Struct aws_sdk_emr::model::compute_limits::Builder
source · pub struct Builder { /* private fields */ }Expand description
A builder for ComputeLimits.
Implementations§
source§impl Builder
impl Builder
sourcepub fn unit_type(self, input: ComputeLimitsUnitType) -> Self
pub fn unit_type(self, input: ComputeLimitsUnitType) -> Self
The unit type used for specifying a managed scaling policy.
sourcepub fn set_unit_type(self, input: Option<ComputeLimitsUnitType>) -> Self
pub fn set_unit_type(self, input: Option<ComputeLimitsUnitType>) -> Self
The unit type used for specifying a managed scaling policy.
Examples found in repository?
src/json_deser.rs (lines 5079-5089)
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pub(crate) fn deser_structure_crate_model_compute_limits<'a, I>(
tokens: &mut std::iter::Peekable<I>,
) -> Result<
Option<crate::model::ComputeLimits>,
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::model::compute_limits::Builder::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() {
"UnitType" => {
builder = builder.set_unit_type(
aws_smithy_json::deserialize::token::expect_string_or_null(
tokens.next(),
)?
.map(|s| {
s.to_unescaped().map(|u| {
crate::model::ComputeLimitsUnitType::from(u.as_ref())
})
})
.transpose()?,
);
}
"MinimumCapacityUnits" => {
builder = builder.set_minimum_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
"MaximumCapacityUnits" => {
builder = builder.set_maximum_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
"MaximumOnDemandCapacityUnits" => {
builder = builder.set_maximum_on_demand_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
"MaximumCoreCapacityUnits" => {
builder = builder.set_maximum_core_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
_ => 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",
),
),
}
}sourcepub fn minimum_capacity_units(self, input: i32) -> Self
pub fn minimum_capacity_units(self, input: i32) -> Self
The lower boundary of EC2 units. It is measured through vCPU cores or instances for instance groups and measured through units for instance fleets. Managed scaling activities are not allowed beyond this boundary. The limit only applies to the core and task nodes. The master node cannot be scaled after initial configuration.
sourcepub fn set_minimum_capacity_units(self, input: Option<i32>) -> Self
pub fn set_minimum_capacity_units(self, input: Option<i32>) -> Self
The lower boundary of EC2 units. It is measured through vCPU cores or instances for instance groups and measured through units for instance fleets. Managed scaling activities are not allowed beyond this boundary. The limit only applies to the core and task nodes. The master node cannot be scaled after initial configuration.
Examples found in repository?
src/json_deser.rs (lines 5092-5098)
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pub(crate) fn deser_structure_crate_model_compute_limits<'a, I>(
tokens: &mut std::iter::Peekable<I>,
) -> Result<
Option<crate::model::ComputeLimits>,
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::model::compute_limits::Builder::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() {
"UnitType" => {
builder = builder.set_unit_type(
aws_smithy_json::deserialize::token::expect_string_or_null(
tokens.next(),
)?
.map(|s| {
s.to_unescaped().map(|u| {
crate::model::ComputeLimitsUnitType::from(u.as_ref())
})
})
.transpose()?,
);
}
"MinimumCapacityUnits" => {
builder = builder.set_minimum_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
"MaximumCapacityUnits" => {
builder = builder.set_maximum_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
"MaximumOnDemandCapacityUnits" => {
builder = builder.set_maximum_on_demand_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
"MaximumCoreCapacityUnits" => {
builder = builder.set_maximum_core_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
_ => 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",
),
),
}
}sourcepub fn maximum_capacity_units(self, input: i32) -> Self
pub fn maximum_capacity_units(self, input: i32) -> Self
The upper boundary of EC2 units. It is measured through vCPU cores or instances for instance groups and measured through units for instance fleets. Managed scaling activities are not allowed beyond this boundary. The limit only applies to the core and task nodes. The master node cannot be scaled after initial configuration.
sourcepub fn set_maximum_capacity_units(self, input: Option<i32>) -> Self
pub fn set_maximum_capacity_units(self, input: Option<i32>) -> Self
The upper boundary of EC2 units. It is measured through vCPU cores or instances for instance groups and measured through units for instance fleets. Managed scaling activities are not allowed beyond this boundary. The limit only applies to the core and task nodes. The master node cannot be scaled after initial configuration.
Examples found in repository?
src/json_deser.rs (lines 5101-5107)
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pub(crate) fn deser_structure_crate_model_compute_limits<'a, I>(
tokens: &mut std::iter::Peekable<I>,
) -> Result<
Option<crate::model::ComputeLimits>,
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::model::compute_limits::Builder::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() {
"UnitType" => {
builder = builder.set_unit_type(
aws_smithy_json::deserialize::token::expect_string_or_null(
tokens.next(),
)?
