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A collection of tools and libraries for RPA

Project description

Introduction

RPA Framework is a collection of open-source libraries and tools for Robotic Process Automation (RPA), and it is designed to be used with both Robot Framework and Python. The goal is to offer well-documented and actively maintained core libraries for Software Robot Developers.

Learn more about RPA at Robocorp Documentation.

The project is:


Packages

rpaframework latest version rpaframework-aws latest version rpaframework-core latest version rpaframework-dialogs latest version rpaframework-google latest version rpaframework-pdf latest version rpaframework-recognition latest version rpaframework-windows latest version

From the above packages rpaframework-core and rpaframework-recognition are support packages, which themselves do not contain any libraries.

Libraries

The RPA Framework project currently includes the following libraries:

The x in the PACKAGE column means that library is included in the rpaframework package and for example. x,dialogs means that RPA.Dialogs library is provided in both the rpaframework and rpaframework-dialogs packages.

LIBRARY NAME

DESCRIPTION

PACKAGE

Archive

Archiving TAR and ZIP files

x

Browser.Selenium

Control browsers and automate the web

x

Browser.Playwright

Newer way to control browsers

special (more below)

Cloud.AWS

Use Amazon AWS services

x,aws

Cloud.Azure

Use Microsoft Azure services

x

Cloud.Google

Use Google Cloud services

google

Crypto

Common hashing and encryption operations

x

Database

Interact with databases

x

Desktop

Cross-platform desktop automation

x

Desktop.Clipboard

Interact with the system clipboard

x

Desktop.OperatingSystem

Read OS information and manipulate processes

x

Desktop.Windows

Automate Windows desktop applications

x

Dialogs

Request user input during executions

x,dialogs

Email.Exchange

E-Mail operations (Exchange protocol)

x

Email.ImapSmtp

E-Mail operations (IMAP & SMTP)

x

Excel.Application

Control the Excel desktop application

x

Excel.Files

Manipulate Excel files directly

x

FileSystem

Read and manipulate files and paths

x

FTP

Interact with FTP servers

x

HTTP

Interact directly with web APIs

x

Images

Manipulate images

x

JavaAccessBridge

Control Java applications

x

JSON

Manipulate JSON objects

x

Notifier

Notify messages using different services

x

Outlook.Application

Control the Outlook desktop application

x

PDF

Read and create PDF documents

x,pdf

Robocorp.Process

Use the Robocorp Process API

x

Robocorp.WorkItems

Use the Robocorp Work Items API

x

Robocorp.Vault

Use the Robocorp Secrets API

x

Salesforce

Salesforce operations

x

SAP

Control SAP GUI desktop client

x

Tables

Manipulate, sort, and filter tabular data

x

Tasks

Control task execution

x

Twitter

Twitter API interface

x

Windows

Alternative library for Windows automation

x,windows

Word.Application

Control the Word desktop application

x

Installation of RPA.Browser.Playwright

The RPA.Browser.Playwright at the moment requires special installation, because of the package size and the post install step it needs to be fully installed.

Minimum required conda.yaml to install Playwright:

channels:
  - conda-forge
dependencies:
  - python=3.7.5
  - pip=20.1
  - nodejs=16.4.2
  - pip:
    - rpaframework==13.0.0
    - robotframework-browser==12.2.0
rccPostInstall:
  - rfbrowser init

Installation

Learn about installing Python packages at Installing Python Packages.

Default installation method with Robocorp Developer Tools using conda.yaml:

channels:
  - conda-forge
dependencies:
  - python=3.7.5
  - pip=20.1
  - pip:
    - rpaframework==13.0.0

To install all extra packages (including Playwright dependencies), you can use:

channels:
  - conda-forge
dependencies:
  - python=3.7.5
  - tesseract=4.1.1
  - pip=20.1
  - nodejs=16.14.2
  - pip:
    - rpaframework==13.0.0   # rpaframework[aws]==13.0.0
    - rpaframework-aws==1.0.0
    - rpaframework-google==3.0.0
    - rpaframework-recognition==2.0.0
    - robotframework-browser==12.2.0
rccPostInstall:
  - rfbrowser init

