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|
/* vi:set ts=8 sts=4 sw=4 noet:
*
* VIM - Vi IMproved by Bram Moolenaar
*
* Do ":help uganda" in Vim to read copying and usage conditions.
* Do ":help credits" in Vim to see a list of people who contributed.
* See README.txt for an overview of the Vim source code.
*/
/*
* profiler.c: vim script profiler
*/
#include "vim.h"
#if defined(FEAT_EVAL) || defined(PROTO)
# if defined(FEAT_PROFILE) || defined(FEAT_RELTIME) || defined(PROTO)
/*
* Store the current time in "tm".
*/
void
profile_start(proftime_T *tm)
{
# ifdef MSWIN
QueryPerformanceCounter(tm);
# else
gettimeofday(tm, NULL);
# endif
}
/*
* Compute the elapsed time from "tm" till now and store in "tm".
*/
void
profile_end(proftime_T *tm)
{
proftime_T now;
# ifdef MSWIN
QueryPerformanceCounter(&now);
tm->QuadPart = now.QuadPart - tm->QuadPart;
# else
gettimeofday(&now, NULL);
tm->tv_usec = now.tv_usec - tm->tv_usec;
tm->tv_sec = now.tv_sec - tm->tv_sec;
if (tm->tv_usec < 0)
{
tm->tv_usec += 1000000;
--tm->tv_sec;
}
# endif
}
/*
* Subtract the time "tm2" from "tm".
*/
void
profile_sub(proftime_T *tm, proftime_T *tm2)
{
# ifdef MSWIN
tm->QuadPart -= tm2->QuadPart;
# else
tm->tv_usec -= tm2->tv_usec;
tm->tv_sec -= tm2->tv_sec;
if (tm->tv_usec < 0)
{
tm->tv_usec += 1000000;
--tm->tv_sec;
}
# endif
}
/*
* Return a string that represents the time in "tm".
* Uses a static buffer!
*/
char *
profile_msg(proftime_T *tm)
{
static char buf[50];
# ifdef MSWIN
LARGE_INTEGER fr;
QueryPerformanceFrequency(&fr);
sprintf(buf, "%10.6lf", (double)tm->QuadPart / (double)fr.QuadPart);
# else
sprintf(buf, "%3ld.%06ld", (long)tm->tv_sec, (long)tm->tv_usec);
# endif
return buf;
}
# if defined(FEAT_FLOAT) || defined(PROTO)
/*
* Return a float that represents the time in "tm".
*/
float_T
profile_float(proftime_T *tm)
{
# ifdef MSWIN
LARGE_INTEGER fr;
QueryPerformanceFrequency(&fr);
return (float_T)tm->QuadPart / (float_T)fr.QuadPart;
# else
return (float_T)tm->tv_sec + (float_T)tm->tv_usec / 1000000.0;
# endif
}
# endif
/*
* Put the time "msec" past now in "tm".
*/
void
profile_setlimit(long msec, proftime_T *tm)
{
if (msec <= 0) // no limit
profile_zero(tm);
else
{
# ifdef MSWIN
LARGE_INTEGER fr;
QueryPerformanceCounter(tm);
QueryPerformanceFrequency(&fr);
tm->QuadPart += (LONGLONG)((double)msec / 1000.0 * (double)fr.QuadPart);
# else
long usec;
gettimeofday(tm, NULL);
usec = (long)tm->tv_usec + (long)msec * 1000;
tm->tv_usec = usec % 1000000L;
tm->tv_sec += usec / 1000000L;
# endif
}
}
/*
* Return TRUE if the current time is past "tm".
*/
int
profile_passed_limit(proftime_T *tm)
{
proftime_T now;
# ifdef MSWIN
if (tm->QuadPart == 0) // timer was not set
return FALSE;
QueryPerformanceCounter(&now);
return (now.QuadPart > tm->QuadPart);
# else
if (tm->tv_sec == 0) // timer was not set
return FALSE;
gettimeofday(&now, NULL);
return (now.tv_sec > tm->tv_sec
|| (now.tv_sec == tm->tv_sec && now.tv_usec > tm->tv_usec));
# endif
}
/*
* Set the time in "tm" to zero.
