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Subject[patch 34/35 code-cleanup] reiserfs: rename p_._ variables
 This patch is a simple s/p_._//g to the reiserfs code. This is the fifth
in a series of patches to rip out some of the awful variable naming in
reiserfs.

Signed-off-by: Jeff Mahoney <jeffm@suse.com>

---

fs/reiserfs/file.c | 6
fs/reiserfs/fix_node.c | 169 +++++++--------
fs/reiserfs/stree.c | 472 +++++++++++++++++++++---------------------
fs/reiserfs/tail_conversion.c | 28 +-
include/linux/reiserfs_fs.h | 46 ++--
5 files changed, 365 insertions(+), 356 deletions(-)

--- a/fs/reiserfs/file.c
+++ b/fs/reiserfs/file.c
@@ -134,10 +134,10 @@ static void reiserfs_vfs_truncate_file(s
* be removed...
*/

-static int reiserfs_sync_file(struct file *p_s_filp,
- struct dentry *p_s_dentry, int datasync)
+static int reiserfs_sync_file(struct file *filp,
+ struct dentry *dentry, int datasync)
{
- struct inode *inode = p_s_dentry->d_inode;
+ struct inode *inode = dentry->d_inode;
int n_err;
int barrier_done;

--- a/fs/reiserfs/fix_node.c
+++ b/fs/reiserfs/fix_node.c
@@ -780,9 +780,9 @@ static void free_buffers_in_tb(struct tr
/* The function is NOT SCHEDULE-SAFE! */
static int get_empty_nodes(struct tree_balance *tb, int n_h)
{
- struct buffer_head *p_s_new_bh,
- *p_s_Sh = PATH_H_PBUFFER(tb->tb_path, n_h);
- b_blocknr_t *p_n_blocknr, a_n_blocknrs[MAX_AMOUNT_NEEDED] = { 0, };
+ struct buffer_head *new_bh,
+ *Sh = PATH_H_PBUFFER(tb->tb_path, n_h);
+ b_blocknr_t *blocknr, a_n_blocknrs[MAX_AMOUNT_NEEDED] = { 0, };
int n_counter, n_number_of_freeblk, n_amount_needed, /* number of needed empty blocks */
n_retval = CARRY_ON;
struct super_block *sb = tb->tb_sb;
@@ -810,8 +810,8 @@ static int get_empty_nodes(struct tree_b
1) : 0;

/* Allocate missing empty blocks. */
- /* if p_s_Sh == 0 then we are getting a new root */
- n_amount_needed = (p_s_Sh) ? (tb->blknum[n_h] - 1) : 1;
+ /* if Sh == 0 then we are getting a new root */
+ n_amount_needed = (Sh) ? (tb->blknum[n_h] - 1) : 1;
/* Amount_needed = the amount that we need more than the amount that we have. */
if (n_amount_needed > n_number_of_freeblk)
n_amount_needed -= n_number_of_freeblk;
@@ -824,25 +824,25 @@ static int get_empty_nodes(struct tree_b
return NO_DISK_SPACE;

/* for each blocknumber we just got, get a buffer and stick it on FEB */
- for (p_n_blocknr = a_n_blocknrs, n_counter = 0;
- n_counter < n_amount_needed; p_n_blocknr++, n_counter++) {
+ for (blocknr = a_n_blocknrs, n_counter = 0;
+ n_counter < n_amount_needed; blocknr++, n_counter++) {

- RFALSE(!*p_n_blocknr,
+ RFALSE(!*blocknr,
"PAP-8135: reiserfs_new_blocknrs failed when got new blocks");

- p_s_new_bh = sb_getblk(sb, *p_n_blocknr);
- RFALSE(buffer_dirty(p_s_new_bh) ||
- buffer_journaled(p_s_new_bh) ||
- buffer_journal_dirty(p_s_new_bh),
+ new_bh = sb_getblk(sb, *blocknr);
+ RFALSE(buffer_dirty(new_bh) ||
+ buffer_journaled(new_bh) ||
+ buffer_journal_dirty(new_bh),
"PAP-8140: journlaled or dirty buffer %b for the new block",
- p_s_new_bh);
+ new_bh);

/* Put empty buffers into the array. */
RFALSE(tb->FEB[tb->cur_blknum],
"PAP-8141: busy slot for new buffer");

- set_buffer_journal_new(p_s_new_bh);
- tb->FEB[tb->cur_blknum++] = p_s_new_bh;
+ set_buffer_journal_new(new_bh);
+ tb->FEB[tb->cur_blknum++] = new_bh;
}

if (n_retval == CARRY_ON && FILESYSTEM_CHANGED_TB(tb))
@@ -898,7 +898,7 @@ static int get_rfree(struct tree_balance
/* Check whether left neighbor is in memory. */
static int is_left_neighbor_in_cache(struct tree_balance *tb, int n_h)
{
- struct buffer_head *p_s_father, *left;
+ struct buffer_head *father, *left;
struct super_block *sb = tb->tb_sb;
b_blocknr_t n_left_neighbor_blocknr;
int n_left_neighbor_position;
@@ -908,18 +908,18 @@ static int is_left_neighbor_in_cache(str
return 0;

/* Calculate father of the node to be balanced. */
- p_s_father = PATH_H_PBUFFER(tb->tb_path, n_h + 1);
+ father = PATH_H_PBUFFER(tb->tb_path, n_h + 1);

- RFALSE(!p_s_father ||
- !B_IS_IN_TREE(p_s_father) ||
+ RFALSE(!father ||
+ !B_IS_IN_TREE(father) ||
!B_IS_IN_TREE(tb->FL[n_h]) ||
- !buffer_uptodate(p_s_father) ||
+ !buffer_uptodate(father) ||
!buffer_uptodate(tb->FL[n_h]),
"vs-8165: F[h] (%b) or FL[h] (%b) is invalid",
- p_s_father, tb->FL[n_h]);
+ father, tb->FL[n_h]);

/* Get position of the pointer to the left neighbor into the left father. */
- n_left_neighbor_position = (p_s_father == tb->FL[n_h]) ?
+ n_left_neighbor_position = (father == tb->FL[n_h]) ?
tb->lkey[n_h] : B_NR_ITEMS(tb->FL[n_h]);
/* Get left neighbor block number. */
n_left_neighbor_blocknr =
@@ -940,10 +940,10 @@ static int is_left_neighbor_in_cache(str
#define LEFT_PARENTS 'l'
#define RIGHT_PARENTS 'r'

-static void decrement_key(struct cpu_key *p_s_key)
+static void decrement_key(struct cpu_key *key)
{
// call item specific function for this key
- item_ops[cpu_key_k_type(p_s_key)]->decrement_key(p_s_key);
+ item_ops[cpu_key_k_type(key)]->decrement_key(key);
}

/* Calculate far left/right parent of the left/right neighbor of the current node, that
@@ -956,17 +956,17 @@ static void decrement_key(struct cpu_key
*/
static int get_far_parent(struct tree_balance *tb,
int n_h,
- struct buffer_head **pp_s_father,
- struct buffer_head **pp_s_com_father, char c_lr_par)
+ struct buffer_head **pfather,
+ struct buffer_head **pcom_father, char c_lr_par)
{
- struct buffer_head *p_s_parent;
+ struct buffer_head *parent;
INITIALIZE_PATH(s_path_to_neighbor_father);
- struct treepath *p_s_path = tb->tb_path;
+ struct treepath *path = tb->tb_path;
struct cpu_key s_lr_father_key;
int n_counter,
n_position = INT_MAX,
n_first_last_position = 0,
- n_path_offset = PATH_H_PATH_OFFSET(p_s_path, n_h);
+ n_path_offset = PATH_H_PATH_OFFSET(path, n_h);

/* Starting from F[n_h] go upwards in the tree, and look for the common
ancestor of F[n_h], and its neighbor l/r, that should be obtained. */
@@ -979,25 +979,25 @@ static int get_far_parent(struct tree_ba
for (; n_counter > FIRST_PATH_ELEMENT_OFFSET; n_counter--) {
/* Check whether parent of the current buffer in the path is really parent in the tree. */
if (!B_IS_IN_TREE
- (p_s_parent = PATH_OFFSET_PBUFFER(p_s_path, n_counter - 1)))
+ (parent = PATH_OFFSET_PBUFFER(path, n_counter - 1)))
return REPEAT_SEARCH;
/* Check whether position in the parent is correct. */
if ((n_position =
- PATH_OFFSET_POSITION(p_s_path,
+ PATH_OFFSET_POSITION(path,
n_counter - 1)) >
- B_NR_ITEMS(p_s_parent))
+ B_NR_ITEMS(parent))
return REPEAT_SEARCH;
/* Check whether parent at the path really points to the child. */
- if (B_N_CHILD_NUM(p_s_parent, n_position) !=
- PATH_OFFSET_PBUFFER(p_s_path, n_counter)->b_blocknr)
+ if (B_N_CHILD_NUM(parent, n_position) !=
+ PATH_OFFSET_PBUFFER(path, n_counter)->b_blocknr)
return REPEAT_SEARCH;
/* Return delimiting key if position in the parent is not equal to first/last one. */
if (c_lr_par == RIGHT_PARENTS)
- n_first_last_position = B_NR_ITEMS(p_s_parent);
+ n_first_last_position = B_NR_ITEMS(parent);
if (n_position != n_first_last_position) {
- *pp_s_com_father = p_s_parent;
- get_bh(*pp_s_com_father);
- /*(*pp_s_com_father = p_s_parent)->b_count++; */
+ *pcom_father = parent;
+ get_bh(*pcom_father);
+ /*(*pcom_father = parent)->b_count++; */
break;
}
}
@@ -1009,22 +1009,22 @@ static int get_far_parent(struct tree_ba
(tb->tb_path,
FIRST_PATH_ELEMENT_OFFSET)->b_blocknr ==
SB_ROOT_BLOCK(tb->tb_sb)) {
- *pp_s_father = *pp_s_com_father = NULL;
+ *pfather = *pcom_father = NULL;
return CARRY_ON;
}
return REPEAT_SEARCH;
}

- RFALSE(B_LEVEL(*pp_s_com_father) <= DISK_LEAF_NODE_LEVEL,
+ RFALSE(B_LEVEL(*pcom_father) <= DISK_LEAF_NODE_LEVEL,
"PAP-8185: (%b %z) level too small",
- *pp_s_com_father, *pp_s_com_father);
+ *pcom_father, *pcom_father);

/* Check whether the common parent is locked. */

- if (buffer_locked(*pp_s_com_father)) {
- __wait_on_buffer(*pp_s_com_father);
+ if (buffer_locked(*pcom_father)) {
+ __wait_on_buffer(*pcom_father);
if (FILESYSTEM_CHANGED_TB(tb)) {
- brelse(*pp_s_com_father);
+ brelse(*pcom_father);
return REPEAT_SEARCH;
}
}
@@ -1034,7 +1034,7 @@ static int get_far_parent(struct tree_ba

