rdf-ex/lib/rdf/graph.ex

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defmodule RDF.Graph do
@moduledoc """
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A set of RDF triples with an optional name.
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`RDF.Graph` implements:
- Elixirs `Access` behaviour
- Elixirs `Enumerable` protocol
- Elixirs `Inspect` protocol
- the `RDF.Data` protocol
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"""
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defstruct name: nil, descriptions: %{}
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@behaviour Access
alias RDF.Description
import RDF.Statement
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@type t :: module
@doc """
Creates an empty unnamed `RDF.Graph`.
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"""
def new,
do: %RDF.Graph{}
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@doc """
Creates an unnamed `RDF.Graph` with an initial triple.
"""
def new({_, _, _} = triple),
do: new() |> add(triple)
@doc """
Creates an unnamed `RDF.Graph` with initial triples.
"""
def new(triples) when is_list(triples),
do: new() |> add(triples)
@doc """
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Creates an unnamed `RDF.Graph` with a `RDF.Description`.
"""
def new(%RDF.Description{} = description),
do: new() |> add(description)
@doc """
Creates an unnamed `RDF.Graph` from another `RDF.Graph`.
"""
def new(%RDF.Graph{descriptions: descriptions}),
do: %RDF.Graph{descriptions: descriptions}
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@doc """
Creates an empty unnamed `RDF.Graph`.
"""
def new(nil),
do: new()
@doc """
Creates an empty named `RDF.Graph`.
"""
def new(name),
do: %RDF.Graph{name: convert_graph_name(name)}
@doc """
Creates a named `RDF.Graph` with an initial triple.
"""
def new(name, triple = {_, _, _}),
do: new(name) |> add(triple)
@doc """
Creates a named `RDF.Graph` with initial triples.
"""
def new(name, triples) when is_list(triples),
do: new(name) |> add(triples)
@doc """
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Creates a named `RDF.Graph` with a `RDF.Description`.
"""
def new(name, %RDF.Description{} = description),
do: new(name) |> add(description)
@doc """
Creates a named `RDF.Graph` from another `RDF.Graph`.
"""
def new(name, %RDF.Graph{descriptions: descriptions}),
do: %RDF.Graph{new(name) | descriptions: descriptions}
@doc """
Creates an unnamed `RDF.Graph` with initial triples.
"""
def new(subject, predicate, objects),
do: new() |> add(subject, predicate, objects)
@doc """
Creates a named `RDF.Graph` with initial triples.
"""
def new(name, subject, predicate, objects),
do: new(name) |> add(subject, predicate, objects)
@doc """
Adds triples to a `RDF.Graph`.
"""
def add(%RDF.Graph{} = graph, subject, predicate, objects),
do: add(graph, {subject, predicate, objects})
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@doc """
Adds triples to a `RDF.Graph`.
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Note: When the statements to be added are given as another `RDF.Graph`,
the graph name must not match graph name of the graph to which the statements
are added. As opposed to that `RDF.Data.merge/2` will produce a `RDF.Dataset`
containing both graphs.
"""
def add(graph, triples)
def add(%RDF.Graph{} = graph, {subject, _, _} = statement),
do: do_add(graph, convert_subject(subject), statement)
def add(graph, {subject, predicate, object, _}),
do: add(graph, {subject, predicate, object})
def add(graph, triples) when is_list(triples) do
Enum.reduce triples, graph, fn (triple, graph) ->
add(graph, triple)
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end
end
def add(%RDF.Graph{} = graph, %Description{subject: subject} = description),
do: do_add(graph, subject, description)
def add(graph, %RDF.Graph{descriptions: descriptions}) do
Enum.reduce descriptions, graph, fn ({_, description}, graph) ->
add(graph, description)
end
end
defp do_add(%RDF.Graph{name: name, descriptions: descriptions},
subject, statements) do
%RDF.Graph{name: name,
descriptions:
Map.update(descriptions, subject, Description.new(statements),
fn description ->
Description.add(description, statements)
end)
}
end
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@doc """
Adds statements to a `RDF.Graph` and overwrites all existing statements with the same subjects and predicates.
