defmodule Grizzly.ZWave.Commands.IndicatorSupportedReport do
@moduledoc """
This command is used to advertise the supported properties for a given indicator.
Params:
* `:indicator_id` - This field is used to specify the actual indicator resource (required)
* `:next_indicator_id` - This field is used to advertise if more Indicator IDs are supported after the actual Indicator ID advertised
by the Indicator ID field. (optional)
* `:property_ids` - The ids of the supported properties by the resource (required)
"""
@behaviour Grizzly.ZWave.Command
alias Grizzly.ZWave.{Command, DecodeError}
alias Grizzly.ZWave.CommandClasses.Indicator
@type param ::
{:indicator_id, Indicator.indicator_id()}
| {:next__indicator_id, Indicator.indicator_id()}
| {:property_ids, [Indicator.property_id()]}
@impl true
@spec new([param()]) :: {:ok, Command.t()}
def new(params) do
command = %Command{
name: :indicator_supported_report,
command_byte: 0x05,
command_class: Indicator,
params: params,
impl: __MODULE__
}
{:ok, command}
end
@impl true
@spec encode_params(Command.t()) :: binary()
def encode_params(command) do
indicator_id_byte = Command.param!(command, :indicator_id) |> Indicator.indicator_id_to_byte()
next_indicator_id_byte =
Command.param(command, :next_indicator_id, 0x00) |> Indicator.indicator_id_to_byte()
property_ids = Command.param!(command, :property_ids)
masks = encode_property_ids(property_ids)
count = Enum.count(masks)
masks_binary = for mask <- masks, into: <<>>, do: mask
<<indicator_id_byte, next_indicator_id_byte, 0x00::size(3), count::size(5)>> <> masks_binary
end
@impl true
@spec decode_params(binary()) :: {:ok, [param()]} | {:error, DecodeError.t()}
def decode_params(
<<indicator_id_byte, next_indicator_id_byte, 0x00::size(3), _count::size(5),
property_id_masks::binary>>
) do
with {:ok, indicator_id} <- Indicator.indicator_id_from_byte(indicator_id_byte),
{:ok, next_indicator_id} <- Indicator.indicator_id_from_byte(next_indicator_id_byte),
{:ok, property_ids} <- decode_property_ids(property_id_masks) do
{:ok,
[
indicator_id: indicator_id,
next_indicator_id: next_indicator_id,
property_ids: property_ids
]}
else
{:error, %DecodeError{} = decode_error} ->
{:error, %DecodeError{decode_error | command: :indicator_supported_report}}
end
end
defp encode_property_ids(property_ids) do
bytes = Enum.map(property_ids, &Indicator.property_id_to_byte(&1))
max_byte = Enum.max(bytes)
bits =
for i <- 0..max_byte do
if i in bytes, do: 1, else: 0
end
for chunk <- Enum.chunk_every(bits, 8, 8, [0, 0, 0, 0, 0, 0, 0]) do
bits = Enum.reverse(chunk)
for bit <- bits, into: <<>>, do: <<bit::size(1)>>
end
end
defp decode_property_ids(property_id_masks) do
:binary.bin_to_list(property_id_masks)
|> Enum.with_index()
|> Enum.reduce_while(
{:ok, []},
fn {mask, offset}, {:ok, acc} ->
case decode_mask(<<mask>>, offset * 8) do
{:ok, property_ids} -> {:cont, {:ok, property_ids ++ acc}}
{:error, %DecodeError{}} = error -> {:halt, error}
end
end
)
end
defp decode_mask(mask, offset) do
indexed_bits =
for(<<bit::size(1) <- mask>>, do: bit) |> Enum.reverse() |> Enum.with_index(offset)
Enum.reduce_while(
indexed_bits,
{:ok, []},
fn {bit, index}, {:ok, acc} ->
if bit == 1 do
case Indicator.property_id_from_byte(index) do
{:ok, property_id} ->
{:cont, {:ok, [property_id | acc]}}
{:error, %DecodeError{} = decode_error} ->
{:halt, {:error, %DecodeError{decode_error | command: :indicator_supported_report}}}
end
else
{:cont, {:ok, acc}}
end
end
)
end
end