*/
void
profile_zero(proftime_T *tm)
{
# ifdef MSWIN
tm->QuadPart = 0;
# else
tm->tv_usec = 0;
tm->tv_sec = 0;
# endif
}
# endif // FEAT_PROFILE || FEAT_RELTIME
#if defined(FEAT_SYN_HL) && defined(FEAT_RELTIME) && defined(FEAT_FLOAT) && defined(FEAT_PROFILE)
# if defined(HAVE_MATH_H)
# include <math.h>
# endif
/*
* Divide the time "tm" by "count" and store in "tm2".
*/
void
profile_divide(proftime_T *tm, int count, proftime_T *tm2)
{
if (count == 0)
profile_zero(tm2);
else
{
# ifdef MSWIN
tm2->QuadPart = tm->QuadPart / count;
# else
double usec = (tm->tv_sec * 1000000.0 + tm->tv_usec) / count;
tm2->tv_sec = floor(usec / 1000000.0);
tm2->tv_usec = vim_round(usec - (tm2->tv_sec * 1000000.0));
# endif
}
}
#endif
# if defined(FEAT_PROFILE) || defined(PROTO)
/*
* Functions for profiling.
*/
static proftime_T prof_wait_time;
/*
* Add the time "tm2" to "tm".
*/
void
profile_add(proftime_T *tm, proftime_T *tm2)
{
# ifdef MSWIN
tm->QuadPart += tm2->QuadPart;
# else
tm->tv_usec += tm2->tv_usec;
tm->tv_sec += tm2->tv_sec;
if (tm->tv_usec >= 1000000)
{
tm->tv_usec -= 1000000;
++tm->tv_sec;
}
# endif
}
/*
* Add the "self" time from the total time and the children's time.
*/
void
profile_self(proftime_T *self, proftime_T *total, proftime_T *children)
{
// Check that the result won't be negative. Can happen with recursive
// calls.
#ifdef MSWIN
if (total->QuadPart <= children->QuadPart)
return;
#else
if (total->tv_sec < children->tv_sec
|| (total->tv_sec == children->tv_sec
&& total->tv_usec <= children->tv_usec))
return;
#endif
profile_add(self, total);
profile_sub(self, children);
}
/*
* Get the current waittime.
*/
static void
profile_get_wait(proftime_T *tm)
{
*tm = prof_wait_time;
}
/*
* Subtract the passed waittime since "tm" from "tma".
*/
void
profile_sub_wait(proftime_T *tm, proftime_T *tma)
{
proftime_T tm3 = prof_wait_time;
profile_sub(&tm3, tm);
profile_sub(tma, &tm3);
}
/*
* Return TRUE if "tm1" and "tm2" are equal.
