--- zzzz-none-000/linux-3.10.107/fs/reiserfs/ibalance.c 2017-06-27 09:49:32.000000000 +0000 +++ scorpion-7490-727/linux-3.10.107/fs/reiserfs/ibalance.c 2021-02-04 17:41:59.000000000 +0000 @@ -2,7 +2,7 @@ * Copyright 2000 by Hans Reiser, licensing governed by reiserfs/README */ -#include +#include #include #include #include "reiserfs.h" @@ -12,7 +12,10 @@ int balance_internal(struct tree_balance *, int, int, struct item_head *, struct buffer_head **); -/* modes of internal_shift_left, internal_shift_right and internal_insert_childs */ +/* + * modes of internal_shift_left, internal_shift_right and + * internal_insert_childs + */ #define INTERNAL_SHIFT_FROM_S_TO_L 0 #define INTERNAL_SHIFT_FROM_R_TO_S 1 #define INTERNAL_SHIFT_FROM_L_TO_S 2 @@ -32,7 +35,9 @@ memset(src_bi, 0, sizeof(struct buffer_info)); /* define dest, src, dest parent, dest position */ switch (shift_mode) { - case INTERNAL_SHIFT_FROM_S_TO_L: /* used in internal_shift_left */ + + /* used in internal_shift_left */ + case INTERNAL_SHIFT_FROM_S_TO_L: src_bi->tb = tb; src_bi->bi_bh = PATH_H_PBUFFER(tb->tb_path, h); src_bi->bi_parent = PATH_H_PPARENT(tb->tb_path, h); @@ -52,12 +57,14 @@ dest_bi->tb = tb; dest_bi->bi_bh = PATH_H_PBUFFER(tb->tb_path, h); dest_bi->bi_parent = PATH_H_PPARENT(tb->tb_path, h); - dest_bi->bi_position = PATH_H_POSITION(tb->tb_path, h + 1); /* dest position is analog of dest->b_item_order */ + /* dest position is analog of dest->b_item_order */ + dest_bi->bi_position = PATH_H_POSITION(tb->tb_path, h + 1); *d_key = tb->lkey[h]; *cf = tb->CFL[h]; break; - case INTERNAL_SHIFT_FROM_R_TO_S: /* used in internal_shift_left */ + /* used in internal_shift_left */ + case INTERNAL_SHIFT_FROM_R_TO_S: src_bi->tb = tb; src_bi->bi_bh = tb->R[h]; src_bi->bi_parent = tb->FR[h]; @@ -111,7 +118,8 @@ } } -/* Insert count node pointers into buffer cur before position to + 1. +/* + * Insert count node pointers into buffer cur before position to + 1. * Insert count items into buffer cur before position to. * Items and node pointers are specified by inserted and bh respectively. */ @@ -146,14 +154,14 @@ /* copy to_be_insert disk children */ for (i = 0; i < count; i++) { - put_dc_size(&(new_dc[i]), + put_dc_size(&new_dc[i], MAX_CHILD_SIZE(bh[i]) - B_FREE_SPACE(bh[i])); - put_dc_block_number(&(new_dc[i]), bh[i]->b_blocknr); + put_dc_block_number(&new_dc[i], bh[i]->b_blocknr); } memcpy(dc, new_dc, DC_SIZE * count); /* prepare space for count items */ - ih = B_N_PDELIM_KEY(cur, ((to == -1) ? 0 : to)); + ih = internal_key(cur, ((to == -1) ? 0 : to)); memmove(ih + count, ih, (nr - to) * KEY_SIZE + (nr + 1 + count) * DC_SIZE); @@ -190,8 +198,10 @@ } -/* Delete del_num items and node pointers from buffer cur starting from * - * the first_i'th item and first_p'th pointers respectively. */ +/* + * Delete del_num items and node pointers from buffer cur starting from + * the first_i'th item and first_p'th pointers respectively. + */ static void internal_delete_pointers_items(struct buffer_info *cur_bi, int first_p, int first_i, int del_num) @@ -233,7 +243,7 @@ dc = B_N_CHILD(cur, first_p); memmove(dc, dc + del_num, (nr + 1 - first_p - del_num) * DC_SIZE); - key = B_N_PDELIM_KEY(cur, first_i); + key = internal_key(cur, first_i); memmove(key, key + del_num, (nr - first_i - del_num) * KEY_SIZE + (nr + 1 - del_num) * DC_SIZE); @@ -270,22 +280,30 @@ i_from = (from == 0) ? from : from - 1; - /* delete n pointers starting from `from' position in CUR; - delete n keys starting from 'i_from' position in CUR; + /* + * delete n pointers starting from `from' position in CUR; + * delete n keys starting from 'i_from' position in CUR; */ internal_delete_pointers_items(cur_bi, from, i_from, n); } -/* copy cpy_num node pointers and cpy_num - 1 items from buffer src to buffer dest -* last_first == FIRST_TO_LAST means, that we copy first items from src to tail of dest - * last_first == LAST_TO_FIRST means, that we copy last items from src to head of dest +/* + * copy cpy_num node pointers and cpy_num - 1 items from buffer src to buffer + * dest + * last_first == FIRST_TO_LAST means that we copy first items + * from src to tail of dest + * last_first == LAST_TO_FIRST means that we copy last items + * from src to head of dest */ static void internal_copy_pointers_items(struct buffer_info *dest_bi, struct buffer_head *src, int last_first, int cpy_num) { - /* ATTENTION! Number of node pointers in DEST is equal to number of items in DEST * - * as delimiting key have already inserted to buffer dest.*/ + /* + * ATTENTION! Number of node pointers in DEST is equal to number + * of items in DEST as delimiting key have already inserted to + * buffer dest. + */ struct buffer_head *dest = dest_bi->bi_bh; int nr_dest, nr_src; int dest_order, src_order; @@ -330,13 +348,13 @@ memcpy(dc, B_N_CHILD(src, src_order), DC_SIZE * cpy_num); /* prepare space for cpy_num - 1 item headers */ - key = B_N_PDELIM_KEY(dest, dest_order); + key = internal_key(dest, dest_order); memmove(key + cpy_num - 1, key, KEY_SIZE * (nr_dest - dest_order) + DC_SIZE * (nr_dest + cpy_num)); /* insert headers */ - memcpy(key, B_N_PDELIM_KEY(src, src_order), KEY_SIZE * (cpy_num - 1)); + memcpy(key, internal_key(src, src_order), KEY_SIZE * (cpy_num - 1)); /* sizes, item number */ set_blkh_nr_item(blkh, blkh_nr_item(blkh) + (cpy_num - 1)); @@ -366,7 +384,9 @@ } -/* Copy cpy_num node pointers and cpy_num - 1 items from buffer src to buffer dest. +/* + * Copy cpy_num node pointers and cpy_num - 1 items from buffer src to + * buffer dest. * Delete cpy_num - del_par items and node pointers from buffer src. * last_first == FIRST_TO_LAST means, that we copy/delete first items from src. * last_first == LAST_TO_FIRST means, that we copy/delete last items from src. @@ -385,8 +405,10 @@ if (last_first == FIRST_TO_LAST) { /* shift_left occurs */ first_pointer = 0; first_item = 0; - /* delete cpy_num - del_par pointers and keys starting for pointers with first_pointer, - for key - with first_item */ + /* + * delete cpy_num - del_par pointers and keys starting for + * pointers with first_pointer, for key - with first_item + */ internal_delete_pointers_items(src_bi, first_pointer, first_item, cpy_num - del_par); } else { /* shift_right occurs */ @@ -404,7 +426,9 @@ } /* Insert n_src'th key of buffer src before n_dest'th key of buffer dest. */ -static void internal_insert_key(struct buffer_info *dest_bi, int dest_position_before, /* insert key before key with n_dest number */ +static void internal_insert_key(struct buffer_info *dest_bi, + /* insert key before key with n_dest number */ + int dest_position_before, struct buffer_head *src, int src_position) { struct buffer_head *dest = dest_bi->bi_bh; @@ -429,12 +453,12 @@ nr = blkh_nr_item(blkh); /* prepare space for inserting key */ - key = B_N_PDELIM_KEY(dest, dest_position_before); + key = internal_key(dest, dest_position_before); memmove(key + 1, key, (nr - dest_position_before) * KEY_SIZE + (nr + 1) * DC_SIZE); /* insert key */ - memcpy(key, B_N_PDELIM_KEY(src, src_position), KEY_SIZE); + memcpy(key, internal_key(src, src_position), KEY_SIZE); /* Change dirt, free space, item number fields. */ @@ -453,13 +477,19 @@ } } -/* Insert d_key'th (delimiting) key from buffer cfl to tail of dest. - * Copy pointer_amount node pointers and pointer_amount - 1 items from buffer src to buffer dest. +/* + * Insert d_key'th (delimiting) key from buffer cfl to tail of dest. + * Copy pointer_amount node pointers and pointer_amount - 1 items from + * buffer src to buffer dest. * Replace d_key'th key in buffer cfl. * Delete pointer_amount items and node pointers from buffer src. */ /* this can be invoked both to shift from S to L and from R to S */ -static void internal_shift_left(int mode, /* INTERNAL_FROM_S_TO_L | INTERNAL_FROM_R_TO_S */ +static void internal_shift_left( + /* + * INTERNAL_FROM_S_TO_L | INTERNAL_FROM_R_TO_S + */ + int mode, struct tree_balance *tb, int h, int pointer_amount) { @@ -473,7 +503,10 @@ /*printk("pointer_amount = %d\n",pointer_amount); */ if (pointer_amount) { - /* insert delimiting key from common father of dest and src to node dest into position B_NR_ITEM(dest) */ + /* + * insert delimiting key from common father of dest and + * src to node dest into position B_NR_ITEM(dest) + */ internal_insert_key(&dest_bi, B_NR_ITEMS(dest_bi.bi_bh), cf, d_key_position); @@ -492,7 +525,8 @@ } -/* Insert delimiting key to L[h]. +/* + * Insert delimiting key to L[h]. * Copy n node pointers and n - 1 items from buffer S[h] to L[h]. * Delete n - 1 items and node pointers from buffer S[h]. */ @@ -507,23 +541,27 @@ internal_define_dest_src_infos(INTERNAL_SHIFT_FROM_S_TO_L, tb, h, &dest_bi, &src_bi, &d_key_position, &cf); - if (pointer_amount > 0) /* insert lkey[h]-th key from CFL[h] to left neighbor L[h] */ + /* insert lkey[h]-th key from CFL[h] to left neighbor L[h] */ + if (pointer_amount > 0) internal_insert_key(&dest_bi, B_NR_ITEMS(dest_bi.bi_bh), cf, d_key_position); - /* internal_insert_key (tb->L[h], B_NR_ITEM(tb->L[h]), tb->CFL[h], tb->lkey[h]); */ /* last parameter is del_parameter */ internal_move_pointers_items(&dest_bi, &src_bi, FIRST_TO_LAST, pointer_amount, 1); - /* internal_move_pointers_items (tb->L[h], tb->S[h], FIRST_TO_LAST, pointer_amount, 1); */ } -/* Insert d_key'th (delimiting) key