v 102 common/gcc-millicode/muldi3.c union uu u, v, low, prod;
v 107 common/gcc-millicode/muldi3.c #define v1 v.ui[H]
v 108 common/gcc-millicode/muldi3.c #define v0 v.ui[L]
v 120 common/gcc-millicode/muldi3.c v.ll = b;
v 122 common/gcc-millicode/muldi3.c v.ll = -b, negall ^= 1;
v 184 common/gcc-millicode/muldi3.c __lmulq(unsigned int u, unsigned int v)
v 193 common/gcc-millicode/muldi3.c v1 = HHALF(v);
v 194 common/gcc-millicode/muldi3.c v0 = LHALF(v);
v 72 common/gcc-millicode/qdivrem.c digit *u, *v, *q;
v 96 common/gcc-millicode/qdivrem.c v = &vspace[0];
v 119 common/gcc-millicode/qdivrem.c v[1] = (digit)HHALF(tmp.ui[H]);
v 120 common/gcc-millicode/qdivrem.c v[2] = (digit)LHALF(tmp.ui[H]);
v 121 common/gcc-millicode/qdivrem.c v[3] = (digit)HHALF(tmp.ui[L]);
v 122 common/gcc-millicode/qdivrem.c v[4] = (digit)LHALF(tmp.ui[L]);
v 123 common/gcc-millicode/qdivrem.c for (n = 4; v[1] == 0; v++) {
v 136 common/gcc-millicode/qdivrem.c t = v[2]; /* nonzero, by definition */
v 170 common/gcc-millicode/qdivrem.c for (t = v[1]; t < B / 2; t <<= 1)
v 174 common/gcc-millicode/qdivrem.c shl(&v[1], n - 1, d); /* v <<= d */
v 180 common/gcc-millicode/qdivrem.c v1 = v[1]; /* for D3 -- note that v[1..n] are constant */
v 181 common/gcc-millicode/qdivrem.c v2 = v[2]; /* for D3 */
v 218 common/gcc-millicode/qdivrem.c t = u[i + j] - v[i] * qhat - t;
v 233 common/gcc-millicode/qdivrem.c t += u[i + j] + v[i];
v 407 kern/dev/lamebus/emu.c emufs_open(struct vnode *v, int openflags)
v 421 kern/dev/lamebus/emu.c (void)v;
v 431 kern/dev/lamebus/emu.c emufs_opendir(struct vnode *v, int openflags)
v 445 kern/dev/lamebus/emu.c (void)v;
v 454 kern/dev/lamebus/emu.c emufs_close(struct vnode *v)
v 456 kern/dev/lamebus/emu.c (void)v;
v 467 kern/dev/lamebus/emu.c emufs_reclaim(struct vnode *v)
v 469 kern/dev/lamebus/emu.c struct emufs_vnode *ev = v->vn_data;
v 470 kern/dev/lamebus/emu.c struct emufs_fs *ef = v->vn_fs->fs_data;
v 502 kern/dev/lamebus/emu.c if (vx == v) {
v 527 kern/dev/lamebus/emu.c emufs_read(struct vnode *v, struct uio *uio)
v 529 kern/dev/lamebus/emu.c struct emufs_vnode *ev = v->vn_data;
v 563 kern/dev/lamebus/emu.c emufs_getdirentry(struct vnode *v, struct uio *uio)
v 565 kern/dev/lamebus/emu.c struct emufs_vnode *ev = v->vn_data;
v 583 kern/dev/lamebus/emu.c emufs_write(struct vnode *v, struct uio *uio)
v 585 kern/dev/lamebus/emu.c struct emufs_vnode *ev = v->vn_data;
v 619 kern/dev/lamebus/emu.c emufs_ioctl(struct vnode *v, int op, userptr_t data)
v 625 kern/dev/lamebus/emu.c (void)v;
v 637 kern/dev/lamebus/emu.c emufs_stat(struct vnode *v, struct stat *statbuf)
v 639 kern/dev/lamebus/emu.c struct emufs_vnode *ev = v->vn_data;
v 649 kern/dev/lamebus/emu.c result = VOP_GETTYPE(v, &statbuf->st_mode);
v 665 kern/dev/lamebus/emu.c emufs_file_gettype(struct vnode *v, uint32_t *result)
v 667 kern/dev/lamebus/emu.c (void)v;
v 677 kern/dev/lamebus/emu.c emufs_dir_gettype(struct vnode *v, uint32_t *result)
v 679 kern/dev/lamebus/emu.c (void)v;
v 689 kern/dev/lamebus/emu.c emufs_tryseek(struct vnode *v, off_t pos)
v 696 kern/dev/lamebus/emu.c (void)v;