/* Form key to get parent of the left/right neighbor. */
le_key2cpu_key(&s_lr_father_key,
- B_N_PDELIM_KEY(*pp_s_com_father,
+ B_N_PDELIM_KEY(*pcom_father,
(c_lr_par ==
LEFT_PARENTS) ? (tb->lkey[n_h - 1] =
n_position -
@@ -1053,14 +1053,14 @@ static int get_far_parent(struct tree_ba

if (FILESYSTEM_CHANGED_TB(tb)) {
pathrelse(&s_path_to_neighbor_father);
- brelse(*pp_s_com_father);
+ brelse(*pcom_father);
return REPEAT_SEARCH;
}

- *pp_s_father = PATH_PLAST_BUFFER(&s_path_to_neighbor_father);
+ *pfather = PATH_PLAST_BUFFER(&s_path_to_neighbor_father);

- RFALSE(B_LEVEL(*pp_s_father) != n_h + 1,
- "PAP-8190: (%b %z) level too small", *pp_s_father, *pp_s_father);
+ RFALSE(B_LEVEL(*pfather) != n_h + 1,
+ "PAP-8190: (%b %z) level too small", *pfather, *pfather);
RFALSE(s_path_to_neighbor_father.path_length <
FIRST_PATH_ELEMENT_OFFSET, "PAP-8192: path length is too small");

@@ -1078,11 +1078,11 @@ static int get_far_parent(struct tree_ba
*/
static int get_parents(struct tree_balance *tb, int n_h)
{
- struct treepath *p_s_path = tb->tb_path;
+ struct treepath *path = tb->tb_path;
int n_position,
n_ret_value,
n_path_offset = PATH_H_PATH_OFFSET(tb->tb_path, n_h);
- struct buffer_head *p_s_curf, *p_s_curcf;
+ struct buffer_head *curf, *curcf;

/* Current node is the root of the tree or will be root of the tree */
if (n_path_offset <= FIRST_PATH_ELEMENT_OFFSET) {
@@ -1100,66 +1100,65 @@ static int get_parents(struct tree_balan
}

/* Get parent FL[n_path_offset] of L[n_path_offset]. */
- if ((n_position = PATH_OFFSET_POSITION(p_s_path, n_path_offset - 1))) {
+ n_position = PATH_OFFSET_POSITION(path, n_path_offset - 1);
+ if (n_position) {
/* Current node is not the first child of its parent. */
- /*(p_s_curf = p_s_curcf = PATH_OFFSET_PBUFFER(p_s_path, n_path_offset - 1))->b_count += 2; */
- p_s_curf = p_s_curcf =
- PATH_OFFSET_PBUFFER(p_s_path, n_path_offset - 1);
- get_bh(p_s_curf);
- get_bh(p_s_curf);
+ curf = PATH_OFFSET_PBUFFER(path, n_path_offset - 1);
+ curcf = PATH_OFFSET_PBUFFER(path, n_path_offset - 1);
+ get_bh(curf);
+ get_bh(curf);
tb->lkey[n_h] = n_position - 1;
} else {
/* Calculate current parent of L[n_path_offset], which is the left neighbor of the current node.
Calculate current common parent of L[n_path_offset] and the current node. Note that
CFL[n_path_offset] not equal FL[n_path_offset] and CFL[n_path_offset] not equal F[n_path_offset].
Calculate lkey[n_path_offset]. */
- if ((n_ret_value = get_far_parent(tb, n_h + 1, &p_s_curf,
- &p_s_curcf,
+ if ((n_ret_value = get_far_parent(tb, n_h + 1, &curf,
+ &curcf,
LEFT_PARENTS)) != CARRY_ON)
return n_ret_value;
}

brelse(tb->FL[n_h]);
- tb->FL[n_h] = p_s_curf; /* New initialization of FL[n_h]. */
+ tb->FL[n_h] = curf; /* New initialization of FL[n_h]. */
brelse(tb->CFL[n_h]);
- tb->CFL[n_h] = p_s_curcf; /* New initialization of CFL[n_h]. */
+ tb->CFL[n_h] = curcf; /* New initialization of CFL[n_h]. */

- RFALSE((p_s_curf && !B_IS_IN_TREE(p_s_curf)) ||
- (p_s_curcf && !B_IS_IN_TREE(p_s_curcf)),
- "PAP-8195: FL (%b) or CFL (%b) is invalid", p_s_curf, p_s_curcf);
+ RFALSE((curf && !B_IS_IN_TREE(curf)) ||
+ (curcf && !B_IS_IN_TREE(curcf)),
+ "PAP-8195: FL (%b) or CFL (%b) is invalid", curf, curcf);

/* Get parent FR[n_h] of R[n_h]. */

/* Current node is the last child of F[n_h]. FR[n_h] != F[n_h]. */
- if (n_position == B_NR_ITEMS(PATH_H_PBUFFER(p_s_path, n_h + 1))) {
+ if (n_position == B_NR_ITEMS(PATH_H_PBUFFER(path, n_h + 1))) {
/* Calculate current parent of R[n_h], which is the right neighbor of F[n_h].
Calculate current common parent of R[n_h] and current node. Note that CFR[n_h]
not equal FR[n_path_offset] and CFR[n_h] not equal F[n_h]. */
if ((n_ret_value =
- get_far_parent(tb, n_h + 1, &p_s_curf, &p_s_curcf,
+ get_far_parent(tb, n_h + 1, &curf, &curcf,
RIGHT_PARENTS)) != CARRY_ON)
return n_ret_value;
} else {
/* Current node is not the last child of its parent F[n_h]. */
- /*(p_s_curf = p_s_curcf = PATH_OFFSET_PBUFFER(p_s_path, n_path_offset - 1))->b_count += 2; */
- p_s_curf = p_s_curcf =
- PATH_OFFSET_PBUFFER(p_s_path, n_path_offset - 1);
- get_bh(p_s_curf);
- get_bh(p_s_curf);
+ curf = PATH_OFFSET_PBUFFER(path, n_path_offset - 1);
+ curcf = PATH_OFFSET_PBUFFER(path, n_path_offset - 1);
+ get_bh(curf);
+ get_bh(curf);
tb->rkey[n_h] = n_position;
}

brelse(tb->FR[n_h]);
/* New initialization of FR[n_path_offset]. */
- tb->FR[n_h] = p_s_curf;
+ tb->FR[n_h] = curf;

brelse(tb->CFR[n_h]);
/* New initialization of CFR[n_path_offset]. */
- tb->CFR[n_h] = p_s_curcf;
+ tb->CFR[n_h] = curcf;

- RFALSE((p_s_curf && !B_IS_IN_TREE(p_s_curf)) ||
- (p_s_curcf && !B_IS_IN_TREE(p_s_curcf)),
- "PAP-8205: FR (%b) or CFR (%b) is invalid", p_s_curf, p_s_curcf);
+ RFALSE((curf && !B_IS_IN_TREE(curf)) ||
+ (curcf && !B_IS_IN_TREE(curcf)),
+ "PAP-8205: FR (%b) or CFR (%b) is invalid", curf, curcf);

return CARRY_ON;
}
@@ -1893,7 +1892,7 @@ static int check_balance(int mode,
static int get_direct_parent(struct tree_balance *tb, int n_h)
{
struct buffer_head *bh;
- struct treepath *p_s_path = tb->tb_path;
+ struct treepath *path = tb->tb_path;
int n_position,
n_path_offset = PATH_H_PATH_OFFSET(tb->tb_path, n_h);

@@ -1903,27 +1902,27 @@ static int get_direct_parent(struct tree
RFALSE(n_path_offset < FIRST_PATH_ELEMENT_OFFSET - 1,
"PAP-8260: invalid offset in the path");

- if (PATH_OFFSET_PBUFFER(p_s_path, FIRST_PATH_ELEMENT_OFFSET)->
+ if (PATH_OFFSET_PBUFFER(path, FIRST_PATH_ELEMENT_OFFSET)->
b_blocknr == SB_ROOT_BLOCK(tb->tb_sb)) {
/* Root is not changed. */
- PATH_OFFSET_PBUFFER(p_s_path, n_path_offset - 1) = NULL;
- PATH_OFFSET_POSITION(p_s_path, n_path_offset - 1) = 0;
+ PATH_OFFSET_PBUFFER(path, n_path_offset - 1) = NULL;
+ PATH_OFFSET_POSITION(path, n_path_offset - 1) = 0;
return CARRY_ON;
}
return REPEAT_SEARCH; /* Root is changed and we must recalculate the path. */
}

if (!B_IS_IN_TREE
- (bh = PATH_OFFSET_PBUFFER(p_s_path, n_path_offset - 1)))
+ (bh = PATH_OFFSET_PBUFFER(path, n_path_offset - 1)))
return REPEAT_SEARCH; /* Parent in the path is not in the tree. */

if ((n_position =
- PATH_OFFSET_POSITION(p_s_path,
+ PATH_OFFSET_POSITION(path,
n_path_offset - 1)) > B_NR_ITEMS(bh))
return REPEAT_SEARCH;

if (B_N_CHILD_NUM(bh, n_position) !=
- PATH_OFFSET_PBUFFER(p_s_path, n_path_offset)->b_blocknr)
+ PATH_OFFSET_PBUFFER(path, n_path_offset)->b_blocknr)
/* Parent in the path is not parent of the current node in the tree. */
return REPEAT_SEARCH;

@@ -2319,7 +2318,7 @@ static int wait_tb_buffers_until_unlocke
*/

int fix_nodes(int n_op_mode, struct tree_balance *tb,
- struct item_head *p_s_ins_ih, const void *data)
+ struct item_head *ins_ih, const void *data)
{
int n_ret_value, n_h, n_item_num = PATH_LAST_POSITION(tb->tb_path);
int n_pos_in_item;
@@ -2405,7 +2404,7 @@ int fix_nodes(int n_op_mode, struct tree
goto repeat;

n_ret_value = check_balance(n_op_mode, tb, n_h, n_item_num,
- n_pos_in_item, p_s_ins_ih, data);
+ n_pos_in_item, ins_ih, data);
if (n_ret_value != CARRY_ON) {
if (n_ret_value == NO_BALANCING_NEEDED) {
/* No balancing for higher levels needed. */
--- a/fs/reiserfs/stree.c
+++ b/fs/reiserfs/stree.c
@@ -68,10 +68,10 @@ inline int B_IS_IN_TREE(const struct buf
//
// to gets item head in le form
//
-inline void copy_item_head(struct item_head *p_v_to,
- const struct item_head *p_v_from)
+inline void copy_item_head(struct item_head *to,
+ const struct item_head *from)
{
- memcpy(p_v_to, p_v_from, IH_SIZE);
+ memcpy(to, from, IH_SIZE);
}

