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[svn] Include ETA information in dot progress.

This commit is contained in:
hniksic 2005-06-28 15:03:12 -07:00
parent 276f66fc14
commit e289d2ecc4
6 changed files with 161 additions and 76 deletions

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@ -1,3 +1,18 @@
2005-06-29 Hrvoje Niksic <hniksic@xemacs.org>
* main.c (secs_to_human_time): Use print_decimal when printing
total download time in seconds.
* progress.c (print_row_stats): Use it to print total download
time at the end of the download.
(create_image): Ditto.
* utils.c (print_decimal): New function; print small decimal
numbers with more precision than large ones.
* progress.c (print_row_stats): New function. Print ETA after the
download rate at the end of each row.
2005-06-28 Hrvoje Niksic <hniksic@xemacs.org> 2005-06-28 Hrvoje Niksic <hniksic@xemacs.org>
* init.c (parse_line): Check for alphanumerics. * init.c (parse_line): Check for alphanumerics.

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@ -168,8 +168,8 @@ convert_all_links (void)
secs = ptimer_measure (timer) / 1000; secs = ptimer_measure (timer) / 1000;
ptimer_destroy (timer); ptimer_destroy (timer);
logprintf (LOG_VERBOSE, _("Converted %d files in %.*f seconds.\n"), logprintf (LOG_VERBOSE, _("Converted %d files in %s seconds.\n"),
file_count, secs < 10 ? 3 : 1, secs); file_count, print_decimal (secs));
} }
static void write_backup_file (const char *, downloaded_file_t); static void write_backup_file (const char *, downloaded_file_t);

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@ -643,16 +643,8 @@ secs_to_human_time (double interval)
sprintf (buf, "%dh %dm %ds", hours, mins, secs); sprintf (buf, "%dh %dm %ds", hours, mins, secs);
else if (mins) else if (mins)
sprintf (buf, "%dm %ds", mins, secs); sprintf (buf, "%dm %ds", mins, secs);
else if (interval >= 10)
sprintf (buf, "%ds", secs);
else else
/* For very quick downloads show more exact timing information. */ sprintf (buf, "%ss", print_decimal (interval));
sprintf (buf, "%.*fs",
interval < 0.001 ? 0 : /* 0s instead of 0.000s */
interval < 0.01 ? 3 : /* 0.00x */
interval < 0.1 ? 2 : /* 0.0x */
1, /* 0.x, 1.x, ..., 9.x */
interval);
return buf; return buf;
} }