v 706 kern/dev/lamebus/emu.c emufs_fsync(struct vnode *v)
v 708 kern/dev/lamebus/emu.c (void)v;
v 717 kern/dev/lamebus/emu.c emufs_truncate(struct vnode *v, off_t len)
v 719 kern/dev/lamebus/emu.c struct emufs_vnode *ev = v->vn_data;
v 821 kern/dev/lamebus/emu.c emufs_namefile(struct vnode *v, struct uio *uio)
v 823 kern/dev/lamebus/emu.c struct emufs_vnode *ev = v->vn_data;
v 824 kern/dev/lamebus/emu.c struct emufs_fs *ef = v->vn_fs->fs_data;
v 843 kern/dev/lamebus/emu.c emufs_mmap(struct vnode *v)
v 845 kern/dev/lamebus/emu.c (void)v;
v 857 kern/dev/lamebus/emu.c emufs_dir_tryseek(struct vnode *v, off_t pos)
v 859 kern/dev/lamebus/emu.c (void)v;
v 866 kern/dev/lamebus/emu.c emufs_symlink(struct vnode *v, const char *contents, const char *name)
v 868 kern/dev/lamebus/emu.c (void)v;
v 876 kern/dev/lamebus/emu.c emufs_mkdir(struct vnode *v, const char *name, mode_t mode)
v 878 kern/dev/lamebus/emu.c (void)v;
v 886 kern/dev/lamebus/emu.c emufs_link(struct vnode *v, const char *name, struct vnode *target)
v 888 kern/dev/lamebus/emu.c (void)v;
v 896 kern/dev/lamebus/emu.c emufs_remove(struct vnode *v, const char *name)
v 898 kern/dev/lamebus/emu.c (void)v;
v 905 kern/dev/lamebus/emu.c emufs_rmdir(struct vnode *v, const char *name)
v 907 kern/dev/lamebus/emu.c (void)v;
v 941 kern/dev/lamebus/emu.c emufs_void_op_isdir(struct vnode *v)
v 943 kern/dev/lamebus/emu.c (void)v;
v 949 kern/dev/lamebus/emu.c emufs_uio_op_isdir(struct vnode *v, struct uio *uio)
v 951 kern/dev/lamebus/emu.c (void)v;
v 958 kern/dev/lamebus/emu.c emufs_uio_op_notdir(struct vnode *v, struct uio *uio)
v 960 kern/dev/lamebus/emu.c (void)v;
v 967 kern/dev/lamebus/emu.c emufs_name_op_notdir(struct vnode *v, const char *name)
v 969 kern/dev/lamebus/emu.c (void)v;
v 976 kern/dev/lamebus/emu.c emufs_readlink_notlink(struct vnode *v, struct uio *uio)
v 978 kern/dev/lamebus/emu.c (void)v;
v 985 kern/dev/lamebus/emu.c emufs_creat_notdir(struct vnode *v, const char *name, bool excl, mode_t mode,
v 988 kern/dev/lamebus/emu.c (void)v;
v 998 kern/dev/lamebus/emu.c emufs_symlink_notdir(struct vnode *v, const char *contents, const char *name)
v 1000 kern/dev/lamebus/emu.c (void)v;
v 1008 kern/dev/lamebus/emu.c emufs_mkdir_notdir(struct vnode *v, const char *name, mode_t mode)
v 1010 kern/dev/lamebus/emu.c (void)v;
v 1018 kern/dev/lamebus/emu.c emufs_link_notdir(struct vnode *v, const char *name, struct vnode *target)
v 1020 kern/dev/lamebus/emu.c (void)v;
v 1040 kern/dev/lamebus/emu.c emufs_lookup_notdir(struct vnode *v, char *pathname, struct vnode **result)
v 1042 kern/dev/lamebus/emu.c (void)v;
v 1050 kern/dev/lamebus/emu.c emufs_lookparent_notdir(struct vnode *v, char *pathname, struct vnode **result,
v 1053 kern/dev/lamebus/emu.c (void)v;
v 1064 kern/dev/lamebus/emu.c emufs_truncate_isdir(struct vnode *v, off_t len)
v 1066 kern/dev/lamebus/emu.c (void)v;
v 1151 kern/dev/lamebus/emu.c struct vnode *v;
v 1161 kern/dev/lamebus/emu.c v = vnodearray_get(ef->ef_vnodes, i);
v 1162 kern/dev/lamebus/emu.c ev = v->vn_data;
v 154 kern/fs/sfs/sfs_fs.c struct vnode *v = vnodearray_get(sfs->sfs_vnodes, i);
