d 75 common/gcc-millicode/qdivrem.c int m, n, d, j, i;
d 169 common/gcc-millicode/qdivrem.c d = 0;
d 171 common/gcc-millicode/qdivrem.c d++;
d 172 common/gcc-millicode/qdivrem.c if (d > 0) {
d 173 common/gcc-millicode/qdivrem.c shl(&u[0], m + n, d); /* u <<= d */
d 174 common/gcc-millicode/qdivrem.c shl(&v[1], n - 1, d); /* v <<= d */
d 248 common/gcc-millicode/qdivrem.c if (d) {
d 250 common/gcc-millicode/qdivrem.c u[i] = (digit)(((unsigned int)u[i] >> d) |
d 252 common/gcc-millicode/qdivrem.c (HALF_BITS - d)));
d 69 common/libc/string/memcpy.c long *d = dst;
d 73 common/libc/string/memcpy.c d[i] = s[i];
d 77 common/libc/string/memcpy.c char *d = dst;
d 81 common/libc/string/memcpy.c d[i] = s[i];
d 95 common/libc/string/memmove.c long *d = dst;
d 104 common/libc/string/memmove.c d[i-1] = s[i-1];
d 108 common/libc/string/memmove.c char *d = dst;
d 112 common/libc/string/memmove.c d[i-1] = s[i-1];
d 140 kern/dev/lamebus/lhd.c lhd_open(struct device *d, int openflags)
d 145 kern/dev/lamebus/lhd.c (void)d;
d 156 kern/dev/lamebus/lhd.c lhd_close(struct device *d)
d 161 kern/dev/lamebus/lhd.c (void)d;
d 171 kern/dev/lamebus/lhd.c lhd_ioctl(struct device *d, int op, userptr_t data)
d 176 kern/dev/lamebus/lhd.c (void)d;
d 201 kern/dev/lamebus/lhd.c lhd_io(struct device *d, struct uio *uio)
d 203 kern/dev/lamebus/lhd.c struct lhd_softc *lh = d->d_data;
d 111 kern/include/lib.h #define DEBUG(d, ...) ((dbflags & (d)) ? kprintf(__VA_ARGS__) : 0)
d 55 kern/vfs/device.c struct device *d = v->vn_data;
d 61 kern/vfs/device.c return d->d_open(d, flags);
d 72 kern/vfs/device.c struct device *d = v->vn_data;
d 73 kern/vfs/device.c return d->d_close(d);
d 96 kern/vfs/device.c struct device *d = v->vn_data;
d 98 kern/vfs/device.c return d->d_io(d, uio);
d 121 kern/vfs/device.c struct device *d = v->vn_data;
d 123 kern/vfs/device.c return d->d_io(d, uio);
d 133 kern/vfs/device.c struct device *d = v->vn_data;
d 134 kern/vfs/device.c return d->d_ioctl(d, op, data);
d 146 kern/vfs/device.c struct device *d = v->vn_data;
d 151 kern/vfs/device.c if (d->d_blocks > 0) {
d 152 kern/vfs/device.c statbuf->st_size = d->d_blocks * d->d_blocksize;
d 153 kern/vfs/device.c statbuf->st_blksize = d->d_blocksize;
d 167 kern/vfs/device.c statbuf->st_blocks = d->d_blocks;
d 173 kern/vfs/device.c statbuf->st_rdev = d->d_devnumber;
d 187 kern/vfs/device.c struct device *d = v->vn_data;
d 188 kern/vfs/device.c if (d->d_blocks > 0) {
d 206 kern/vfs/device.c struct device *d = v->vn_data;
d 207 kern/vfs/device.c if (d->d_blocks > 0) {
d 208 kern/vfs/device.c if ((pos % d->d_blocksize)!=0) {
d 221 kern/vfs/device.c if (pos / d->d_blocksize >= d->d_blocks) {
d 262 kern/vfs/device.c struct device *d = v->vn_data;
d 267 kern/vfs/device.c if (d->d_blocks > 0 && (off_t)(d->d_blocks*d->d_blocksize) == len) {
d 323 kern/vfs/vfslist.c samestring3(const char *a, const char *b, const char *c, const char *d)
d 325 kern/vfs/vfslist.c return samestring(a,b) || samestring(a,c) || samestring(a,d);
d 808 user/sbin/sfsck/sfsck.c dirread(struct sfs_inode *sfi, struct sfs_dir *d, unsigned nd)
d 817 user/sbin/sfsck/sfsck.c diskread(d + i*atonce, block);
d 819 user/sbin/sfsck/sfsck.c swapdir(&d[i*atonce+j]);
d 824 user/sbin/sfsck/sfsck.c bzero(d + i*atonce, SFS_BLOCKSIZE);
d 831 user/sbin/sfsck/sfsck.c dirwrite(const struct sfs_inode *sfi, struct sfs_dir *d, int nd)
d 841 user/sbin/sfsck/sfsck.c swapdir(&d[i*atonce+j]);
d 843 user/sbin/sfsck/sfsck.c diskwrite(d + i*atonce, block);
d 847 user/sbin/sfsck/sfsck.c if (d[i*atonce+j].sfd_ino != SFS_NOINO ||
d 848 user/sbin/sfsck/sfsck.c d[i*atonce+j].sfd_name[0] != 0) {
d 898 user/sbin/sfsck/sfsck.c sortdir(int *vector, struct sfs_dir *d, int nd)
d 900 user/sbin/sfsck/sfsck.c global_sortdirs = d;
d 907 user/sbin/sfsck/sfsck.c dir_tryadd(struct sfs_dir *d, int nd, const char *name, uint32_t ino)
d 911 user/sbin/sfsck/sfsck.c if (d[i].sfd_ino==SFS_NOINO) {
d 912 user/sbin/sfsck/sfsck.c d[i].sfd_ino = ino;
d 913 user/sbin/sfsck/sfsck.c assert(strlen(name) < sizeof(d[i].sfd_name));
d 914 user/sbin/sfsck/sfsck.c strcpy(d[i].sfd_name, name);