from buffer cfr to head of dest. +/* + * Insert d_key'th (delimiting) key from buffer cfr to head of dest. * Copy n node pointers and n - 1 items from buffer src to buffer dest. * Replace d_key'th key in buffer cfr. * Delete n items and node pointers from buffer src. */ -static void internal_shift_right(int mode, /* INTERNAL_FROM_S_TO_R | INTERNAL_FROM_L_TO_S */ +static void internal_shift_right( + /* + * INTERNAL_FROM_S_TO_R | INTERNAL_FROM_L_TO_S + */ + int mode, struct tree_balance *tb, int h, int pointer_amount) { @@ -538,7 +576,10 @@ nr = B_NR_ITEMS(src_bi.bi_bh); if (pointer_amount > 0) { - /* insert delimiting key from common father of dest and src to dest node into position 0 */ + /* + * insert delimiting key from common father of dest + * and src to dest node into position 0 + */ internal_insert_key(&dest_bi, 0, cf, d_key_position); if (nr == pointer_amount - 1) { RFALSE(src_bi.bi_bh != PATH_H_PBUFFER(tb->tb_path, h) /*tb->S[h] */ || @@ -559,7 +600,8 @@ pointer_amount, 0); } -/* Insert delimiting key to R[h]. +/* + * Insert delimiting key to R[h]. * Copy n node pointers and n - 1 items from buffer S[h] to R[h]. * Delete n - 1 items and node pointers from buffer S[h]. */ @@ -574,18 +616,19 @@ internal_define_dest_src_infos(INTERNAL_SHIFT_FROM_S_TO_R, tb, h, &dest_bi, &src_bi, &d_key_position, &cf); - if (pointer_amount > 0) /* insert rkey from CFR[h] to right neighbor R[h] */ + /* insert rkey from CFR[h] to right neighbor R[h] */ + if (pointer_amount > 0) internal_insert_key(&dest_bi, 0, cf, d_key_position); - /* internal_insert_key (tb->R[h], 0, tb->CFR[h], tb->rkey[h]); */ /* last parameter is del_parameter */ internal_move_pointers_items(&dest_bi, &src_bi, LAST_TO_FIRST, pointer_amount, 1); - /* internal_move_pointers_items (tb->R[h], tb->S[h], LAST_TO_FIRST, pointer_amount, 1); */ } -/* Delete insert_num node pointers together with their left items - * and balance current node.*/ +/* + * Delete insert_num node pointers together with their left items + * and balance current node. + */ static void balance_internal_when_delete(struct tree_balance *tb, int h, int child_pos) { @@ -626,9 +669,11 @@ new_root = tb->R[h - 1]; else new_root = tb->L[h - 1]; - /* switch super block's tree root block number to the new value */ + /* + * switch super block's tree root block + * number to the new value */ PUT_SB_ROOT_BLOCK(tb->tb_sb, new_root->b_blocknr); - //REISERFS_SB(tb->tb_sb)->s_rs->s_tree_height --; + /*REISERFS_SB(tb->tb_sb)->s_rs->s_tree_height --; */ PUT_SB_TREE_HEIGHT(tb->tb_sb, SB_TREE_HEIGHT(tb->tb_sb) - 1); @@ -636,8 +681,8 @@ REISERFS_SB(tb->tb_sb)->s_sbh, 1); /*&&&&&&&&&&&&&&&&&&&&&& */ + /* use check_internal if new root is an internal node */ if (h > 1) - /* use check_internal if new root is an internal node */ check_internal(new_root); /*&&&&&&&&&&&&&&&&&&&&&& */ @@ -648,7 +693,8 @@ return; } - if (tb->L[h] && tb->lnum[h] == -B_NR_ITEMS(tb->L[h]) - 1) { /* join S[h] with L[h] */ + /* join S[h] with L[h] */ + if (tb->L[h] && tb->lnum[h] == -B_NR_ITEMS(tb->L[h]) - 1) { RFALSE(tb->rnum[h] != 0, "invalid tb->rnum[%d]==%d