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// Licensed to the Apache Software Foundation (ASF) under one
// or more contributor license agreements. See the NOTICE file
// distributed with this work for additional information
// regarding copyright ownership. The ASF licenses this file
// to you under the Apache License, Version 2.0 (the
// "License"); you may not use this file except in compliance
// with the License. You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing,
// software distributed under the License is distributed on an
// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
// KIND, either express or implied. See the License for the
// specific language governing permissions and limitations
// under the License.
//! A complete, safe, native Rust implementation of [Apache Arrow](https://arrow.apache.org), a cross-language
//! development platform for in-memory data.
//!
//! # Columnar Format
//!
//! The [`array`] module provides statically typed implementations of all the array
//! types as defined by the [Arrow Columnar Format](https://arrow.apache.org/docs/format/Columnar.html).
//!
//! For example, an [`Int32Array`](array::Int32Array) represents a nullable array of `i32`
//!
//! ```rust
//! # use arrow::array::{Array, Int32Array};
//! let array = Int32Array::from(vec![Some(1), None, Some(3)]);
//! assert_eq!(array.len(), 3);
//! assert_eq!(array.value(0), 1);
//! assert_eq!(array.is_null(1), true);
//!
//! let collected: Vec<_> = array.iter().collect();
//! assert_eq!(collected, vec![Some(1), None, Some(3)]);
//! assert_eq!(array.values(), [1, 0, 3])
//! ```
//!
//! It is also possible to write generic code. For example, the following is generic over
//! all primitively typed arrays:
//!
//! ```rust
//! # use std::iter::Sum;
//! # use arrow::array::{Float32Array, PrimitiveArray, TimestampNanosecondArray};
//! # use arrow::datatypes::ArrowPrimitiveType;
//! #
//! fn sum<T: ArrowPrimitiveType>(array: &PrimitiveArray<T>) -> T::Native
//! where
//! T: ArrowPrimitiveType,
//! T::Native: Sum
//! {
//! array.iter().map(|v| v.unwrap_or_default()).sum()
//! }
//!
//! assert_eq!(sum(&Float32Array::from(vec![1.1, 2.9, 3.])), 7.);
//! assert_eq!(sum(&TimestampNanosecondArray::from(vec![1, 2, 3])), 6);
//! ```
//!
//! For more examples, consult the [`array`] docs.
//!
//! # Type Erasure / Trait Objects
//!
//! It is often the case that code wishes to handle any type of array, without necessarily knowing
//! its concrete type. This use-case is catered for by a combination of [`Array`]
//! and [`DataType`](datatypes::DataType), with the former providing a type-erased container for
//! the array, and the latter identifying the concrete type of array.
//!
//! ```rust
//! # use arrow::array::{Array, Float32Array};
//! # use arrow::array::StringArray;
//! # use arrow::datatypes::DataType;
//! #
//! fn impl_string(array: &StringArray) {}
//! fn impl_f32(array: &Float32Array) {}
//!
//! fn impl_dyn(array: &dyn Array) {
//! match array.data_type() {
//! DataType::Utf8 => impl_string(array.as_any().downcast_ref().unwrap()),
//! DataType::Float32 => impl_f32(array.as_any().downcast_ref().unwrap()),
//! _ => unimplemented!()
//! }
//! }
//! ```
//!
//! It is also common to want to write a function that returns one of a number of possible
//! array implementations. [`ArrayRef`] is a type-alias for [`Arc<dyn Array>`](array::Array)
//! which is frequently used for this purpose
//!
//! ```rust
//! # use std::str::FromStr;
//! # use std::sync::Arc;
//! # use arrow::array::{ArrayRef, Int32Array, PrimitiveArray};
//! # use arrow::datatypes::{ArrowPrimitiveType, DataType, Int32Type, UInt32Type};
//! # use arrow::compute::cast;
//! #
//! fn parse_to_primitive<'a, T, I>(iter: I) -> PrimitiveArray<T>
//! where
//! T: ArrowPrimitiveType,
//! I: IntoIterator<Item=&'a str>,
//! {
//! PrimitiveArray::from_iter(iter.into_iter().map(|val| T::Native::from_str(val).ok()))
//! }
//!
//! fn parse_strings<'a, I>(iter: I, to_data_type: DataType) -> ArrayRef
//! where
//! I: IntoIterator<Item=&'a str>,
//! {
//! match to_data_type {
//! DataType::Int32 => Arc::new(parse_to_primitive::<Int32Type, _>(iter)) as _,
//! DataType::UInt32 => Arc::new(parse_to_primitive::<UInt32Type, _>(iter)) as _,
//! _ => unimplemented!()
//! }
//! }
//!
//! let array = parse_strings(["1", "2", "3"], DataType::Int32);
//! let integers = array.as_any().downcast_ref::<Int32Array>().unwrap();
//! assert_eq!(integers.values(), [1, 2, 3])
//! ```
//!
//! # Compute Kernels
//!
//! The [`compute`](compute) module provides optimised implementations of many common operations,
//! for example the `parse_strings` operation above could also be implemented as follows:
//!
//! ```
//! # use std::sync::Arc;
//! # use arrow::error::Result;
//! # use arrow::array::{ArrayRef, StringArray, UInt32Array};
//! # use arrow::datatypes::DataType;
//! #
//! fn parse_strings<'a, I>(iter: I, to_data_type: &DataType) -> Result<ArrayRef>
//! where
//! I: IntoIterator<Item=&'a str>,
//! {
//! let array = Arc::new(StringArray::from_iter(iter.into_iter().map(Some))) as _;
//! arrow::compute::cast(&array, to_data_type)
//! }
//!
