diff --git a/src/progress_bar.jl b/src/progress_bar.jl index b6913b6f..b9e272fc 100644 --- a/src/progress_bar.jl +++ b/src/progress_bar.jl @@ -14,7 +14,6 @@ function ProgressBar(max_counts; enable=true, bar_width=30) end function next!(p::ProgressBar) - p.counter[] >= p.max_counts && return lock(p.lock) @@ -28,26 +27,26 @@ function next!(p::ProgressBar) start_time = p.start_time percentage = counter / max_counts - precentage_100 = round(100 * percentage, digits=2) + percentage_100 = lpad(round(100 * percentage, digits=1), 5, " ") progress = floor(Int, bar_width * percentage) - # Calculate the elapsed time is seconds - elapsed_time = time() - start_time + # Calculate the elapsed time in seconds + elapsed_time = floor(Int, time() - start_time) # Convert the elapsed time into a string in hours, minutes and seconds - elapsed_time_str = string(floor(Int, elapsed_time / 3600), "h ", floor(Int, (elapsed_time % 3600) / 60), "m ", floor(Int, elapsed_time % 60), "s") + elapsed_time_str = string(elapsed_time ÷ 3600, "h ", lpad((elapsed_time % 3600) ÷ 60, 2, "0"), "m ", lpad(elapsed_time % 60, 2, "0"), "s") # Calculate the estimated time of arrival - eta = elapsed_time / counter * (max_counts - counter) + eta = floor(Int, elapsed_time ÷ counter * (max_counts - counter)) # convert eta into a string in hours, minutes and seconds - eta_str = string(floor(Int, eta / 3600), "h ", floor(Int, (eta % 3600) / 60), "m ", floor(Int, eta % 60), "s") + eta_str = string(eta ÷ 3600, "h ", lpad((eta % 3600) ÷ 60, 2, "0"), "m ", lpad(eta % 60, 2, "0"), "s") # Construct the progress bar string bar = "[" * repeat("=", progress) * repeat(" ", bar_width - progress) * "]" - print("\rProgress: $bar $precentage_100% --- Elapsed Time: $elapsed_time_str (ETA: $eta_str) ") + print("\rProgress: $bar $percentage_100% --- Elapsed Time: $elapsed_time_str (ETA: $eta_str)") flush(stdout) unlock(p.lock) - return + p.counter[] >= p.max_counts ? print("\n") : nothing end \ No newline at end of file