.map(|s| {
s.to_unescaped().map(|u| {
crate::model::ComputeLimitsUnitType::from(u.as_ref())
})
})
.transpose()?,
);
}
"MinimumCapacityUnits" => {
builder = builder.set_minimum_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
"MaximumCapacityUnits" => {
builder = builder.set_maximum_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
"MaximumOnDemandCapacityUnits" => {
builder = builder.set_maximum_on_demand_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
"MaximumCoreCapacityUnits" => {
builder = builder.set_maximum_core_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
_ => 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",
),
),
}
}sourcepub fn maximum_on_demand_capacity_units(self, input: i32) -> Self
pub fn maximum_on_demand_capacity_units(self, input: i32) -> Self
The upper boundary of On-Demand EC2 units. It is measured through vCPU cores or instances for instance groups and measured through units for instance fleets. The On-Demand units are not allowed to scale beyond this boundary. The parameter is used to split capacity allocation between On-Demand and Spot Instances.
sourcepub fn set_maximum_on_demand_capacity_units(self, input: Option<i32>) -> Self
pub fn set_maximum_on_demand_capacity_units(self, input: Option<i32>) -> Self
The upper boundary of On-Demand EC2 units. It is measured through vCPU cores or instances for instance groups and measured through units for instance fleets. The On-Demand units are not allowed to scale beyond this boundary. The parameter is used to split capacity allocation between On-Demand and Spot Instances.
Examples found in repository?
src/json_deser.rs (lines 5110-5116)
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pub(crate) fn deser_structure_crate_model_compute_limits<'a, I>(
tokens: &mut std::iter::Peekable<I>,
) -> Result<
Option<crate::model::ComputeLimits>,
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::model::compute_limits::Builder::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() {
"UnitType" => {
builder = builder.set_unit_type(
aws_smithy_json::deserialize::token::expect_string_or_null(
tokens.next(),
)?
.map(|s| {
s.to_unescaped().map(|u| {
crate::model::ComputeLimitsUnitType::from(u.as_ref())
})
})
.transpose()?,
);
}
"MinimumCapacityUnits" => {
builder = builder.set_minimum_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
"MaximumCapacityUnits" => {
builder = builder.set_maximum_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
"MaximumOnDemandCapacityUnits" => {
builder = builder.set_maximum_on_demand_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
"MaximumCoreCapacityUnits" => {
builder = builder.set_maximum_core_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
_ => 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",
),
),
}
}sourcepub fn maximum_core_capacity_units(self, input: i32) -> Self
pub fn maximum_core_capacity_units(self, input: i32) -> Self
The upper boundary of EC2 units for core node type in a cluster. It is measured through vCPU cores or instances for instance groups and measured through units for instance fleets. The core units are not allowed to scale beyond this boundary. The parameter is used to split capacity allocation between core and task nodes.
sourcepub fn set_maximum_core_capacity_units(self, input: Option<i32>) -> Self
pub fn set_maximum_core_capacity_units(self, input: Option<i32>) -> Self
The upper boundary of EC2 units for core node type in a cluster. It is measured through vCPU cores or instances for instance groups and measured through units for instance fleets. The core units are not allowed to scale beyond this boundary. The parameter is used to split capacity allocation between core and task nodes.
Examples found in repository?
src/json_deser.rs (lines 5119-5125)
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pub(crate) fn deser_structure_crate_model_compute_limits<'a, I>(
tokens: &mut std::iter::Peekable<I>,
) -> Result<
Option<crate::model::ComputeLimits>,
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::model::compute_limits::Builder::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() {
"UnitType" => {
builder = builder.set_unit_type(
aws_smithy_json::deserialize::token::expect_string_or_null(
tokens.next(),
)?
.map(|s| {
s.to_unescaped().map(|u| {
crate::model::ComputeLimitsUnitType::from(u.as_ref())
})
})
.transpose()?,
);
}
"MinimumCapacityUnits" => {
builder = builder.set_minimum_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
"MaximumCapacityUnits" => {
builder = builder.set_maximum_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
"MaximumOnDemandCapacityUnits" => {
builder = builder.set_maximum_on_demand_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
"MaximumCoreCapacityUnits" => {
builder = builder.set_maximum_core_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
_ => 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",
),
),
}
}sourcepub fn build(self) -> ComputeLimits
pub fn build(self) -> ComputeLimits
Consumes the builder and constructs a ComputeLimits.
Examples found in repository?
src/json_deser.rs (line 5140)
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pub(crate) fn deser_structure_crate_model_compute_limits<'a, I>(
tokens: &mut std::iter::Peekable<I>,
) -> Result<
Option<crate::model::ComputeLimits>,
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::model::compute_limits::Builder::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() {
"UnitType" => {
builder = builder.set_unit_type(
aws_smithy_json::deserialize::token::expect_string_or_null(
tokens.next(),
)?
.map(|s| {
s.to_unescaped().map(|u| {
crate::model::ComputeLimitsUnitType::from(u.as_ref())
})
})
.transpose()?,
);
}
"MinimumCapacityUnits" => {
builder = builder.set_minimum_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
"MaximumCapacityUnits" => {
builder = builder.set_maximum_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
"MaximumOnDemandCapacityUnits" => {
builder = builder.set_maximum_on_demand_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
"MaximumCoreCapacityUnits" => {
builder = builder.set_maximum_core_capacity_units(
aws_smithy_json::deserialize::token::expect_number_or_null(
tokens.next(),
)?
.map(i32::try_from)
.transpose()?,
);
}
_ => 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",
),
),
}
}