mirror of
https://github.com/privatevoid-net/nix-super.git
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391 lines
12 KiB
XML
391 lines
12 KiB
XML
<section xmlns="http://docbook.org/ns/docbook"
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xmlns:xlink="http://www.w3.org/1999/xlink"
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xmlns:xi="http://www.w3.org/2001/XInclude"
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version="5.0"
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xml:id="sec-constructs">
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<title>Language Constructs</title>
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<simplesect><title>Recursive sets</title>
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<para>Recursive sets are just normal sets, but the attributes can
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refer to each other. For example,
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<programlisting>
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rec {
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x = y;
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y = 123;
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}.x
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</programlisting>
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evaluates to <literal>123</literal>. Note that without
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<literal>rec</literal> the binding <literal>x = y;</literal> would
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refer to the variable <varname>y</varname> in the surrounding scope,
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if one exists, and would be invalid if no such variable exists. That
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is, in a normal (non-recursive) set, attributes are not added to the
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lexical scope; in a recursive set, they are.</para>
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<para>Recursive sets of course introduce the danger of infinite
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recursion. For example,
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<programlisting>
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rec {
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x = y;
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y = x;
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}.x</programlisting>
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does not terminate<footnote><para>Actually, Nix detects infinite
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recursion in this case and aborts (<quote>infinite recursion
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encountered</quote>).</para></footnote>.</para>
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</simplesect>
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<simplesect xml:id="sect-let-expressions"><title>Let-expressions</title>
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<para>A let-expression allows you define local variables for an
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expression. For instance,
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<programlisting>
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let
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x = "foo";
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y = "bar";
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in x + y</programlisting>
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evaluates to <literal>"foobar"</literal>.
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</para>
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</simplesect>
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<simplesect><title>Inheriting attributes</title>
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<para>When defining a set or in a let-expression it is often convenient to copy variables
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from the surrounding lexical scope (e.g., when you want to propagate
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attributes). This can be shortened using the
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<literal>inherit</literal> keyword. For instance,
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<programlisting>
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let x = 123; in
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{ inherit x;
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y = 456;
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}</programlisting>
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is equivalent to
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<programlisting>
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let x = 123; in
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{ x = x;
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y = 456;
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}</programlisting>
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and both evaluate to <literal>{ x = 123; y = 456; }</literal>. (Note that
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this works because <varname>x</varname> is added to the lexical scope
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by the <literal>let</literal> construct.) It is also possible to
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inherit attributes from another set. For instance, in this fragment
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from <filename>all-packages.nix</filename>,
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<programlisting>
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graphviz = (import ../tools/graphics/graphviz) {
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inherit fetchurl stdenv libpng libjpeg expat x11 yacc;
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inherit (xlibs) libXaw;
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};
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xlibs = {
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libX11 = ...;
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libXaw = ...;
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...
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}
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libpng = ...;
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libjpg = ...;
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...</programlisting>
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the set used in the function call to the function defined in
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<filename>../tools/graphics/graphviz</filename> inherits a number of
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variables from the surrounding scope (<varname>fetchurl</varname>
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... <varname>yacc</varname>), but also inherits
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<varname>libXaw</varname> (the X Athena Widgets) from the
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<varname>xlibs</varname> (X11 client-side libraries) set.</para>
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<para>
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Summarizing the fragment
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<programlisting>
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...
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inherit x y z;
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inherit (src-set) a b c;
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...</programlisting>
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is equivalent to
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<programlisting>
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...
