Struct arrow::array::StructBuilder
source · pub struct StructBuilder { /* private fields */ }
Expand description
Builder for StructArray
Note that callers should make sure that methods of all the child field builders are properly called to maintain the consistency of the data structure.
Handling arrays with complex layouts, such as List<Struct<List<Struct>>>
, in Rust can be challenging due to its strong typing system.
To construct a collection builder (ListBuilder
, LargeListBuilder
, or MapBuilder
) using make_builder
, multiple calls are required. This complexity arises from the recursive approach utilized by StructBuilder::from_fields
.
Initially, StructBuilder::from_fields
invokes make_builder
, which returns a Box<dyn ArrayBuilder>
. To obtain the specific collection builder, one must first use StructBuilder::field_builder
to get a Collection<[Box<dyn ArrayBuilder>]>
. Subsequently, the values()
result from this operation can be downcast to the desired builder type.
For example, when working with ListBuilder
, you would first call StructBuilder::field_builder::<ListBuilder<Box<dyn ArrayBuilder>>>
and then downcast the Box<dyn ArrayBuilder>
to the specific StructBuilder
you need.
For a practical example see the code below:
use arrow_array::builder::{ArrayBuilder, ListBuilder, StringBuilder, StructBuilder};
use arrow_schema::{DataType, Field, Fields};
use std::sync::Arc;
// This is an example column that has a List<Struct<List<Struct>>> layout
let mut example_col = ListBuilder::new(StructBuilder::from_fields(
vec![Field::new(
"value_list",
DataType::List(Arc::new(Field::new(
"item",
DataType::Struct(Fields::from(vec![
Field::new("key", DataType::Utf8, true),
Field::new("value", DataType::Utf8, true),
])), //In this example we are trying to get to this builder and insert key/value pairs
true,
))),
true,
)],
0,
));
// We can obtain the StructBuilder without issues, because example_col was created with StructBuilder
let col_struct_builder: &mut StructBuilder = example_col.values();
// We can't obtain the ListBuilder<StructBuilder> with the expected generic types, because under the hood
// the StructBuilder was returned as a Box<dyn ArrayBuilder> and passed as such to the ListBuilder constructor
// This panics in runtime, even though we know that the builder is a ListBuilder<StructBuilder>.
// let sb = col_struct_builder
// .field_builder::<ListBuilder<StructBuilder>>(0)
// .as_mut()
// .unwrap();
//To keep in line with Rust's strong typing, we fetch a ListBuilder<Box<dyn ArrayBuilder>> from the column StructBuilder first...
let mut list_builder_option =
col_struct_builder.field_builder::<ListBuilder<Box<dyn ArrayBuilder>>>(0);
let list_builder = list_builder_option.as_mut().unwrap();
// ... and then downcast the key/value pair values to a StructBuilder
let struct_builder = list_builder
.values()
.as_any_mut()
.downcast_mut::<StructBuilder>()
.unwrap();
// We can now append values to the StructBuilder
let key_builder = struct_builder.field_builder::<StringBuilder>(0).unwrap();
key_builder.append_value("my key");
let value_builder = struct_builder.field_builder::<StringBuilder>(1).unwrap();
value_builder.append_value("my value");
struct_builder.append(true);
list_builder.append(true);
col_struct_builder.append(true);
example_col.append(true);
let array = example_col.finish();
println!("My array: {:?}", array);
Implementations§
source§impl StructBuilder
impl StructBuilder
sourcepub fn new(
fields: impl Into<Fields>,
field_builders: Vec<Box<dyn ArrayBuilder>>,
) -> StructBuilder
pub fn new( fields: impl Into<Fields>, field_builders: Vec<Box<dyn ArrayBuilder>>, ) -> StructBuilder
Creates a new StructBuilder
sourcepub fn from_fields(fields: impl Into<Fields>, capacity: usize) -> StructBuilder
pub fn from_fields(fields: impl Into<Fields>, capacity: usize) -> StructBuilder
Creates a new StructBuilder
from Fields
and capacity
sourcepub fn field_builder<T>(&mut self, i: usize) -> Option<&mut T>where
T: ArrayBuilder,
pub fn field_builder<T>(&mut self, i: usize) -> Option<&mut T>where
T: ArrayBuilder,
Returns a mutable reference to the child field builder at index i
.
Result will be None
if the input type T
provided doesn’t match the actual
field builder’s type.
sourcepub fn num_fields(&self) -> usize
pub fn num_fields(&self) -> usize
Returns the number of fields for the struct this builder is building.
sourcepub fn append(&mut self, is_valid: bool)
pub fn append(&mut self, is_valid: bool)
Appends an element (either null or non-null) to the struct. The actual elements should be appended for each child sub-array in a consistent way.
sourcepub fn append_null(&mut self)
pub fn append_null(&mut self)
Appends a null element to the struct.
sourcepub fn finish(&mut self) -> StructArray
pub fn finish(&mut self) -> StructArray
Builds the StructArray
and reset this builder.
sourcepub fn finish_cloned(&self) -> StructArray
pub fn finish_cloned(&self) -> StructArray
Builds the StructArray
without resetting the builder.
sourcepub fn validity_slice(&self) -> Option<&[u8]>
pub fn validity_slice(&self) -> Option<&[u8]>
Returns the current null buffer as a slice
Trait Implementations§
source§impl ArrayBuilder for StructBuilder
impl ArrayBuilder for StructBuilder
source§fn len(&self) -> usize
fn len(&self) -> usize
Returns the number of array slots in the builder.
Note that this always return the first child field builder’s length, and it is the caller’s responsibility to maintain the consistency that all the child field builder should have the equal number of elements.
source§fn finish_cloned(&self) -> Arc<dyn Array>
fn finish_cloned(&self) -> Arc<dyn Array>
Builds the array without resetting the builder.
source§fn as_any(&self) -> &(dyn Any + 'static)
fn as_any(&self) -> &(dyn Any + 'static)
Returns the builder as a non-mutable Any
reference.
This is most useful when one wants to call non-mutable APIs on a specific builder
type. In this case, one can first cast this into a Any
, and then use
downcast_ref
to get a reference on the specific builder.
source§fn as_any_mut(&mut self) -> &mut (dyn Any + 'static)
fn as_any_mut(&mut self) -> &mut (dyn Any + 'static)
Returns the builder as a mutable Any
reference.
This is most useful when one wants to call mutable APIs on a specific builder
type. In this case, one can first cast this into a Any
, and then use
downcast_mut
to get a reference on the specific builder.
source§fn into_box_any(self: Box<StructBuilder>) -> Box<dyn Any>
fn into_box_any(self: Box<StructBuilder>) -> Box<dyn Any>
Returns the boxed builder as a box of Any
.