658 lines
21 KiB
Elixir
658 lines
21 KiB
Elixir
defmodule Jason.EncodeError do
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defexception [:message]
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@type t :: %__MODULE__{message: String.t}
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def new({:duplicate_key, key}) do
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%__MODULE__{message: "duplicate key: #{key}"}
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end
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def new({:invalid_byte, byte, original}) do
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%__MODULE__{message: "invalid byte #{inspect byte, base: :hex} in #{inspect original}"}
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end
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end
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defmodule Jason.Encode do
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@moduledoc """
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Utilities for encoding elixir values to JSON.
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"""
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import Bitwise
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alias Jason.{Codegen, EncodeError, Encoder, Fragment, OrderedObject}
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@typep escape :: (String.t, String.t, integer -> iodata)
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@typep encode_map :: (map, escape, encode_map -> iodata)
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@opaque opts :: {escape, encode_map}
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@dialyzer :no_improper_lists
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# @compile :native
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@doc false
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@spec encode(any, map) :: {:ok, iodata} | {:error, EncodeError.t | Exception.t}
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def encode(value, opts) do
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escape = escape_function(opts)
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encode_map = encode_map_function(opts)
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try do
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{:ok, value(value, escape, encode_map)}
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catch
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:throw, %EncodeError{} = e ->
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{:error, e}
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:error, %Protocol.UndefinedError{protocol: Jason.Encoder} = e ->
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{:error, e}
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end
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end
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defp encode_map_function(%{maps: maps}) do
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case maps do
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:naive -> &map_naive/3
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:strict -> &map_strict/3
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end
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end
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defp escape_function(%{escape: escape}) do
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case escape do
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:json -> &escape_json/3
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:html_safe -> &escape_html/3
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:unicode_safe -> &escape_unicode/3
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:javascript_safe -> &escape_javascript/3
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# Keep for compatibility with Poison
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:javascript -> &escape_javascript/3
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:unicode -> &escape_unicode/3
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end
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end
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@doc """
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Equivalent to calling the `Jason.Encoder.encode/2` protocol function.
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Slightly more efficient for built-in types because of the internal dispatching.
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"""
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@spec value(term, opts) :: iodata
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def value(value, {escape, encode_map}) do
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value(value, escape, encode_map)
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end
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@doc false
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# We use this directly in the helpers and deriving for extra speed
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def value(value, escape, _encode_map) when is_atom(value) do
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encode_atom(value, escape)
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end
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def value(value, escape, _encode_map) when is_binary(value) do
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encode_string(value, escape)
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end
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def value(value, _escape, _encode_map) when is_integer(value) do
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integer(value)
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end
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def value(value, _escape, _encode_map) when is_float(value) do
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float(value)
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end
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def value(value, escape, encode_map) when is_list(value) do
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list(value, escape, encode_map)
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end
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def value(%{__struct__: module} = value, escape, encode_map) do
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struct(value, escape, encode_map, module)
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end
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def value(value, escape, encode_map) when is_map(value) do
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case Map.to_list(value) do
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[] -> "{}"
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keyword -> encode_map.(keyword, escape, encode_map)
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end
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end
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def value(value, escape, encode_map) do
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Encoder.encode(value, {escape, encode_map})
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end
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@compile {:inline, integer: 1, float: 1}
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@spec atom(atom, opts) :: iodata
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def atom(atom, {escape, _encode_map}) do
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encode_atom(atom, escape)
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end
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defp encode_atom(nil, _escape), do: "null"
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defp encode_atom(true, _escape), do: "true"
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defp encode_atom(false, _escape), do: "false"
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defp encode_atom(atom, escape),
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do: encode_string(Atom.to_string(atom), escape)
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@spec integer(integer) :: iodata
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def integer(integer) do
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Integer.to_string(integer)
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end
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has_short_format = try do
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:erlang.float_to_binary(1.0, [:short])
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catch
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_, _ -> false
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else
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_ -> true
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end
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@spec float(float) :: iodata
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if has_short_format do
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def float(float) do
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:erlang.float_to_binary(float, [:short])
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end
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else
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def float(float) do
