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-rw-r--r--documentation/book/the_lux_programming_language/chapter_2.md4
-rw-r--r--documentation/book/the_lux_programming_language/chapter_3.md223
-rw-r--r--documentation/bookmark/license/post_open.md8
-rw-r--r--documentation/bookmark/security.md1
-rw-r--r--documentation/bookmark/tool/integrated_development_environment.md4
5 files changed, 237 insertions, 3 deletions
diff --git a/documentation/book/the_lux_programming_language/chapter_2.md b/documentation/book/the_lux_programming_language/chapter_2.md
index 6f12f9907..d396f0034 100644
--- a/documentation/book/the_lux_programming_language/chapter_2.md
+++ b/documentation/book/the_lux_programming_language/chapter_2.md
@@ -146,7 +146,9 @@ Suffice it to say that the `debug.log!` function will produce a value of type `A
That `(IO Any)` value will then be run by the system at run-time, giving us the result we want.
+---
+
Now that we've discussed some of the basics of what goes on inside of Lux programs, it's time for us to explore the language in a little bit more depth.
-See you in the next chapter!
+See you in [the next chapter](chapter_3.md)!
diff --git a/documentation/book/the_lux_programming_language/chapter_3.md b/documentation/book/the_lux_programming_language/chapter_3.md
new file mode 100644
index 000000000..33400b355
--- /dev/null
+++ b/documentation/book/the_lux_programming_language/chapter_3.md
@@ -0,0 +1,223 @@
+# Chapter 3: Syntax and Data-Types
+
+_Where you will learn the what Lux code is made of._
+
+---
+
+# Syntax for data-types
+
+* `Bit`s look like this:
+
+```
+#0 ## false
+#1 ## true
+```
+
+* `Nat`s look like this:
+
+```
+0
+123
+0456
+123,456,789
+```
+
+* `Int`s look like this:
+
+```
++0
+-123
++0456
+-123,456,789
+```
+
+* `Rev`s look like this:
+
+```
+.123
+.04,56
+.7890
+```
+
+* `Frac`s look like this:
+
+```
++123.456
+-456.7890
++0.001
+123,456.789
+```
+
+* `Text`s look like this:
+
+```
+"This is a single-line text"
+```
+
+* `Unit` looks like this:
+
+```
+[]
+```
+
+* Variants look like this:
+
+```
+#Foo
+(#Bar 10 +20.0 "thirty")
+```
+
+* Tuples look like this:
+
+```
+[123 ["nested" #tuple] true]
+```
+
+* Records look like this:
+
+```
+{#name "Lux" #paradigm #Functional #platforms (list #JVM)}
+```
+
+**Note**: As you can see, commas (`,`) can be used as separators for the numeric literals.
+
+---
+
+From looking at this, we can see a few interesting bits we haven't discussed.
+
+One is that the hash (`#`) character is overloaded.
+
+In the last chapter we saw it being used for comments, but now we're seeing it being used as a prefix for _some weird "label" thingies_ (more on that in a moment).
+
+To avoid reserving many characters for the language, Lux overloads the hash (`#`) character in situations where it can be used unambiguously. That way, most characters can be used by anyone without fear of stepping on the feet of the language.
+
+---
+
+Regarding _those label thingies_ we saw earlier, they're called **tags**, and the reason they're not mentioned as part of Lux's data-types is that they're not really data-types; they're just part of the language syntax.
+
+They're used as part of the syntax for data-types, but they're not data-types in themselves.
+
+Also, you can't just use anything you want as a tag, as you first have to declare them.
+
+We'll talk more about tags a bit later, when we talk about defining types.
+
+---
+
+Also, just from looking at the syntax for unit and tuples, you can see that they look quite similar. The reason is that unit is actually the empty tuple. I know it sounds odd, but for the most part you just have to think of unit as a kind of empty value, considering that it contains no information inside.
+
+ It might sound specially odd that we have an "empty" value at all in the first place, but as it turns out, it's quite useful in a variety of situations.