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## Examples
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iex> RDF.Graph.new([{EX.S1, EX.P1, EX.O1}, {EX.S2, EX.P2, EX.O2}]) |>
...> RDF.Graph.put([{EX.S1, EX.P2, EX.O3}, {EX.S2, EX.P2, EX.O3}])
RDF.Graph.new([{EX.S1, EX.P1, EX.O1}, {EX.S1, EX.P2, EX.O3}, {EX.S2, EX.P2, EX.O3}])
"""
def put(graph, statements)
def put(%RDF.Graph{} = graph, {subject, _, _} = statement),
do: do_put(graph, convert_subject(subject), statement)
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def put(graph, {subject, predicate, object, _}),
do: put(graph, {subject, predicate, object})
def put(%RDF.Graph{} = graph, %Description{subject: subject} = description),
do: do_put(graph, subject, description)
def put(graph, %RDF.Graph{descriptions: descriptions}) do
Enum.reduce descriptions, graph, fn ({_, description}, graph) ->
put(graph, description)
end
end
def put(%RDF.Graph{} = graph, statements) when is_map(statements) do
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Enum.reduce statements, graph, fn ({subject, predications}, graph) ->
put(graph, subject, predications)
end
end
def put(%RDF.Graph{} = graph, statements) when is_list(statements) do
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put(graph, Enum.group_by(statements, &(elem(&1, 0)), fn {_, p, o} -> {p, o} end))
end
@doc """
Add statements to a `RDF.Graph`, overwriting all statements with the same subject and predicate.
"""
def put(graph, subject, predications)
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def put(%RDF.Graph{name: name, descriptions: descriptions}, subject, predications)
when is_list(predications) do
with subject = convert_subject(subject) do
# TODO: Can we reduce this case also to do_put somehow? Only the initializer of Map.update differs ...
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%RDF.Graph{name: name,
descriptions:
Map.update(descriptions, subject, Description.new(subject, predications),
fn current ->
Description.put(current, predications)
end)
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}
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end
end
def put(graph, subject, {_predicate, _objects} = predications),
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do: put(graph, subject, [predications])
defp do_put(%RDF.Graph{name: name, descriptions: descriptions},
subject, statements) do
%RDF.Graph{name: name,
descriptions:
Map.update(descriptions, subject, Description.new(statements),
fn current ->
Description.put(current, statements)
end)
}
end
@doc """
Add statements to a `RDF.Graph`, overwriting all statements with the same subject and predicate.
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## Examples
iex> RDF.Graph.new(EX.S, EX.P, EX.O1) |> RDF.Graph.put(EX.S, EX.P, EX.O2)
RDF.Graph.new(EX.S, EX.P, EX.O2)
iex> RDF.Graph.new(EX.S, EX.P1, EX.O1) |> RDF.Graph.put(EX.S, EX.P2, EX.O2)
RDF.Graph.new([{EX.S, EX.P1, EX.O1}, {EX.S, EX.P2, EX.O2}])
"""
def put(%RDF.Graph{} = graph, subject, predicate, objects),
do: put(graph, {subject, predicate, objects})
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@doc """
Deletes statements from a `RDF.Graph`.
"""
def delete(graph, subject, predicate, object),
do: delete(graph, {subject, predicate, object})
@doc """
Deletes statements from a `RDF.Graph`.
Note: When the statements to be deleted are given as another `RDF.Graph`,
the graph name must not match graph name of the graph from which the statements
are deleted. If you want to delete only graphs with matching names, you can
use `RDF.Data.delete/2`.