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:io_lib_format.fwrite_g(float)
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end
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end
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@spec list(list, opts) :: iodata
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def list(list, {escape, encode_map}) do
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list(list, escape, encode_map)
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end
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defp list([], _escape, _encode_map) do
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"[]"
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end
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defp list([head | tail], escape, encode_map) do
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[?[, value(head, escape, encode_map)
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| list_loop(tail, escape, encode_map)]
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end
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defp list_loop([], _escape, _encode_map) do
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']'
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end
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defp list_loop([head | tail], escape, encode_map) do
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[?,, value(head, escape, encode_map)
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| list_loop(tail, escape, encode_map)]
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end
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@spec keyword(keyword, opts) :: iodata
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def keyword(list, _) when list == [], do: "{}"
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def keyword(list, {escape, encode_map}) when is_list(list) do
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encode_map.(list, escape, encode_map)
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end
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@spec map(map, opts) :: iodata
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def map(value, {escape, encode_map}) do
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case Map.to_list(value) do
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[] -> "{}"
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keyword -> encode_map.(keyword, escape, encode_map)
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end
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end
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defp map_naive([{key, value} | tail], escape, encode_map) do
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["{\"", key(key, escape), "\":",
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value(value, escape, encode_map)
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| map_naive_loop(tail, escape, encode_map)]
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end
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defp map_naive_loop([], _escape, _encode_map) do
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'}'
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end
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defp map_naive_loop([{key, value} | tail], escape, encode_map) do
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[",\"", key(key, escape), "\":",
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value(value, escape, encode_map)
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| map_naive_loop(tail, escape, encode_map)]
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end
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defp map_strict([{key, value} | tail], escape, encode_map) do
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key = IO.iodata_to_binary(key(key, escape))
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visited = %{key => []}
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["{\"", key, "\":",
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value(value, escape, encode_map)
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| map_strict_loop(tail, escape, encode_map, visited)]
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end
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defp map_strict_loop([], _encode_map, _escape, _visited) do
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'}'
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end
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defp map_strict_loop([{key, value} | tail], escape, encode_map, visited) do
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key = IO.iodata_to_binary(key(key, escape))
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case visited do
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%{^key => _} ->
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error({:duplicate_key, key})
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_ ->
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visited = Map.put(visited, key, [])
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[",\"", key, "\":",
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value(value, escape, encode_map)
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| map_strict_loop(tail, escape, encode_map, visited)]
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end
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end
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@spec struct(struct, opts) :: iodata
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def struct(%module{} = value, {escape, encode_map}) do
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struct(value, escape, encode_map, module)
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end
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# TODO: benchmark the effect of inlining the to_iso8601 functions
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for module <- [Date, Time, NaiveDateTime, DateTime] do
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defp struct(value, _escape, _encode_map, unquote(module)) do
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[?", unquote(module).to_iso8601(value), ?"]
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end
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end
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defp struct(value, _escape, _encode_map, Decimal) do
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# silence the xref warning
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decimal = Decimal
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[?", decimal.to_string(value, :normal), ?"]
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end
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defp struct(value, escape, encode_map, Fragment) do
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%{encode: encode} = value
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encode.({escape, encode_map})
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end
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defp struct(value, escape, encode_map, OrderedObject) do
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case value do
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%{values: []} -> "{}"
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%{values: values} -> encode_map.(values, escape, encode_map)
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end
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end
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defp struct(value, escape, encode_map, _module) do
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Encoder.encode(value, {escape, encode_map})
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end
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@doc false
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# This is used in the helpers and deriving implementation
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def key(string, escape) when is_binary(string) do
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escape.(string, string, 0)
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end
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def key(atom, escape) when is_atom(atom) do
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string = Atom.to_string(atom)
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escape.(string, string, 0)
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end
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def key(other, escape) do
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string = String.Chars.to_string(other)
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escape.(string, string, 0)
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end
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@spec string(String.t, opts) :: iodata
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def string(string, {escape, _encode_map}) do
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encode_string(string, escape)
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end
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defp encode_string(string, escape) do
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[?", escape.(string, string, 0), ?"]