/* k1 is pointer to on-disk structure which is stored in little-endian
@@ -135,15 +135,15 @@ static inline int comp_keys(const struct
inline int comp_short_le_keys(const struct reiserfs_key *key1,
const struct reiserfs_key *key2)
{
- __u32 *p_s_1_u32, *p_s_2_u32;
+ __u32 *k1_u32, *k2_u32;
int n_key_length = REISERFS_SHORT_KEY_LEN;

- p_s_1_u32 = (__u32 *) key1;
- p_s_2_u32 = (__u32 *) key2;
- for (; n_key_length--; ++p_s_1_u32, ++p_s_2_u32) {
- if (le32_to_cpu(*p_s_1_u32) < le32_to_cpu(*p_s_2_u32))
+ k1_u32 = (__u32 *) key1;
+ k2_u32 = (__u32 *) key2;
+ for (; n_key_length--; ++k1_u32, ++k2_u32) {
+ if (le32_to_cpu(*k1_u32) < le32_to_cpu(*k2_u32))
return -1;
- if (le32_to_cpu(*p_s_1_u32) > le32_to_cpu(*p_s_2_u32))
+ if (le32_to_cpu(*k1_u32) > le32_to_cpu(*k2_u32))
return 1;
}
return 0;
@@ -174,8 +174,8 @@ inline int comp_le_keys(const struct rei
* Binary search toolkit function *
* Search for an item in the array by the item key *
* Returns: 1 if found, 0 if not found; *
- * *p_n_pos = number of the searched element if found, else the *
- * number of the first element that is larger than p_v_key. *
+ * *pos = number of the searched element if found, else the *
+ * number of the first element that is larger than key. *
**************************************************************************/
/* For those not familiar with binary search: n_lbound is the leftmost item that it
could be, n_rbound the rightmost item that it could be. We examine the item
@@ -184,28 +184,28 @@ inline int comp_le_keys(const struct rei
there are no possible items, and we have not found it. With each examination we
cut the number of possible items it could be by one more than half rounded down,
or we find it. */
-static inline int bin_search(const void *p_v_key, /* Key to search for. */
- const void *p_v_base, /* First item in the array. */
- int p_n_num, /* Number of items in the array. */
- int p_n_width, /* Item size in the array.
- searched. Lest the reader be
- confused, note that this is crafted
- as a general function, and when it
- is applied specifically to the array
- of item headers in a node, p_n_width
- is actually the item header size not
- the item size. */
- int *p_n_pos /* Number of the searched for element. */
+static inline int bin_search(const void *key, /* Key to search for. */
+ const void *base, /* First item in the array. */
+ int num, /* Number of items in the array. */
+ int width, /* Item size in the array.
+ searched. Lest the reader be
+ confused, note that this is crafted
+ as a general function, and when it
+ is applied specifically to the array
+ of item headers in a node, width
+ is actually the item header size not
+ the item size. */
+ int *pos /* Number of the searched for element. */
)
{
int n_rbound, n_lbound, n_j;

- for (n_j = ((n_rbound = p_n_num - 1) + (n_lbound = 0)) / 2;
+ for (n_j = ((n_rbound = num - 1) + (n_lbound = 0)) / 2;
n_lbound <= n_rbound; n_j = (n_rbound + n_lbound) / 2)
switch (comp_keys
- ((struct reiserfs_key *)((char *)p_v_base +
- n_j * p_n_width),
- (struct cpu_key *)p_v_key)) {
+ ((struct reiserfs_key *)((char *)base +
+ n_j * width),
+ (struct cpu_key *)key)) {
case -1:
n_lbound = n_j + 1;
continue;
@@ -213,13 +213,13 @@ static inline int bin_search(const void
n_rbound = n_j - 1;
continue;
case 0:
- *p_n_pos = n_j;
+ *pos = n_j;
return ITEM_FOUND; /* Key found in the array. */
}

/* bin_search did not find given key, it returns position of key,
that is minimal and greater than the given one. */
- *p_n_pos = n_lbound;
+ *pos = n_lbound;
return ITEM_NOT_FOUND;
}

@@ -243,12 +243,12 @@ static const struct reiserfs_key MAX_KEY
the path, there is no delimiting key in the tree (buffer is first or last buffer in tree), and in this
case we return a special key, either MIN_KEY or MAX_KEY. */
static inline const struct reiserfs_key *get_lkey(const struct treepath
- *p_s_chk_path,
+ *chk_path,
const struct super_block
*sb)
{
- int n_position, n_path_offset = p_s_chk_path->path_length;
- struct buffer_head *p_s_parent;
+ int n_position, n_path_offset = chk_path->path_length;
+ struct buffer_head *parent;

RFALSE(n_path_offset < FIRST_PATH_ELEMENT_OFFSET,
"PAP-5010: invalid offset in the path");
@@ -257,42 +257,42 @@ static inline const struct reiserfs_key
while (n_path_offset-- > FIRST_PATH_ELEMENT_OFFSET) {

RFALSE(!buffer_uptodate
- (PATH_OFFSET_PBUFFER(p_s_chk_path, n_path_offset)),
+ (PATH_OFFSET_PBUFFER(chk_path, n_path_offset)),
"PAP-5020: parent is not uptodate");

/* Parent at the path is not in the tree now. */
if (!B_IS_IN_TREE
- (p_s_parent =
- PATH_OFFSET_PBUFFER(p_s_chk_path, n_path_offset)))
+ (parent =
+ PATH_OFFSET_PBUFFER(chk_path, n_path_offset)))
return &MAX_KEY;
/* Check whether position in the parent is correct. */
if ((n_position =
- PATH_OFFSET_POSITION(p_s_chk_path,
+ PATH_OFFSET_POSITION(chk_path,
n_path_offset)) >
- B_NR_ITEMS(p_s_parent))
+ B_NR_ITEMS(parent))
return &MAX_KEY;
/* Check whether parent at the path really points to the child. */
- if (B_N_CHILD_NUM(p_s_parent, n_position) !=
- PATH_OFFSET_PBUFFER(p_s_chk_path,
+ if (B_N_CHILD_NUM(parent, n_position) !=
+ PATH_OFFSET_PBUFFER(chk_path,
n_path_offset + 1)->b_blocknr)
return &MAX_KEY;
/* Return delimiting key if position in the parent is not equal to zero. */
if (n_position)
- return B_N_PDELIM_KEY(p_s_parent, n_position - 1);
+ return B_N_PDELIM_KEY(parent, n_position - 1);
}
/* Return MIN_KEY if we are in the root of the buffer tree. */
- if (PATH_OFFSET_PBUFFER(p_s_chk_path, FIRST_PATH_ELEMENT_OFFSET)->
+ if (PATH_OFFSET_PBUFFER(chk_path, FIRST_PATH_ELEMENT_OFFSET)->
b_blocknr == SB_ROOT_BLOCK(sb))
return &MIN_KEY;
return &MAX_KEY;
}

/* Get delimiting key of the buffer at the path and its right neighbor. */
-inline const struct reiserfs_key *get_rkey(const struct treepath *p_s_chk_path,
+inline const struct reiserfs_key *get_rkey(const struct treepath *chk_path,
const struct super_block *sb)
{
- int n_position, n_path_offset = p_s_chk_path->path_length;
- struct buffer_head *p_s_parent;
+ int n_position, n_path_offset = chk_path->path_length;
+ struct buffer_head *parent;

RFALSE(n_path_offset < FIRST_PATH_ELEMENT_OFFSET,
"PAP-5030: invalid offset in the path");
@@ -300,31 +300,31 @@ inline const struct reiserfs_key *get_rk
while (n_path_offset-- > FIRST_PATH_ELEMENT_OFFSET) {

RFALSE(!buffer_uptodate
- (PATH_OFFSET_PBUFFER(p_s_chk_path, n_path_offset)),
+ (PATH_OFFSET_PBUFFER(chk_path, n_path_offset)),
"PAP-5040: parent is not uptodate");

/* Parent at the path is not in the tree now. */
if (!B_IS_IN_TREE
- (p_s_parent =
- PATH_OFFSET_PBUFFER(p_s_chk_path, n_path_offset)))
+ (parent =
+ PATH_OFFSET_PBUFFER(chk_path, n_path_offset)))
return &MIN_KEY;
/* Check whether position in the parent is correct. */
if ((n_position =
- PATH_OFFSET_POSITION(p_s_chk_path,
+ PATH_OFFSET_POSITION(chk_path,
n_path_offset)) >
- B_NR_ITEMS(p_s_parent))
+ B_NR_ITEMS(parent))
return &MIN_KEY;
/* Check whether parent at the path really points to the child. */
- if (B_N_CHILD_NUM(p_s_parent, n_position) !=
- PATH_OFFSET_PBUFFER(p_s_chk_path,
+ if (B_N_CHILD_NUM(parent, n_position) !=
+ PATH_OFFSET_PBUFFER(chk_path,
n_path_offset + 1)->b_blocknr)
return &MIN_KEY;
/* Return delimiting key if position in the parent is not the last one. */
- if (n_position != B_NR_ITEMS(p_s_parent))
- return B_N_PDELIM_KEY(p_s_parent, n_position);
+ if (n_position != B_NR_ITEMS(parent))
+ return B_N_PDELIM_KEY(parent, n_position);
}
/* Return MAX_KEY if we are in the root of the buffer tree. */
- if (PATH_OFFSET_PBUFFER(p_s_chk_path, FIRST_PATH_ELEMENT_OFFSET)->
+ if (PATH_OFFSET_PBUFFER(chk_path, FIRST_PATH_ELEMENT_OFFSET)->
b_blocknr == SB_ROOT_BLOCK(sb))
return &MAX_KEY;
return &MIN_KEY;
@@ -335,25 +335,25 @@ inline const struct reiserfs_key *get_rk
the path. These delimiting keys are stored at least one level above that buffer in the tree. If the
buffer is the first or last node in the tree order then one of the delimiting keys may be absent, and in
this case get_lkey and get_rkey return a special key which is MIN_KEY or MAX_KEY. */
-static inline int key_in_buffer(struct treepath *p_s_chk_path, /* Path which should be checked. */
- const struct cpu_key *p_s_key, /* Key which should be checked. */
- struct super_block *sb /* Super block pointer. */
+static inline int key_in_buffer(struct treepath *chk_path, /* Path which should be checked. */
+ const struct cpu_key *key, /* Key which should be checked. */
+ struct super_block *sb
)
{

