tag | line | file | source code |
tree | 254 | include/linux/mm.h | struct vm_area_struct * tree; |
tree | 258 | include/linux/mm.h | for (tree = task->mm->mmap_avl ; ; ) { |
tree | 259 | include/linux/mm.h | if (tree == avl_empty) |
tree | 261 | include/linux/mm.h | if (tree->vm_end > addr) { |
tree | 262 | include/linux/mm.h | if (tree->vm_start <= addr) |
tree | 263 | include/linux/mm.h | return tree; |
tree | 264 | include/linux/mm.h | result = tree; |
tree | 265 | include/linux/mm.h | tree = tree->vm_avl_left; |
tree | 267 | include/linux/mm.h | tree = tree->vm_avl_right; |
tree | 233 | mm/mmap.c | #define heightof(tree) ((tree) == avl_empty ? 0 : (tree)->vm_avl_height) |
tree | 243 | mm/mmap.c | static inline void avl_neighbours (struct vm_area_struct * node, struct vm_area_struct * tree, struct vm_area_struct ** to_the_left, struct vm_area_struct ** to_the_right) |
tree | 249 | mm/mmap.c | if (tree == avl_empty) { |
tree | 253 | mm/mmap.c | if (key == tree->vm_avl_key) |
tree | 255 | mm/mmap.c | if (key < tree->vm_avl_key) { |
tree | 256 | mm/mmap.c | *to_the_right = tree; |
tree | 257 | mm/mmap.c | tree = tree->vm_avl_left; |
tree | 259 | mm/mmap.c | *to_the_left = tree; |
tree | 260 | mm/mmap.c | tree = tree->vm_avl_right; |
tree | 263 | mm/mmap.c | if (tree != node) { |
tree | 267 | mm/mmap.c | if (tree->vm_avl_left != avl_empty) { |
tree | 269 | mm/mmap.c | for (node = tree->vm_avl_left; node->vm_avl_right != avl_empty; node = node->vm_avl_right) |
tree | 273 | mm/mmap.c | if (tree->vm_avl_right != avl_empty) { |
tree | 275 | mm/mmap.c | for (node = tree->vm_avl_right; node->vm_avl_left != avl_empty; node = node->vm_avl_left) |
tree | 490 | mm/mmap.c | static void printk_avl (struct vm_area_struct * tree) |
tree | 492 | mm/mmap.c | if (tree != avl_empty) { |
tree | 494 | mm/mmap.c | if (tree->vm_avl_left != avl_empty) { |
tree | 495 | mm/mmap.c | printk_avl(tree->vm_avl_left); |
tree | 498 | mm/mmap.c | printk("%08lX-%08lX", tree->vm_start, tree->vm_end); |
tree | 499 | mm/mmap.c | if (tree->vm_avl_right != avl_empty) { |
tree | 501 | mm/mmap.c | printk_avl(tree->vm_avl_right); |
tree | 510 | mm/mmap.c | static void avl_checkheights (struct vm_area_struct * tree) |
tree | 514 | mm/mmap.c | if (tree == avl_empty) |
tree | 516 | mm/mmap.c | avl_checkheights(tree->vm_avl_left); |
tree | 517 | mm/mmap.c | avl_checkheights(tree->vm_avl_right); |
tree | 518 | mm/mmap.c | h = tree->vm_avl_height; |
tree | 519 | mm/mmap.c | hl = heightof(tree->vm_avl_left); |
tree | 520 | mm/mmap.c | hr = heightof(tree->vm_avl_right); |
tree | 529 | mm/mmap.c | static void avl_checkleft (struct vm_area_struct * tree, vm_avl_key_t key) |
tree | 531 | mm/mmap.c | if (tree == avl_empty) |
tree | 533 | mm/mmap.c | avl_checkleft(tree->vm_avl_left,key); |
tree | 534 | mm/mmap.c | avl_checkleft(tree->vm_avl_right,key); |
tree | 535 | mm/mmap.c | if (tree->vm_avl_key < key) |
tree | 537 | mm/mmap.c | printk("%s: avl_checkleft: left key %lu >= top key %lu\n",avl_check_point,tree->vm_avl_key,key); |
tree | 541 | mm/mmap.c | static void avl_checkright (struct vm_area_struct * tree, vm_avl_key_t key) |
tree | 543 | mm/mmap.c | if (tree == avl_empty) |
tree | 545 | mm/mmap.c | avl_checkright(tree->vm_avl_left,key); |
tree | 546 | mm/mmap.c | avl_checkright(tree->vm_avl_right,key); |
tree | 547 | mm/mmap.c | if (tree->vm_avl_key > key) |
tree | 549 | mm/mmap.c | printk("%s: avl_checkright: right key %lu <= top key %lu\n",avl_check_point,tree->vm_avl_key,key); |
tree | 553 | mm/mmap.c | static void avl_checkorder (struct vm_area_struct * tree) |
tree | 555 | mm/mmap.c | if (tree == avl_empty) |
tree | 557 | mm/mmap.c | avl_checkorder(tree->vm_avl_left); |
tree | 558 | mm/mmap.c | avl_checkorder(tree->vm_avl_right); |
tree | 559 | mm/mmap.c | avl_checkleft(tree->vm_avl_left,tree->vm_avl_key); |
tree | 560 | mm/mmap.c | avl_checkright(tree->vm_avl_right,tree->vm_avl_key); |