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x = x; y = y; z = z;
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a = src-set.a; b = src-set.b; c = src-set.c;
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...</programlisting>
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when used while defining local variables in a let-expression or
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while defining a set.</para>
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</simplesect>
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<simplesect xml:id="ss-functions"><title>Functions</title>
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<para>Functions have the following form:
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<programlisting>
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<replaceable>pattern</replaceable>: <replaceable>body</replaceable></programlisting>
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The pattern specifies what the argument of the function must look
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like, and binds variables in the body to (parts of) the
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argument. There are three kinds of patterns:</para>
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<itemizedlist>
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<listitem><para>If a pattern is a single identifier, then the
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function matches any argument. Example:
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<programlisting>
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let negate = x: !x;
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concat = x: y: x + y;
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in if negate true then concat "foo" "bar" else ""</programlisting>
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Note that <function>concat</function> is a function that takes one
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argument and returns a function that takes another argument. This
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allows partial parameterisation (i.e., only filling some of the
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arguments of a function); e.g.,
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<programlisting>
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map (concat "foo") [ "bar" "bla" "abc" ]</programlisting>
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evaluates to <literal>[ "foobar" "foobla"
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"fooabc" ]</literal>.</para></listitem>
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<listitem><para>A <emphasis>set pattern</emphasis> of the form
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<literal>{ name1, name2, …, nameN }</literal> matches a set
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containing the listed attributes, and binds the values of those
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attributes to variables in the function body. For example, the
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function
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<programlisting>
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{ x, y, z }: z + y + x</programlisting>
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can only be called with a set containing exactly the attributes
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<varname>x</varname>, <varname>y</varname> and
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<varname>z</varname>. No other attributes are allowed. If you want
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to allow additional arguments, you can use an ellipsis
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(<literal>...</literal>):
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<programlisting>
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{ x, y, z, ... }: z + y + x</programlisting>
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This works on any set that contains at least the three named
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attributes.</para>
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<para>It is possible to provide <emphasis>default values</emphasis>
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for attributes, in which case they are allowed to be missing. A
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default value is specified by writing
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<literal><replaceable>name</replaceable> ?
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<replaceable>e</replaceable></literal>, where
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<replaceable>e</replaceable> is an arbitrary expression. For example,
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<programlisting>
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{ x, y ? "foo", z ? "bar" }: z + y + x</programlisting>
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specifies a function that only requires an attribute named
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<varname>x</varname>, but optionally accepts <varname>y</varname>
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and <varname>z</varname>.</para></listitem>
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<listitem><para>An <literal>@</literal>-pattern provides a means of referring
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to the whole value being matched:
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<programlisting> args@{ x, y, z, ... }: z + y + x + args.a</programlisting>
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but can also be written as:
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<programlisting> { x, y, z, ... } @ args: z + y + x + args.a</programlisting>
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Here <varname>args</varname> is bound to the entire argument, which
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is further matched against the pattern <literal>{ x, y, z,
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... }</literal>. <literal>@</literal>-pattern makes mainly sense with an
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ellipsis(<literal>...</literal>) as you can access attribute names as
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<literal>a</literal>, using <literal>args.a</literal>, which was given as an
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additional attribute to the function.
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</para></listitem>
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</itemizedlist>
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<para>Note that functions do not have names. If you want to give them
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a name, you can bind them to an attribute, e.g.,
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<programlisting>
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let concat = { x, y }: x + y;
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in concat { x = "foo"; y = "bar"; }</programlisting>
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</para>
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</simplesect>
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<simplesect><title>Conditionals</title>
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<para>Conditionals look like this:
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<programlisting>
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if <replaceable>e1</replaceable> then <replaceable>e2</replaceable> else <replaceable>e3</replaceable></programlisting>
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where <replaceable>e1</replaceable> is an expression that should
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evaluate to a Boolean value (<literal>true</literal> or
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<literal>false</literal>).</para>
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</simplesect>
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<simplesect><title>Assertions</title>
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<para>Assertions are generally used to check that certain requirements
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on or between features and dependencies hold. They look like this:
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<programlisting>
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assert <replaceable>e1</replaceable>; <replaceable>e2</replaceable></programlisting>
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where <replaceable>e1</replaceable> is an expression that should
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evaluate to a Boolean value. If it evaluates to
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<literal>true</literal>, <replaceable>e2</replaceable> is returned;
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otherwise expression evaluation is aborted and a backtrace is printed.</para>
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<example xml:id='ex-subversion-nix'><title>Nix expression for Subversion</title>
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<programlisting>
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{ localServer ? false
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, httpServer ? false
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, sslSupport ? false
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, pythonBindings ? false
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, javaSwigBindings ? false
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, javahlBindings ? false
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, stdenv, fetchurl
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, openssl ? null, httpd ? null, db4 ? null, expat, swig ? null, j2sdk ? null
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}:
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assert localServer -> db4 != null; <co xml:id='ex-subversion-nix-co-1' />
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assert httpServer -> httpd != null && httpd.expat == expat; <co xml:id='ex-subversion-nix-co-2' />
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assert sslSupport -> openssl != null && (httpServer -> httpd.openssl == openssl); <co xml:id='ex-subversion-nix-co-3' />
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assert pythonBindings -> swig != null && swig.pythonSupport;
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assert javaSwigBindings -> swig != null && swig.javaSupport;
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assert javahlBindings -> j2sdk != null;
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stdenv.mkDerivation {
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name = "subversion-1.1.1";
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...