- RFALSE(!p_s_key || p_s_chk_path->path_length < FIRST_PATH_ELEMENT_OFFSET
- || p_s_chk_path->path_length > MAX_HEIGHT,
+ RFALSE(!key || chk_path->path_length < FIRST_PATH_ELEMENT_OFFSET
+ || chk_path->path_length > MAX_HEIGHT,
"PAP-5050: pointer to the key(%p) is NULL or invalid path length(%d)",
- p_s_key, p_s_chk_path->path_length);
- RFALSE(!PATH_PLAST_BUFFER(p_s_chk_path)->b_bdev,
+ key, chk_path->path_length);
+ RFALSE(!PATH_PLAST_BUFFER(chk_path)->b_bdev,
"PAP-5060: device must not be NODEV");

- if (comp_keys(get_lkey(p_s_chk_path, sb), p_s_key) == 1)
+ if (comp_keys(get_lkey(chk_path, sb), key) == 1)
/* left delimiting key is bigger, that the key we look for */
return 0;
- // if ( comp_keys(p_s_key, get_rkey(p_s_chk_path, sb)) != -1 )
- if (comp_keys(get_rkey(p_s_chk_path, sb), p_s_key) != 1)
- /* p_s_key must be less than right delimitiing key */
+ /* if ( comp_keys(key, get_rkey(chk_path, sb)) != -1 ) */
+ if (comp_keys(get_rkey(chk_path, sb), key) != 1)
+ /* key must be less than right delimitiing key */
return 0;
return 1;
}
@@ -369,34 +369,34 @@ int reiserfs_check_path(struct treepath
* dirty bits clean when preparing the buffer for the log.
* This version should only be called from fix_nodes() */
void pathrelse_and_restore(struct super_block *sb,
- struct treepath *p_s_search_path)
+ struct treepath *search_path)
{
- int n_path_offset = p_s_search_path->path_length;
+ int n_path_offset = search_path->path_length;

RFALSE(n_path_offset < ILLEGAL_PATH_ELEMENT_OFFSET,
"clm-4000: invalid path offset");

while (n_path_offset > ILLEGAL_PATH_ELEMENT_OFFSET) {
struct buffer_head *bh;
- bh = PATH_OFFSET_PBUFFER(p_s_search_path, n_path_offset--);
+ bh = PATH_OFFSET_PBUFFER(search_path, n_path_offset--);
reiserfs_restore_prepared_buffer(sb, bh);
brelse(bh);
}
- p_s_search_path->path_length = ILLEGAL_PATH_ELEMENT_OFFSET;
+ search_path->path_length = ILLEGAL_PATH_ELEMENT_OFFSET;
}

/* Drop the reference to each buffer in a path */
-void pathrelse(struct treepath *p_s_search_path)
+void pathrelse(struct treepath *search_path)
{
- int n_path_offset = p_s_search_path->path_length;
+ int n_path_offset = search_path->path_length;

RFALSE(n_path_offset < ILLEGAL_PATH_ELEMENT_OFFSET,
"PAP-5090: invalid path offset");

while (n_path_offset > ILLEGAL_PATH_ELEMENT_OFFSET)
- brelse(PATH_OFFSET_PBUFFER(p_s_search_path, n_path_offset--));
+ brelse(PATH_OFFSET_PBUFFER(search_path, n_path_offset--));

- p_s_search_path->path_length = ILLEGAL_PATH_ELEMENT_OFFSET;
+ search_path->path_length = ILLEGAL_PATH_ELEMENT_OFFSET;
}

static int is_leaf(char *buf, int blocksize, struct buffer_head *bh)
@@ -547,9 +547,9 @@ static void search_by_key_reada(struct s
* Algorithm SearchByKey *
* look for item in the Disk S+Tree by its key *
* Input: sb - super block *
- * p_s_key - pointer to the key to search *
+ * key - pointer to the key to search *
* Output: ITEM_FOUND, ITEM_NOT_FOUND or IO_ERROR *
- * p_s_search_path - path from the root to the needed leaf *
+ * search_path - path from the root to the needed leaf *
**************************************************************************/

/* This function fills up the path from the root to the leaf as it
@@ -566,8 +566,8 @@ static void search_by_key_reada(struct s
correctness of the top of the path but need not be checked for the
correctness of the bottom of the path */
/* The function is NOT SCHEDULE-SAFE! */
-int search_by_key(struct super_block *sb, const struct cpu_key *p_s_key, /* Key to search. */
- struct treepath *p_s_search_path,/* This structure was
+int search_by_key(struct super_block *sb, const struct cpu_key *key, /* Key to search. */
+ struct treepath *search_path,/* This structure was
allocated and initialized
by the calling
function. It is filled up
@@ -580,7 +580,7 @@ int search_by_key(struct super_block *sb
b_blocknr_t n_block_number;
int expected_level;
struct buffer_head *bh;
- struct path_element *p_s_last_element;
+ struct path_element *last_element;
int n_node_level, n_retval;
int right_neighbor_of_leaf_node;
int fs_gen;
@@ -598,7 +598,7 @@ int search_by_key(struct super_block *sb
we must be careful to release all nodes in a path before we either
discard the path struct or re-use the path struct, as we do here. */

- pathrelse(p_s_search_path);
+ pathrelse(search_path);

right_neighbor_of_leaf_node = 0;

@@ -615,18 +615,18 @@ int search_by_key(struct super_block *sb
"%s: there were %d iterations of "
"while loop looking for key %K",
current->comm, n_repeat_counter,
- p_s_key);
+ key);
#endif

/* prep path to have another element added to it. */
- p_s_last_element =
- PATH_OFFSET_PELEMENT(p_s_search_path,
- ++p_s_search_path->path_length);
+ last_element =
+ PATH_OFFSET_PELEMENT(search_path,
+ ++search_path->path_length);
fs_gen = get_generation(sb);

/* Read the next tree node, and set the last element in the path to
have a pointer to it. */
- if ((bh = p_s_last_element->pe_buffer =
+ if ((bh = last_element->pe_buffer =
sb_getblk(sb, n_block_number))) {
if (!buffer_uptodate(bh) && reada_count > 1)
search_by_key_reada(sb, reada_bh,
@@ -637,8 +637,8 @@ int search_by_key(struct super_block *sb
goto io_error;
} else {
io_error:
- p_s_search_path->path_length--;
- pathrelse(p_s_search_path);
+ search_path->path_length--;
+ pathrelse(search_path);
return IO_ERROR;
}
reada_count = 0;
@@ -652,12 +652,12 @@ int search_by_key(struct super_block *sb
if (fs_changed(fs_gen, sb) &&
(!B_IS_IN_TREE(bh) ||
B_LEVEL(bh) != expected_level ||
- !key_in_buffer(p_s_search_path, p_s_key, sb))) {
+ !key_in_buffer(search_path, key, sb))) {
PROC_INFO_INC(sb, search_by_key_fs_changed);
PROC_INFO_INC(sb, search_by_key_restarted);
PROC_INFO_INC(sb,
sbk_restarted[expected_level - 1]);
- pathrelse(p_s_search_path);
+ pathrelse(search_path);

/* Get the root block number so that we can repeat the search
starting from the root. */
@@ -669,11 +669,11 @@ int search_by_key(struct super_block *sb
continue;
}

- /* only check that the key is in the buffer if p_s_key is not
+ /* only check that the key is in the buffer if key is not
equal to the MAX_KEY. Latter case is only possible in
"finish_unfinished()" processing during mount. */
- RFALSE(comp_keys(&MAX_KEY, p_s_key) &&
- !key_in_buffer(p_s_search_path, p_s_key, sb),
+ RFALSE(comp_keys(&MAX_KEY, key) &&
+ !key_in_buffer(search_path, key, sb),
"PAP-5130: key is not in the buffer");
#ifdef CONFIG_REISERFS_CHECK
if (cur_tb) {
@@ -689,7 +689,7 @@ int search_by_key(struct super_block *sb
reiserfs_error(sb, "vs-5150",
"invalid format found in block %ld. "
"Fsck?", bh->b_blocknr);
- pathrelse(p_s_search_path);
+ pathrelse(search_path);
return IO_ERROR;
}

@@ -702,12 +702,12 @@ int search_by_key(struct super_block *sb
"vs-5152: tree level (%d) is less than stop level (%d)",
n_node_level, n_stop_level);

- n_retval = bin_search(p_s_key, B_N_PITEM_HEAD(bh, 0),
+ n_retval = bin_search(key, B_N_PITEM_HEAD(bh, 0),
B_NR_ITEMS(bh),
(n_node_level ==
DISK_LEAF_NODE_LEVEL) ? IH_SIZE :
KEY_SIZE,
- &(p_s_last_element->pe_position));
+ &(last_element->pe_position));
if (n_node_level == n_stop_level) {
return n_retval;
}
@@ -715,7 +715,7 @@ int search_by_key(struct super_block *sb
/* we are not in the stop level */
if (n_retval == ITEM_FOUND)
/* item has been found, so we choose the pointer which is to the right of the found one */
- p_s_last_element->pe_position++;
+ last_element->pe_position++;

/* if item was not found we choose the position which is to
the left of the found item. This requires no code,
@@ -725,23 +725,23 @@ int search_by_key(struct super_block *sb
an internal node. Now we calculate child block number by
position in the node. */
n_block_number =
- B_N_CHILD_NUM(bh, p_s_last_element->pe_position);
+ B_N_CHILD_NUM(bh, last_element->pe_position);

/* if we are going to read leaf nodes, try for read ahead as well */
- if ((p_s_search_path->reada & PATH_READA) &&
+ if ((search_path->reada & PATH_READA) &&
n_node_level == DISK_LEAF_NODE_LEVEL + 1) {
- int pos = p_s_last_element->pe_position;
+ int pos = last_element->pe_position;
int limit = B_NR_ITEMS(bh);
struct reiserfs_key *le_key;

- if (p_s_search_path->reada & PATH_READA_BACK)
+ if (search_path->reada & PATH_READA_BACK)
limit = 0;
while (reada_count < SEARCH_BY_KEY_READA) {
if (pos == limit)
break;
reada_blocks[reada_count++] =
B_N_CHILD_NUM(bh, pos);
- if (p_s_search_path->reada & PATH_READA_BACK)
+ if (search_path->reada & PATH_READA_BACK)
pos--;
else
pos++;
@@ -751,7 +751,7 @@ int search_by_key(struct super_block *sb
*/
le_key = B_N_PDELIM_KEY(bh, pos);
if (le32_to_cpu(le_key->k_objectid) !=
- p_s_key->on_disk_key.k_objectid) {
+ key->on_disk_key.k_objectid) {
break;
}
}
@@ -760,11 +760,11 @@ int search_by_key(struct super_block *sb
}

/* Form the path to an item and position in this item which contains
- file byte defined by p_s_key. If there is no such item
+ file byte defined by key. If there is no such item
corresponding to the key, we point the path to the item with
- maximal key less than p_s_key, and *p_n_pos_in_item is set to one
+ maximal key less than key, and *pos_in_item is set to one
past the last entry/byte in the item. If searching for entry in a
- directory item, and it is not found, *p_n_pos_in_item is set to one
+ directory item, and it is not found, *pos_in_item is set to one
entry more than the entry with maximal key which is less than the
sought key.