v 155 kern/fs/sfs/sfs_fs.c VOP_FSYNC(v);
v 825 kern/fs/sfs/sfs_vnode.c sfs_open(struct vnode *v, int openflags)
v 839 kern/fs/sfs/sfs_vnode.c (void)v;
v 850 kern/fs/sfs/sfs_vnode.c sfs_opendir(struct vnode *v, int openflags)
v 864 kern/fs/sfs/sfs_vnode.c (void)v;
v 876 kern/fs/sfs/sfs_vnode.c sfs_close(struct vnode *v)
v 879 kern/fs/sfs/sfs_vnode.c return VOP_FSYNC(v);
v 889 kern/fs/sfs/sfs_vnode.c sfs_reclaim(struct vnode *v)
v 891 kern/fs/sfs/sfs_vnode.c struct sfs_vnode *sv = v->vn_data;
v 892 kern/fs/sfs/sfs_vnode.c struct sfs_fs *sfs = v->vn_fs->fs_data;
v 903 kern/fs/sfs/sfs_vnode.c if (v->vn_refcount != 1) {
v 906 kern/fs/sfs/sfs_vnode.c KASSERT(v->vn_refcount>1);
v 907 kern/fs/sfs/sfs_vnode.c v->vn_refcount--;
v 967 kern/fs/sfs/sfs_vnode.c sfs_read(struct vnode *v, struct uio *uio)
v 969 kern/fs/sfs/sfs_vnode.c struct sfs_vnode *sv = v->vn_data;
v 986 kern/fs/sfs/sfs_vnode.c sfs_write(struct vnode *v, struct uio *uio)
v 988 kern/fs/sfs/sfs_vnode.c struct sfs_vnode *sv = v->vn_data;
v 1005 kern/fs/sfs/sfs_vnode.c sfs_ioctl(struct vnode *v, int op, userptr_t data)
v 1011 kern/fs/sfs/sfs_vnode.c (void)v;
v 1023 kern/fs/sfs/sfs_vnode.c sfs_stat(struct vnode *v, struct stat *statbuf)
v 1025 kern/fs/sfs/sfs_vnode.c struct sfs_vnode *sv = v->vn_data;
v 1031 kern/fs/sfs/sfs_vnode.c result = VOP_GETTYPE(v, &statbuf->st_mode);
v 1052 kern/fs/sfs/sfs_vnode.c sfs_gettype(struct vnode *v, uint32_t *ret)
v 1054 kern/fs/sfs/sfs_vnode.c struct sfs_vnode *sv = v->vn_data;
v 1082 kern/fs/sfs/sfs_vnode.c sfs_tryseek(struct vnode *v, off_t pos)
v 1089 kern/fs/sfs/sfs_vnode.c (void)v;
v 1100 kern/fs/sfs/sfs_vnode.c sfs_fsync(struct vnode *v)
v 1102 kern/fs/sfs/sfs_vnode.c struct sfs_vnode *sv = v->vn_data;
v 1117 kern/fs/sfs/sfs_vnode.c sfs_mmap(struct vnode *v /* add stuff as needed */)
v 1119 kern/fs/sfs/sfs_vnode.c (void)v;
v 1128 kern/fs/sfs/sfs_vnode.c sfs_truncate(struct vnode *v, off_t len)
v 1139 kern/fs/sfs/sfs_vnode.c struct sfs_vnode *sv = v->vn_data;
v 1253 kern/fs/sfs/sfs_vnode.c sfs_creat(struct vnode *v, const char *name, bool excl, mode_t mode,
v 1256 kern/fs/sfs/sfs_vnode.c struct sfs_fs *sfs = v->vn_fs->fs_data;
v 1257 kern/fs/sfs/sfs_vnode.c struct sfs_vnode *sv = v->vn_data;
v 1484 kern/fs/sfs/sfs_vnode.c sfs_lookparent(struct vnode *v, char *path, struct vnode **ret,
v 1487 kern/fs/sfs/sfs_vnode.c struct sfs_vnode *sv = v->vn_data;
v 1517 kern/fs/sfs/sfs_vnode.c sfs_lookup(struct vnode *v, char *path, struct vnode **ret)
v 1519 kern/fs/sfs/sfs_vnode.c struct sfs_vnode *sv = v->vn_data;
v 1654 kern/fs/sfs/sfs_vnode.c struct vnode *v;
v 1665 kern/fs/sfs/sfs_vnode.c v = vnodearray_get(sfs->sfs_vnodes, i);
v 1666 kern/fs/sfs/sfs_vnode.c sv = v->vn_data;
v 119 kern/include/addrspace.h int load_elf(struct vnode *v, vaddr_t *entrypoint);
v 66 kern/include/array.h void **v;
v 99 kern/include/array.h return a->v[index];
v 106 kern/include/array.h a->v[index] = val;
v 120 kern/include/array.h a->v[index] = val;
v 60 kern/lib/array.c a->v = NULL;
v 72 kern/lib/array.c kfree(a->v);