//! let array = parse_strings(["1", "2", "3"], &DataType::UInt32).unwrap();
//! let integers = array.as_any().downcast_ref::<UInt32Array>().unwrap();
//! assert_eq!(integers.values(), [1, 2, 3])
//! ```
//!
//! This module also implements many common vertical operations:
//!
//! * All mathematical binary operators, such as [`subtract`](compute::kernels::arithmetic::subtract)
//! * All boolean binary operators such as [`equality`](compute::kernels::comparison::eq)
//! * [`cast`](compute::kernels::cast::cast)
//! * [`filter`](compute::kernels::filter::filter)
//! * [`take`](compute::kernels::take::take) and [`limit`](compute::kernels::limit::limit)
//! * [`sort`](compute::kernels::sort::sort)
//! * some string operators such as [`substring`](compute::kernels::substring::substring) and [`length`](compute::kernels::length::length)
//!
//! As well as some horizontal operations, such as:
//!
//! * [`min`](compute::kernels::aggregate::min) and [`max`](compute::kernels::aggregate::max)
//! * [`sum`](compute::kernels::aggregate::sum)
//!
//! # Tabular Representation
//!
//! It is common to want to group one or more columns together into a tabular representation. This
//! is provided by [`RecordBatch`] which combines a [`Schema`](datatypes::Schema)
//! and a corresponding list of [`ArrayRef`].
//!
//!
//! ```
//! # use std::sync::Arc;
//! # use arrow::array::{Float32Array, Int32Array};
//! # use arrow::record_batch::RecordBatch;
//! #
//! let col_1 = Arc::new(Int32Array::from_iter([1, 2, 3])) as _;
//! let col_2 = Arc::new(Float32Array::from_iter([1., 6.3, 4.])) as _;
//!
//! let batch = RecordBatch::try_from_iter([("col1", col_1), ("col_2", col_2)]).unwrap();
//! ```
//!
//! # IO
//!
//! This crate provides readers and writers for various formats to/from [`RecordBatch`]
//!
//! * JSON: [`Reader`](json::reader::Reader) and [`Writer`](json::writer::Writer)
//! * CSV: [`Reader`](csv::reader::Reader) and [`Writer`](csv::writer::Writer)
//! * IPC: [`Reader`](ipc::reader::StreamReader) and [`Writer`](ipc::writer::FileWriter)
//!
//! Parquet is published as a [separate crate](https://crates.io/crates/parquet)
//!
//! # Memory and Buffers
//!
//! Advanced users may wish to interact with the underlying buffers of an [`Array`], for example,
//! for FFI or high-performance conversion from other formats. This interface is provided by
//! [`ArrayData`] which stores the [`Buffer`] comprising an [`Array`], and can be accessed
//! with [`Array::data`](array::Array::data)
//!
//! The APIs for constructing [`ArrayData`] come in safe, and unsafe variants, with the former
//! performing extensive, but potentially expensive validation to ensure the buffers are well-formed.
//!
//! An [`ArrayRef`] can be cheaply created from an [`ArrayData`] using [`make_array`],
//! or by using the appropriate [`From`] conversion on the concrete [`Array`] implementation.
//!
//! # Safety and Security
//!
//! Like many crates, this crate makes use of unsafe where prudent. However, it endeavours to be
//! sound. Specifically, **it should not be possible to trigger undefined behaviour using safe APIs.**
//!
//! If you think you have found an instance where this is possible, please file
//! a ticket in our [issue tracker] and it will be triaged and fixed. For more information on
//! arrow's use of unsafe, see [here](https://github.com/apache/arrow-rs/tree/master/arrow#safety).
//!
//! # Higher-level Processing
//!
//! This crate aims to provide reusable, low-level primitives for operating on columnar data. For
//! more sophisticated query processing workloads, consider checking out [DataFusion]. This
//! orchestrates the primitives exported by this crate into an embeddable query engine, with
//! SQL and DataFrame frontends, and heavily influences this crate's roadmap.
//!
//! [`array`]: mod@array
//! [`Array`]: array::Array
//! [`ArrayRef`]: array::ArrayRef
//! [`ArrayData`]: array::ArrayData
//! [`make_array`]: array::make_array
//! [`Buffer`]: buffer::Buffer
//! [`RecordBatch`]: record_batch::RecordBatch
//! [DataFusion]: https://github.com/apache/arrow-datafusion
//! [issue tracker]: https://github.com/apache/arrow-rs/issues
//!
#![cfg_attr(feature = "avx512", feature(stdsimd))]
#![cfg_attr(feature = "avx512", feature(repr_simd))]
#![cfg_attr(feature = "avx512", feature(avx512_target_feature))]
#![deny(clippy::redundant_clone)]
#![warn(missing_debug_implementations)]
pub mod alloc;
mod arch;
pub mod array;
pub mod bitmap;
pub mod buffer;
mod bytes;
pub mod compute;
#[cfg(feature = "csv")]
pub mod csv;
pub mod datatypes;
pub mod error;
pub mod ffi;
pub mod ffi_stream;
#[cfg(feature = "ipc")]
pub mod ipc;
pub mod json;
#[cfg(feature = "pyarrow")]
pub mod pyarrow;
pub mod record_batch;
pub mod temporal_conversions;
pub mod tensor;
pub mod util;