void
file_progress_show (file_op_context_t * ctx, off_t done, off_t total,
const char *stalled_msg, gboolean force_update)
{
file_op_context_ui_t *ui;
char buffer[BUF_TINY];
if (!verbose || ctx == NULL || ctx->ui == NULL)
return;
ui = ctx->ui;
if (total == 0)
{
if (!speedchart_progress)
gauge_show (ui->progress_file_gauge, 0);
else
speedchart_show(ui->progress_file_speedchart, 0); //ctx->bps
return;
}
if (!speedchart_progress) {
gauge_set_value (ui->progress_file_gauge, 1024, (int) (1024 * done / total));
gauge_show (ui->progress_file_gauge, 1);
} else {
speedchart_set_value (ui->progress_file_speedchart, 1024, (int) (1024 * done / total));
speedchart_show (ui->progress_file_speedchart, 1);
}
if (!force_update)
return;
if (ui->showing_eta && ctx->eta_secs > 0.5)
{
char buffer2[BUF_TINY];
file_eta_prepare_for_show (buffer2, ctx->eta_secs, FALSE);
if (ctx->bps == 0)
g_snprintf (buffer, BUF_TINY, "%s %s", buffer2, stalled_msg);
else
{
char buffer3[BUF_TINY];
file_bps_prepare_for_show (buffer3, ctx->bps);
g_snprintf (buffer, BUF_TINY, "%s (%s) %s", buffer2, buffer3, stalled_msg);
}
}
else
{
g_snprintf (buffer, BUF_TINY, "%s", stalled_msg);
}
label_set_text (ui->progress_file_label, buffer);
}
static FileProgressStatus
show_bar (int n, long done, long total)
{
gauge_set_value (ProgressGauge [n], (int) total, (int) done);
gauge_show (ProgressGauge [n], 1);
return file_progress_check_buttons ();
}
void
file_progress_show (FileOpContext * ctx, off_t done, off_t total,
const char *stalled_msg, gboolean force_update)
{
FileOpContextUI *ui;
char buffer[BUF_TINY];
char buffer2[BUF_TINY];
char buffer3[BUF_TINY];
if (!verbose)
return;
g_return_if_fail (ctx != NULL);
g_return_if_fail (ctx->ui != NULL);
ui = ctx->ui;
if (total == 0)
{
gauge_show (ui->progress_file_gauge, 0);
return;
}
gauge_set_value (ui->progress_file_gauge, 1024, (int) (1024 * done / total));
gauge_show (ui->progress_file_gauge, 1);
if (!force_update)
return;
if (ui->showing_eta && ctx->eta_secs > 0.5)
{
file_eta_prepare_for_show (buffer2, ctx->eta_secs, FALSE);
if (ctx->bps == 0)
g_snprintf (buffer, BUF_TINY, "%s %s", buffer2, stalled_msg);
else
{
file_bps_prepare_for_show (buffer3, ctx->bps);
g_snprintf (buffer, BUF_TINY, "%s (%s) %s", buffer2, buffer3, stalled_msg);
}
}
else
{
g_snprintf (buffer, BUF_TINY, "%s", stalled_msg);
}
label_set_text (ui->progress_file_label, buffer);
}
static FileProgressStatus
show_no_bar (int n)
{
if (n >= 0) {
label_set_text (ProgressLabel [n], "");
gauge_show (ProgressGauge [n], 0);
}
return file_progress_check_buttons ();
}
void
file_progress_show_total (FileOpTotalContext * tctx, FileOpContext * ctx, uintmax_t copyed_bytes,
gboolean show_summary)
{
char buffer[BUF_TINY];
char buffer2[BUF_TINY];
char buffer3[BUF_TINY];
char buffer4[BUF_TINY];
struct timeval tv_current;
FileOpContextUI *ui;
g_return_if_fail (ctx != NULL);
g_return_if_fail (ctx->ui != NULL);
ui = ctx->ui;
if (ctx->progress_bytes != 0)
{
gauge_set_value (ui->progress_total_gauge, 1024,
(int) (1024 * copyed_bytes / ctx->progress_bytes));
gauge_show (ui->progress_total_gauge, 1);
}
else
gauge_show (ui->progress_total_gauge, 0);
if (!show_summary && tctx->bps == 0)
return;
gettimeofday (&tv_current, NULL);
file_frmt_time (buffer2, tv_current.tv_sec - tctx->transfer_start.tv_sec);
file_eta_prepare_for_show (buffer3, tctx->eta_secs, TRUE);
file_bps_prepare_for_show (buffer4, (long) tctx->bps);
g_snprintf (buffer, BUF_TINY, _("Time: %s %s (%s)"), buffer2, buffer3, buffer4);
label_set_text (ui->time_label, buffer);
size_trunc_len (buffer2, 5, tctx->copyed_bytes, 0, panels_options.kilobyte_si);
size_trunc_len (buffer3, 5, ctx->progress_bytes, 0, panels_options.kilobyte_si);
g_snprintf (buffer, BUF_TINY, _("Total: %s of %s"), buffer2, buffer3);
label_set_text (ui->total_bytes_label, buffer);
}
void
file_progress_show_total (FileOpTotalContext * tctx, file_op_context_t * ctx,
uintmax_t copied_bytes, gboolean show_summary)
{
char buffer[BUF_TINY];
char buffer2[BUF_TINY];
char buffer3[BUF_TINY];
file_op_context_ui_t *ui;
if (ctx == NULL || ctx->ui == NULL)
return;
ui = ctx->ui;
if (ui->progress_total_gauge != NULL)
{
if (ctx->progress_bytes == 0)
gauge_show (ui->progress_total_gauge, 0);
else
{
gauge_set_value (ui->progress_total_gauge, 1024,
(int) (1024 * copied_bytes / ctx->progress_bytes));
gauge_show (ui->progress_total_gauge, 1);
}
}
if (!show_summary && tctx->bps == 0)
return;
if (ui->time_label != NULL)
{
struct timeval tv_current;
char buffer4[BUF_TINY];
gettimeofday (&tv_current, NULL);
file_frmt_time (buffer2, tv_current.tv_sec - tctx->transfer_start.tv_sec);
if (ctx->progress_totals_computed)
{
file_eta_prepare_for_show (buffer3, tctx->eta_secs, TRUE);
if (tctx->bps == 0)
g_snprintf (buffer, BUF_TINY, _("Time: %s %s"), buffer2, buffer3);
else
{
file_bps_prepare_for_show (buffer4, (long) tctx->bps);
g_snprintf (buffer, BUF_TINY, _("Time: %s %s (%s)"), buffer2, buffer3, buffer4);
}
}
else
{
if (tctx->bps == 0)
g_snprintf (buffer, BUF_TINY, _("Time: %s"), buffer2);
else
{
file_bps_prepare_for_show (buffer4, (long) tctx->bps);
g_snprintf (buffer, BUF_TINY, _("Time: %s (%s)"), buffer2, buffer4);
}
}
label_set_text (ui->time_label, buffer);
}
if (ui->total_bytes_label != NULL)
{
size_trunc_len (buffer2, 5, tctx->copied_bytes, 0, panels_options.kilobyte_si);
if (!ctx->progress_totals_computed)
g_snprintf (buffer, BUF_TINY, _(" Total: %s "), buffer2);
else
{
size_trunc_len (buffer3, 5, ctx->progress_bytes, 0, panels_options.kilobyte_si);
g_snprintf (buffer, BUF_TINY, _(" Total: %s/%s "), buffer2, buffer3);
}
hline_set_text (ui->total_bytes_label, buffer);
}
}