h u_int32_t _tmp = *(u_int32_t *)a; \ a 219 libdb/db.h ((char *)a)[0] = ((char *)&_tmp)[3]; \ a 220 libdb/db.h ((char *)a)[1] = ((char *)&_tmp)[2]; \ a 221 libdb/db.h ((char *)a)[2] = ((char *)&_tmp)[1]; \ a 222 libdb/db.h ((char *)a)[3] = ((char *)&_tmp)[0]; \ a 224 libdb/db.h #define P_32_COPY(a, b) { \ a 225 libdb/db.h ((char *)&(b))[0] = ((char *)&(a))[3]; \ a 226 libdb/db.h ((char *)&(b))[1] = ((char *)&(a))[2]; \ a 227 libdb/db.h ((char *)&(b))[2] = ((char *)&(a))[1]; \ a 228 libdb/db.h ((char *)&(b))[3] = ((char *)&(a))[0]; \ a 239 libdb/db.h #define M_16_SWAP(a) { \ a 240 libdb/db.h u_int16_t _tmp = a; \ a 241 libdb/db.h ((char *)&a)[0] = ((char *)&_tmp)[1]; \ a 242 libdb/db.h ((char *)&a)[1] = ((char *)&_tmp)[0]; \ a 244 libdb/db.h #define P_16_SWAP(a) { \ a 245 libdb/db.h u_int16_t _tmp = *(u_int16_t *)a; \ a 246 libdb/db.h ((char *)a)[0] = ((char *)&_tmp)[1]; \ a 247 libdb/db.h ((char *)a)[1] = ((char *)&_tmp)[0]; \ a 249 libdb/db.h #define P_16_COPY(a, b) { \ a 250 libdb/db.h ((char *)&(b))[0] = ((char *)&(a))[1]; \ a 251 libdb/db.h ((char *)&(b))[1] = ((char *)&(a))[0]; \ a 534 libdb/queue.h insque(void *a, void *b) a 536 libdb/queue.h struct quehead *element = a, *head = b; a 545 libdb/queue.h remque(void *a) a 547 libdb/queue.h struct quehead *element = a; a 556 libdb/queue.h void insque __P((void *a, void *b)); a 557 libdb/queue.h void remque __P((void *a)); a 371 libglibc/regex.c #define MAX(a, b) ((a) > (b) ? (a) : (b)) a 372 libglibc/regex.c #define MIN(a, b) ((a) < (b) ? (a) : (b)) a 158 libltdl/libltdl/lt_system.h # define LT__CONC(a, b) a##b a 159 libltdl/libltdl/lt_system.h # define LT_CONC(a, b) LT__CONC(a, b) a 162 libltdl/libltdl/lt_system.h # define LT__CONC3(a, b, c) a##b##c a 163 libltdl/libltdl/lt_system.h # define LT_CONC3(a, b, c) LT__CONC3(a, b, c) a 38 libparser/asm_res.h #define IS_RESERVED_WORD(a) ((a) >= START_WORD) a 39 libparser/asm_res.h #define IS_RESERVED_VARIABLE(a) ((a) >= START_VARIABLE && (a) < START_WORD) a 40 libparser/asm_res.h #define IS_RESERVED_SHARP(a) ((a) >= START_SHARP && (a) < START_YACC) a 41 libparser/asm_res.h #define IS_RESERVED_YACC(a) ((a) >= START_YACC) a 38 libparser/c_res.h #define IS_RESERVED_WORD(a) ((a) >= START_WORD) a 39 libparser/c_res.h #define IS_RESERVED_VARIABLE(a) ((a) >= START_VARIABLE && (a) < START_WORD) a 40 libparser/c_res.h #define IS_RESERVED_SHARP(a) ((a) >= START_SHARP && (a) < START_YACC) a 41 libparser/c_res.h #define IS_RESERVED_YACC(a) ((a) >= START_YACC) a 38 libparser/cpp_res.h #define IS_RESERVED_WORD(a) ((a) >= START_WORD) a 39 libparser/cpp_res.h #define IS_RESERVED_VARIABLE(a) ((a) >= START_VARIABLE && (a) < START_WORD) a 40 libparser/cpp_res.h #define IS_RESERVED_SHARP(a) ((a) >= START_SHARP && (a) < START_YACC) a 41 libparser/cpp_res.h #define IS_RESERVED_YACC(a) ((a) >= START_YACC) a 34 libparser/internal.h #define DBG_PRINT(level, a) do { \ a 36 libparser/internal.h dbg_print(level, a); \ a 39 libparser/internal.h #define DBG_PRINT(level, a) do {} while (0) a 38 libparser/java_res.h #define IS_RESERVED_WORD(a) ((a) >= START_WORD) a 39 libparser/java_res.h #define IS_RESERVED_VARIABLE(a) ((a) >= START_VARIABLE && (a) < START_WORD) a 40 libparser/java_res.h #define IS_RESERVED_SHARP(a) ((a) >= START_SHARP && (a) < START_YACC) a 41 libparser/java_res.h #define IS_RESERVED_YACC(a) ((a) >= START_YACC) a 38 libparser/php_res.h #define IS_RESERVED_WORD(a) ((a) >= START_WORD) a 39 libparser/php_res.h #define IS_RESERVED_VARIABLE(a) ((a) >= START_VARIABLE && (a) < START_WORD) a 40 libparser/php_res.h #define IS_RESERVED_SHARP(a) ((a) >= START_SHARP && (a) < START_YACC) a 41 libparser/php_res.h #define IS_RESERVED_YACC(a) ((a) >= START_YACC) a 115 libutil/pathconvert.c const char *a, *b; a 133 libutil/pathconvert.c a = strbuf_value(cv->abspath); a 136 libutil/pathconvert.c while (*a != '/') a 137 libutil/pathconvert.c a++; a 141 libutil/pathconvert.c if (!abs2rel(a, b, buf, sizeof(buf))) a 142 libutil/pathconvert.c die("abs2rel failed. (path=%s, base=%s).", a, b); a 49 libutil/statistics.c #define timeradd(a, b, r) do { \ a 50 libutil/statistics.c (r)->tv_sec = (a)->tv_sec + (b)->tv_sec; \ a 51 libutil/statistics.c (r)->tv_usec = (a)->tv_usec + (b)->tv_usec; \ a 60 libutil/statistics.c #define timersub(a, b, r) do { \ a 61 libutil/statistics.c (r)->tv_sec = (a)->tv_sec - (b)->tv_sec; \ a 62 libutil/statistics.c (r)->tv_usec = (a)->tv_usec - (b)->tv_usec; \ a 73 libutil/statistics.c #define SUB_ELAPSED_TIME(a, b, r) do { \ a 75 libutil/statistics.c timersub(a, b, &diff); \ a 95 libutil/statistics.c #define SUB_ELAPSED_TIME(a, b, r) (*(r) = *(a) - *(b))