@@ -777,7 +777,7 @@ int search_by_key(struct super_block *sb
/* The function is NOT SCHEDULE-SAFE! */
int search_for_position_by_key(struct super_block *sb, /* Pointer to the super block. */
const struct cpu_key *p_cpu_key, /* Key to search (cpu variable) */
- struct treepath *p_s_search_path /* Filled up by this function. */
+ struct treepath *search_path /* Filled up by this function. */
)
{
struct item_head *p_le_ih; /* pointer to on-disk structure */
@@ -788,34 +788,34 @@ int search_for_position_by_key(struct su

/* If searching for directory entry. */
if (is_direntry_cpu_key(p_cpu_key))
- return search_by_entry_key(sb, p_cpu_key, p_s_search_path,
+ return search_by_entry_key(sb, p_cpu_key, search_path,
&de);

/* If not searching for directory entry. */

/* If item is found. */
- retval = search_item(sb, p_cpu_key, p_s_search_path);
+ retval = search_item(sb, p_cpu_key, search_path);
if (retval == IO_ERROR)
return retval;
if (retval == ITEM_FOUND) {

RFALSE(!ih_item_len
(B_N_PITEM_HEAD
- (PATH_PLAST_BUFFER(p_s_search_path),
- PATH_LAST_POSITION(p_s_search_path))),
+ (PATH_PLAST_BUFFER(search_path),
+ PATH_LAST_POSITION(search_path))),
"PAP-5165: item length equals zero");

- pos_in_item(p_s_search_path) = 0;
+ pos_in_item(search_path) = 0;
return POSITION_FOUND;
}

- RFALSE(!PATH_LAST_POSITION(p_s_search_path),
+ RFALSE(!PATH_LAST_POSITION(search_path),
"PAP-5170: position equals zero");

/* Item is not found. Set path to the previous item. */
p_le_ih =
- B_N_PITEM_HEAD(PATH_PLAST_BUFFER(p_s_search_path),
- --PATH_LAST_POSITION(p_s_search_path));
+ B_N_PITEM_HEAD(PATH_PLAST_BUFFER(search_path),
+ --PATH_LAST_POSITION(search_path));
n_blk_size = sb->s_blocksize;

if (comp_short_keys(&(p_le_ih->ih_key), p_cpu_key)) {
@@ -829,9 +829,9 @@ int search_for_position_by_key(struct su
/* Needed byte is contained in the item pointed to by the path. */
if (item_offset <= offset &&
item_offset + op_bytes_number(p_le_ih, n_blk_size) > offset) {
- pos_in_item(p_s_search_path) = offset - item_offset;
+ pos_in_item(search_path) = offset - item_offset;
if (is_indirect_le_ih(p_le_ih)) {
- pos_in_item(p_s_search_path) /= n_blk_size;
+ pos_in_item(search_path) /= n_blk_size;
}
return POSITION_FOUND;
}
@@ -839,18 +839,18 @@ int search_for_position_by_key(struct su
/* Needed byte is not contained in the item pointed to by the
path. Set pos_in_item out of the item. */
if (is_indirect_le_ih(p_le_ih))
- pos_in_item(p_s_search_path) =
+ pos_in_item(search_path) =
ih_item_len(p_le_ih) / UNFM_P_SIZE;
else
- pos_in_item(p_s_search_path) = ih_item_len(p_le_ih);
+ pos_in_item(search_path) = ih_item_len(p_le_ih);

return POSITION_NOT_FOUND;
}

/* Compare given item and item pointed to by the path. */
-int comp_items(const struct item_head *stored_ih, const struct treepath *p_s_path)
+int comp_items(const struct item_head *stored_ih, const struct treepath *path)
{
- struct buffer_head *bh = PATH_PLAST_BUFFER(p_s_path);
+ struct buffer_head *bh = PATH_PLAST_BUFFER(path);
struct item_head *ih;

/* Last buffer at the path is not in the tree. */
@@ -858,11 +858,11 @@ int comp_items(const struct item_head *s
return 1;

/* Last path position is invalid. */
- if (PATH_LAST_POSITION(p_s_path) >= B_NR_ITEMS(bh))
+ if (PATH_LAST_POSITION(path) >= B_NR_ITEMS(bh))
return 1;

/* we need only to know, whether it is the same item */
- ih = get_ih(p_s_path);
+ ih = get_ih(path);
return memcmp(stored_ih, ih, IH_SIZE);
}

@@ -951,14 +951,14 @@ static inline int prepare_for_direntry_i
In case of file truncate calculate whether this item must be deleted/truncated or last
unformatted node of this item will be converted to a direct item.
This function returns a determination of what balance mode the calling function should employ. */
-static char prepare_for_delete_or_cut(struct reiserfs_transaction_handle *th, struct inode *inode, struct treepath *p_s_path, const struct cpu_key *p_s_item_key, int *p_n_removed, /* Number of unformatted nodes which were removed
+static char prepare_for_delete_or_cut(struct reiserfs_transaction_handle *th, struct inode *inode, struct treepath *path, const struct cpu_key *item_key, int *removed, /* Number of unformatted nodes which were removed
from end of the file. */
- int *p_n_cut_size, unsigned long long n_new_file_length /* MAX_KEY_OFFSET in case of delete. */
+ int *cut_size, unsigned long long n_new_file_length /* MAX_KEY_OFFSET in case of delete. */
)
{
struct super_block *sb = inode->i_sb;
- struct item_head *p_le_ih = PATH_PITEM_HEAD(p_s_path);
- struct buffer_head *bh = PATH_PLAST_BUFFER(p_s_path);
+ struct item_head *p_le_ih = PATH_PITEM_HEAD(path);
+ struct buffer_head *bh = PATH_PLAST_BUFFER(path);

BUG_ON(!th->t_trans_id);

@@ -968,20 +968,20 @@ static char prepare_for_delete_or_cut(st
RFALSE(n_new_file_length != max_reiserfs_offset(inode),
"PAP-5210: mode must be M_DELETE");

- *p_n_cut_size = -(IH_SIZE + ih_item_len(p_le_ih));
+ *cut_size = -(IH_SIZE + ih_item_len(p_le_ih));
return M_DELETE;
}

/* Directory item. */
if (is_direntry_le_ih(p_le_ih))
- return prepare_for_direntry_item(p_s_path, p_le_ih, inode,
+ return prepare_for_direntry_item(path, p_le_ih, inode,
n_new_file_length,
- p_n_cut_size);
+ cut_size);

/* Direct item. */
if (is_direct_le_ih(p_le_ih))
- return prepare_for_direct_item(p_s_path, p_le_ih, inode,
- n_new_file_length, p_n_cut_size);
+ return prepare_for_direct_item(path, p_le_ih, inode,
+ n_new_file_length, cut_size);

/* Case of an indirect item. */
{
@@ -1001,9 +1001,9 @@ static char prepare_for_delete_or_cut(st

do {
need_re_search = 0;
- *p_n_cut_size = 0;
- bh = PATH_PLAST_BUFFER(p_s_path);
- copy_item_head(&s_ih, PATH_PITEM_HEAD(p_s_path));
+ *cut_size = 0;
+ bh = PATH_PLAST_BUFFER(path);
+ copy_item_head(&s_ih, PATH_PITEM_HEAD(path));
pos = I_UNFM_NUM(&s_ih);

while (le_ih_k_offset (&s_ih) + (pos - 1) * blk_size > n_new_file_length) {
@@ -1013,10 +1013,9 @@ static char prepare_for_delete_or_cut(st
/* Each unformatted block deletion may involve one additional
* bitmap block into the transaction, thereby the initial
* journal space reservation might not be enough. */
- if (!delete && (*p_n_cut_size) != 0 &&
- reiserfs_transaction_free_space(th) < JOURNAL_FOR_FREE_BLOCK_AND_UPDATE_SD) {
+ if (!delete && (*cut_size) != 0 &&
+ reiserfs_transaction_free_space(th) < JOURNAL_FOR_FREE_BLOCK_AND_UPDATE_SD)
break;
- }

unfm = (__le32 *)B_I_PITEM(bh, &s_ih) + pos - 1;
block = get_block_num(unfm, 0);
@@ -1030,17 +1029,17 @@ static char prepare_for_delete_or_cut(st

cond_resched();

- if (item_moved (&s_ih, p_s_path)) {
+ if (item_moved (&s_ih, path)) {
need_re_search = 1;
break;
}

pos --;
- (*p_n_removed) ++;
- (*p_n_cut_size) -= UNFM_P_SIZE;
+ (*removed)++;
+ (*cut_size) -= UNFM_P_SIZE;

if (pos == 0) {
- (*p_n_cut_size) -= IH_SIZE;
+ (*cut_size) -= IH_SIZE;
result = M_DELETE;
break;
}
@@ -1050,10 +1049,10 @@ static char prepare_for_delete_or_cut(st
** buffer */
reiserfs_restore_prepared_buffer(sb, bh);
} while (need_re_search &&
- search_for_position_by_key(sb, p_s_item_key, p_s_path) == POSITION_FOUND);
- pos_in_item(p_s_path) = pos * UNFM_P_SIZE;
+ search_for_position_by_key(sb, item_key, path) == POSITION_FOUND);
+ pos_in_item(path) = pos * UNFM_P_SIZE;

- if (*p_n_cut_size == 0) {
+ if (*cut_size == 0) {
/* Nothing were cut. maybe convert last unformatted node to the
* direct item? */
result = M_CONVERT;
@@ -1091,7 +1090,7 @@ static int calc_deleted_bytes_number(str
static void init_tb_struct(struct reiserfs_transaction_handle *th,
struct tree_balance *tb,
struct super_block *sb,
- struct treepath *p_s_path, int n_size)
+ struct treepath *path, int n_size)
{

BUG_ON(!th->t_trans_id);
@@ -1099,9 +1098,9 @@ static void init_tb_struct(struct reiser
memset(tb, '\0', sizeof(struct tree_balance));
tb->transaction_handle = th;
tb->tb_sb = sb;
- tb->tb_path = p_s_path;
- PATH_OFFSET_PBUFFER(p_s_path, ILLEGAL_PATH_ELEMENT_OFFSET) = NULL;
- PATH_OFFSET_POSITION(p_s_path, ILLEGAL_PATH_ELEMENT_OFFSET) = 0;
+ tb->tb_path = path;
+ PATH_OFFSET_PBUFFER(path, ILLEGAL_PATH_ELEMENT_OFFSET) = NULL;
+ PATH_OFFSET_POSITION(path, ILLEGAL_PATH_ELEMENT_OFFSET) = 0;
tb->insert_size[0] = n_size;
}