*/
static int
profile_equal(proftime_T *tm1, proftime_T *tm2)
{
# ifdef MSWIN
return (tm1->QuadPart == tm2->QuadPart);
# else
return (tm1->tv_usec == tm2->tv_usec && tm1->tv_sec == tm2->tv_sec);
# endif
}
/*
* Return <0, 0 or >0 if "tm1" < "tm2", "tm1" == "tm2" or "tm1" > "tm2"
*/
int
profile_cmp(const proftime_T *tm1, const proftime_T *tm2)
{
# ifdef MSWIN
return (int)(tm2->QuadPart - tm1->QuadPart);
# else
if (tm1->tv_sec == tm2->tv_sec)
return tm2->tv_usec - tm1->tv_usec;
return tm2->tv_sec - tm1->tv_sec;
# endif
}
static char_u *profile_fname = NULL;
static proftime_T pause_time;
/*
* ":profile cmd args"
*/
void
ex_profile(exarg_T *eap)
{
char_u *e;
int len;
e = skiptowhite(eap->arg);
len = (int)(e - eap->arg);
e = skipwhite(e);
if (len == 5 && STRNCMP(eap->arg, "start", 5) == 0 && *e != NUL)
{
vim_free(profile_fname);
profile_fname = expand_env_save_opt(e, TRUE);
do_profiling = PROF_YES;
profile_zero(&prof_wait_time);
set_vim_var_nr(VV_PROFILING, 1L);
}
else if (do_profiling == PROF_NONE)
emsg(_("E750: First use \":profile start {fname}\""));
else if (STRCMP(eap->arg, "pause") == 0)
{
if (do_profiling == PROF_YES)
profile_start(&pause_time);
do_profiling = PROF_PAUSED;
}
else if (STRCMP(eap->arg, "continue") == 0)
{
if (do_profiling == PROF_PAUSED)
{
profile_end(&pause_time);
profile_add(&prof_wait_time, &pause_time);
}
do_profiling = PROF_YES;
}
else
{
// The rest is similar to ":breakadd".
ex_breakadd(eap);
}
}
// Command line expansion for :profile.
static enum
{
PEXP_SUBCMD, // expand :profile sub-commands
PEXP_FUNC // expand :profile func {funcname}
} pexpand_what;
static char *pexpand_cmds[] = {
"start",
#define PROFCMD_START 0
"pause",
#define PROFCMD_PAUSE 1
"continue",
#define PROFCMD_CONTINUE 2
"func",
#define PROFCMD_FUNC 3
"file",
#define PROFCMD_FILE 4
NULL
#define PROFCMD_LAST 5
};
/*
* Function given to ExpandGeneric() to obtain the profile command
* specific expansion.
*/
char_u *
get_profile_name(expand_T *xp UNUSED, int idx)
{
switch (pexpand_what)
{
case PEXP_SUBCMD:
return (char_u *)pexpand_cmds[idx];
// case PEXP_FUNC: TODO
default:
return NULL;
}
}
/*
* Handle command line completion for :profile command.
*/
void
set_context_in_profile_cmd(expand_T *xp, char_u *arg)
{
char_u *end_subcmd;
// Default: expand subcommands.
xp->xp_context = EXPAND_PROFILE;
pexpand_what = PEXP_SUBCMD;
xp->xp_pattern = arg;
end_subcmd = skiptowhite(arg);
if (*end_subcmd == NUL)
return;
if (end_subcmd - arg == 5 && STRNCMP(arg, "start", 5) == 0)
{
xp->xp_context = EXPAND_FILES;
xp->xp_pattern = skipwhite(end_subcmd);
return;
}
// TODO: expand function names after "func"
xp->xp_context = EXPAND_NOTHING;
}
static proftime_T inchar_time;
/*
* Called when starting to wait for the user to type a character.
*/
void
prof_inchar_enter(void)
{
profile_start(&inchar_time);
}
/*
* Called when finished waiting for the user to type a character.
*/
void
prof_inchar_exit(void)
{
profile_end(&inchar_time);
profile_add(&prof_wait_time, &inchar_time);
}
/*
* Return TRUE when a function defined in the current script should be
* profiled.
*/
int
prof_def_func(void)
{
if (current_sctx.sc_sid > 0)
return SCRIPT_ITEM(current_sctx.sc_sid)->sn_pr_force;
return FALSE;
}
/*
* Print the count and times for one function or function line.