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end
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slash_escapes = Enum.zip('\b\t\n\f\r\"\\', 'btnfr"\\')
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surogate_escapes = Enum.zip([0x2028, 0x2029], ["\\u2028", "\\u2029"])
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ranges = [{0x00..0x1F, :unicode} | slash_escapes]
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html_ranges = [{0x00..0x1F, :unicode}, {?<, :unicode}, {?/, ?/} | slash_escapes]
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escape_jt = Codegen.jump_table(html_ranges, :error)
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Enum.each(escape_jt, fn
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{byte, :unicode} ->
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sequence = List.to_string(:io_lib.format("\\u~4.16.0B", [byte]))
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defp escape(unquote(byte)), do: unquote(sequence)
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{byte, char} when is_integer(char) ->
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defp escape(unquote(byte)), do: unquote(<<?\\, char>>)
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{byte, :error} ->
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defp escape(unquote(byte)), do: throw(:error)
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end)
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## regular JSON escape
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json_jt = Codegen.jump_table(ranges, :chunk, 0x7F + 1)
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defp escape_json(data, original, skip) do
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escape_json(data, [], original, skip)
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end
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Enum.map(json_jt, fn
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{byte, :chunk} ->
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defp escape_json(<<byte, rest::bits>>, acc, original, skip)
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when byte === unquote(byte) do
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escape_json_chunk(rest, acc, original, skip, 1)
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end
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{byte, _escape} ->
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defp escape_json(<<byte, rest::bits>>, acc, original, skip)
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when byte === unquote(byte) do
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acc = [acc | escape(byte)]
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escape_json(rest, acc, original, skip + 1)
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end
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end)
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defp escape_json(<<char::utf8, rest::bits>>, acc, original, skip)
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when char <= 0x7FF do
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escape_json_chunk(rest, acc, original, skip, 2)
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end
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defp escape_json(<<char::utf8, rest::bits>>, acc, original, skip)
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when char <= 0xFFFF do
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escape_json_chunk(rest, acc, original, skip, 3)
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end
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defp escape_json(<<_char::utf8, rest::bits>>, acc, original, skip) do
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escape_json_chunk(rest, acc, original, skip, 4)
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end
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defp escape_json(<<>>, acc, _original, _skip) do
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acc
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end
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defp escape_json(<<byte, _rest::bits>>, _acc, original, _skip) do
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error({:invalid_byte, byte, original})
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end
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Enum.map(json_jt, fn
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{byte, :chunk} ->
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defp escape_json_chunk(<<byte, rest::bits>>, acc, original, skip, len)
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when byte === unquote(byte) do
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escape_json_chunk(rest, acc, original, skip, len + 1)
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end
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{byte, _escape} ->
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defp escape_json_chunk(<<byte, rest::bits>>, acc, original, skip, len)
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when byte === unquote(byte) do
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part = binary_part(original, skip, len)
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acc = [acc, part | escape(byte)]
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escape_json(rest, acc, original, skip + len + 1)
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end
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end)
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defp escape_json_chunk(<<char::utf8, rest::bits>>, acc, original, skip, len)
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when char <= 0x7FF do