Separate installation of AWS, Dialogs, PDF and Windows libraries without main rpaframework:

channels:
  - conda-forge
dependencies:
  - python=3.7.5
  - pip=20.1
  - pip:
    - rpaframework-aws==1.0.0 # included in the rpaframework as an extra
    - rpaframework-dialogs==1.0.0  # included in the rpaframework by default
    - rpaframework-pdf==3.0.0  # included in the rpaframework by default
    - rpaframework-windows==3.0.0 # included in the rpaframework by default

Example

After installation the libraries can be directly imported inside Robot Framework:

*** Settings ***
Library    RPA.Browser.Selenium

*** Tasks ***
Login as user
    Open available browser    https://example.com
    Input text    id:user-name    ${USERNAME}
    Input text    id:password     ${PASSWORD}

The libraries are also available inside Python:

from RPA.Browser.Selenium import Selenium

lib = Selenium()

lib.open_available_browser("https://example.com")
lib.input_text("id:user-name", username)
lib.input_text("id:password", password)

Support and contact

Contributing

Found a bug? Missing a critical feature? Interested in contributing? Head over to the Contribution guide to see where to get started.

Development

Repository development is Python based and requires at minimum Python version 3.7+ installed on the development machine. The default Python version used in the Robocorp Robot template is 3.7.5 so it is a good choice for the version to install. Not recommended versions are 3.7.6 and 3.8.1, because they have issues with some of the dependencies related to rpaframework. At the time the newer Python versions starting from 3.9 are also not recommended, because some of the dependencies might cause issues.

Repository development tooling is based on basically on poetry and invoke. Poetry is the underlying tool used for compiling, building and running the package. Invoke is used for scripting purposes for example for linting, testing and publishing tasks.

First steps to start developing:

  1. initial poetry configuration

poetry config virtualenvs.path null
poetry config virtualenvs.in-project true
poetry config repositories.devpi "https://devpi.robocorp.cloud/ci/test"
  1. git clone the repository

  2. create a new Git branch or switch to correct branch or stay in master branch

    • some branch naming conventions feature/name-of-feature, hotfix/name-of-the-issue, release/number-of-release

  3. poetry install which install package with its dependencies into the .venv directory of the package, for example packages/main/.venv

  4. if testing against Robocorp Robot which is using devdata/env.json

    • set environment variables

    • or poetry build and use resulting .whl file (in the dist/ directory) in the Robot conda.yaml

    • or poetry build and push resulting .whl file (in the dist/ directory) into a repository and use raw url to include it in the Robot conda.yaml

    • another possibility for Robocorp internal development is to use Robocorp devpi instance, by poetry publish --ci and point conda.yaml to use rpaframework version in devpi

  5. poetry run python -m robot <ROBOT_ARGS> <TARGET_ROBOT_FILE>

    • common ROBOT_ARGS from Robocorp Robot template: --report NONE --outputdir output --logtitle "Task log"

  6. poetry run python <TARGET_PYTHON_FILE>

  7. invoke lint to make sure that code formatting is according to rpaframework repository guidelines. It is possible and likely that Github action will fail the if developer has not linted the code changes. Code formatting is based on black and flake8 and those are run with the invoke lint.

  8. the library documentation can be created in the repository root (so called “meta” package level)

    • poetry update

    • make docs

    • open docs/build/html/index.html with the browser to view the changes

  9. invoke test (this will run both Python unittests and robotframework tests defined in the packages tests/ directory)

    • to run specific Python test: poetry run pytest path/to/test.py::test_function

    • to run specific Robotframework test: inv testrobot -r <robot_name> -t <task_name>

  10. git commit changes

  11. git push changes to remote

  12. create pull request from the branch describing changes included in the description

  13. update docs/source/releasenotes.rst with changes (commit and push)

Packaging and publishing are done after changes have been merged into master branch. All the following steps should be done within master branch.

  1. git pull latest changes into master branch

  2. in the package directory containing changes execute invoke lint and invoke test

  3. update pyproject.toml with new version according to semantic versioning

  4. update docs/source/releasenotes.rst with changes

  5. in the repository root (so called “meta” package level) run command poetry update

  6. git commit changed poetry.lock files (on meta and target package level), releasenotes.rst and pyproject.toml with message “PACKAGE. version x.y.z”

  7. git push

  8. invoke publish after Github action on master branch is all green

Some recommended tools for development

License

This project is open-source and licensed under the terms of the Apache License 2.0.

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