*/
static void
prof_func_line(
FILE *fd,
int count,
proftime_T *total,
proftime_T *self,
int prefer_self) // when equal print only self time
{
if (count > 0)
{
fprintf(fd, "%5d ", count);
if (prefer_self && profile_equal(total, self))
fprintf(fd, " ");
else
fprintf(fd, "%s ", profile_msg(total));
if (!prefer_self && profile_equal(total, self))
fprintf(fd, " ");
else
fprintf(fd, "%s ", profile_msg(self));
}
else
fprintf(fd, " ");
}
static void
prof_sort_list(
FILE *fd,
ufunc_T **sorttab,
int st_len,
char *title,
int prefer_self) // when equal print only self time
{
int i;
ufunc_T *fp;
fprintf(fd, "FUNCTIONS SORTED ON %s TIME\n", title);
fprintf(fd, "count total (s) self (s) function\n");
for (i = 0; i < 20 && i < st_len; ++i)
{
fp = sorttab[i];
prof_func_line(fd, fp->uf_tm_count, &fp->uf_tm_total, &fp->uf_tm_self,
prefer_self);
if (fp->uf_name[0] == K_SPECIAL)
fprintf(fd, " <SNR>%s()\n", fp->uf_name + 3);
else
fprintf(fd, " %s()\n", fp->uf_name);
}
fprintf(fd, "\n");
}
/*
* Compare function for total time sorting.
*/
static int
prof_total_cmp(const void *s1, const void *s2)
{
ufunc_T *p1, *p2;
p1 = *(ufunc_T **)s1;
p2 = *(ufunc_T **)s2;
return profile_cmp(&p1->uf_tm_total, &p2->uf_tm_total);
}
/*
* Compare function for self time sorting.
*/
static int
prof_self_cmp(const void *s1, const void *s2)
{
ufunc_T *p1, *p2;
p1 = *(ufunc_T **)s1;
p2 = *(ufunc_T **)s2;
return profile_cmp(&p1->uf_tm_self, &p2->uf_tm_self);
}
/*
* Start profiling function "fp".
*/
void
func_do_profile(ufunc_T *fp)
{
int len = fp->uf_lines.ga_len;
if (!fp->uf_prof_initialized)
{
if (len == 0)
len = 1; // avoid getting error for allocating zero bytes
fp->uf_tm_count = 0;
profile_zero(&fp->uf_tm_self);
profile_zero(&fp->uf_tm_total);
if (fp->uf_tml_count == NULL)
fp->uf_tml_count = ALLOC_CLEAR_MULT(int, len);
if (fp->uf_tml_total == NULL)
fp->uf_tml_total = ALLOC_CLEAR_MULT(proftime_T, len);
if (fp->uf_tml_self == NULL)
fp->uf_tml_self = ALLOC_CLEAR_MULT(proftime_T, len);
fp->uf_tml_idx = -1;
if (fp->uf_tml_count == NULL || fp->uf_tml_total == NULL
|| fp->uf_tml_self == NULL)
return; // out of memory
fp->uf_prof_initialized = TRUE;
}
fp->uf_profiling = TRUE;
}
/*
* Prepare profiling for entering a child or something else that is not
* counted for the script/function itself.
* Should always be called in pair with prof_child_exit().
*/
void
prof_child_enter(
proftime_T *tm) // place to store waittime
{
funccall_T *fc = get_current_funccal();
if (fc != NULL && fc->func->uf_profiling)
profile_start(&fc->prof_child);
script_prof_save(tm);
}
/*
* Take care of time spent in a child.
* Should always be called after prof_child_enter().
*/
void
prof_child_exit(
proftime_T *tm) // where waittime was stored
{
funccall_T *fc = get_current_funccal();
if (fc != NULL && fc->func->uf_profiling)
{
profile_end(&fc->prof_child);
profile_sub_wait(tm, &fc->prof_child); // don't count waiting time
profile_add(&fc->func->uf_tm_children, &fc->prof_child);
profile_add(&fc->func->uf_tml_children, &fc->prof_child);
}
script_prof_restore(tm);
}
/*
* Called when starting to read a function line.
* "sourcing_lnum" must be correct!
* When skipping lines it may not actually be executed, but we won't find out
* until later and we need to store the time now.