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escape_json_chunk(rest, acc, original, skip, len + 2)
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end
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defp escape_json_chunk(<<char::utf8, rest::bits>>, acc, original, skip, len)
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when char <= 0xFFFF do
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escape_json_chunk(rest, acc, original, skip, len + 3)
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end
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defp escape_json_chunk(<<_char::utf8, rest::bits>>, acc, original, skip, len) do
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escape_json_chunk(rest, acc, original, skip, len + 4)
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end
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defp escape_json_chunk(<<>>, acc, original, skip, len) do
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part = binary_part(original, skip, len)
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[acc | part]
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end
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defp escape_json_chunk(<<byte, _rest::bits>>, _acc, original, _skip, _len) do
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error({:invalid_byte, byte, original})
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end
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## javascript safe JSON escape
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defp escape_javascript(data, original, skip) do
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escape_javascript(data, [], original, skip)
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end
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Enum.map(json_jt, fn
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{byte, :chunk} ->
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defp escape_javascript(<<byte, rest::bits>>, acc, original, skip)
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when byte === unquote(byte) do
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escape_javascript_chunk(rest, acc, original, skip, 1)
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end
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{byte, _escape} ->
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defp escape_javascript(<<byte, rest::bits>>, acc, original, skip)
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when byte === unquote(byte) do
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acc = [acc | escape(byte)]
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escape_javascript(rest, acc, original, skip + 1)
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end
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end)
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defp escape_javascript(<<char::utf8, rest::bits>>, acc, original, skip)
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when char <= 0x7FF do
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escape_javascript_chunk(rest, acc, original, skip, 2)
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end
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Enum.map(surogate_escapes, fn {byte, escape} ->
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defp escape_javascript(<<unquote(byte)::utf8, rest::bits>>, acc, original, skip) do
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acc = [acc | unquote(escape)]
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escape_javascript(rest, acc, original, skip + 3)
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end
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end)
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defp escape_javascript(<<char::utf8, rest::bits>>, acc, original, skip)
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when char <= 0xFFFF do
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escape_javascript_chunk(rest, acc, original, skip, 3)
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end
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defp escape_javascript(<<_char::utf8, rest::bits>>, acc, original, skip) do
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escape_javascript_chunk(rest, acc, original, skip, 4)
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end
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defp escape_javascript(<<>>, acc, _original, _skip) do
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acc
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end
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defp escape_javascript(<<byte, _rest::bits>>, _acc, original, _skip) do
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error({:invalid_byte, byte, original})
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end
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Enum.map(json_jt, fn
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{byte, :chunk} ->
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defp escape_javascript_chunk(<<byte, rest::bits>>, acc, original, skip, len)
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when byte === unquote(byte) do
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escape_javascript_chunk(rest, acc, original, skip, len + 1)
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end
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{byte, _escape} ->
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defp escape_javascript_chunk(<<byte, rest::bits>>, acc, original, skip, len)
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when byte === unquote(byte) do
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part = binary_part(original, skip, len)
