I'll go from high-level down to your particular problem:
How Clojure (or LISPs) Generally Work
REPLs, or Read-Eval-Print Loops are the core of how LISPs are designed:
- The reader converts a stream of characters into data structures (called Reader Forms).
- The evaluator takes collection of reader forms and evaluates them.
- The printer emits the results of the evaluator.
So when you enter text into a REPL, it goes through each of these steps to process your input and return the output to your terminal.
First some, clojure reader forms. This will be extremely brief, I encourage you to read or watch (part 1, part 2) about it.
A symbol in clojure is form that can represent a particular value (like a variable). Symbols themselves can be pass around as data. They are similar to pointers in c, just without the memory management stuff.
A symbol with a colon in front of it is a keyword. Keywords are like symbols with the exception that a keyword's value are always themselves - similar to strings or numbers. They're identical to Ruby's symbols (which are also prefixed with colons).
A quote in front of a form tells the evaluator to leave the data structure as-is:
user=> (list 1 2)
user=> '(1 2)
user=> (= (list 1 2) '(1 2))
Although quoting can apply to more than just lists, it's primarily used for lists because clojure will normally execute lists as a function-like invocation. Using the
' is shorthand to the quote macro:
user=> (quote (1 2)) ; same as '(1 2)
Quoting basically specifies data structure to return and not actual code to execute. So you can quote symbols which refers to the symbol.
user=> 'foo ; not defined earlier
And quoting is recursive. So all the data inside are quoted too:
user=> '(foo bar)
To get the behavior of
(foo bar) without quoting, you can eval it:
user=> (eval '(foo bar)) ; Remember, foo and bar weren't defined yet.
CompilerException java.lang.RuntimeException: Unable to resolve symbol: foo in this context, compiling:(NO_SOURCE_PATH:1)
user=> (def foo identity)
user=> (def bar 1)
user=> (eval '(foo bar))
There's a lot more to quoting, but that's out of this scope.
As for require statements, I'm assuming you found the former in the form of:
(:require [clojure.set :as set]))
ns is a macro that will transform the :require expression into the latter form you described:
(require '[clojure.set :as set])
Along with some namespacing work. The basics are described when asking for the docs of ns in the REPL.
user=> (doc ns)
([name docstring? attr-map? references*])
Sets *ns* to the namespace named by name (unevaluated), creating it
if needed. references can be zero or more of: (:refer-clojure ...)
(:require ...) (:use ...) (:import ...) (:load ...) (:gen-class)
with the syntax of refer-clojure/require/use/import/load/gen-class
respectively, except the arguments are unevaluated and need not be
quoted. (:gen-class ...), when supplied, defaults to :name
corresponding to the ns name, :main true, :impl-ns same as ns, and
:init-impl-ns true. All options of gen-class are
supported. The :gen-class directive is ignored when not
compiling. If :gen-class is not supplied, when compiled only an
nsname__init.class will be generated. If :refer-clojure is not used, a
default (refer 'clojure) is used. Use of ns is preferred to
individual calls to in-ns/require/use/import:
In general, don't use
ns in the REPL, and just use the
use functions. But in files, use the
ns macro to do those stuff.