@@ -1141,13 +1140,17 @@ char head2type(struct item_head *ih)
}
#endif

-/* Delete object item. */
-int reiserfs_delete_item(struct reiserfs_transaction_handle *th, struct treepath *p_s_path, /* Path to the deleted item. */
- const struct cpu_key *p_s_item_key, /* Key to search for the deleted item. */
- struct inode *inode, /* inode is here just to update
- * i_blocks and quotas */
- struct buffer_head *p_s_un_bh)
-{ /* NULL or unformatted node pointer. */
+/* Delete object item.
+ * th - active transaction handle
+ * path - path to the deleted item
+ * item_key - key to search for the deleted item
+ * indode - used for updating i_blocks and quotas
+ * un_bh - NULL or unformatted node pointer
+ */
+int reiserfs_delete_item(struct reiserfs_transaction_handle *th,
+ struct treepath *path, const struct cpu_key *item_key,
+ struct inode *inode, struct buffer_head *un_bh)
+{
struct super_block *sb = inode->i_sb;
struct tree_balance s_del_balance;
struct item_head s_ih;
@@ -1162,7 +1165,7 @@ int reiserfs_delete_item(struct reiserfs

BUG_ON(!th->t_trans_id);

- init_tb_struct(th, &s_del_balance, sb, p_s_path,
+ init_tb_struct(th, &s_del_balance, sb, path,
0 /*size is unknown */ );

while (1) {
@@ -1172,14 +1175,14 @@ int reiserfs_delete_item(struct reiserfs
n_iter++;
c_mode =
#endif
- prepare_for_delete_or_cut(th, inode, p_s_path,
- p_s_item_key, &n_removed,
+ prepare_for_delete_or_cut(th, inode, path,
+ item_key, &n_removed,
&n_del_size,
max_reiserfs_offset(inode));

RFALSE(c_mode != M_DELETE, "PAP-5320: mode must be M_DELETE");

- copy_item_head(&s_ih, PATH_PITEM_HEAD(p_s_path));
+ copy_item_head(&s_ih, PATH_PITEM_HEAD(path));
s_del_balance.insert_size[0] = n_del_size;

n_ret_value = fix_nodes(M_DELETE, &s_del_balance, NULL, NULL);
@@ -1190,13 +1193,13 @@ int reiserfs_delete_item(struct reiserfs

// file system changed, repeat search
n_ret_value =
- search_for_position_by_key(sb, p_s_item_key, p_s_path);
+ search_for_position_by_key(sb, item_key, path);
if (n_ret_value == IO_ERROR)
break;
if (n_ret_value == FILE_NOT_FOUND) {
reiserfs_warning(sb, "vs-5340",
"no items of the file %K found",
- p_s_item_key);
+ item_key);
break;
}
} /* while (1) */
@@ -1207,7 +1210,7 @@ int reiserfs_delete_item(struct reiserfs
}
// reiserfs_delete_item returns item length when success
n_ret_value = calc_deleted_bytes_number(&s_del_balance, M_DELETE);
- q_ih = get_ih(p_s_path);
+ q_ih = get_ih(path);
quota_cut_bytes = ih_item_len(q_ih);

/* hack so the quota code doesn't have to guess if the file
@@ -1224,7 +1227,7 @@ int reiserfs_delete_item(struct reiserfs
}
}

- if (p_s_un_bh) {
+ if (un_bh) {
int off;
char *data;

@@ -1242,16 +1245,16 @@ int reiserfs_delete_item(struct reiserfs
** The unformatted node must be dirtied later on. We can't be
** sure here if the entire tail has been deleted yet.
**
- ** p_s_un_bh is from the page cache (all unformatted nodes are
+ ** un_bh is from the page cache (all unformatted nodes are
** from the page cache) and might be a highmem page. So, we
- ** can't use p_s_un_bh->b_data.
+ ** can't use un_bh->b_data.
** -clm
*/

- data = kmap_atomic(p_s_un_bh->b_page, KM_USER0);
+ data = kmap_atomic(un_bh->b_page, KM_USER0);
off = ((le_ih_k_offset(&s_ih) - 1) & (PAGE_CACHE_SIZE - 1));
memcpy(data + off,
- B_I_PITEM(PATH_PLAST_BUFFER(p_s_path), &s_ih),
+ B_I_PITEM(PATH_PLAST_BUFFER(path), &s_ih),
n_ret_value);
kunmap_atomic(data, KM_USER0);
}
@@ -1427,9 +1430,9 @@ static void unmap_buffers(struct page *p
static int maybe_indirect_to_direct(struct reiserfs_transaction_handle *th,
struct inode *inode,
struct page *page,
- struct treepath *p_s_path,
- const struct cpu_key *p_s_item_key,
- loff_t n_new_file_size, char *p_c_mode)
+ struct treepath *path,
+ const struct cpu_key *item_key,
+ loff_t n_new_file_size, char *mode)
{
struct super_block *sb = inode->i_sb;
int n_block_size = sb->s_blocksize;
@@ -1445,17 +1448,17 @@ static int maybe_indirect_to_direct(stru
!tail_has_to_be_packed(inode) ||
!page || (REISERFS_I(inode)->i_flags & i_nopack_mask)) {
/* leave tail in an unformatted node */
- *p_c_mode = M_SKIP_BALANCING;
+ *mode = M_SKIP_BALANCING;
cut_bytes =
n_block_size - (n_new_file_size & (n_block_size - 1));
- pathrelse(p_s_path);
+ pathrelse(path);
return cut_bytes;
}
- /* Permorm the conversion to a direct_item. */
- /* return indirect_to_direct(inode, p_s_path, p_s_item_key,
- n_new_file_size, p_c_mode); */
- return indirect2direct(th, inode, page, p_s_path, p_s_item_key,
- n_new_file_size, p_c_mode);
+ /* Perform the conversion to a direct_item. */
+ /* return indirect_to_direct(inode, path, item_key,
+ n_new_file_size, mode); */
+ return indirect2direct(th, inode, page, path, item_key,
+ n_new_file_size, mode);
}

/* we did indirect_to_direct conversion. And we have inserted direct
@@ -1506,8 +1509,8 @@ static void indirect_to_direct_roll_back

/* (Truncate or cut entry) or delete object item. Returns < 0 on failure */
int reiserfs_cut_from_item(struct reiserfs_transaction_handle *th,
- struct treepath *p_s_path,
- struct cpu_key *p_s_item_key,
+ struct treepath *path,
+ struct cpu_key *item_key,
struct inode *inode,
struct page *page, loff_t n_new_file_size)
{
@@ -1528,7 +1531,7 @@ int reiserfs_cut_from_item(struct reiser

BUG_ON(!th->t_trans_id);

- init_tb_struct(th, &s_cut_balance, inode->i_sb, p_s_path,
+ init_tb_struct(th, &s_cut_balance, inode->i_sb, path,
n_cut_size);

/* Repeat this loop until we either cut the item without needing
@@ -1540,8 +1543,8 @@ int reiserfs_cut_from_item(struct reiser
pointers. */

c_mode =
- prepare_for_delete_or_cut(th, inode, p_s_path,
- p_s_item_key, &n_removed,
+ prepare_for_delete_or_cut(th, inode, path,
+ item_key, &n_removed,
&n_cut_size, n_new_file_size);
if (c_mode == M_CONVERT) {
/* convert last unformatted node to direct item or leave
@@ -1551,7 +1554,7 @@ int reiserfs_cut_from_item(struct reiser

n_ret_value =
maybe_indirect_to_direct(th, inode, page,
- p_s_path, p_s_item_key,
+ path, item_key,
n_new_file_size, &c_mode);
if (c_mode == M_SKIP_BALANCING)
/* tail has been left in the unformatted node */
@@ -1568,26 +1571,26 @@ int reiserfs_cut_from_item(struct reiser
inserting the new direct item. Now we are removing the
last unformatted node pointer. Set key to search for
it. */
- set_cpu_key_k_type(p_s_item_key, TYPE_INDIRECT);
- p_s_item_key->key_length = 4;
+ set_cpu_key_k_type(item_key, TYPE_INDIRECT);
+ item_key->key_length = 4;
n_new_file_size -=
(n_new_file_size & (sb->s_blocksize - 1));
tail_pos = n_new_file_size;
- set_cpu_key_k_offset(p_s_item_key, n_new_file_size + 1);
+ set_cpu_key_k_offset(item_key, n_new_file_size + 1);
if (search_for_position_by_key
- (sb, p_s_item_key,
- p_s_path) == POSITION_NOT_FOUND) {
- print_block(PATH_PLAST_BUFFER(p_s_path), 3,
- PATH_LAST_POSITION(p_s_path) - 1,
- PATH_LAST_POSITION(p_s_path) + 1);
+ (sb, item_key,
+ path) == POSITION_NOT_FOUND) {
+ print_block(PATH_PLAST_BUFFER(path), 3,
+ PATH_LAST_POSITION(path) - 1,
+ PATH_LAST_POSITION(path) + 1);
reiserfs_panic(sb, "PAP-5580", "item to "
"convert does not exist (%K)",
- p_s_item_key);
+ item_key);
}
continue;
}
if (n_cut_size == 0) {
- pathrelse(p_s_path);
+ pathrelse(path);
return 0;
}

@@ -1600,12 +1603,12 @@ int reiserfs_cut_from_item(struct reiser
PROC_INFO_INC(sb, cut_from_item_restarted);

n_ret_value =
- search_for_position_by_key(sb, p_s_item_key, p_s_path);
+ search_for_position_by_key(sb, item_key, path);
if (n_ret_value == POSITION_FOUND)
continue;

reiserfs_warning(sb, "PAP-5610", "item %K not found",
- p_s_item_key);
+ item_key);
unfix_nodes(&s_cut_balance);
return (n_ret_value == IO_ERROR) ? -EIO : -ENOENT;
} /* while */
@@ -1615,7 +1618,7 @@ int reiserfs_cut_from_item(struct reiser
if (n_is_inode_locked) {
// FIXME: this seems to be not needed: we are always able
// to cut item
- indirect_to_direct_roll_back(th, inode, p_s_path);
+ indirect_to_direct_roll_back(th, inode, path);
}
if (n_ret_value == NO_DISK_SPACE)
reiserfs_warning(sb, "reiserfs-5092",
@@ -1631,7 +1634,7 @@ int reiserfs_cut_from_item(struct reiser
/* Calculate number of bytes that need to be cut from the item. */
quota_cut_bytes =
(c_mode ==
- M_DELETE) ? ih_item_len(get_ih(p_s_path)) : -s_cut_balance.
+ M_DELETE) ? ih_item_len(get_ih(path)) : -s_cut_balance.
insert_size[0];
if (retval2 == -1)
n_ret_value = calc_deleted_bytes_number(&s_cut_balance, c_mode);
@@ -1878,7 +1881,7 @@ int reiserfs_do_truncate(struct reiserfs
#ifdef CONFIG_REISERFS_CHECK
// this makes sure, that we __append__, not overwrite or add holes
static void check_research_for_paste(struct treepath *path,
- const struct cpu_key *p_s_key)
+ const struct cpu_key *key)
{
struct item_head *found_ih = get_ih(path);