+
+ You're about to see one of those pretty soon.
+
+In the section for variants, you can see 2 different alternatives, and you might wonder how do they differ.
+
+Well, a variant is a pair of a tag and a _single_ value. That's right, I said **single** value; so you might be wondering how come we're associating 3 values with the `#Bar` tag.
+
+It's pretty simple, actually. Whenever you're trying to create a variant with more than one value, Lux just wraps all the values inside a tuple for you.
+
+So, `(#Bar 10 +20.0 "thirty")` is the same as `(#Bar [10 +20.0 "thirty"])`.
+
+Now, you might be thinking: _what's up with that `#Foo` variant?_
+
+Well, sometimes you only care about a variant for its tag, and not for any value it may hold (for example, if you're trying to use a variant type as an enumeration). In that case, you'll want to pair the tag with an empty value (since it has to be paired with something).
+
+That's right! You've just witnessed **unit** value in action and you didn't even know it. If you just write the name of the tag without any parentheses, Lux will stick a **unit** in there for you.
+
+That means `#Foo` is the same as ``(#Foo [])``.
+
+---
+
+You might have noticed that I mentioned **records** in this chapter, but not in the previous chapter, where I also talked about the basic data-types Lux offers.
+
+The reason is that records are a bit of a magic trick in Lux. That means records are not really a data-type that's distinct from the other ones. In fact, records just offer you an alternative syntax for writing tuples.
+
+That's right! `{#name "Lux" #paradigm #Functional #platforms (list #JVM)}` could mean the same as `["Lux" #Functional (list #JVM)]`, depending on the ordering imposed by the tags.
+
+---
+
+Remember when I said that you needed to declare your tags? Well, depending on the order in which you declare them, that means that `#name` could point to the first element in the tuple, or to another position entirely. Also, in the same way that tags have a numeric value when it comes to their usage in tuples/records, that's also the case for variants.
+
+For example, the `List` type has two tags: `#.End` and `#.Item`. The `#.End` tag has value 0, while the `#.Item` tag has value 1. That's what allows Lux to the able to identify which option it is working with at runtime when you're dealing with variants.
+
+Tags belong to the module in which they were declared, and you must use the module name (or an alias) as a prefix when using tags. That is why I've written `#.End` and `#.Item`, instead of `#End` and `#Item`. However, you may forgo the prefixes if you're referring to tags which were defined in the same module in which they're being used.
+
+Finally, you may have noticed that, unlike all other data-types, variants re-use some syntax that you're already seen before: _the parentheses_. Clearly, we didn't build our program by creating a bunch of variants, so, what's going on?
+
+Well, the parenthesis delimit the syntax of what is called a **form** in Lux. This is actually an old concept that's very familiar to those with experience with other Lisp-like languages. Basically, a form is a composite expression or statement.
+
+When the form starts with a tag, Lux interprets that to be a variant.
+
+## Types for data-types
+
+_"But, wait!"_, you might say. _"We didn't talk about functions!"_
+
+Patience, young grasshopper. We'll talk about those in the next chapter.
+
+For now, let's talk about **types**.
+
+The type-annotation macro is called `:` (I know, _real cute_). You use it like this `(: Some_Type some_value)`.
+
+There is also a separate macro for type-coerciones that's called `:as`, which is used the same way. However, you should probably steer clear off that one, unless you know what you're doing, since you can trick the compiler into thinking a value belongs to any type you want by using it.