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@ -205,6 +205,7 @@ struct dot_progress {
int rows; /* number of rows printed so far */ int rows; /* number of rows printed so far */
int dots; /* number of dots printed in this row */ int dots; /* number of dots printed in this row */
double last_timer_value; double last_timer_value;
}; };
@ -220,26 +221,28 @@ dot_create (wgint initial, wgint total)
if (dp->initial_length) if (dp->initial_length)
{ {
int dot_bytes = opt.dot_bytes; int dot_bytes = opt.dot_bytes;
wgint row_bytes = opt.dot_bytes * opt.dots_in_line; const wgint ROW_BYTES = opt.dot_bytes * opt.dots_in_line;
int remainder = dp->initial_length % row_bytes; int remainder = dp->initial_length % ROW_BYTES;
wgint skipped = dp->initial_length - remainder; wgint skipped = dp->initial_length - remainder;
if (skipped) if (skipped)
{ {
int skipped_k = skipped / 1024; /* skipped amount in K */ wgint skipped_k = skipped / 1024; /* skipped amount in K */
int skipped_k_len = numdigit (skipped_k); int skipped_k_len = numdigit (skipped_k);
if (skipped_k_len < 5) if (skipped_k_len < 6)
skipped_k_len = 5; skipped_k_len = 6;
/* Align the [ skipping ... ] line with the dots. To do /* Align the [ skipping ... ] line with the dots. To do
that, insert the number of spaces equal to the number of that, insert the number of spaces equal to the number of
digits in the skipped amount in K. */ digits in the skipped amount in K. */
logprintf (LOG_VERBOSE, _("\n%*s[ skipping %dK ]"), logprintf (LOG_VERBOSE, _("\n%*s[ skipping %sK ]"),
2 + skipped_k_len, "", skipped_k); 2 + skipped_k_len, "",
number_to_static_string (skipped_k));
} }
logprintf (LOG_VERBOSE, "\n%5ldK", (long) (skipped / 1024)); logprintf (LOG_VERBOSE, "\n%6sK",
number_to_static_string (skipped / 1024));
for (; remainder >= dot_bytes; remainder -= dot_bytes) for (; remainder >= dot_bytes; remainder -= dot_bytes)
{ {
if (dp->dots % opt.dot_spacing == 0) if (dp->dots % opt.dot_spacing == 0)
@ -250,28 +253,86 @@ dot_create (wgint initial, wgint total)
assert (dp->dots < opt.dots_in_line); assert (dp->dots < opt.dots_in_line);
dp->accumulated = remainder; dp->accumulated = remainder;
dp->rows = skipped / row_bytes; dp->rows = skipped / ROW_BYTES;
} }
return dp; return dp;
} }
static void static const char *eta_to_human_short (int, bool);
print_percentage (wgint bytes, wgint expected)
{ /* Prints the stats (percentage of completion, speed, ETA) for current
/* Round to the floor value in order to gauge how much data *has* row. DLTIME is the time spent downloading the data in current
been retrieved. 12.8% will round to 12% because the 13% mark has row.
not yet been reached. 100% is only shown when done. */
int percentage = 100.0 * bytes / expected; #### This function is somewhat uglified by the fact that current
logprintf (LOG_VERBOSE, "%3d%%", percentage); row and last row have somewhat different stats requirements. It
} might be worthwhile to split it to two different functions. */
static void static void
print_download_speed (struct dot_progress *dp, wgint bytes, double dltime) print_row_stats (struct dot_progress *dp, double dltime, bool last)
{ {
logprintf (LOG_VERBOSE, " %7s", const wgint ROW_BYTES = opt.dot_bytes * opt.dots_in_line;
retr_rate (bytes, dltime - dp->last_timer_value));
dp->last_timer_value = dltime; /* bytes_displayed is the number of bytes indicated to the user by
dots printed so far, includes the initially "skipped" amount */
wgint bytes_displayed = dp->rows * ROW_BYTES + dp->dots * opt.dot_bytes;
if (last)
/* For last row also count bytes accumulated after last dot */
bytes_displayed += dp->accumulated;
if (dp->total_length)
{
/* Round to floor value to provide gauge how much data *has*
been retrieved. 12.8% will round to 12% because the 13% mark
has not yet been reached. 100% is only shown when done. */
int percentage = 100.0 * bytes_displayed / dp->total_length;
logprintf (LOG_VERBOSE, "%3d%%", percentage);
}
{
static char names[] = {' ', 'K', 'M', 'G'};
int units;
double rate;
wgint bytes_this_row;
if (!last)
bytes_this_row = ROW_BYTES;
else
/* For last row also include bytes accumulated after last dot. */
bytes_this_row = dp->dots * opt.dot_bytes + dp->accumulated;
if (dp->rows == dp->initial_length / ROW_BYTES)
/* Don't count the portion of the row belonging to initial_length */
bytes_this_row -= dp->initial_length % ROW_BYTES;
rate = calc_rate (bytes_this_row, dltime - dp->last_timer_value, &units);
logprintf (LOG_VERBOSE, " %4.*f%c",
rate >= 100 ? 0 : rate >= 9.995 ? 1 : 2,
rate, names[units]);
dp->last_timer_value = dltime;
}
if (!last)
{
if (dp->total_length)
{
wgint bytes_remaining = dp->total_length - bytes_displayed;
/* The quantity downloaded in this download run. */
wgint bytes_sofar = bytes_displayed - dp->initial_length;
double secs_sofar = dltime / 1000;
int eta = (int) (secs_sofar * bytes_remaining / bytes_sofar + 0.5);
logprintf (LOG_VERBOSE, " %s", eta_to_human_short (eta, true));
}
}
else
{
/* When done, print the total download time */
double secs = dltime / 1000;
if (secs >= 10)
logprintf (LOG_VERBOSE, "=%s",
eta_to_human_short ((int) (secs + 0.5), true));
else
logprintf (LOG_VERBOSE, "=%ss", print_decimal (secs));
}
} }
/* Dot-progress backend for progress_update. */ /* Dot-progress backend for progress_update. */
@ -281,7 +342,7 @@ dot_update (void *progress, wgint howmuch, double dltime)
{ {
struct dot_progress *dp = progress; struct dot_progress *dp = progress;
int dot_bytes = opt.dot_bytes; int dot_bytes = opt.dot_bytes;
wgint row_bytes = opt.dot_bytes * opt.dots_in_line; wgint ROW_BYTES = opt.dot_bytes * opt.dots_in_line;
log_set_flush (false); log_set_flush (false);
@ -289,7 +350,8 @@ dot_update (void *progress, wgint howmuch, double dltime)
for (; dp->accumulated >= dot_bytes; dp->accumulated -= dot_bytes) for (; dp->accumulated >= dot_bytes; dp->accumulated -= dot_bytes)
{ {
if (dp->dots == 0) if (dp->dots == 0)