v 74 kern/lib/array.c a->v = NULL;
v 98 kern/lib/array.c newptr = kmalloc(newmax*sizeof(*a->v));
v 102 kern/lib/array.c memcpy(newptr, a->v, a->num*sizeof(*a->v));
v 103 kern/lib/array.c kfree(a->v);
v 104 kern/lib/array.c a->v = newptr;
v 121 kern/lib/array.c memmove(a->v + index, a->v + index+1, num_to_move*sizeof(void *));
v 52 kern/lib/bitmap.c WORD_TYPE *v;
v 67 kern/lib/bitmap.c b->v = kmalloc(words*sizeof(WORD_TYPE));
v 68 kern/lib/bitmap.c if (b->v == NULL) {
v 73 kern/lib/bitmap.c bzero(b->v, words*sizeof(WORD_TYPE));
v 85 kern/lib/bitmap.c b->v[ix] |= ((WORD_TYPE)1 << j);
v 95 kern/lib/bitmap.c return b->v;
v 106 kern/lib/bitmap.c if (b->v[ix]!=WORD_ALLBITS) {
v 110 kern/lib/bitmap.c if ((b->v[ix] & mask)==0) {
v 111 kern/lib/bitmap.c b->v[ix] |= mask;
v 143 kern/lib/bitmap.c KASSERT((b->v[ix] & mask)==0);
v 144 kern/lib/bitmap.c b->v[ix] |= mask;
v 156 kern/lib/bitmap.c KASSERT((b->v[ix] & mask)!=0);
v 157 kern/lib/bitmap.c b->v[ix] &= ~mask;
v 168 kern/lib/bitmap.c return (b->v[ix] & mask);
v 174 kern/lib/bitmap.c kfree(b->v);
v 79 kern/syscall/loadelf.c load_segment(struct addrspace *as, struct vnode *v,
v 106 kern/syscall/loadelf.c result = VOP_READ(v, &u);
v 154 kern/syscall/loadelf.c load_elf(struct vnode *v, vaddr_t *entrypoint)
v 170 kern/syscall/loadelf.c result = VOP_READ(v, &ku);
v 224 kern/syscall/loadelf.c result = VOP_READ(v, &ku);
v 269 kern/syscall/loadelf.c result = VOP_READ(v, &ku);
v 291 kern/syscall/loadelf.c result = load_segment(as, v, ph.p_offset, ph.p_vaddr,
v 58 kern/syscall/runprogram.c struct vnode *v;
v 63 kern/syscall/runprogram.c result = vfs_open(progname, O_RDONLY, 0, &v);
v 74 kern/syscall/runprogram.c vfs_close(v);
v 83 kern/syscall/runprogram.c result = load_elf(v, &entrypoint);
v 86 kern/syscall/runprogram.c vfs_close(v);
v 91 kern/syscall/runprogram.c vfs_close(v);
v 53 kern/vfs/device.c dev_open(struct vnode *v, int flags)
v 55 kern/vfs/device.c struct device *d = v->vn_data;
v 70 kern/vfs/device.c dev_close(struct vnode *v)
v 72 kern/vfs/device.c struct device *d = v->vn_data;
v 82 kern/vfs/device.c dev_reclaim(struct vnode *v)
v 84 kern/vfs/device.c (void)v;
v 94 kern/vfs/device.c dev_read(struct vnode *v, struct uio *uio)
v 96 kern/vfs/device.c struct device *d = v->vn_data;
v 107 kern/vfs/device.c null_io(struct vnode *v, struct uio *uio)
v 109 kern/vfs/device.c (void)v;
v 119 kern/vfs/device.c dev_write(struct vnode *v, struct uio *uio)
v 121 kern/vfs/device.c struct device *d = v->vn_data;
v 131 kern/vfs/device.c dev_ioctl(struct vnode *v, int op, userptr_t data)
v 133 kern/vfs/device.c struct device *d = v->vn_data;
v 144 kern/vfs/device.c dev_stat(struct vnode *v, struct stat *statbuf)
v 146 kern/vfs/device.c struct device *d = v->vn_data;
v 159 kern/vfs/device.c result = VOP_GETTYPE(v, &statbuf->st_mode);
v 185 kern/vfs/device.c dev_gettype(struct vnode *v, mode_t *ret)
v 187 kern/vfs/device.c struct device *d = v->vn_data;
v 204 kern/vfs/device.c dev_tryseek(struct vnode *v, off_t pos)
v 206 kern/vfs/device.c struct device *d = v->vn_data;
v 237 kern/vfs/device.c null_fsync(struct vnode *v)
