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forbear GitHub tag Join the chat at https://gitter.im/szaghi/forbear

License License License License

Status Build Status Coverage Status

forbear, Fortran (progress) B(e)ar environment

forbear has e mute, pronce it like forbar.

A KISS pure Fortran Library for building and running fancy progress bar

taste screencast

  • forbear is a pure Fortran (KISS) library for building and running fancy progress bar for modern Fortran projects;
  • forbear is Fortran 2008+ standard compliant;
  • forbear is OOP designed;
  • forbear is TDD developed;
  • forbear is a Free, Open Source Project.

Issues

GitHub issues Ready in backlog In Progress Open bugs

Compiler Support

Compiler Compiler Compiler Compiler Compiler Compiler


| What is forbear? | Main features | Copyrights | Documentation | Install |


What is forbear?

In Executing long-time running programs it could be helpful to display a progress bar with some informative data. forbear is designed to perform just this task, handle the progress and display it as the user specifications:

forbear handles data related to the progress of a (long) time run giving an informative, pretty-formatted ouput for each time step (or accordingly a given frequency) as the user specifications.

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Main features

  • Bar Element-Based Structure:
    • fully customizable elements:
      • foreground color;
      • background color;
      • style;
  • Bar
  • Bar scale
  • Progress Percentage
  • Progress Speed
  • Start-End Time
  • ETA
  • Adaptive ETA
  • Reverse Bar
  • Spinners
  • Static Prefix-Suffix Messages
  • Dynamic Message
  • Well Documented
  • Test Driven Developed
  • FOSS

Any feature request is welcome.

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Copyrights

forbear is a Free and Open Source Software (FOSS), it is distributed under a very permissive multi-licensing system: selectable licenses are GPLv3, BSD2-Clause, BSD3-Clause and MIT, feel free to select the license that best matches your workflow.

Anyone is interest to use, to develop or to contribute to FORESEER is welcome.

More details can be found on wiki.

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Documentation

Besides this README file the forbear documentation is contained into its own wiki. Detailed documentation of the API is contained into the GitHub Pages that can also be created locally by means of ford tool.

| A taster of forber | API documentation


A Taste of forbear

A minimal plate:

program forbear_minimal
!< **forbear** test.
use, intrinsic :: iso_fortran_env, only : I4P=>int32, R8P=>real64
use forbear, only : bar_object
implicit none

type(bar_object) :: bar
real(R8P)        :: x
real(R8P)        :: y
integer(I4P)     :: i
integer(I4P)     :: j

x = 0._R8P
call bar%initialize(filled_char_string='+', prefix_string='progress |', suffix_string='| ', add_progress_percent=.true.)
call bar%start
do i=1, 20
   x = x + 0.05_R8P
   do j=1, 100000000
      y = sqrt(x) ! just spend some times
   enddo
   call bar%update(current=x)
enddo
endprogram forbear_minimal

That built and run provides:

→ ./forbear_minimal
progress |++++++++++++++++++++++++++++    | 85%

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API documentation

forbear library exposes only one class, namely the bar_object class, that is used to handle the progress of your runs. The bar_object class has the following public methods

destroy method

Signature

pure subroutine destroy(self)

It has not dummy arguments (except the bar_object self bound-passed). It destroys the bar, namely reset it to the minimal (safe) status.