@@ -1886,35 +1889,35 @@ static void check_research_for_paste(str
if (le_ih_k_offset(found_ih) +
op_bytes_number(found_ih,
get_last_bh(path)->b_size) !=
- cpu_key_k_offset(p_s_key)
+ cpu_key_k_offset(key)
|| op_bytes_number(found_ih,
get_last_bh(path)->b_size) !=
pos_in_item(path))
reiserfs_panic(NULL, "PAP-5720", "found direct item "
"%h or position (%d) does not match "
"to key %K", found_ih,
- pos_in_item(path), p_s_key);
+ pos_in_item(path), key);
}
if (is_indirect_le_ih(found_ih)) {
if (le_ih_k_offset(found_ih) +
op_bytes_number(found_ih,
get_last_bh(path)->b_size) !=
- cpu_key_k_offset(p_s_key)
+ cpu_key_k_offset(key)
|| I_UNFM_NUM(found_ih) != pos_in_item(path)
|| get_ih_free_space(found_ih) != 0)
reiserfs_panic(NULL, "PAP-5730", "found indirect "
"item (%h) or position (%d) does not "
"match to key (%K)",
- found_ih, pos_in_item(path), p_s_key);
+ found_ih, pos_in_item(path), key);
}
}
#endif /* config reiserfs check */

/* Paste bytes to the existing item. Returns bytes number pasted into the item. */
-int reiserfs_paste_into_item(struct reiserfs_transaction_handle *th, struct treepath *p_s_search_path, /* Path to the pasted item. */
- const struct cpu_key *p_s_key, /* Key to search for the needed item. */
+int reiserfs_paste_into_item(struct reiserfs_transaction_handle *th, struct treepath *search_path, /* Path to the pasted item. */
+ const struct cpu_key *key, /* Key to search for the needed item. */
struct inode *inode, /* Inode item belongs to */
- const char *p_c_body, /* Pointer to the bytes to paste. */
+ const char *body, /* Pointer to the bytes to paste. */
int n_pasted_size)
{ /* Size of pasted bytes. */
struct tree_balance s_paste_balance;
@@ -1929,17 +1932,17 @@ int reiserfs_paste_into_item(struct reis
reiserfs_debug(inode->i_sb, REISERFS_DEBUG_CODE,
"reiserquota paste_into_item(): allocating %u id=%u type=%c",
n_pasted_size, inode->i_uid,
- key2type(&(p_s_key->on_disk_key)));
+ key2type(&(key->on_disk_key)));
#endif

if (DQUOT_ALLOC_SPACE_NODIRTY(inode, n_pasted_size)) {
- pathrelse(p_s_search_path);
+ pathrelse(search_path);
return -EDQUOT;
}
- init_tb_struct(th, &s_paste_balance, th->t_super, p_s_search_path,
+ init_tb_struct(th, &s_paste_balance, th->t_super, search_path,
n_pasted_size);
#ifdef DISPLACE_NEW_PACKING_LOCALITIES
- s_paste_balance.key = p_s_key->on_disk_key;
+ s_paste_balance.key = key->on_disk_key;
#endif

/* DQUOT_* can schedule, must check before the fix_nodes */
@@ -1949,13 +1952,13 @@ int reiserfs_paste_into_item(struct reis

while ((retval =
fix_nodes(M_PASTE, &s_paste_balance, NULL,
- p_c_body)) == REPEAT_SEARCH) {
+ body)) == REPEAT_SEARCH) {
search_again:
/* file system changed while we were in the fix_nodes */
PROC_INFO_INC(th->t_super, paste_into_item_restarted);
retval =
- search_for_position_by_key(th->t_super, p_s_key,
- p_s_search_path);
+ search_for_position_by_key(th->t_super, key,
+ search_path);
if (retval == IO_ERROR) {
retval = -EIO;
goto error_out;
@@ -1963,19 +1966,19 @@ int reiserfs_paste_into_item(struct reis
if (retval == POSITION_FOUND) {
reiserfs_warning(inode->i_sb, "PAP-5710",
"entry or pasted byte (%K) exists",
- p_s_key);
+ key);
retval = -EEXIST;
goto error_out;
}
#ifdef CONFIG_REISERFS_CHECK
- check_research_for_paste(p_s_search_path, p_s_key);
+ check_research_for_paste(search_path, key);
#endif
}

/* Perform balancing after all resources are collected by fix_nodes, and
accessing them will not risk triggering schedule. */
if (retval == CARRY_ON) {
- do_balance(&s_paste_balance, NULL /*ih */ , p_c_body, M_PASTE);
+ do_balance(&s_paste_balance, NULL /*ih */ , body, M_PASTE);
return 0;
}
retval = (retval == NO_DISK_SPACE) ? -ENOSPC : -EIO;
@@ -1986,17 +1989,23 @@ int reiserfs_paste_into_item(struct reis
reiserfs_debug(inode->i_sb, REISERFS_DEBUG_CODE,
"reiserquota paste_into_item(): freeing %u id=%u type=%c",
n_pasted_size, inode->i_uid,
- key2type(&(p_s_key->on_disk_key)));
+ key2type(&(key->on_disk_key)));
#endif
DQUOT_FREE_SPACE_NODIRTY(inode, n_pasted_size);
return retval;
}

-/* Insert new item into the buffer at the path. */
-int reiserfs_insert_item(struct reiserfs_transaction_handle *th, struct treepath *p_s_path, /* Path to the inserteded item. */
- const struct cpu_key *key, struct item_head *p_s_ih, /* Pointer to the item header to insert. */
- struct inode *inode, const char *p_c_body)
-{ /* Pointer to the bytes to insert. */
+/* Insert new item into the buffer at the path.
+ * th - active transaction handle
+ * path - path to the inserted item
+ * ih - pointer to the item header to insert
+ * body - pointer to the bytes to insert
+ */
+int reiserfs_insert_item(struct reiserfs_transaction_handle *th,
+ struct treepath *path, const struct cpu_key *key,
+ struct item_head *ih, struct inode *inode,
+ const char *body)
+{
struct tree_balance s_ins_balance;
int retval;
int fs_gen = 0;
@@ -2006,28 +2015,27 @@ int reiserfs_insert_item(struct reiserfs

if (inode) { /* Do we count quotas for item? */
fs_gen = get_generation(inode->i_sb);
- quota_bytes = ih_item_len(p_s_ih);
+ quota_bytes = ih_item_len(ih);

/* hack so the quota code doesn't have to guess if the file has
** a tail, links are always tails, so there's no guessing needed
*/
- if (!S_ISLNK(inode->i_mode) && is_direct_le_ih(p_s_ih)) {
+ if (!S_ISLNK(inode->i_mode) && is_direct_le_ih(ih))
quota_bytes = inode->i_sb->s_blocksize + UNFM_P_SIZE;
- }
#ifdef REISERQUOTA_DEBUG
reiserfs_debug(inode->i_sb, REISERFS_DEBUG_CODE,
"reiserquota insert_item(): allocating %u id=%u type=%c",
- quota_bytes, inode->i_uid, head2type(p_s_ih));
+ quota_bytes, inode->i_uid, head2type(ih));
#endif
/* We can't dirty inode here. It would be immediately written but
* appropriate stat item isn't inserted yet... */
if (DQUOT_ALLOC_SPACE_NODIRTY(inode, quota_bytes)) {
- pathrelse(p_s_path);
+ pathrelse(path);
return -EDQUOT;
}
}
- init_tb_struct(th, &s_ins_balance, th->t_super, p_s_path,
- IH_SIZE + ih_item_len(p_s_ih));
+ init_tb_struct(th, &s_ins_balance, th->t_super, path,
+ IH_SIZE + ih_item_len(ih));
#ifdef DISPLACE_NEW_PACKING_LOCALITIES
s_ins_balance.key = key->on_disk_key;
#endif
@@ -2037,12 +2045,12 @@ int reiserfs_insert_item(struct reiserfs
}

while ((retval =
- fix_nodes(M_INSERT, &s_ins_balance, p_s_ih,
- p_c_body)) == REPEAT_SEARCH) {
+ fix_nodes(M_INSERT, &s_ins_balance, ih,
+ body)) == REPEAT_SEARCH) {
search_again:
/* file system changed while we were in the fix_nodes */
PROC_INFO_INC(th->t_super, insert_item_restarted);
- retval = search_item(th->t_super, key, p_s_path);
+ retval = search_item(th->t_super, key, path);
if (retval == IO_ERROR) {
retval = -EIO;
goto error_out;
@@ -2058,7 +2066,7 @@ int reiserfs_insert_item(struct reiserfs

/* make balancing after all resources will be collected at a time */
if (retval == CARRY_ON) {
- do_balance(&s_ins_balance, p_s_ih, p_c_body, M_INSERT);
+ do_balance(&s_ins_balance, ih, body, M_INSERT);
return 0;
}

@@ -2069,7 +2077,7 @@ int reiserfs_insert_item(struct reiserfs
#ifdef REISERQUOTA_DEBUG
reiserfs_debug(th->t_super, REISERFS_DEBUG_CODE,
"reiserquota insert_item(): freeing %u id=%u type=%c",
- quota_bytes, inode->i_uid, head2type(p_s_ih));
+ quota_bytes, inode->i_uid, head2type(ih));
#endif
if (inode)
DQUOT_FREE_SPACE_NODIRTY(inode, quota_bytes);
--- a/fs/reiserfs/tail_conversion.c
+++ b/fs/reiserfs/tail_conversion.c
@@ -172,10 +172,12 @@ void reiserfs_unmap_buffer(struct buffer
inode */
int indirect2direct(struct reiserfs_transaction_handle *th,
struct inode *inode, struct page *page,
- struct treepath *p_s_path, /* path to the indirect item. */
- const struct cpu_key *p_s_item_key, /* Key to look for unformatted node pointer to be cut. */
+ struct treepath *path, /* path to the indirect item. */
+ const struct cpu_key *item_key, /* Key to look for
+ * unformatted node
+ * pointer to be cut. */
loff_t n_new_file_size, /* New file size. */
- char *p_c_mode)
+ char *mode)
{
struct super_block *sb = inode->i_sb;
struct item_head s_ih;
@@ -189,10 +191,10 @@ int indirect2direct(struct reiserfs_tran