v 239 kern/vfs/device.c (void)v;
v 249 kern/vfs/device.c dev_mmap(struct vnode *v /* add stuff as needed */)
v 251 kern/vfs/device.c (void)v;
v 260 kern/vfs/device.c dev_truncate(struct vnode *v, off_t len)
v 262 kern/vfs/device.c struct device *d = v->vn_data;
v 282 kern/vfs/device.c dev_namefile(struct vnode *v, struct uio *uio)
v 290 kern/vfs/device.c (void)v;
v 302 kern/vfs/device.c null_creat(struct vnode *v, const char *name, bool excl, mode_t mode,
v 305 kern/vfs/device.c (void)v;
v 315 kern/vfs/device.c null_mkdir(struct vnode *v, const char *name, mode_t mode)
v 317 kern/vfs/device.c (void)v;
v 325 kern/vfs/device.c null_symlink(struct vnode *v, const char *contents, const char *name)
v 327 kern/vfs/device.c (void)v;
v 335 kern/vfs/device.c null_nameop(struct vnode *v, const char *name)
v 337 kern/vfs/device.c (void)v;
v 344 kern/vfs/device.c null_link(struct vnode *v, const char *name, struct vnode *file)
v 346 kern/vfs/device.c (void)v;
v 354 kern/vfs/device.c null_rename(struct vnode *v, const char *n1, struct vnode *v2, const char *n2)
v 356 kern/vfs/device.c (void)v;
v 451 kern/vfs/device.c struct vnode *v;
v 453 kern/vfs/device.c v = kmalloc(sizeof(struct vnode));
v 454 kern/vfs/device.c if (v==NULL) {
v 458 kern/vfs/device.c result = VOP_INIT(v, &dev_vnode_ops, NULL, dev);
v 464 kern/vfs/device.c return v;
v 174 kern/vfs/vnode.c vnode_check(struct vnode *v, const char *opstr)
v 178 kern/vfs/vnode.c if (v == NULL) {
v 181 kern/vfs/vnode.c if (v == (void *)0xdeadbeef) {
v 185 kern/vfs/vnode.c if (v->vn_ops == NULL) {
v 188 kern/vfs/vnode.c if (v->vn_ops == (void *)0xdeadbeef) {
v 192 kern/vfs/vnode.c if (v->vn_ops->vop_magic != VOP_MAGIC) {
v 194 kern/vfs/vnode.c opstr, v->vn_ops->vop_magic);
v 201 kern/vfs/vnode.c if (v->vn_fs == (void *)0xdeadbeef) {
v 205 kern/vfs/vnode.c if (v->vn_refcount < 0) {
v 207 kern/vfs/vnode.c v->vn_refcount);
v 209 kern/vfs/vnode.c else if (v->vn_refcount == 0 && strcmp(opstr, "reclaim")) {
v 212 kern/vfs/vnode.c else if (v->vn_refcount > 0x100000) {
v 214 kern/vfs/vnode.c opstr, v->vn_refcount);
v 217 kern/vfs/vnode.c if (v->vn_opencount < 0) {
v 219 kern/vfs/vnode.c v->vn_opencount);
v 221 kern/vfs/vnode.c else if (v->vn_opencount > 0x100000) {
v 223 kern/vfs/vnode.c opstr, v->vn_opencount);
v 82 user/testbin/psort/psort.c sortints(int *v, int num)
v 93 user/testbin/psort/psort.c pivotval = v[pivotpoint];
v 100 user/testbin/psort/psort.c if (v[readpos] < pivotval) {
v 101 user/testbin/psort/psort.c v[frontpos++] = v[readpos++];
v 103 user/testbin/psort/psort.c else if (v[readpos] == pivotval) {
v 108 user/testbin/psort/psort.c tmp = v[--endpos];
v 109 user/testbin/psort/psort.c v[endpos] = v[readpos];
v 110 user/testbin/psort/psort.c v[readpos] = tmp;
v 117 user/testbin/psort/psort.c v[i] = pivotval;
v 121 user/testbin/psort/psort.c tmp = v[i];
v 122 user/testbin/psort/psort.c v[i] = v[j];
v 123 user/testbin/psort/psort.c v[j] = tmp;
v 126 user/testbin/psort/psort.c sortints(v, frontpos);
v 127 user/testbin/psort/psort.c sortints(&v[endpos], num-endpos);