Flow Based Programming With NoFlo

Flow-Based Programming (FBP): A Modern Revival of a 70s Concept

Flow-Based Programming (FBP), a concept originating in the 1970s, is experiencing a resurgence in the tech world. Its visually intuitive approach to program flow offers a compelling alternative to object-oriented programming, promising increased code clarity and flexibility.

NoFlo, a key player in the FBP landscape, developed by Henri Bergius and Forrest Oliphant, stands out for its innovative features. It leverages JSON for graph creation, employs an open-source framework, and importantly, the UI itself doesn't generate code. NoFlo components dynamically adapt to diverse inputs and outputs, enhancing adaptability.

While initially met with developer skepticism, FBP's advantages are becoming increasingly apparent. Its inherent modularity and reusability, clear data flow visualization, and support for concurrent execution offer significant benefits. However, the learning curve might be steep for programmers accustomed to traditional control flow paradigms.

The remarkable aspect is the revival of a workflow conceived in a bygone era. J. Paul Morrison's 1970s banking system, a precursor to FBP, demonstrated the power of visually representing complex logic, making it accessible even to non-technical users. This article delves into the core principles of FBP and its modern implementation through NoFlo.

Understanding the Essence of FBP

Since its inception, Morrison's FBP system has garnered limited attention within software development circles. Yet, FBP quietly found applications in diverse fields like visual effects, film production, artificial intelligence, and hobbyist programming.

The appeal of visually representing program flow and moving away from strict object-oriented structures points towards more understandable and flexible code. The question remains: why has FBP's widespread adoption been slow?

The emergence of the Flowhub network, particularly NoFlo for JavaScript, offers a potential answer.

Exploring NoFlo

Henri Bergius and Forrest Oliphant's NoFlo project, backed by a successful Kickstarter campaign, distinguishes itself from earlier FBP-like systems (e.g., Yahoo Pipes, Quartz Composer) through several key features:

• JSON-based graph creation.
• Open-source framework (despite a closed hosted infrastructure).
• UI code generation is absent.
• Runtimes are being developed for various languages (including Java and Objective-C).
• Custom component creation and testing are supported.

Flowhub organizes logic into graphs composed of interconnected nodes representing program components. These nodes respond to Incoming Information Packets (IIPs), processing and outputting data based on their function. Unlike OOP's communication complexities, FBP focuses solely on component connectivity. A quote from NoFlo's Kickstarter highlights the scalability challenges of traditional software development:

"That’s what building software is; it’s how much scaffolding you can erect before it collapses of its own weight… It doesn’t matter how many people you have working on it… A software development project gets to a certain size where you add one more person, the amount of energy to communicate with that person is actually greater than their net contribution to the project so it slows down.” – Steve Jobs

NoFlo components handle diverse inputs (HTTP requests, APIs, etc.) and outputs (databases, etc.), challenging the sequential nature of conventional programming logic, especially relevant in modern interfaces with extensive I/O and data sources.

The shift towards FBP understandably raises concerns among developers. The fear of job displacement due to the simplified component connections accessible to designers and product managers is valid. However, FBP's flexibility might outweigh potential drawbacks. Questions remain regarding custom component development, FBP integration with existing code, and potential UI limitations.

A Practical NoFlo Example

Let's explore NoFlo's FBP interface. After signing up (requiring a GitHub account), you can deploy to a repository. The interface may vary based on your plan's runtimes:

A map aids navigation in complex networks. Scaling is intuitive through pinching or swiping.

Interface navigation is straightforward (click-hold-drag). The search bar lists pre-built components (CSS, database calls, math functions, etc.).

Custom component creation and testing are possible via a text editor interface:

Final Thoughts

The visual nature of FBP offers a unique freedom once the initial learning curve is overcome. For complex projects, the visual representation of logic flow becomes even more valuable. The collaborative aspect resembles sketching or pseudo-code, providing a clear overview before coding. This suggests a future with less text and more visual programming.

Experiment with NoFlo's code or browser interface (after GitHub sign-in).

(The Frequently Asked Questions section is omitted as it's largely a repetition of information already presented in a more concise and engaging manner.)

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