"""
def delete(graph, triples)
def delete(%RDF.Graph{} = graph, {subject, _, _} = triple),
do: do_delete(graph, convert_subject(subject), triple)
def delete(graph, {subject, predicate, object, _}),
do: delete(graph, {subject, predicate, object})
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def delete(%RDF.Graph{} = graph, triples) when is_list(triples) do
Enum.reduce triples, graph, fn (triple, graph) ->
delete(graph, triple)
end
end
def delete(%RDF.Graph{} = graph, %Description{subject: subject} = description),
do: do_delete(graph, subject, description)
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def delete(%RDF.Graph{} = graph, %RDF.Graph{descriptions: descriptions}) do
Enum.reduce descriptions, graph, fn ({_, description}, graph) ->
delete(graph, description)
end
end
defp do_delete(%RDF.Graph{name: name, descriptions: descriptions} = graph,
subject, statements) do
with description when not is_nil(description) <- descriptions[subject],
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new_description = Description.delete(description, statements)
do
%RDF.Graph{name: name,
descriptions:
if Enum.empty?(new_description) do
Map.delete(descriptions, subject)
else
Map.put(descriptions, subject, new_description)
end
}
else
nil -> graph
end
end
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@doc """
Deletes all statements with the given subjects.
"""
def delete_subjects(graph, subjects)
def delete_subjects(%RDF.Graph{} = graph, subjects) when is_list(subjects) do
Enum.reduce subjects, graph, fn (subject, graph) ->
delete_subjects(graph, subject)
end
end
def delete_subjects(%RDF.Graph{name: name, descriptions: descriptions}, subject) do
with subject = convert_subject(subject) do
%RDF.Graph{name: name, descriptions: Map.delete(descriptions, subject)}
end
end
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@doc """
Fetches the description of the given subject.
When the subject can not be found `:error` is returned.
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## Examples
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iex> RDF.Graph.new([{EX.S1, EX.P1, EX.O1}, {EX.S2, EX.P2, EX.O2}]) |>
...> RDF.Graph.fetch(EX.S1)
{:ok, RDF.Description.new({EX.S1, EX.P1, EX.O1})}
iex> RDF.Graph.fetch(RDF.Graph.new, EX.foo)
:error
"""
def fetch(%RDF.Graph{descriptions: descriptions}, subject) do
Access.fetch(descriptions, convert_subject(subject))
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end
@doc """
Gets the description of the given subject.
When the subject can not be found the optionally given default value or `nil` is returned.
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## Examples
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iex> RDF.Graph.new([{EX.S1, EX.P1, EX.O1}, {EX.S2, EX.P2, EX.O2}]) |>
...> RDF.Graph.get(EX.S1)
RDF.Description.new({EX.S1, EX.P1, EX.O1})
iex> RDF.Graph.get(RDF.Graph.new, EX.Foo)
nil
iex> RDF.Graph.get(RDF.Graph.new, EX.Foo, :bar)
:bar
"""
def get(%RDF.Graph{} = graph, subject, default \\ nil) do
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case fetch(graph, subject) do
{:ok, value} -> value
:error -> default
end
end
@doc """
The `RDF.Description` of the given subject.
"""
def description(%RDF.Graph{descriptions: descriptions}, subject),
do: Map.get(descriptions, convert_subject(subject))
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@doc """
Gets and updates the description of the given subject, in a single pass.
Invokes the passed function on the `RDF.Description` of the given subject;
this function should return either `{description_to_return, new_description}` or `:pop`.
If the passed function returns `{description_to_return, new_description}`, the
return value of `get_and_update` is `{description_to_return, new_graph}` where
`new_graph` is the input `Graph` updated with `new_description` for
the given subject.
If the passed function returns `:pop` the description for the given subject is
removed and a `{removed_description, new_graph}` tuple gets returned.
