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Fixed typos, added clarifications.
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@ -6,7 +6,7 @@ filename: learnerlang.erl
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---
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```erlang
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% Percent sign start a one-line comment.
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% Percent sign starts an one-line comment.
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%% Two percent characters shall be used to comment functions.
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@ -17,7 +17,7 @@ filename: learnerlang.erl
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% patterns.
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% Periods (`.`) (followed by whitespace) separate entire functions and
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% expressions in the shell.
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% Semicolons (`;`) separate clauses. We find clauses in several contexts: in kn
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% Semicolons (`;`) separate clauses. We find clauses in several contexts:
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% function definitions and in `case`, `if`, `try..catch` and `receive`
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% expressions.
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@ -26,8 +26,10 @@ filename: learnerlang.erl
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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Num = 42. % All variable names must start with an uppercase letter.
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% Erlang has single assignment variables, if you try to assign a different value
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% to the variable `Num`, you’ll get an error.
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Num = 43. % ** exception error: no match of right hand side value 43
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% In most languages, `=` denotes an assignment statement. In Erlang, however,
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% `=` denotes a pattern matching operation. `Lhs = Rhs` really means this:
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@ -42,6 +44,11 @@ Pi = 3.14159.
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% start with lowercase letters, followed by a sequence of alphanumeric
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% characters or the underscore (`_`) or at (`@`) sign.
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Hello = hello.
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OtherNode = example@node.
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% Atoms with non alphanumeric values can be written by enclosing the atoms
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% with apostrophes.
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AtomWithSpace = 'some atom with space'.
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% Tuples are similar to structs in C.
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Point = {point, 10, 45}.
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@ -60,15 +67,15 @@ Person = {person, {name, {first, joe}, {last, armstrong}}, {footsize, 42}}.
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% We create a list by enclosing the list elements in square brackets and
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% separating them with commas.
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% The individual elements of a list can be of any type.
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% The first element of a list the head of the list. If you imagine removing the
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% The first element of a list is the head of the list. If you imagine removing the
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% head from the list, what’s left is called the tail of the list.
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ThingsToBuy = [{apples, 10}, {pears, 6}, {milk, 3}].
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% If `T` is a list, then `[H|T]` is also a list, with head H and tail T.
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% If `T` is a list, then `[H|T]` is also a list, with head `H` and tail `T`.
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% The vertical bar (`|`) separates the head of a list from its tail.
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% `[]` is the empty list.
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% We can extract elements from a list with a pattern matching operation. If we
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% have the nonempty list `L`, then the expression `[X|Y] = L`, where `X` and `Y`
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% have a nonempty list `L`, then the expression `[X|Y] = L`, where `X` and `Y`
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% are unbound variables, will extract the head of the list into `X` and the tail
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% of the list into `Y`.
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[FirstThing|OtherThingsToBuy] = ThingsToBuy.
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@ -78,6 +85,7 @@ ThingsToBuy = [{apples, 10}, {pears, 6}, {milk, 3}].
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% There are no strings in Erlang. Strings are really just lists of integers.
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% Strings are enclosed in double quotation marks (`"`).
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Name = "Hello".
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[72, 101, 108, 108, 111] = "Hello".
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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@ -89,9 +97,9 @@ Name = "Hello".
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% Modules must be compiled before the code can be run. A compiled module has the
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% extension `.beam`.
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-module(geometry).
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-export([area/1]).
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-export([area/1]). % the list of functions exported from the module.
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% The function area consists of two clauses. The clauses are separated by a
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% The function `area` consists of two clauses. The clauses are separated by a
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% semicolon, and the final clause is terminated by dot-whitespace.
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% Each clause has a head and a body; the head consists of a function name
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% followed by a pattern (in parentheses), and the body consists of a sequence of
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@ -109,17 +117,17 @@ c(geometry). % {ok,geometry}
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geometry:area({rectangle, 10, 5}). % 50
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geometry:area({circle, 1.4}). % 6.15752
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% In Erlang, two functions with the same name and different arity in the same
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% module represent entirely different functions.
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% In Erlang, two functions with the same name and different arity (number of arguments)
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% in the same module represent entirely different functions.
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-module(lib_misc).
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-export([sum/1]).
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-export([sum/1]). % export function `sum` of arity 1 accepting one argument: list of integers.
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sum(L) -> sum(L, 0).
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sum([], N) -> N;
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sum([H|T], N) -> sum(T, H+N).
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% Funs are "anonymous" functions. They are called this because they have no
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% name.
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Double = fun(X) -> 2*X end.
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% Funs are "anonymous" functions. They are called this way because they have no
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% name. However they can be assigned to variables.
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Double = fun(X) -> 2*X end. % `Double` points to an anonymous function with handle: #Fun<erl_eval.6.17052888>
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Double(2). % 4
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% Functions accept funs as their arguments and can return funs.
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@ -133,6 +141,8 @@ Triple(5). % 15
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% from the list `L`."
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L = [1,2,3,4,5].
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[2*X || X <- L]. % [2,4,6,8,10]
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% A list comprehension can have generators and filters which select subset of the generated values.
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EvenNumbers = [N || N <- [1, 2, 3, 4], N rem 2 == 0]. % [2, 4]
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% Guards are constructs that we can use to increase the power of pattern
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% matching. Using guards, we can perform simple tests and comparisons on the
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@ -181,7 +191,7 @@ X2 = X1#todo{status = done}.
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% #todo{status = done,who = joe,text = "Fix errata in book"}
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% `case` expressions.
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% `filter` returns a list of all those elements `X` in `L` for which `P(X)` is
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% `filter` returns a list of all elements `X` in a list `L` for which `P(X)` is
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% true.
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filter(P, [H|T]) ->
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case P(H) of
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@ -189,6 +199,7 @@ filter(P, [H|T]) ->
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false -> filter(P, T)
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end;
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filter(P, []) -> [].
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filter(fun(X) -> X rem 2 == 0, [1, 2, 3, 4]). % [2, 4]
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% `if` expressions.
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max(X, Y) ->
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@ -198,7 +209,7 @@ max(X, Y) ->
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true -> nil;
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end.
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% Warning: at least one of the guards in the if expression must evaluate to true;
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% Warning: at least one of the guards in the `if` expression must evaluate to true;
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% otherwise, an exception will be raised.
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