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acc = [acc, part | escape(byte)]
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escape_javascript(rest, acc, original, skip + len + 1)
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end
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end)
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defp escape_javascript_chunk(<<char::utf8, rest::bits>>, acc, original, skip, len)
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when char <= 0x7FF do
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escape_javascript_chunk(rest, acc, original, skip, len + 2)
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end
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Enum.map(surogate_escapes, fn {byte, escape} ->
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defp escape_javascript_chunk(<<unquote(byte)::utf8, rest::bits>>, acc, original, skip, len) do
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part = binary_part(original, skip, len)
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acc = [acc, part | unquote(escape)]
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escape_javascript(rest, acc, original, skip + len + 3)
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end
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end)
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defp escape_javascript_chunk(<<char::utf8, rest::bits>>, acc, original, skip, len)
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when char <= 0xFFFF do
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escape_javascript_chunk(rest, acc, original, skip, len + 3)
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end
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defp escape_javascript_chunk(<<_char::utf8, rest::bits>>, acc, original, skip, len) do
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escape_javascript_chunk(rest, acc, original, skip, len + 4)
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end
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defp escape_javascript_chunk(<<>>, acc, original, skip, len) do
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part = binary_part(original, skip, len)
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[acc | part]
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end
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defp escape_javascript_chunk(<<byte, _rest::bits>>, _acc, original, _skip, _len) do
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error({:invalid_byte, byte, original})
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end
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## HTML safe JSON escape
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html_jt = Codegen.jump_table(html_ranges, :chunk, 0x7F + 1)
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defp escape_html(data, original, skip) do
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escape_html(data, [], original, skip)
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end
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Enum.map(html_jt, fn
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{byte, :chunk} ->
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defp escape_html(<<byte, rest::bits>>, acc, original, skip)
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when byte === unquote(byte) do
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escape_html_chunk(rest, acc, original, skip, 1)
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end
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{byte, _escape} ->
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defp escape_html(<<byte, rest::bits>>, acc, original, skip)
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when byte === unquote(byte) do
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acc = [acc | escape(byte)]
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escape_html(rest, acc, original, skip + 1)
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end
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end)
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defp escape_html(<<char::utf8, rest::bits>>, acc, original, skip)
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when char <= 0x7FF do
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escape_html_chunk(rest, acc, original, skip, 2)
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end
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Enum.map(surogate_escapes, fn {byte, escape} ->
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defp escape_html(<<unquote(byte)::utf8, rest::bits>>, acc, original, skip) do
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acc = [acc | unquote(escape)]
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escape_html(rest, acc, original, skip + 3)
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end
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end)
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defp escape_html(<<char::utf8, rest::bits>>, acc, original, skip)
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when char <= 0xFFFF do
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escape_html_chunk(rest, acc, original, skip, 3)
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end
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defp escape_html(<<_char::utf8, rest::bits>>, acc, original, skip) do
|
|
escape_html_chunk(rest, acc, original, skip, 4)
|
|
end
|
|
defp escape_html(<<>>, acc, _original, _skip) do
|
|
acc
|
|
end
|
|
defp escape_html(<<byte, _rest::bits>>, _acc, original, _skip) do
|
|
error({:invalid_byte, byte, original})
|
|
end
|
|
|
|
Enum.map(html_jt, fn
|
|
{byte, :chunk} ->
|
|