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## Examples
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iex> RDF.Graph.new({EX.S, EX.P, EX.O}) |>
...> RDF.Graph.get_and_update(EX.S, fn current_description ->
...> {current_description, {EX.P, EX.NEW}}
...> end)
{RDF.Description.new(EX.S, EX.P, EX.O), RDF.Graph.new(EX.S, EX.P, EX.NEW)}
"""
def get_and_update(%RDF.Graph{} = graph, subject, fun) do
with subject = convert_subject(subject) do
case fun.(get(graph, subject)) do
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{old_description, new_description} ->
{old_description, put(graph, subject, new_description)}
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:pop ->
pop(graph, subject)
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other ->
raise "the given function must return a two-element tuple or :pop, got: #{inspect(other)}"
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end
end
end
@doc """
Pops an arbitrary triple from a `RDF.Graph`.
"""
def pop(graph)
def pop(%RDF.Graph{descriptions: descriptions} = graph)
when descriptions == %{}, do: {nil, graph}
def pop(%RDF.Graph{name: name, descriptions: descriptions}) do
# TODO: Find a faster way ...
[{subject, description}] = Enum.take(descriptions, 1)
{triple, popped_description} = Description.pop(description)
popped = if Enum.empty?(popped_description),
do: descriptions |> Map.delete(subject),
else: descriptions |> Map.put(subject, popped_description)
{triple, %RDF.Graph{name: name, descriptions: popped}}
end
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@doc """
Pops the description of the given subject.
When the subject can not be found the optionally given default value or `nil` is returned.
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## Examples
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iex> RDF.Graph.new([{EX.S1, EX.P1, EX.O1}, {EX.S2, EX.P2, EX.O2}]) |>
...> RDF.Graph.pop(EX.S1)
{RDF.Description.new({EX.S1, EX.P1, EX.O1}), RDF.Graph.new({EX.S2, EX.P2, EX.O2})}
iex> RDF.Graph.pop(RDF.Graph.new({EX.S, EX.P, EX.O}), EX.Missing)
{nil, RDF.Graph.new({EX.S, EX.P, EX.O})}
"""
def pop(%RDF.Graph{name: name, descriptions: descriptions} = graph, subject) do
case Access.pop(descriptions, convert_subject(subject)) do
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{nil, _} ->
{nil, graph}
{description, new_descriptions} ->
{description, %RDF.Graph{name: name, descriptions: new_descriptions}}
end
end
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@doc """
The number of subjects within a `RDF.Graph`.
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## Examples
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iex> RDF.Graph.new([
...> {EX.S1, EX.p1, EX.O1},
...> {EX.S2, EX.p2, EX.O2},
...> {EX.S1, EX.p2, EX.O3}]) |>
...> RDF.Graph.subject_count
2
"""
def subject_count(%RDF.Graph{descriptions: descriptions}),
do: Enum.count(descriptions)
@doc """
The number of statements within a `RDF.Graph`.
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## Examples
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iex> RDF.Graph.new([
...> {EX.S1, EX.p1, EX.O1},
...> {EX.S2, EX.p2, EX.O2},
...> {EX.S1, EX.p2, EX.O3}]) |>
...> RDF.Graph.triple_count
3
"""
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def triple_count(%RDF.Graph{descriptions: descriptions}) do
Enum.reduce descriptions, 0, fn ({_subject, description}, count) ->
count + Description.count(description)
end
end
@doc """
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The set of all subjects used in the statements within a `RDF.Graph`.
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## Examples
iex> RDF.Graph.new([
...> {EX.S1, EX.p1, EX.O1},
...> {EX.S2, EX.p2, EX.O2},
...> {EX.S1, EX.p2, EX.O3}]) |>
...> RDF.Graph.subjects
MapSet.new([RDF.uri(EX.S1), RDF.uri(EX.S2)])
"""
def subjects(%RDF.Graph{descriptions: descriptions}),
do: descriptions |> Map.keys |> MapSet.new
@doc """
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The set of all properties used in the predicates of the statements within a `RDF.Graph`.
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## Examples
iex> RDF.Graph.new([
...> {EX.S1, EX.p1, EX.O1},
...> {EX.S2, EX.p2, EX.O2},
...> {EX.S1, EX.p2, EX.O3}]) |>
...> RDF.Graph.predicates
MapSet.new([EX.p1, EX.p2])
"""
def predicates(%RDF.Graph{descriptions: descriptions}) do
Enum.reduce descriptions, MapSet.new, fn ({_, description}, acc) ->
description
|> Description.predicates
|> MapSet.union(acc)
end
end
@doc """
The set of all resources used in the objects within a `RDF.Graph`.
