Elixir v1.6.4 Inspect.Algebra View Source
A set of functions for creating and manipulating algebra documents.
This module implements the functionality described in “Strictly Pretty” (2000) by Christian Lindig with small additions, like support for binary nodes and a break mode that maximises use of horizontal space.
iex> Inspect.Algebra.empty
:doc_nil
iex> "foo"
"foo"With the functions in this module, we can concatenate different elements together and render them:
iex> doc = Inspect.Algebra.concat(Inspect.Algebra.empty, "foo")
iex> Inspect.Algebra.format(doc, 80)
["foo"]The functions nest/2, space/2 and line/2 help you put the
document together into a rigid structure. However, the document
algebra gets interesting when using functions like glue/3 and
group/1. A glue inserts a break between two documents. A group
indicates a document that must fit the current line, otherwise
breaks are rendered as new lines. Let’s glue two docs together
with a break, group it and then render it:
iex> doc = Inspect.Algebra.glue("a", " ", "b")
iex> doc = Inspect.Algebra.group(doc)
iex> Inspect.Algebra.format(doc, 80)
["a", " ", "b"]Notice the break was represented as is, because we haven’t reached a line limit. Once we do, it is replaced by a newline:
iex> doc = Inspect.Algebra.glue(String.duplicate("a", 20), " ", "b")
iex> doc = Inspect.Algebra.group(doc)
iex> Inspect.Algebra.format(doc, 10)
["aaaaaaaaaaaaaaaaaaaa", "\n", "b"]This module uses the byte size to compute how much space there is
left. If your document contains strings, then those need to be
wrapped in string/1, which then relies on String.length/1 to
precompute the document size.
Finally, this module also contains Elixir related functions, a bit
tied to Elixir formatting, such as to_doc/2.
Implementation details
The implementation of Inspect.Algebra is based on the Strictly Pretty paper by Lindig which builds on top of previous pretty printing algorithms but is tailored to strict languages, such as Elixir. The core idea in the paper is the use of explicit document groups which are rendered as flat (breaks as spaces) or as break (breaks as newlines).
This implementation provides two types of breaks: :strict and :flex.
When a group does not fit, all strict breaks are treated as newlines.
Flex breaks however are re-evaluated on every occurrence and may still
be rendered flat. See break/1 and flex_break/1 for more information.
This implementation also adds force_unfit/1 and next_break_fits/2 which
give more control over the document fitting.
Link to this section Summary
Functions
Returns a break document based on the given string
Collapse any new lines and whitespace following this
node, emitting up to max new lines
Colors a document if the color_key has a color in the options
Concatenates a list of documents returning a new document
Concatenates two document entities returning a new document
Wraps collection in left and right according to limit and contents
Returns a document entity used to represent nothingness
Returns a flex break document based on the given string
Glues two documents (doc1 and doc2) inserting a
flex_break/1 given by break_string between them
Folds a list of documents into a document using the given folder function
Forces the current group to be unfit
Formats a given document for a given width
Glues two documents (doc1 and doc2) inserting the given
break break_string between them
Returns a group containing the specified document doc
A mandatory linebreak
Inserts a mandatory linebreak between two documents
Nests the given document at the given level
Considers the next break as fit
Inserts a mandatory single space between two documents
Creates a document represented by string
Converts an Elixir term to an algebra document
according to the Inspect protocol
Link to this section Types
t() :: binary() | :doc_nil | :doc_line | doc_string() | doc_cons() | doc_nest() | doc_break() | doc_group() | doc_color() | doc_force() | doc_fits() | doc_collapse()
Link to this section Functions
Returns a break document based on the given string.
This break can be rendered as a linebreak or as the given string,
depending on the mode of the chosen layout.
Examples
Let’s create a document by concatenating two strings with a break between them:
iex> doc = Inspect.Algebra.concat(["a", Inspect.Algebra.break("\t"), "b"])
iex> Inspect.Algebra.format(doc, 80)
["a", "\t", "b"]Notice the break was represented with the given string, because we didn’t reach a line limit. Once we do, it is replaced by a newline:
iex> break = Inspect.Algebra.break("\t")
iex> doc = Inspect.Algebra.concat([String.duplicate("a", 20), break, "b"])
iex> doc = Inspect.Algebra.group(doc)
iex> Inspect.Algebra.format(doc, 10)
["aaaaaaaaaaaaaaaaaaaa", "\n", "b"]collapse_lines(pos_integer()) :: doc_collapse()
Collapse any new lines and whitespace following this
node, emitting up to max new lines.
color(t(), Inspect.Opts.color_key(), Inspect.Opts.t()) :: doc_color()
Colors a document if the color_key has a color in the options.