Examples

use forbear
type(bar_obejct) :: bar

call bar%destroy

initialize method

Signature

subroutine initialize(self,                                                                                               &
                      prefix_string, prefix_color_fg, prefix_color_bg, prefix_style,                                      &
                      suffix_string, suffix_color_fg, suffix_color_bg, suffix_style,                                      &
                      bracket_left_string, bracket_left_color_fg, bracket_left_color_bg, bracket_left_style,              &
                      bracket_right_string, bracket_right_color_fg, bracket_right_color_bg, bracket_right_style,          &
                      empty_char_string, empty_char_color_fg, empty_char_color_bg, empty_char_style,                      &
                      filled_char_string, filled_char_color_fg, filled_char_color_bg, filled_char_style,                  &
                      add_scale_bar, scale_bar_color_fg, scale_bar_color_bg, scale_bar_style,                             &
                      add_progress_percent, progress_percent_color_fg, progress_percent_color_bg, progress_percent_style, &
                      add_progress_speed, progress_speed_color_fg, progress_speed_color_bg, progress_speed_style,         &
                      add_date_time, date_time_color_fg, date_time_color_bg, date_time_style,                             &
                      width, min_value, max_value, frequency)

This method initializes the bar accordingly to the user specifications. It has a huge list of dummy arguments because the bar is fully customizable. The meaning of the arguments (except the obvious passed self) are:

   character(len=*),  intent(in), optional :: prefix_string             ! Prefix string.
   character(len=*),  intent(in), optional :: prefix_color_fg           ! Prefix foreground color.
   character(len=*),  intent(in), optional :: prefix_color_bg           ! Prefix background color.
   character(len=*),  intent(in), optional :: prefix_style              ! Prefix style.
   character(len=*),  intent(in), optional :: suffix_string             ! Suffix string.
   character(len=*),  intent(in), optional :: suffix_color_fg           ! Suffix foreground color.
   character(len=*),  intent(in), optional :: suffix_color_bg           ! Suffix background color.
   character(len=*),  intent(in), optional :: suffix_style              ! Suffix style.
   character(len=*),  intent(in), optional :: bracket_left_string       ! Left bracket string.
   character(len=*),  intent(in), optional :: bracket_left_color_fg     ! Left bracket foreground color.
   character(len=*),  intent(in), optional :: bracket_left_color_bg     ! Left bracket background color.
   character(len=*),  intent(in), optional :: bracket_left_style        ! Left bracket style.
   character(len=*),  intent(in), optional :: bracket_right_string      ! Right bracket string
   character(len=*),  intent(in), optional :: bracket_right_color_fg    ! Right bracket foreground color.
   character(len=*),  intent(in), optional :: bracket_right_color_bg    ! Right bracket background color.
   character(len=*),  intent(in), optional :: bracket_right_style       ! Right bracket style.
   character(len=1),  intent(in), optional :: empty_char_string         ! Empty char.
   character(len=*),  intent(in), optional :: empty_char_color_fg       ! Empty char foreground color.
   character(len=*),  intent(in), optional :: empty_char_color_bg       ! Empty char background color.
   character(len=*),  intent(in), optional :: empty_char_style          ! Empty char style.
   character(len=1),  intent(in), optional :: filled_char_string        ! Filled char.
   character(len=*),  intent(in), optional :: filled_char_color_fg      ! Filled char foreground color.
   character(len=*),  intent(in), optional :: filled_char_color_bg      ! Filled char background color.
   character(len=*),  intent(in), optional :: filled_char_style         ! Filled char style.
   logical,           intent(in), optional :: add_scale_bar             ! Add scale to the bar.
   character(len=*),  intent(in), optional :: scale_bar_color_fg        ! Scale bar foreground color.
   character(len=*),  intent(in), optional :: scale_bar_color_bg        ! Scale bar background color.
   character(len=*),  intent(in), optional :: scale_bar_style           ! Scale bar style.
   logical,           intent(in), optional :: add_progress_percent      ! Add progress in percent.
   character(len=*),  intent(in), optional :: progress_percent_color_fg ! Progress percent foreground color.
   character(len=*),  intent(in), optional :: progress_percent_color_bg ! Progress percent background color.
   character(len=*),  intent(in), optional :: progress_percent_style    ! Progress percent style.
   logical,           intent(in), optional :: add_progress_speed        ! Add progress in percent.
   character(len=*),  intent(in), optional :: progress_speed_color_fg   ! Progress speed foreground color.
   character(len=*),  intent(in), optional :: progress_speed_color_bg   ! Progress speed background color.
   character(len=*),  intent(in), optional :: progress_speed_style      ! Progress speed style.
   logical,           intent(in), optional :: add_date_time             ! Add date and time.
   character(len=*),  intent(in), optional :: date_time_color_fg        ! Date and time foreground color.
   character(len=*),  intent(in), optional :: date_time_color_bg        ! Date and time background color.
   character(len=*),  intent(in), optional :: date_time_style           ! Date and time style.
   integer(I4P),      intent(in), optional :: width                     ! With of the bar.
   real(R8P),         intent(in), optional :: min_value                 ! Minimum value.
   real(R8P),         intent(in), optional :: max_value                 ! Maximum value.
   integer(I4P),      intent(in), optional :: frequency                 ! Bar update frequency, in range `[1%,100%]`.