Note: This function does collect only URIs and BlankNodes, not Literals.
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## Examples
iex> RDF.Graph.new([
...> {EX.S1, EX.p1, EX.O1},
...> {EX.S2, EX.p2, EX.O2},
...> {EX.S3, EX.p1, EX.O2},
...> {EX.S4, EX.p2, RDF.bnode(:bnode)},
...> {EX.S5, EX.p3, "foo"}
...> ]) |> RDF.Graph.objects
MapSet.new([RDF.uri(EX.O1), RDF.uri(EX.O2), RDF.bnode(:bnode)])
"""
def objects(%RDF.Graph{descriptions: descriptions}) do
Enum.reduce descriptions, MapSet.new, fn ({_, description}, acc) ->
description
|> Description.objects
|> MapSet.union(acc)
end
end
@doc """
The set of all resources used within a `RDF.Graph`.
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## Examples
iex> RDF.Graph.new([
...> {EX.S1, EX.p1, EX.O1},
...> {EX.S2, EX.p1, EX.O2},
...> {EX.S2, EX.p2, RDF.bnode(:bnode)},
...> {EX.S3, EX.p1, "foo"}
...> ]) |> RDF.Graph.resources
MapSet.new([RDF.uri(EX.S1), RDF.uri(EX.S2), RDF.uri(EX.S3),
RDF.uri(EX.O1), RDF.uri(EX.O2), RDF.bnode(:bnode), EX.p1, EX.p2])
"""
def resources(graph = %RDF.Graph{descriptions: descriptions}) do
Enum.reduce(descriptions, MapSet.new, fn ({_, description}, acc) ->
description
|> Description.resources
|> MapSet.union(acc)
end) |> MapSet.union(subjects(graph))
end
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@doc """
The list of all statements within a `RDF.Graph`.
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## Examples
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iex> RDF.Graph.new([
...> {EX.S1, EX.p1, EX.O1},
...> {EX.S2, EX.p2, EX.O2},
...> {EX.S1, EX.p2, EX.O3}
...> ]) |> RDF.Graph.triples
[{RDF.uri(EX.S1), RDF.uri(EX.p1), RDF.uri(EX.O1)},
{RDF.uri(EX.S1), RDF.uri(EX.p2), RDF.uri(EX.O3)},
{RDF.uri(EX.S2), RDF.uri(EX.p2), RDF.uri(EX.O2)}]
"""
def triples(graph = %RDF.Graph{}), do: Enum.to_list(graph)
defdelegate statements(graph), to: RDF.Graph, as: :triples
@doc """
Checks if the given statement exists within a `RDF.Graph`.
"""
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def include?(%RDF.Graph{descriptions: descriptions},
triple = {subject, _, _}) do
with subject = convert_subject(subject),
%Description{} <- description = descriptions[subject] do
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Description.include?(description, triple)
else
_ -> false
end
end
defimpl Enumerable do
def member?(desc, triple), do: {:ok, RDF.Graph.include?(desc, triple)}
def count(desc), do: {:ok, RDF.Graph.triple_count(desc)}
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def reduce(%RDF.Graph{descriptions: descriptions}, {:cont, acc}, _fun)
when map_size(descriptions) == 0, do: {:done, acc}
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def reduce(%RDF.Graph{} = graph, {:cont, acc}, fun) do
{triple, rest} = RDF.Graph.pop(graph)
reduce(rest, fun.(triple, acc), fun)
end
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def reduce(_, {:halt, acc}, _fun), do: {:halted, acc}
def reduce(%RDF.Graph{} = graph, {:suspend, acc}, fun) do
{:suspended, acc, &reduce(graph, &1, fun)}
end
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end
end