Concatenates a list of documents returning a new document.
Examples
iex> doc = Inspect.Algebra.concat(["a", "b", "c"])
iex> Inspect.Algebra.format(doc, 80)
["a", "b", "c"]Concatenates two document entities returning a new document.
Examples
iex> doc = Inspect.Algebra.concat("hello", "world")
iex> Inspect.Algebra.format(doc, 80)
["hello", "world"]container_doc( t(), [any()], t(), Inspect.Opts.t(), (term(), Inspect.Opts.t() -> t()), keyword() ) :: t()
Wraps collection in left and right according to limit and contents.
It uses the given left and right documents as surrounding and the
separator document separator to separate items in docs. If all entries
in the collection are simple documents (texts or strings), then this function
attempts to put as much as possible on the same line. If they are not simple,
only one entry is shown per line if they do not fit.
The limit in the given Inspect.Opts is respected and when reached this
function stops processing and outputs "..." instead.
Options
:separator- the separator used between each doc:break- If:strict, always break between each element. If:flex, breaks only when necessary. If:maybe, chooses:flexonly if all elements are text-based, otherwise is:strict
Examples
iex> doc = Inspect.Algebra.container_doc("[", Enum.to_list(1..5), "]",
...> %Inspect.Opts{limit: :infinity}, fn i, _opts -> to_string(i) end)
iex> Inspect.Algebra.format(doc, 5) |> IO.iodata_to_binary
"[1,\n 2,\n 3,\n 4,\n 5]"
iex> doc = Inspect.Algebra.container_doc("[", Enum.to_list(1..5), "]",
...> %Inspect.Opts{limit: 3}, fn i, _opts -> to_string(i) end)
iex> Inspect.Algebra.format(doc, 20) |> IO.iodata_to_binary
"[1, 2, 3, ...]"
iex> doc = Inspect.Algebra.container_doc("[", Enum.to_list(1..5), "]",
...> %Inspect.Opts{limit: 3}, fn i, _opts -> to_string(i) end, separator: "!")
iex> Inspect.Algebra.format(doc, 20) |> IO.iodata_to_binary
"[1! 2! 3! ...]"Returns a document entity used to represent nothingness.
Examples
iex> Inspect.Algebra.empty
:doc_nilReturns a flex break document based on the given string.
A flex break still causes a group to break, like break/1,
but it is re-evaluated when the documented is rendered.
For example, take a group document represented as [1, 2, 3]
where the space after every comma is a break. When the document
above does not fit a single line, all breaks are enabled,
causing the document to be rendered as:
[1,
2,
3]However, if flex breaks are used, then each break is re-evaluated when rendered, so the document could be possible rendered as:
[1, 2,
3]Hence the name “flex”. they are more flexible when it comes to the document fitting. On the other hand, they are more expensive since each break needs to be re-evaluated.
This function is used by container_doc/4 and friends to the
maximum number of entries on the same line.
Glues two documents (doc1 and doc2) inserting a
flex_break/1 given by break_string between them.
This function is used by container_doc/6 and friends
to the maximum number of entries on the same line.
Folds a list of documents into a document using the given folder function.
The list of documents is folded “from the right”; in that, this function is
similar to List.foldr/3, except that it doesn’t expect an initial
accumulator and uses the last element of docs as the initial accumulator.
Examples
iex> docs = ["A", "B", "C"]
iex> docs = Inspect.Algebra.fold_doc(docs, fn(doc, acc) ->
...> Inspect.Algebra.concat([doc, "!", acc])
...> end)
iex> Inspect.Algebra.format(docs, 80)
["A", "!", "B", "!", "C"]Forces the current group to be unfit.
format(t(), non_neg_integer() | :infinity) :: iodata()
Formats a given document for a given width.
Takes the maximum width and a document to print as its arguments and returns an IO data representation of the best layout for the document to fit in the given width.
The document starts flat (without breaks) until a group is found.
Examples
iex> doc = Inspect.Algebra.glue("hello", " ", "world")
iex> doc = Inspect.Algebra.group(doc)
iex> doc |> Inspect.Algebra.format(30) |> IO.iodata_to_binary()
"hello world"
iex> doc |> Inspect.Algebra.format(10) |> IO.iodata_to_binary()
"hello\nworld"Glues two documents (doc1 and doc2) inserting the given
break break_string between them.
