Snap! Conference 2019 // Heidelberg, September 22 - 25, 2019

The Beauty and Joy of Computing // #CodeCreateCelebrate  // #SnapCon19

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About Snap!

Snap! is a visual programming language. You code by stacking together graphical blocks rather than typing words. Your program is always alive, ready to be tried, tested and changed as your ideas evolve. Snap! supports imperative, functional and object-oriented programming paradigms.On the outside Snap! looks and feels just like Scratch. But inside it provides expressive concepts for abstraction otherwise only found in the most advanced and sophisticated programming languages from AI research. Snap! supports multiple programming paradigms such as imperative, structured programming, functional programming and object-oriented programming. These make Snap! suitable for an intellectually rigorous introduction to computer science at the college and high school level.

What makes Snap! special

Here are some examples that illustrate what’s special about Snap! For more especialness feel free to check Snap!’s  (-> manual)

User-defined procedures and functions

Snap!'s tagline is "Build Your Own Blocks". Defining custom functions is at the heart of extending any programming language. It gives you the power to add anything you want to the system. Miss a construct that you like in another programming language? Go ahead and build it in Snap!.
Any kind of block that you see in Snap! you can also define yourself: Procedures (commands), functions (reporters), predicates ("Boolean inputs") and event listeners (hat blocks). Custom blocks can be defined globally ("for every sprite") or as methods of a single actor ("for this sprite only").

Higher Order Functions

Snap! comes with built-in blocks that let you map, filter, enumerate and reduce data. Rather than looping over arrays these blocks take other function blocks as arguments enabling highly expressive and declarative constructs. Higher order functions are the superpowers of computing. Snap! provides the ingredients you need to define your own uber-functions. While our pedagogy is that using higher order functions should be easy we also believe that there should be no ceiling to what you can express in a programming language.

Heterogeneous Data

Data structures are what matters most in a programming language. Data is at the heart of modelling a simulation or a digital twin. Data becomes information by adding structure and context. Snap!'s basic data structures, lists, are first-class citizens. You can assemble complex data structures out of atomic data types (numbers, text, Booleans) and combine them with other lists (lists of lists) and objects. Snap!'s lists are untyped allowing for easy heterogeneous collections of data. This lets you express any data structure you desire.

Lexically Scoped Variables

In addition to global and sprite-local variables Snap! also offers script-local variables, letting you factor code into reusable modules. As in most modern programming languages Snap!'s variables are lexically scoped and support nested functions and closures. Function parameters are mutable and their value can be exposed to the caller. Snap!'s variables are dynamically typed and support heterogeneous lists.

Lambda - First-Class Blocks

Procedures as data is another powerful idea in computing. It allows you to go meta on ideas. In addition to blocks Snap! also features "rings" around blocks transforming expressions into anonymous functions that capture their environment of origin. This lets you build your own blocks that accept other blocks and scripts as inputs, such as C-shaped control structures. You can also store blocks in lists or variables, and even make a block that returns a function (another block).

What Others Say about Snap!

"Snap! takes the best ideas, then freshly and coherently synthesizes them into a visual programming language that kids can use but is also satisfying to professional programmers."
-Don Hopkins (The Sims)

"I had heard good things about SNAP but never tried it out myself. . . it was a GREAT experience.
-Susan Klimczak (Boston South End Technology Center)