when joining S[h] with L[h]", @@ -660,7 +706,8 @@ return; } - if (tb->R[h] && tb->rnum[h] == -B_NR_ITEMS(tb->R[h]) - 1) { /* join S[h] with R[h] */ + /* join S[h] with R[h] */ + if (tb->R[h] && tb->rnum[h] == -B_NR_ITEMS(tb->R[h]) - 1) { RFALSE(tb->lnum[h] != 0, "invalid tb->lnum[%d]==%d when joining S[h] with R[h]", h, tb->lnum[h]); @@ -671,17 +718,18 @@ return; } - if (tb->lnum[h] < 0) { /* borrow from left neighbor L[h] */ + /* borrow from left neighbor L[h] */ + if (tb->lnum[h] < 0) { RFALSE(tb->rnum[h] != 0, "wrong tb->rnum[%d]==%d when borrow from L[h]", h, tb->rnum[h]); - /*internal_shift_right (tb, h, tb->L[h], tb->CFL[h], tb->lkey[h], tb->S[h], -tb->lnum[h]); */ internal_shift_right(INTERNAL_SHIFT_FROM_L_TO_S, tb, h, -tb->lnum[h]); return; } - if (tb->rnum[h] < 0) { /* borrow from right neighbor R[h] */ + /* borrow from right neighbor R[h] */ + if (tb->rnum[h] < 0) { RFALSE(tb->lnum[h] != 0, "invalid tb->lnum[%d]==%d when borrow from R[h]", h, tb->lnum[h]); @@ -689,7 +737,8 @@ return; } - if (tb->lnum[h] > 0) { /* split S[h] into two parts and put them into neighbors */ + /* split S[h] into two parts and put them into neighbors */ + if (tb->lnum[h] > 0) { RFALSE(tb->rnum[h] == 0 || tb->lnum[h] + tb->rnum[h] != n + 1, "invalid tb->lnum[%d]==%d or tb->rnum[%d]==%d when S[h](item number == %d) is split between them", h, tb->lnum[h], h, tb->rnum[h], n); @@ -717,7 +766,7 @@ if (B_NR_ITEMS(PATH_H_PBUFFER(tb->tb_path, h)) == 0) return; - memcpy(B_N_PDELIM_KEY(tb->CFL[h], tb->lkey[h]), key, KEY_SIZE); + memcpy(internal_key(tb->CFL[h], tb->lkey[h]), key, KEY_SIZE); do_balance_mark_internal_dirty(tb, tb->CFL[h], 0); } @@ -732,34 +781,41 @@ "R[h] can not be empty if it exists (item number=%d)", B_NR_ITEMS(tb->R[h])); - memcpy(B_N_PDELIM_KEY(tb->CFR[h], tb->rkey[h]), key, KEY_SIZE); + memcpy(internal_key(tb->CFR[h], tb->rkey[h]), key, KEY_SIZE); do_balance_mark_internal_dirty(tb, tb->CFR[h], 0); } -int balance_internal(struct tree_balance *tb, /* tree_balance structure */ - int h, /* level of the tree */ - int child_pos, struct item_head *insert_key, /* key for insertion on higher level */ - struct buffer_head **insert_ptr /* node for insertion on higher level */ - ) - /* if inserting/pasting - { - child_pos is the position of the node-pointer in S[h] that * - pointed to S[h-1] before balancing of the h-1 level; * - this means that new pointers and items must be inserted AFTER * - child_pos - } - else - { - it is the position of the leftmost pointer that must be deleted (together with - its corresponding key to the left of the pointer) - as a result of the previous level's balancing. - } - */ + +/* + * if inserting/pasting { + * child_pos is the position of the node-pointer in S[h] that + * pointed to S[h-1] before balancing of the h-1 level; + * this means that new pointers and items must be inserted AFTER + * child_pos + * } else { + * it is the position of the leftmost pointer that must be deleted + * (together with its corresponding key to the left of the pointer) + * as a result of the previous level's balancing. + * } + */ + +int