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openssl = if sslSupport then openssl else null; <co xml:id='ex-subversion-nix-co-4' />
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...
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}</programlisting>
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</example>
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<para><xref linkend='ex-subversion-nix' /> show how assertions are
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used in the Nix expression for Subversion.</para>
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<calloutlist>
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<callout arearefs='ex-subversion-nix-co-1'>
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<para>This assertion states that if Subversion is to have support
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for local repositories, then Berkeley DB is needed. So if the
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Subversion function is called with the
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<varname>localServer</varname> argument set to
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<literal>true</literal> but the <varname>db4</varname> argument
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set to <literal>null</literal>, then the evaluation fails.</para>
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</callout>
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<callout arearefs='ex-subversion-nix-co-2'>
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<para>This is a more subtle condition: if Subversion is built with
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Apache (<literal>httpServer</literal>) support, then the Expat
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library (an XML library) used by Subversion should be same as the
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one used by Apache. This is because in this configuration
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Subversion code ends up being linked with Apache code, and if the
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Expat libraries do not match, a build- or runtime link error or
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incompatibility might occur.</para>
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</callout>
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<callout arearefs='ex-subversion-nix-co-3'>
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<para>This assertion says that in order for Subversion to have SSL
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support (so that it can access <literal>https</literal> URLs), an
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OpenSSL library must be passed. Additionally, it says that
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<emphasis>if</emphasis> Apache support is enabled, then Apache's
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OpenSSL should match Subversion's. (Note that if Apache support
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is not enabled, we don't care about Apache's OpenSSL.)</para>
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</callout>
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<callout arearefs='ex-subversion-nix-co-4'>
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<para>The conditional here is not really related to assertions,
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but is worth pointing out: it ensures that if SSL support is
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disabled, then the Subversion derivation is not dependent on
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OpenSSL, even if a non-<literal>null</literal> value was passed.
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This prevents an unnecessary rebuild of Subversion if OpenSSL
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changes.</para>
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</callout>
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</calloutlist>
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</simplesect>
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<simplesect><title>With-expressions</title>
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<para>A <emphasis>with-expression</emphasis>,
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<programlisting>
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with <replaceable>e1</replaceable>; <replaceable>e2</replaceable></programlisting>
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introduces the set <replaceable>e1</replaceable> into the lexical
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scope of the expression <replaceable>e2</replaceable>. For instance,
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<programlisting>
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let as = { x = "foo"; y = "bar"; };
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in with as; x + y</programlisting>
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evaluates to <literal>"foobar"</literal> since the
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<literal>with</literal> adds the <varname>x</varname> and
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<varname>y</varname> attributes of <varname>as</varname> to the
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lexical scope in the expression <literal>x + y</literal>. The most
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common use of <literal>with</literal> is in conjunction with the
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<function>import</function> function. E.g.,
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<programlisting>
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with (import ./definitions.nix); ...</programlisting>
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makes all attributes defined in the file
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<filename>definitions.nix</filename> available as if they were defined
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locally in a <literal>let</literal>-expression.</para>
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<para>The bindings introduced by <literal>with</literal> do not shadow bindings
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introduced by other means, e.g.
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<programlisting>
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let a = 3; in with { a = 1; }; let a = 4; in with { a = 2; }; ...</programlisting>
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establishes the same scope as
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<programlisting>
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let a = 1; in let a = 2; in let a = 3; in let a = 4; in ...</programlisting>
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</para>
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</simplesect>
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<simplesect><title>Comments</title>
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<para>Comments can be single-line, started with a <literal>#</literal>
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character, or inline/multi-line, enclosed within <literal>/*
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... */</literal>.</para>
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</simplesect>
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</section>
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