For more information on how the break is inserted, see break/1.
Examples
iex> doc = Inspect.Algebra.glue("hello", "world")
iex> Inspect.Algebra.format(doc, 80)
["hello", " ", "world"]
iex> doc = Inspect.Algebra.glue("hello", "\t", "world")
iex> Inspect.Algebra.format(doc, 80)
["hello", "\t", "world"]Returns a group containing the specified document doc.
Documents in a group are attempted to be rendered together to the best of the renderer ability.
The group mode can also be set to :inherit, which means it
automatically breaks if the parent group has broken too.
Examples
iex> doc = Inspect.Algebra.group(
...> Inspect.Algebra.concat(
...> Inspect.Algebra.group(
...> Inspect.Algebra.concat(
...> "Hello,",
...> Inspect.Algebra.concat(
...> Inspect.Algebra.break,
...> "A"
...> )
...> )
...> ),
...> Inspect.Algebra.concat(
...> Inspect.Algebra.break,
...> "B"
...> )
...> ))
iex> Inspect.Algebra.format(doc, 80)
["Hello,", " ", "A", " ", "B"]
iex> Inspect.Algebra.format(doc, 6)
["Hello,", "\n", "A", "\n", "B"]A mandatory linebreak.
A group with linebreaks will fit if all lines in the group fit.
Examples
iex> doc = Inspect.Algebra.concat( …> Inspect.Algebra.concat( …> “Hughes”, …> Inspect.Algebra.line() …> ), “Wadler” …> ) iex> Inspect.Algebra.format(doc, 80) [“Hughes”, “\n”, “Wadler”]
Inserts a mandatory linebreak between two documents.
See line/1.
Examples
iex> doc = Inspect.Algebra.line("Hughes", "Wadler")
iex> Inspect.Algebra.format(doc, 80)
["Hughes", "\n", "Wadler"]Nests the given document at the given level.
If level is an integer, that’s the indentation appended
to line breaks whenever they occur. If the level is :cursor,
the current position of the “cursor” in the document becomes
the nesting. If the level is :reset, it is set back to 0.
mode can be :always, which means nesting always happen,
or :break, which means nesting only happens inside a group
that has been broken.
Examples
iex> doc = Inspect.Algebra.nest(Inspect.Algebra.glue("hello", "world"), 5)
iex> doc = Inspect.Algebra.group(doc)
iex> Inspect.Algebra.format(doc, 5)
["hello", "\n ", "world"]Considers the next break as fit.
mode can be :enabled or :disabled. When :enabled,
it will consider the document as fit as soon as it finds
the next break, effectively cancelling the break. It will
also ignore any force_unfit/1 in search of the next break.
When disabled, it behaves as usual and it will ignore
any further next_break_fits/2 instruction.
Examples
This is used by Elixir’s code formatter to avoid breaking code at some specific locations. For example, consider this code:
some_function_call(%{..., key: value, ...})Now imagine that this code does not fit its line. The code
formatter introduces breaks inside ( and ) and inside
%{ and }. Therefore the document would break as:
some_function_call(
%{
...,
key: value,
...
}
)The formatter wraps the algebra document representing the
map in next_break_fits/1 so the code is formatted as:
some_function_call(%{
...,
key: value,
...
})Inserts a mandatory single space between two documents.
Examples
iex> doc = Inspect.Algebra.space("Hughes", "Wadler")
iex> Inspect.Algebra.format(doc, 5)
["Hughes", " ", "Wadler"]Creates a document represented by string.
While Inspect.Algebra accepts binaries as documents,
those are counted by binary size. On the other hand,
string documents are measured in terms of graphemes
towards the document size.
Examples
The following document has 10 bytes and therefore it does not format to width 9 without breaks:
iex> doc = Inspect.Algebra.glue("olá", " ", "mundo")
iex> doc = Inspect.Algebra.group(doc)
iex> Inspect.Algebra.format(doc, 9)
["olá", "\n", "mundo"]However, if we use string, then the string length is
used, instead of byte size, correctly fitting:
iex> string = Inspect.Algebra.string("olá")
iex> doc = Inspect.Algebra.glue(string, " ", "mundo")
iex> doc = Inspect.Algebra.group(doc)
iex> Inspect.Algebra.format(doc, 9)
["olá", " ", "mundo"]Converts an Elixir term to an algebra document
according to the Inspect protocol.