balance_internal(struct tree_balance *tb, + int h, /* level of the tree */ + int child_pos, + /* key for insertion on higher level */ + struct item_head *insert_key, + /* node for insertion on higher level */ + struct buffer_head **insert_ptr) { struct buffer_head *tbSh = PATH_H_PBUFFER(tb->tb_path, h); struct buffer_info bi; - int order; /* we return this: it is 0 if there is no S[h], else it is tb->S[h]->b_item_order */ + + /* + * we return this: it is 0 if there is no S[h], + * else it is tb->S[h]->b_item_order + */ + int order; int insert_num, n, k; struct buffer_head *S_new; struct item_head new_insert_key; @@ -774,8 +830,10 @@ (tbSh) ? PATH_H_POSITION(tb->tb_path, h + 1) /*tb->S[h]->b_item_order */ : 0; - /* Using insert_size[h] calculate the number insert_num of items - that must be inserted to or deleted from S[h]. */ + /* + * Using insert_size[h] calculate the number insert_num of items + * that must be inserted to or deleted from S[h]. + */ insert_num = tb->insert_size[h] / ((int)(KEY_SIZE + DC_SIZE)); /* Check whether insert_num is proper * */ @@ -794,23 +852,21 @@ k = 0; if (tb->lnum[h] > 0) { - /* shift lnum[h] items from S[h] to the left neighbor L[h]. - check how many of new items fall into L[h] or CFL[h] after - shifting */ + /* + * shift lnum[h] items from S[h] to the left neighbor L[h]. + * check how many of new items fall into L[h] or CFL[h] after + * shifting + */ n = B_NR_ITEMS(tb->L[h]); /* number of items in L[h] */ if (tb->lnum[h] <= child_pos) { /* new items don't fall into L[h] or CFL[h] */ internal_shift_left(INTERNAL_SHIFT_FROM_S_TO_L, tb, h, tb->lnum[h]); - /*internal_shift_left (tb->L[h],tb->CFL[h],tb->lkey[h],tbSh,tb->lnum[h]); */ child_pos -= tb->lnum[h]; } else if (tb->lnum[h] > child_pos + insert_num) { /* all new items fall into L[h] */ internal_shift_left(INTERNAL_SHIFT_FROM_S_TO_L, tb, h, tb->lnum[h] - insert_num); - /* internal_shift_left(tb->L[h],tb->CFL[h],tb->lkey[h],tbSh, - tb->lnum[h]-insert_num); - */ /* insert insert_num keys and node-pointers into L[h] */ bi.tb = tb; bi.bi_bh = tb->L[h]; @@ -826,7 +882,10 @@ } else { struct disk_child *dc; - /* some items fall into L[h] or CFL[h], but some don't fall */ + /* + * some items fall into L[h] or CFL[h], + * but some don't fall + */ internal_shift1_left(tb, h, child_pos + 1); /* calculate number of new items that fall into L[h] */ k = tb->lnum[h] - child_pos - 1; @@ -841,7 +900,10 @@ replace_lkey(tb, h, insert_key + k); - /* replace the first node-ptr in S[h] by node-ptr to insert_ptr[k] */ + /* + * replace the first node-ptr in S[h] by + * node-ptr to insert_ptr[k] + */ dc = B_N_CHILD(tbSh, 0); put_dc_size(dc, MAX_CHILD_SIZE(insert_ptr[k]) - @@ -860,17 +922,17 @@ /* tb->lnum[h] > 0 */ if (tb->rnum[h] > 0) { /*shift rnum[h] items from S[h] to the right neighbor R[h] */ - /* check how many of new items fall into R or CFR after shifting */ + /* + * check how many of new items fall into R or CFR + * after shifting + */ n = B_NR_ITEMS(tbSh); /* number of items in S[h] */ if (n - tb->rnum[h] >= child_pos) /* new items fall into S[h] */ - /*internal_shift_right(tb,h,tbSh,tb->CFR[h],tb->rkey[h],tb->R[h],tb->rnum[h]); */ internal_shift_right(INTERNAL_SHIFT_FROM_S_TO_R, tb, h, tb->rnum[h]); else if (n + insert_num - tb->rnum[h] < child_pos) { /* all new items fall into R[h] */ - /*internal_shift_right(tb,h,tbSh,tb->CFR[h],tb->rkey[h],tb->R[h], - tb->rnum[h] - insert_num); */ internal_shift_right(INTERNAL_SHIFT_FROM_S_TO_R, tb, h, tb->rnum[h] - insert_num); @@ -904,7 +966,10 @@ replace_rkey(tb, h, insert_key + insert_num - k - 1); - /* replace the first node-ptr in R[h] by node-ptr insert_ptr[insert_num-k-1] */ + /* + * replace the first node-ptr in R[h] by + * node-ptr insert_ptr[insert_num-k-1] + */ dc = B_N_CHILD(tb->R[h], 0); put_dc_size(dc, MAX_CHILD_SIZE(insert_ptr @@ -921,7 +986,7 @@ } } - /** Fill new node that appears instead of S[h] **/ + /** Fill new node that appears instead of S[h] **/ RFALSE(tb->blknum[h] > 2, "blknum can not be > 2 for internal level"); RFALSE(tb->blknum[h] < 0, "blknum can not be < 0"); @@ -997,26 +1062,30 @@ /* new items don't fall into S_new */ /* store the delimiting key for the next level */ /* new_insert_key = (n - snum)'th key in S[h] */ - memcpy(&new_insert_key, B_N_PDELIM_KEY(tbSh, n - snum), + memcpy(&new_insert_key, internal_key(tbSh, n - snum), KEY_SIZE); /* last parameter is del_par */ internal_move_pointers_items(&dest_bi, &src_bi, LAST_TO_FIRST, snum, 0); - /* internal_move_pointers_items(S_new, tbSh, LAST_TO_FIRST, snum, 0); */ } else if (n + insert_num - snum < child_pos) { /* all new items fall into S_new */ /* store the delimiting key for the next level */ - /* new_insert_key = (n + insert_item - snum)'th key in S[h] */ + /* + * new_insert_key = (n + insert_item - snum)'th + * key in S[h] + */ memcpy(&new_insert_key, - B_N_PDELIM_KEY(tbSh, n + insert_num - snum), + internal_key(tbSh, n + insert_num - snum), KEY_SIZE); /* last parameter is del_par */ internal_move_pointers_items(&dest_bi, &src_bi, LAST_TO_FIRST, snum - insert_num, 0); - /* internal_move_pointers_items(S_new,tbSh,1,snum - insert_num,0); */ - /* insert insert_num keys and node-pointers into S_new */ + /* + * insert insert_num keys and node-pointers + * into S_new + */ internal_insert_childs(&dest_bi, /*S_new,tb->S[h-1]->b_next, */ child_pos - n - insert_num + @@ -1033,7 +1102,6 @@ internal_move_pointers_items(&dest_bi, &src_bi, LAST_TO_FIRST, n - child_pos + 1, 1); - /* internal_move_pointers_items(S_new,tbSh,1,n - child_pos + 1,1); */ /* calculate number of new items that fall into S_new */ k = snum - n + child_pos - 1; @@ -1043,7 +1111,10 @@ /* new_insert_key = insert_key[insert_num - k - 1] */ memcpy(&new_insert_key, insert_key + insert_num - k - 1, KEY_SIZE); - /* replace first node-ptr in S_new by node-ptr to insert_ptr[insert_num-k-1] */ + /* + * replace first node-ptr in S_new by node-ptr + * to insert_ptr[insert_num-k-1] + */ dc = B_N_CHILD(S_new, 0); put_dc_size(dc, @@ -1066,7 +1137,7 @@ || buffer_dirty(S_new), "cm-00001: bad S_new (%b)", S_new); - // S_new is released in unfix_nodes + /* S_new is released in unfix_nodes */ } n = B_NR_ITEMS(tbSh); /*number of items in S[h] */