*/
void
func_line_start(void *cookie)
{
funccall_T *fcp = (funccall_T *)cookie;
ufunc_T *fp = fcp->func;
if (fp->uf_profiling && SOURCING_LNUM >= 1
&& SOURCING_LNUM <= fp->uf_lines.ga_len)
{
fp->uf_tml_idx = SOURCING_LNUM - 1;
// Skip continuation lines.
while (fp->uf_tml_idx > 0 && FUNCLINE(fp, fp->uf_tml_idx) == NULL)
--fp->uf_tml_idx;
fp->uf_tml_execed = FALSE;
profile_start(&fp->uf_tml_start);
profile_zero(&fp->uf_tml_children);
profile_get_wait(&fp->uf_tml_wait);
}
}
/*
* Called when actually executing a function line.
*/
void
func_line_exec(void *cookie)
{
funccall_T *fcp = (funccall_T *)cookie;
ufunc_T *fp = fcp->func;
if (fp->uf_profiling && fp->uf_tml_idx >= 0)
fp->uf_tml_execed = TRUE;
}
/*
* Called when done with a function line.
*/
void
func_line_end(void *cookie)
{
funccall_T *fcp = (funccall_T *)cookie;
ufunc_T *fp = fcp->func;
if (fp->uf_profiling && fp->uf_tml_idx >= 0)
{
if (fp->uf_tml_execed)
{
++fp->uf_tml_count[fp->uf_tml_idx];
profile_end(&fp->uf_tml_start);
profile_sub_wait(&fp->uf_tml_wait, &fp->uf_tml_start);
profile_add(&fp->uf_tml_total[fp->uf_tml_idx], &fp->uf_tml_start);
profile_self(&fp->uf_tml_self[fp->uf_tml_idx], &fp->uf_tml_start,
&fp->uf_tml_children);
}
fp->uf_tml_idx = -1;
}
}
/*
* Dump the profiling results for all functions in file "fd".
*/
static void
func_dump_profile(FILE *fd)
{
hashtab_T *functbl;
hashitem_T *hi;
int todo;
ufunc_T *fp;
int i;
ufunc_T **sorttab;
int st_len = 0;
char_u *p;
functbl = func_tbl_get();
todo = (int)functbl->ht_used;
if (todo == 0)
return; // nothing to dump
sorttab = ALLOC_MULT(ufunc_T *, todo);
for (hi = functbl->ht_array; todo > 0; ++hi)
{
if (!HASHITEM_EMPTY(hi))
{
--todo;
fp = HI2UF(hi);
if (fp->uf_prof_initialized)
{
if (sorttab != NULL)
sorttab[st_len++] = fp;
if (fp->uf_name[0] == K_SPECIAL)
fprintf(fd, "FUNCTION <SNR>%s()\n", fp->uf_name + 3);
else
fprintf(fd, "FUNCTION %s()\n", fp->uf_name);
if (fp->uf_script_ctx.sc_sid > 0)
{
p = home_replace_save(NULL,
get_scriptname(fp->uf_script_ctx.sc_sid));
if (p != NULL)
{
fprintf(fd, " Defined: %s:%ld\n",
p, (long)fp->uf_script_ctx.sc_lnum);
vim_free(p);
}
}
if (fp->uf_tm_count == 1)
fprintf(fd, "Called 1 time\n");
else
fprintf(fd, "Called %d times\n", fp->uf_tm_count);
fprintf(fd, "Total time: %s\n", profile_msg(&fp->uf_tm_total));
fprintf(fd, " Self time: %s\n", profile_msg(&fp->uf_tm_self));
fprintf(fd, "\n");
fprintf(fd, "count total (s) self (s)\n");
for (i = 0; i < fp->uf_lines.ga_len; ++i)
{
if (FUNCLINE(fp, i) == NULL)
continue;
prof_func_line(fd, fp->uf_tml_count[i],
&fp->uf_tml_total[i], &fp->uf_tml_self[i], TRUE);
fprintf(fd, "%s\n", FUNCLINE(fp, i));
}
fprintf(fd, "\n");
}
}
}
if (sorttab != NULL && st_len > 0)
{
qsort((void *)sorttab, (size_t)st_len, sizeof(ufunc_T *),
prof_total_cmp);
prof_sort_list(fd, sorttab, st_len, "TOTAL", FALSE);
qsort((void *)sorttab, (size_t)st_len, sizeof(ufunc_T *),
prof_self_cmp);
prof_sort_list(fd, sorttab, st_len, "SELF", TRUE);
}
vim_free(sorttab);
}
/*
* Start profiling script "fp".