logprintf (LOG_VERBOSE, "\n%5ldK", (long) (dp->rows * row_bytes / 1024)); logprintf (LOG_VERBOSE, "\n%6sK",
number_to_static_string (dp->rows * ROW_BYTES / 1024));
if (dp->dots % opt.dot_spacing == 0) if (dp->dots % opt.dot_spacing == 0)
logputs (LOG_VERBOSE, " "); logputs (LOG_VERBOSE, " ");
@ -298,16 +360,14 @@ dot_update (void *progress, wgint howmuch, double dltime)
++dp->dots; ++dp->dots;
if (dp->dots >= opt.dots_in_line) if (dp->dots >= opt.dots_in_line)
{ {
wgint row_qty = row_bytes; wgint row_qty = ROW_BYTES;
if (dp->rows == dp->initial_length / row_bytes) if (dp->rows == dp->initial_length / ROW_BYTES)
row_qty -= dp->initial_length % row_bytes; row_qty -= dp->initial_length % ROW_BYTES;
++dp->rows; ++dp->rows;
dp->dots = 0; dp->dots = 0;
if (dp->total_length) print_row_stats (dp, dltime, false);
print_percentage (dp->rows * row_bytes, dp->total_length);
print_download_speed (dp, row_qty, dltime);
} }
} }
@ -320,35 +380,22 @@ static void
dot_finish (void *progress, double dltime) dot_finish (void *progress, double dltime)
{ {
struct dot_progress *dp = progress; struct dot_progress *dp = progress;
int dot_bytes = opt.dot_bytes; wgint ROW_BYTES = opt.dot_bytes * opt.dots_in_line;
wgint row_bytes = opt.dot_bytes * opt.dots_in_line;
int i; int i;
log_set_flush (false); log_set_flush (false);
if (dp->dots == 0) if (dp->dots == 0)
logprintf (LOG_VERBOSE, "\n%5ldK", (long) (dp->rows * row_bytes / 1024)); logprintf (LOG_VERBOSE, "\n%6sK",
number_to_static_string (dp->rows * ROW_BYTES / 1024));
for (i = dp->dots; i < opt.dots_in_line; i++) for (i = dp->dots; i < opt.dots_in_line; i++)
{ {
if (i % opt.dot_spacing == 0) if (i % opt.dot_spacing == 0)
logputs (LOG_VERBOSE, " "); logputs (LOG_VERBOSE, " ");
logputs (LOG_VERBOSE, " "); logputs (LOG_VERBOSE, " ");
} }
if (dp->total_length)
{
print_percentage (dp->rows * row_bytes
+ dp->dots * dot_bytes
+ dp->accumulated,
dp->total_length);
}
{
wgint row_qty = dp->dots * dot_bytes + dp->accumulated;
if (dp->rows == dp->initial_length / row_bytes)
row_qty -= dp->initial_length % row_bytes;
print_download_speed (dp, row_qty, dltime);
}
print_row_stats (dp, dltime, true);
logputs (LOG_VERBOSE, "\n\n"); logputs (LOG_VERBOSE, "\n\n");
log_set_flush (false); log_set_flush (false);
@ -704,8 +751,6 @@ update_speed_ring (struct bar_progress *bp, wgint howmuch, double dltime)
#endif #endif
} }
static const char *eta_to_human_short (int);
#define APPEND_LITERAL(s) do { \ #define APPEND_LITERAL(s) do { \
memcpy (p, s, sizeof (s) - 1); \ memcpy (p, s, sizeof (s) - 1); \
p += sizeof (s) - 1; \ p += sizeof (s) - 1; \
@ -884,7 +929,7 @@ create_image (struct bar_progress *bp, double dl_total_time, bool done)
/* Translation note: "ETA" is English-centric, but this must /* Translation note: "ETA" is English-centric, but this must
be short, ideally 3 chars. Abbreviate if necessary. */ be short, ideally 3 chars. Abbreviate if necessary. */
sprintf (p, _(" eta %s"), eta_to_human_short (eta)); sprintf (p, _(" eta %s"), eta_to_human_short (eta, false));
move_to_end (p); move_to_end (p);
} }
else if (bp->total_length > 0) else if (bp->total_length > 0)
@ -901,15 +946,9 @@ create_image (struct bar_progress *bp, double dl_total_time, bool done)
strcpy (p, _(" in ")); strcpy (p, _(" in "));
move_to_end (p); /* not p+=6, think translations! */ move_to_end (p); /* not p+=6, think translations! */
if (secs >= 10) if (secs >= 10)
strcpy (p, eta_to_human_short ((int) (secs + 0.5))); strcpy (p, eta_to_human_short ((int) (secs + 0.5), false));
else else
/* For very quick downloads show more exact timing information. */ sprintf (p, "%ss", print_decimal (secs));
sprintf (p, "%.*fs",
secs < 0.001 ? 0 : /* 0s instead of 0.000s */
secs < 0.01 ? 3 : /* 0.00x */
secs < 0.1 ? 2 : /* 0.0x */
1, /* 0.x, 1.x, ..., 9.x */
secs);
move_to_end (p); move_to_end (p);
} }
@ -984,18 +1023,20 @@ progress_handle_sigwinch (int sig)
and hours are shown. This ensures brevity while still displaying and hours are shown. This ensures brevity while still displaying
as much as possible. as much as possible.
If SEP is false, the separator between minutes and seconds (and If CONDENSED is true, the separator between minutes and seconds
hours and minutes, etc.) is not included, shortening the display by (and hours and minutes, etc.) is not included, shortening the
one additional character. This is used for dot progress. display by one additional character. This is used for dot
progress.
The display never occupies more than 7 characters of screen The display never occupies more than 7 characters of screen
space. */ space. */
static const char * static const char *
eta_to_human_short (int secs) eta_to_human_short (int secs, bool condensed)
{ {
static char buf[10]; /* 8 should be enough, but just in case */ static char buf[10]; /* 8 should be enough, but just in case */
static int last = -1; static int last = -1;
const char *space = condensed ? "" : " ";
/* Trivial optimization. create_image can call us every 200 msecs /* Trivial optimization. create_image can call us every 200 msecs
(see bar_update) for fast downloads, but ETA will only change (see bar_update) for fast downloads, but ETA will only change
@ -1007,11 +1048,11 @@ eta_to_human_short (int secs)
if (secs < 100) if (secs < 100)
sprintf (buf, "%ds", secs); sprintf (buf, "%ds", secs);
else if (secs < 100 * 60) else if (secs < 100 * 60)
sprintf (buf, "%dm %ds", secs / 60, secs % 60); sprintf (buf, "%dm%s%ds", secs / 60, space, secs % 60);
else if (secs < 100 * 3600) else if (secs < 100 * 3600)
sprintf (buf, "%dh %dm", secs / 3600, (secs / 60) % 60); sprintf (buf, "%dh%s%dm", secs / 3600, space, (secs / 60) % 60);
else if (secs < 100 * 86400) else if (secs < 100 * 86400)
sprintf (buf, "%dd %dh", secs / 86400, (secs / 3600) % 60); sprintf (buf, "%dd%s%dh", secs / 86400, space, (secs / 3600) % 60);
else else
/* even (2^31-1)/86400 doesn't overflow BUF. */ /* even (2^31-1)/86400 doesn't overflow BUF. */
sprintf (buf, "%dd", secs / 86400); sprintf (buf, "%dd", secs / 86400);