Examples

use forbear
type(bar_obejct) :: bar

! initialize a bar that will have only the progress percentage counter
call bar%initialize(width=0, add_progress_percent=.true., progress_percent_color_fg='yellow')

! initialize a very fancy bar with "all batteries included"
call bar%initialize(width=32,                                                                       &
                    bracket_left_string='|', bracket_left_color_fg='blue',                          &
                    empty_char_string='o', empty_char_color_fg='blue', empty_char_color_bg='white', &
                    filled_char_string=' ', filled_char_color_bg='blue',                            &
                    bracket_right_string='|', bracket_right_color_fg='blue',                        &
                    prefix_string='progress ', prefix_color_fg='red',                               &
                    add_progress_percent=.true., progress_percent_color_fg='yellow',                &
                    add_progress_speed=.true., progress_speed_color_fg='green',                     &
                    add_date_time=.true., date_time_color_fg='magenta',                             &
                    add_scale_bar=.true., scale_bar_color_fg='blue', scale_bar_style='underline_on')

Note that if you initialize the bar to have also the scale over the progress bar the bar's length must be at least 22 characters.

is_stdout_locked method

Signature

pure function is_stdout_locked(self) result(is_locked)

This functions return .true. if the bar had locked the standard output unit, namely if the bar had started to print progress data. As a matter of fact, forbear locks the standard output unit during its running because it refreshes the last terminal row where it has been started. The user should be use this function to check if printing on standard output is safe, otherwise the look and feel of the bar will be destroyed.

Examples

use forbear
type(bar_obejct) :: bar

if (.not.bar%is_stdout_locked) then
   ! you can safely print to stdout...
endif

start method

Signature

subroutine start(self)

This method must be invoked just before the time consuming work starts. It locks the standard output unit and initialize the bar output, e.g. if the user selected to add the bar scale it is printed into this method.

Note that there is not an equivalent end method: the bar is supposed to end when the progress reaches (or overcome) the 100%, that is handled directly into the update method.

use forbear
type(bar_obejct) :: bar

call bar%initialize
call bar%start
! in the following the long time consuming work

update method

Signature

subroutine update(self, current)

This method updates the bar each time it is called (accordingly to the frequency set into the initialize method, 1 by default). It takes only one argument, namely current: it is the current progress expressed in real(real64) where real64 is the kind constant provided by the iso_fortran_env intrinsic module. The current progress is evaluated with respect the minimum and maximum values set into the initialize method, that by default are 0 and 1 respectively. Essentially, the progress is computed as

progress = nint(current / (self%max_value - self%min_value) * 100)

The update method handles the bar update automatically: if it is the first call after the start method some useful data for the progress statistics are stored, while if the 100% progress is reached it automatically ends the bar smoothly.

Examples

use, intrinsic :: iso_fortran_env
use forbear
type(bar_obejct) :: bar

call bar%initialize(max_value=2.1_real64)
call bar%start
! in the following the long time consuming work, e.g. increase "t" up a limit
   t = t + Dt
   call bar%update(current=t)

For a complete examples see fobear_test

Install

forbear is a Fortran library composed by several modules.