*/
void
script_do_profile(scriptitem_T *si)
{
si->sn_pr_count = 0;
profile_zero(&si->sn_pr_total);
profile_zero(&si->sn_pr_self);
ga_init2(&si->sn_prl_ga, sizeof(sn_prl_T), 100);
si->sn_prl_idx = -1;
si->sn_prof_on = TRUE;
si->sn_pr_nest = 0;
}
/*
* Save time when starting to invoke another script or function.
*/
void
script_prof_save(
proftime_T *tm) // place to store wait time
{
scriptitem_T *si;
if (current_sctx.sc_sid > 0 && current_sctx.sc_sid <= script_items.ga_len)
{
si = SCRIPT_ITEM(current_sctx.sc_sid);
if (si->sn_prof_on && si->sn_pr_nest++ == 0)
profile_start(&si->sn_pr_child);
}
profile_get_wait(tm);
}
/*
* Count time spent in children after invoking another script or function.
*/
void
script_prof_restore(proftime_T *tm)
{
scriptitem_T *si;
if (current_sctx.sc_sid > 0 && current_sctx.sc_sid <= script_items.ga_len)
{
si = SCRIPT_ITEM(current_sctx.sc_sid);
if (si->sn_prof_on && --si->sn_pr_nest == 0)
{
profile_end(&si->sn_pr_child);
profile_sub_wait(tm, &si->sn_pr_child); // don't count wait time
profile_add(&si->sn_pr_children, &si->sn_pr_child);
profile_add(&si->sn_prl_children, &si->sn_pr_child);
}
}
}
/*
* Dump the profiling results for all scripts in file "fd".
*/
static void
script_dump_profile(FILE *fd)
{
int id;
scriptitem_T *si;
int i;
FILE *sfd;
sn_prl_T *pp;
for (id = 1; id <= script_items.ga_len; ++id)
{
si = SCRIPT_ITEM(id);
if (si->sn_prof_on)
{
fprintf(fd, "SCRIPT %s\n", si->sn_name);
if (si->sn_pr_count == 1)
fprintf(fd, "Sourced 1 time\n");
else
fprintf(fd, "Sourced %d times\n", si->sn_pr_count);
fprintf(fd, "Total time: %s\n", profile_msg(&si->sn_pr_total));
fprintf(fd, " Self time: %s\n", profile_msg(&si->sn_pr_self));
fprintf(fd, "\n");
fprintf(fd, "count total (s) self (s)\n");
sfd = mch_fopen((char *)si->sn_name, "r");
if (sfd == NULL)
fprintf(fd, "Cannot open file!\n");
else
{
// Keep going till the end of file, so that trailing
// continuation lines are listed.
for (i = 0; ; ++i)
{
if (vim_fgets(IObuff, IOSIZE, sfd))
break;
// When a line has been truncated, append NL, taking care
// of multi-byte characters .
if (IObuff[IOSIZE - 2] != NUL && IObuff[IOSIZE - 2] != NL)
{
int n = IOSIZE - 2;
if (enc_utf8)
{
// Move to the first byte of this char.