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@ -2039,3 +2039,38 @@ stable_sort (void *base, size_t nmemb, size_t size,
mergesort_internal (base, temp, size, 0, nmemb - 1, cmpfun); mergesort_internal (base, temp, size, 0, nmemb - 1, cmpfun);
} }
} }
/* Print a decimal number. If it is equal to or larger than ten, the
number is rounded. Otherwise it is printed with one significant
digit without trailing zeros and with no more than three fractional
digits total. For example, 0.1 is printed as "0.1", 0.035 is
printed as "0.04", 0.0091 as "0.009", and 0.0003 as simply "0".
This is useful for displaying durations because it provides
order-of-magnitude information without unnecessary clutter --
long-running downloads are shown without the fractional part, and
short ones still retain one significant digit. */
const char *
print_decimal (double number)
{
static char buf[32];
double n = number >= 0 ? number : -number;
if (n >= 9.95)
/* Cut off at 9.95 because the below %.1f would round 9.96 to
"10.0" instead of "10". OTOH 9.94 will print as "9.9". */
snprintf (buf, sizeof buf, "%.0f", number);
else if (n >= 0.95)
snprintf (buf, sizeof buf, "%.1f", number);
else if (n >= 0.001)
snprintf (buf, sizeof buf, "%.1g", number);
else if (n >= 0.0005)
/* round [0.0005, 0.001) to 0.001 */
snprintf (buf, sizeof buf, "%.3f", number);
else
/* print numbers close to 0 as 0, not 0.000 */
strcpy (buf, "0");
return buf;
}

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@ -126,4 +126,6 @@ int base64_decode (const char *, char *);
void stable_sort (void *, size_t, size_t, int (*) (const void *, const void *)); void stable_sort (void *, size_t, size_t, int (*) (const void *, const void *));
const char *print_decimal (double);
#endif /* UTILS_H */ #endif /* UTILS_H */