REISERFS_SB(sb)->s_indirect2direct++;

- *p_c_mode = M_SKIP_BALANCING;
+ *mode = M_SKIP_BALANCING;

/* store item head path points to. */
- copy_item_head(&s_ih, PATH_PITEM_HEAD(p_s_path));
+ copy_item_head(&s_ih, PATH_PITEM_HEAD(path));

tail_len = (n_new_file_size & (n_block_size - 1));
if (get_inode_sd_version(inode) == STAT_DATA_V2)
@@ -211,14 +213,14 @@ int indirect2direct(struct reiserfs_tran

tail = (char *)kmap(page); /* this can schedule */

- if (path_changed(&s_ih, p_s_path)) {
+ if (path_changed(&s_ih, path)) {
/* re-search indirect item */
- if (search_for_position_by_key(sb, p_s_item_key, p_s_path)
+ if (search_for_position_by_key(sb, item_key, path)
== POSITION_NOT_FOUND)
reiserfs_panic(sb, "PAP-5520",
"item to be converted %K does not exist",
- p_s_item_key);
- copy_item_head(&s_ih, PATH_PITEM_HEAD(p_s_path));
+ item_key);
+ copy_item_head(&s_ih, PATH_PITEM_HEAD(path));
#ifdef CONFIG_REISERFS_CHECK
pos = le_ih_k_offset(&s_ih) - 1 +
(ih_item_len(&s_ih) / UNFM_P_SIZE -
@@ -240,13 +242,13 @@ int indirect2direct(struct reiserfs_tran
*/
tail = tail + (pos & (PAGE_CACHE_SIZE - 1));

- PATH_LAST_POSITION(p_s_path)++;
+ PATH_LAST_POSITION(path)++;

- key = *p_s_item_key;
+ key = *item_key;
set_cpu_key_k_type(&key, TYPE_DIRECT);
key.key_length = 4;
/* Insert tail as new direct item in the tree */
- if (reiserfs_insert_item(th, p_s_path, &key, &s_ih, inode,
+ if (reiserfs_insert_item(th, path, &key, &s_ih, inode,
tail ? tail : NULL) < 0) {
/* No disk memory. So we can not convert last unformatted node
to the direct item. In this case we used to adjust
@@ -268,7 +270,7 @@ int indirect2direct(struct reiserfs_tran

/* We have inserted new direct item and must remove last
unformatted node. */
- *p_c_mode = M_CUT;
+ *mode = M_CUT;

/* we store position of first direct item in the in-core inode */
/* mark_file_with_tail (inode, pos1 + 1); */
--- a/include/linux/reiserfs_fs.h
+++ b/include/linux/reiserfs_fs.h
@@ -694,9 +694,9 @@ static inline void cpu_key_k_offset_dec(
#define is_indirect_cpu_ih(ih) (is_indirect_cpu_key (&((ih)->ih_key)))
#define is_statdata_cpu_ih(ih) (is_statdata_cpu_key (&((ih)->ih_key)))

-#define I_K_KEY_IN_ITEM(p_s_ih, p_s_key, n_blocksize) \
- ( ! COMP_SHORT_KEYS(p_s_ih, p_s_key) && \
- I_OFF_BYTE_IN_ITEM(p_s_ih, k_offset (p_s_key), n_blocksize) )
+#define I_K_KEY_IN_ITEM(ih, key, n_blocksize) \
+ (!COMP_SHORT_KEYS(ih, key) && \
+ I_OFF_BYTE_IN_ITEM(ih, k_offset(key), n_blocksize))

/* maximal length of item */
#define MAX_ITEM_LEN(block_size) (block_size - BLKH_SIZE - IH_SIZE)
@@ -1196,33 +1196,33 @@ struct treepath {
struct treepath var = {.path_length = ILLEGAL_PATH_ELEMENT_OFFSET, .reada = 0,}

/* Get path element by path and path position. */
-#define PATH_OFFSET_PELEMENT(p_s_path,n_offset) ((p_s_path)->path_elements +(n_offset))
+#define PATH_OFFSET_PELEMENT(path, n_offset) ((path)->path_elements + (n_offset))

/* Get buffer header at the path by path and path position. */
-#define PATH_OFFSET_PBUFFER(p_s_path,n_offset) (PATH_OFFSET_PELEMENT(p_s_path,n_offset)->pe_buffer)
+#define PATH_OFFSET_PBUFFER(path, n_offset) (PATH_OFFSET_PELEMENT(path, n_offset)->pe_buffer)

/* Get position in the element at the path by path and path position. */
-#define PATH_OFFSET_POSITION(p_s_path,n_offset) (PATH_OFFSET_PELEMENT(p_s_path,n_offset)->pe_position)
+#define PATH_OFFSET_POSITION(path, n_offset) (PATH_OFFSET_PELEMENT(path, n_offset)->pe_position)

-#define PATH_PLAST_BUFFER(p_s_path) (PATH_OFFSET_PBUFFER((p_s_path), (p_s_path)->path_length))
+#define PATH_PLAST_BUFFER(path) (PATH_OFFSET_PBUFFER((path), (path)->path_length))
/* you know, to the person who didn't
write this the macro name does not
at first suggest what it does.
Maybe POSITION_FROM_PATH_END? Or
maybe we should just focus on
dumping paths... -Hans */
-#define PATH_LAST_POSITION(p_s_path) (PATH_OFFSET_POSITION((p_s_path), (p_s_path)->path_length))
+#define PATH_LAST_POSITION(path) (PATH_OFFSET_POSITION((path), (path)->path_length))

-#define PATH_PITEM_HEAD(p_s_path) B_N_PITEM_HEAD(PATH_PLAST_BUFFER(p_s_path),PATH_LAST_POSITION(p_s_path))
+#define PATH_PITEM_HEAD(path) B_N_PITEM_HEAD(PATH_PLAST_BUFFER(path), PATH_LAST_POSITION(path))

/* in do_balance leaf has h == 0 in contrast with path structure,
where root has level == 0. That is why we need these defines */
-#define PATH_H_PBUFFER(p_s_path, h) PATH_OFFSET_PBUFFER (p_s_path, p_s_path->path_length - (h)) /* tb->S[h] */
+#define PATH_H_PBUFFER(path, h) PATH_OFFSET_PBUFFER (path, path->path_length - (h)) /* tb->S[h] */
#define PATH_H_PPARENT(path, h) PATH_H_PBUFFER (path, (h) + 1) /* tb->F[h] or tb->S[0]->b_parent */
#define PATH_H_POSITION(path, h) PATH_OFFSET_POSITION (path, path->path_length - (h))
#define PATH_H_B_ITEM_ORDER(path, h) PATH_H_POSITION(path, h + 1) /* tb->S[h]->b_item_order */

-#define PATH_H_PATH_OFFSET(p_s_path, n_h) ((p_s_path)->path_length - (n_h))
+#define PATH_H_PATH_OFFSET(path, n_h) ((path)->path_length - (n_h))

#define get_last_bh(path) PATH_PLAST_BUFFER(path)
#define get_ih(path) PATH_PITEM_HEAD(path)
@@ -1512,7 +1512,7 @@ extern struct item_operations *item_ops[
#define COMP_SHORT_KEYS comp_short_keys

/* number of blocks pointed to by the indirect item */
-#define I_UNFM_NUM(p_s_ih) ( ih_item_len(p_s_ih) / UNFM_P_SIZE )
+#define I_UNFM_NUM(ih) (ih_item_len(ih) / UNFM_P_SIZE)

/* the used space within the unformatted node corresponding to pos within the item pointed to by ih */
#define I_POS_UNFM_SIZE(ih,pos,size) (((pos) == I_UNFM_NUM(ih) - 1 ) ? (size) - ih_free_space(ih) : (size))
@@ -1793,8 +1793,8 @@ int reiserfs_convert_objectid_map_v1(str

/* stree.c */
int B_IS_IN_TREE(const struct buffer_head *);
-extern void copy_item_head(struct item_head *p_v_to,
- const struct item_head *p_v_from);
+extern void copy_item_head(struct item_head *to,
+ const struct item_head *from);

// first key is in cpu form, second - le
extern int comp_short_keys(const struct reiserfs_key *le_key,
@@ -1829,20 +1829,20 @@ static inline void copy_key(struct reise
memcpy(to, from, KEY_SIZE);
}

-int comp_items(const struct item_head *stored_ih, const struct treepath *p_s_path);
-const struct reiserfs_key *get_rkey(const struct treepath *p_s_chk_path,
+int comp_items(const struct item_head *stored_ih, const struct treepath *path);
+const struct reiserfs_key *get_rkey(const struct treepath *chk_path,
const struct super_block *sb);
int search_by_key(struct super_block *, const struct cpu_key *,
struct treepath *, int);
#define search_item(s,key,path) search_by_key (s, key, path, DISK_LEAF_NODE_LEVEL)
int search_for_position_by_key(struct super_block *sb,
- const struct cpu_key *p_s_cpu_key,
- struct treepath *p_s_search_path);
+ const struct cpu_key *cpu_key,
+ struct treepath *search_path);
extern void decrement_bcount(struct buffer_head *bh);
-void decrement_counters_in_path(struct treepath *p_s_search_path);
-void pathrelse(struct treepath *p_s_search_path);
+void decrement_counters_in_path(struct treepath *search_path);
+void pathrelse(struct treepath *search_path);
int reiserfs_check_path(struct treepath *p);
-void pathrelse_and_restore(struct super_block *s, struct treepath *p_s_search_path);
+void pathrelse_and_restore(struct super_block *s, struct treepath *search_path);

int reiserfs_insert_item(struct reiserfs_transaction_handle *th,
struct treepath *path,
@@ -1865,7 +1865,7 @@ int reiserfs_cut_from_item(struct reiser
int reiserfs_delete_item(struct reiserfs_transaction_handle *th,
struct treepath *path,
const struct cpu_key *key,
- struct inode *inode, struct buffer_head *p_s_un_bh);
+ struct inode *inode, struct buffer_head *un_bh);

void reiserfs_delete_solid_item(struct reiserfs_transaction_handle *th,
struct inode *inode, struct reiserfs_key *key);
@@ -2005,7 +2005,7 @@ extern const struct address_space_operat
/* fix_nodes.c */

int fix_nodes(int n_op_mode, struct tree_balance *tb,
- struct item_head *p_s_ins_ih, const void *);
+ struct item_head *ins_ih, const void *);
void unfix_nodes(struct tree_balance *);

/* prints.c */



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