// utf_head_off() doesn't work, because it checks
// for a truncated character.
while (n > 0 && (IObuff[n] & 0xc0) == 0x80)
--n;
}
else if (has_mbyte)
n -= mb_head_off(IObuff, IObuff + n);
IObuff[n] = NL;
IObuff[n + 1] = NUL;
}
if (i < si->sn_prl_ga.ga_len
&& (pp = &PRL_ITEM(si, i))->snp_count > 0)
{
fprintf(fd, "%5d ", pp->snp_count);
if (profile_equal(&pp->sn_prl_total, &pp->sn_prl_self))
fprintf(fd, " ");
else
fprintf(fd, "%s ", profile_msg(&pp->sn_prl_total));
fprintf(fd, "%s ", profile_msg(&pp->sn_prl_self));
}
else
fprintf(fd, " ");
fprintf(fd, "%s", IObuff);
}
fclose(sfd);
}
fprintf(fd, "\n");
}
}
}
/*
* Dump the profiling info.
*/
void
profile_dump(void)
{
FILE *fd;
if (profile_fname != NULL)
{
fd = mch_fopen((char *)profile_fname, "w");
if (fd == NULL)
semsg(_(e_notopen), profile_fname);
else
{
script_dump_profile(fd);
func_dump_profile(fd);
fclose(fd);
}
}
}
/*
* Called when starting to read a script line.
* "sourcing_lnum" must be correct!
* When skipping lines it may not actually be executed, but we won't find out
* until later and we need to store the time now.
*/
void
script_line_start(void)
{
scriptitem_T *si;
sn_prl_T *pp;
if (current_sctx.sc_sid <= 0 || current_sctx.sc_sid > script_items.ga_len)
return;
si = SCRIPT_ITEM(current_sctx.sc_sid);
if (si->sn_prof_on && SOURCING_LNUM >= 1)
{
// Grow the array before starting the timer, so that the time spent
// here isn't counted.
(void)ga_grow(&si->sn_prl_ga,
(int)(SOURCING_LNUM - si->sn_prl_ga.ga_len));
si->sn_prl_idx = SOURCING_LNUM - 1;
while (si->sn_prl_ga.ga_len <= si->sn_prl_idx
&& si->sn_prl_ga.ga_len < si->sn_prl_ga.ga_maxlen)
{
// Zero counters for a line that was not used before.
pp = &PRL_ITEM(si, si->sn_prl_ga.ga_len);
pp->snp_count = 0;
profile_zero(&pp->sn_prl_total);
profile_zero(&pp->sn_prl_self);
++si->sn_prl_ga.ga_len;
}
si->sn_prl_execed = FALSE;
profile_start(&si->sn_prl_start);
profile_zero(&si->sn_prl_children);
profile_get_wait(&si->sn_prl_wait);
}
}
/*
* Called when actually executing a function line.
*/
void
script_line_exec(void)
{
scriptitem_T *si;
if (current_sctx.sc_sid <= 0 || current_sctx.sc_sid > script_items.ga_len)
return;
si = SCRIPT_ITEM(current_sctx.sc_sid);
if (si->sn_prof_on && si->sn_prl_idx >= 0)
si->sn_prl_execed = TRUE;
}
/*
* Called when done with a script line.
*/
void
script_line_end(void)
{
scriptitem_T *si;
sn_prl_T *pp;
if (current_sctx.sc_sid <= 0 || current_sctx.sc_sid > script_items.ga_len)
return;
si = SCRIPT_ITEM(current_sctx.sc_sid);
if (si->sn_prof_on && si->sn_prl_idx >= 0
&& si->sn_prl_idx < si->sn_prl_ga.ga_len)
{
if (si->sn_prl_execed)
{
pp = &PRL_ITEM(si, si->sn_prl_idx);
++pp->snp_count;
profile_end(&si->sn_prl_start);
profile_sub_wait(&si->sn_prl_wait, &si->sn_prl_start);
profile_add(&pp->sn_prl_total, &si->sn_prl_start);
profile_self(&pp->sn_prl_self, &si->sn_prl_start,
&si->sn_prl_children);
}
si->sn_prl_idx = -1;
}
}
# endif // FEAT_PROFILE
#endif
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