Before download and compile the library you must check the requirements.

To download and build the project two main ways are available:


install script

forbear ships a bash script (downloadable from here) that is able to automatize the download and build steps. The script install.sh has the following usage:

→ ./install.sh
Install script of forbear
Usage:

install.sh --help|-?
    Print this usage output and exit

install.sh --download|-d <arg> [--verbose|-v]
    Download the project

    --download|-d [arg]  Download the project, arg=git|wget to download with git or wget respectively
    --verbose|-v         Output verbose mode activation

install.sh --build|-b <arg> [--verbose|-v]
    Build the project

    --build|-b [arg]  Build the project, arg=fobis|make|cmake to build with FoBiS.py, GNU Make or CMake respectively
    --verbose|-v      Output verbose mode activation

Examples:

install.sh --download git
install.sh --build make
install.sh --download wget --build cmake

The script does not cover all possibilities.

The script operation modes are 2 (collapsible into one-single-mode):

  • download a new fresh-clone of the latest master-release by means of:
  • build a fresh-clone project as static-linked library by means of:

you can mix any of the above combinations accordingly to the tools available.

Typical usages are:

# download and prepare the project by means of git and build with GNU Make
install.sh --dowload git --build make
# download and prepare the project by means of wget (curl) and build with CMake
install.sh --dowload wget --build cmake
# download and prepare the project by means of git and build with FoBiS.py
install.sh --dowload git --build fobis

manually download and build

download

To download all the available releases and utilities (fobos, license, readme, etc...), it can be convenient to clone whole the project:

git clone https://github.com/szaghi/forbear
cd forbear
git submodule update --init

Alternatively, you can directly download a release from GitHub server, see the ChangeLog.

build

The most easy way to compile forbear is to use FoBiS.py within the provided fobos file.

Consequently, it is strongly encouraged to install FoBiS.py.

| Build by means of FoBiS | Build by means of GNU Make | Build by means of CMake |


build by means of FoBiS

FoBiS.py is a KISS tool for automatic building of modern Fortran projects. Providing very few options, FoBiS.py is able to build almost automatically complex Fortran projects with cumbersome inter-modules dependency. This removes the necessity to write complex makefile. Moreover, providing a very simple options file (in the FoBiS.py nomenclature indicated as fobos file) FoBiS.py can substitute the (ab)use of makefile for other project stuffs (build documentations, make project archive, etc...). forbear is shipped with a fobos file that can build the library in both static and shared forms and also build the Test_Driver program. The provided fobos file has several building modes.

listing fobos building modes

Typing:

FoBiS.py build -lmodes

the following message should be printed:

The fobos file defines the following modes:
 - "shared-gnu"
  - "static-gnu"
  - "test-driver-gnu"
  - "shared-gnu-debug"
  - "static-gnu-debug"
  - "test-driver-gnu-debug"
  - "shared-intel"
  - "static-intel"
  - "test-driver-intel"
  - "shared-intel-debug"
  - "static-intel-debug"
  - "test-driver-intel-debug"

The modes should be self-explicative: shared, static and test-driver are the modes for building (in release, optimized form) the shared and static versions of the library and the Test Driver program, respectively. The other 3 modes are the same, but in debug form instead of release one. -gnu use the GNU gfortran compiler while -intel the Intel one.

building the library

The shared or static directories are created accordingly to the form of the library built. The compiled objects and mod files are placed inside this directory, as well as the linked library.

release shared library
FoBiS.py build -mode shared-gnu
release static library
FoBiS.py build -mode static-gnu
debug shared library
FoBiS.py build -mode shared-gnu-debug
debug static library
FoBiS.py build -mode static-gnu-debug

build by means of GNU Make

Not yet supported.

Build by means of CMake

Not yet supported.

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