+
+Now that we know about type annotations, I'll show you some types by giving you some valid Lux expressions:
+
+```
+(: Bit #1)
+(: Bit .true)
+(: Nat 123)
+(: Int -123)
+(: Rev .789)
+(: Frac +456.789)
+(: Text "YOLO")
+
+(type: Some_Enum
+ #primitive
+ #tuple
+ #variant)
+
+(: [Int [Text Some_Enum] Bit]
+ [10 ["nested" #tuple] .false])
+
+(type: Quux
+ #Foo
+ (#Bar Int Frac Text))
+
+(: Quux #Foo)
+
+(: Quux (#Bar 10 +20.0 "thirty"))
+
+(type: Lang
+ {#name Text
+ #paradigm Paradigm
+ #platforms (List Platform)})
+
+(: Lang
+ {#name "Lux"
+ #paradigm #Functional
+ #platforms (list #JVM)})
+
+(: Lang
+ ["Lux" #Functional (list #JVM)])
+
+(: [Text Paradigm (List Platform)]
+ {#name "Lux"
+ #paradigm #Functional
+ #platforms (list #JVM)})
+```
+
+ By the way, the value of a type-annotation or a type-coearcion expression is just the value being annotated/coerced. So `(: Bit #1)` simply yields `#1`.
+
+_What is that `type:` thingie?_
+
+It's just a macro for defining types. We'll learn more about it in a future chapter.
+
+The tags that get mentioned in the type definition get automatically declared, and the order in which they appear determines their value. `#Foo` came first, so it's value is 0. `#Bar`, as you may guess, gets the value 1.
+
+Also, you might be wondering what's the difference between `List` and `list`. Well, the first one is the type of lists (or a type-constructor for list types, however you want to look at it). The second one is a _macro_ for constructing actual list values. `List` can only take one argument (the type of the list elements), while `list` can take any number of arguments (the elements that make up the list value).
+
+---
+
+Again, we haven't mentioned functions. But if you're impatient to learn about them, just click the link below.
+
+See you in the next chapter!
+
diff --git a/documentation/bookmark/license/post_open.md b/documentation/bookmark/license/post_open.md
new file mode 100644
index 000000000..69b745893
--- /dev/null
+++ b/documentation/bookmark/license/post_open.md
@@ -0,0 +1,8 @@
+# Reference
+
+1. [Open Source Policy with Bruce Perens](https://www.owltail.com/people/rRld1-bruce-perens/appearances)
+1. [Post-Open Source License – Early Draft](https://perens.com/2020/10/06/post-open-source-license-early-draft/)
+ https://perens.com/wp-content/uploads/sites/4/2020/10/PO_License_Draft.pdf
+1. [What Comes After Open Source](https://www.youtube.com/watch?v=vTsc1m78BUk)
+1. [Bruce Perens - Building a 'billion dollar' startup with Crystal and Lucky | Crystal 1.0 Conference](https://www.youtube.com/watch?v=XRl-it1-ruI&list=PLe1-A91ZPTpBBrrIV-N_fMmCWbFM4Uj4v)
+
diff --git a/documentation/bookmark/security.md b/documentation/bookmark/security.md
index 32a5a7d90..620c37e1f 100644
--- a/documentation/bookmark/security.md
+++ b/documentation/bookmark/security.md
@@ -4,6 +4,7 @@
# User/human-level
+1. [Securing your development environment](https://stsewd.dev/posts/securing-your-dev-environment/)
1. [Security Checklist: Tools and resources designed to improve your online privacy, safety, and security.](https://brianlovin.com/security)
# Secrets | Confidentiality
diff --git a/documentation/bookmark/tool/integrated_development_environment.md b/documentation/bookmark/tool/integrated_development_environment.md
index 65aa01b32..27a302301 100644
--- a/documentation/bookmark/tool/integrated_development_environment.md
+++ b/documentation/bookmark/tool/integrated_development_environment.md
@@ -3,7 +3,7 @@
1. [Utilso: All-in-one tools for developers](https://utilso.com/)
1. https://keycode.info/
-# Reference
+# Exemplar
-1. []()
+1. [Pablo Tesone - Pharo: A live programming experience everywhere | Crystal 1.0 Conference](https://www.youtube.com/watch?v=r3ZwZQfspV0&list=PLe1-A91ZPTpAIO9YRZbAlPT3l1S5pMPrX&index=9)