pub(crate) fn de_geofence_geometry<'a, I>(
tokens: &mut ::std::iter::Peekable<I>,
_value: &'a [u8],
) -> ::std::result::Result<Option<crate::types::GeofenceGeometry>, ::aws_smithy_json::deserialize::error::DeserializeError>
where
I: Iterator<Item = Result<::aws_smithy_json::deserialize::Token<'a>, ::aws_smithy_json::deserialize::error::DeserializeError>>,
{
match tokens.next().transpose()? {
Some(::aws_smithy_json::deserialize::Token::ValueNull { .. }) => Ok(None),
Some(::aws_smithy_json::deserialize::Token::StartObject { .. }) => {
#[allow(unused_mut)]
let mut builder = crate::types::builders::GeofenceGeometryBuilder::default();
loop {
match tokens.next().transpose()? {
Some(::aws_smithy_json::deserialize::Token::EndObject { .. }) => break,
Some(::aws_smithy_json::deserialize::Token::ObjectKey { key, .. }) => match key.to_unescaped()?.as_ref() {
"Polygon" => {
builder = builder.set_polygon(crate::protocol_serde::shape_linear_rings::de_linear_rings(tokens, _value)?);
}
"Circle" => {
builder = builder.set_circle(crate::protocol_serde::shape_circle::de_circle(tokens, _value)?);
}
"Geobuf" => {
builder = builder.set_geobuf(::aws_smithy_json::deserialize::token::expect_blob_or_null(tokens.next())?);
}
"MultiPolygon" => {
builder =
builder.set_multi_polygon(crate::protocol_serde::shape_multi_linear_rings::de_multi_linear_rings(tokens, _value)?);
}
_ => ::aws_smithy_json::deserialize::token::skip_value(tokens)?,
},
other => {
return Err(::aws_smithy_json::deserialize::error::DeserializeError::custom(format!(
"expected object key or end object, found: {other:?}"
)))
}
}
}
Ok(Some(builder.build()))
}
_ => Err(::aws_smithy_json::deserialize::error::DeserializeError::custom(
"expected start object or null",
)),
}
}
pub fn ser_geofence_geometry(
object: &mut ::aws_smithy_json::serialize::JsonObjectWriter,
input: &crate::types::GeofenceGeometry,
) -> ::std::result::Result<(), ::aws_smithy_types::error::operation::SerializationError> {
if let Some(var_1) = &input.polygon {
let mut array_2 = object.key("Polygon").start_array();
for item_3 in var_1 {
{
let mut array_4 = array_2.value().start_array();
for item_5 in item_3 {
{
let mut array_6 = array_4.value().start_array();
for item_7 in item_5 {
{
array_6.value().number(
#[allow(clippy::useless_conversion)]
::aws_smithy_types::Number::Float((*item_7).into()),
);
}
}
array_6.finish();
}
}
array_4.finish();
}
}
array_2.finish();
}
if let Some(var_8) = &input.circle {
#[allow(unused_mut)]
let mut object_9 = object.key("Circle").start_object();
crate::protocol_serde::shape_circle::ser_circle(&mut object_9, var_8)?;
object_9.finish();
}
if let Some(var_10) = &input.geobuf {
object.key("Geobuf").string_unchecked(&::aws_smithy_types::base64::encode(var_10));
}
if let Some(var_11) = &input.multi_polygon {
let mut array_12 = object.key("MultiPolygon").start_array();
for item_13 in var_11 {
{
let mut array_14 = array_12.value().start_array();
for item_15 in item_13 {
{
let mut array_16 = array_14.value().start_array();
for item_17 in item_15 {
{
let mut array_18 = array_16.value().start_array();
for item_19 in item_17 {
{
array_18.value().number(
#[allow(clippy::useless_conversion)]
::aws_smithy_types::Number::Float((*item_19).into()),
);
}
}
array_18.finish();
}
}
array_16.finish();
}
}
array_14.finish();
}
}
array_12.finish();
}
Ok(())
}