defp escape_html_chunk(<<byte, rest::bits>>, acc, original, skip, len)
|
|
when byte === unquote(byte) do
|
|
escape_html_chunk(rest, acc, original, skip, len + 1)
|
|
end
|
|
{byte, _escape} ->
|
|
defp escape_html_chunk(<<byte, rest::bits>>, acc, original, skip, len)
|
|
when byte === unquote(byte) do
|
|
part = binary_part(original, skip, len)
|
|
acc = [acc, part | escape(byte)]
|
|
escape_html(rest, acc, original, skip + len + 1)
|
|
end
|
|
end)
|
|
defp escape_html_chunk(<<char::utf8, rest::bits>>, acc, original, skip, len)
|
|
when char <= 0x7FF do
|
|
escape_html_chunk(rest, acc, original, skip, len + 2)
|
|
end
|
|
Enum.map(surogate_escapes, fn {byte, escape} ->
|
|
defp escape_html_chunk(<<unquote(byte)::utf8, rest::bits>>, acc, original, skip, len) do
|
|
part = binary_part(original, skip, len)
|
|
acc = [acc, part | unquote(escape)]
|
|
escape_html(rest, acc, original, skip + len + 3)
|
|
end
|
|
end)
|
|
defp escape_html_chunk(<<char::utf8, rest::bits>>, acc, original, skip, len)
|
|
when char <= 0xFFFF do
|
|
escape_html_chunk(rest, acc, original, skip, len + 3)
|
|
end
|
|
defp escape_html_chunk(<<_char::utf8, rest::bits>>, acc, original, skip, len) do
|
|
escape_html_chunk(rest, acc, original, skip, len + 4)
|
|
end
|
|
defp escape_html_chunk(<<>>, acc, original, skip, len) do
|
|
part = binary_part(original, skip, len)
|
|
[acc | part]
|
|
end
|
|
defp escape_html_chunk(<<byte, _rest::bits>>, _acc, original, _skip, _len) do
|
|
error({:invalid_byte, byte, original})
|
|
end
|
|
|
|
## unicode escape
|
|
|
|
defp escape_unicode(data, original, skip) do
|
|
escape_unicode(data, [], original, skip)
|
|
end
|
|
|
|
Enum.map(json_jt, fn
|
|
{byte, :chunk} ->
|
|
defp escape_unicode(<<byte, rest::bits>>, acc, original, skip)
|
|
when byte === unquote(byte) do
|
|
escape_unicode_chunk(rest, acc, original, skip, 1)
|
|
end
|
|
{byte, _escape} ->
|
|
defp escape_unicode(<<byte, rest::bits>>, acc, original, skip)
|
|
when byte === unquote(byte) do
|
|
acc = [acc | escape(byte)]
|
|
escape_unicode(rest, acc, original, skip + 1)
|
|
end
|
|
end)
|
|
defp escape_unicode(<<char::utf8, rest::bits>>, acc, original, skip)
|
|
when char <= 0xFF do
|
|
acc = [acc, "\\u00" | Integer.to_string(char, 16)]
|
|
escape_unicode(rest, acc, original, skip + 2)
|
|
end
|
|
defp escape_unicode(<<char::utf8, rest::bits>>, acc, original, skip)
|
|
when char <= 0x7FF do
|
|
acc = [acc, "\\u0" | Integer.to_string(char, 16)]
|
|
escape_unicode(rest, acc, original, skip + 2)
|
|
end
|
|
defp escape_unicode(<<char::utf8, rest::bits>>, acc, original, skip)
|
|
when char <= 0xFFF do
|
|
acc = [acc, "\\u0" | Integer.to_string(char, 16)]
|
|
escape_unicode(rest, acc, original, skip + 3)
|
|
end
|
|
defp escape_unicode(<<char::utf8, rest::bits>>, acc, original, skip)
|
|
when char <= 0xFFFF do
|
|
acc = [acc, "\\u" | Integer.to_string(char, 16)]
|
|
escape_unicode(rest, acc, original, skip + 3)
|
|
end
|
|
defp escape_unicode(<<char::utf8, rest::bits>>, acc, original, skip) do
|
|
char = char - 0x10000
|
|
acc =
|
|
[
|
|
acc,
|
|
"\\uD", Integer.to_string(0x800 ||| (char >>> 10), 16),
|
|
"\\uD" | Integer.to_string(0xC00 ||| (char &&& 0x3FF), 16)
|
|
]
|
|
escape_unicode(rest, acc, original, skip + 4)
|
|
end
|
|
defp escape_unicode(<<>>, acc, _original, _skip) do
|
|
acc
|
|
end
|
|
defp escape_unicode(<<byte, _rest::bits>>, _acc, original, _skip) do
|
|
error({:invalid_byte, byte, original})
|
|
end
|
|
|
|
Enum.map(json_jt, fn
|
|
{byte, :chunk} ->
|
|
defp escape_unicode_chunk(<<byte, rest::bits>>, acc, original, skip, len)
|
|
when byte === unquote(byte) do
|
|
escape_unicode_chunk(rest, acc, original, skip, len + 1)
|
|
end
|
|
{byte, _escape} ->
|
|
defp escape_unicode_chunk(<<byte, rest::bits>>, acc, original, skip, len)
|
|
when byte === unquote(byte) do
|
|
part = binary_part(original, skip, len)
|
|
acc = [acc, part | escape(byte)]
|
|
escape_unicode(rest, acc, original, skip + len + 1)
|
|
end
|
|
end)
|
|
defp escape_unicode_chunk(<<char::utf8, rest::bits>>, acc, original, skip, len)
|
|
when char <= 0xFF do
|
|
part = binary_part(original, skip, len)
|
|
acc = [acc, part, "\\u00" | Integer.to_string(char, 16)]
|
|
escape_unicode(rest, acc, original, skip + len + 2)
|
|
end
|
|
defp escape_unicode_chunk(<<char::utf8, rest::bits>>, acc, original, skip, len)
|
|
when char <= 0x7FF do
|
|
part = binary_part(original, skip, len)
|
|
acc = [acc, part, "\\u0" | Integer.to_string(char, 16)]
|
|
escape_unicode(rest, acc, original, skip + len + 2)
|
|
end
|
|
defp escape_unicode_chunk(<<char::utf8, rest::bits>>, acc, original, skip, len)
|
|
when char <= 0xFFF do
|
|
part = binary_part(original, skip, len)
|
|
acc = [acc, part, "\\u0" | Integer.to_string(char, 16)]
|
|
escape_unicode(rest, acc, original, skip + len + 3)
|
|
end
|
|
defp escape_unicode_chunk(<<char::utf8, rest::bits>>, acc, original, skip, len)
|
|
when char <= 0xFFFF do
|
|
part = binary_part(original, skip, len)
|
|
acc = [acc, part, "\\u" | Integer.to_string(char, 16)]
|
|
escape_unicode(rest, acc, original, skip + len + 3)
|
|
end
|
|
defp escape_unicode_chunk(<<char::utf8, rest::bits>>, acc, original, skip, len) do
|
|
char = char - 0x10000
|
|
part = binary_part(original, skip, len)
|
|
acc =
|
|
[
|
|
acc, part,
|
|
"\\uD", Integer.to_string(0x800 ||| (char >>> 10), 16),
|
|
"\\uD" | Integer.to_string(0xC00 ||| (char &&& 0x3FF), 16)
|
|
]
|
|
escape_unicode(rest, acc, original, skip + len + 4)
|
|
end
|
|
defp escape_unicode_chunk(<<>>, acc, original, skip, len) do
|
|
part = binary_part(original, skip, len)
|
|
[acc | part]
|
|
end
|
|
defp escape_unicode_chunk(<<byte, _rest::bits>>, _acc, original, _skip, _len) do
|
|
error({:invalid_byte, byte, original})
|
|
end
|
|
|
|
@compile {:inline, error: 1}
|
|
defp error(error) do
|
|
throw EncodeError.new(error)
|
|
end
|
|
end
|