tract_linalg/

lib.rs

#![allow(clippy::missing_safety_doc)]
#![allow(clippy::redundant_closure_call)]
#![allow(clippy::len_zero)]
#![allow(clippy::excessive_precision)]
#![allow(clippy::approx_constant)]
#![allow(clippy::manual_is_multiple_of)]
#![allow(unexpected_cfgs)]
#![allow(unused_macros)]
#[macro_use]
extern crate derive_new;
extern crate lazy_static;
extern crate log;
extern crate num_traits;
#[macro_use]
extern crate pastey;
#[cfg(test)]
extern crate proptest;

include!(concat!(env!("OUT_DIR"), "/extern_kernel_macro.rs"));

#[macro_use]
mod frame;
pub mod generic;
pub mod multithread;
pub use frame::weights::WeightType;
pub use generic::{ScaleShiftAndRound, Scaler};
use lazy_static::lazy_static;
use mmm::{MMMInputFormat, MatMatMul, PanelExtractor};
use tract_data::internal::TensorView;
#[cfg(target_arch = "x86_64")]
pub mod x86_64_fma;

pub mod hwbench;

#[cfg(target_arch = "aarch64")]
pub mod arm64;

#[cfg(target_arch = "aarch64")]
pub use arm64::has_fp16;
use tract_itertools::Itertools;

#[cfg(not(target_arch = "aarch64"))]
pub fn has_fp16() -> bool {
    false
}

#[cfg(any(target_arch = "arm", target_arch = "armv7", target_arch = "arm"))]
pub mod arm32;

#[cfg(all(target_family = "wasm", target_feature = "simd128"))]
pub mod wasm;

pub use self::frame::*;

use tract_data::prelude::*;

pub type MMMImpl = Box<
    dyn Fn(Option<usize>, Option<usize>, Option<usize>) -> Box<dyn mmm::MatMatMul> + Send + Sync,
>;

type MMVImpl = Box<dyn Fn(Option<usize>, Option<usize>) -> Box<dyn mmm::MatMatMul> + Send + Sync>;

#[allow(clippy::type_complexity)]
pub struct Ops {
    mmm_impls: Vec<Box<dyn mmm::MatMatMul>>,
    panel_extractors: Vec<mmm::PanelExtractor>,

    mmm_f64: MMMImpl,
    mmv_f64: MMVImpl,

    mmm_f32: MMMImpl,
    mmv_f32: MMVImpl,

    mmm_f16: MMMImpl,
    mmv_f16: MMVImpl,

    qmmm_i32: MMMImpl,
    qmmv_i32: MMVImpl,

    pub leaky_relu_f16: Box<dyn Fn() -> Box<dyn element_wise::ElementWise<f16, f16>> + Send + Sync>,
    pub leaky_relu_f32: Box<dyn Fn() -> Box<dyn element_wise::ElementWise<f32, f32>> + Send + Sync>,
    pub mul_by_scalar_f32:
        Box<dyn Fn() -> Box<dyn element_wise::ElementWise<f32, f32>> + Send + Sync>,
    pub mul_by_scalar_f16:
        Box<dyn Fn() -> Box<dyn element_wise::ElementWise<f16, f16>> + Send + Sync>,

    pub sigmoid_f16: Box<dyn Fn() -> Box<dyn element_wise::ElementWise<f16>> + Send + Sync>,
    pub sigmoid_f32: Box<dyn Fn() -> Box<dyn element_wise::ElementWise<f32>> + Send + Sync>,
    pub tanh_f16: Box<dyn Fn() -> Box<dyn element_wise::ElementWise<f16>> + Send + Sync>,
    pub tanh_f32: Box<dyn Fn() -> Box<dyn element_wise::ElementWise<f32>> + Send + Sync>,
    pub erf_f32: Box<dyn Fn() -> Box<dyn element_wise::ElementWise<f32>> + Send + Sync>,
    pub lut_u8: Box<dyn Fn(&[u8]) -> Box<dyn lut::Lut> + Send + Sync>,

    pub max_f16: Box<dyn Fn() -> Box<dyn reduce::Reduce<f16>> + Send + Sync>,
    pub max_f32: Box<dyn Fn() -> Box<dyn reduce::Reduce<f32>> + Send + Sync>,

    pub sum_f16: Box<dyn Fn() -> Box<dyn reduce::Reduce<f16>> + Send + Sync>,
    pub sum_f32: Box<dyn Fn() -> Box<dyn reduce::Reduce<f32>> + Send + Sync>,

    pub softmax2_fastcompact_f16:
        Box<dyn Fn() -> Box<dyn reduce::MapReduce<f16, f16>> + Send + Sync>,
    pub softmax2_fastcompact_f32:
        Box<dyn Fn() -> Box<dyn reduce::MapReduce<f32, f32>> + Send + Sync>,
}

impl Ops {
    pub fn mmm_impls(&self) -> &[Box<dyn mmm::MatMatMul>] {
        &self.mmm_impls
    }

    pub fn all_possible_packing(
        &self,
        weight_type: impl Into<WeightType>,
    ) -> impl Iterator<Item = &dyn MMMInputFormat> {
        let weight_type = weight_type.into();
        self.mmm_impls
            .iter()
            .flat_map(|m| m.packings())
            .map(|p| &*p.0)
            .flat_map(move |p| {
                let mut packs: Vec<&dyn MMMInputFormat> = vec![];
                if p.precursor() == weight_type {
                    packs.push(p)
                };
                for pe in &self.panel_extractors {
                    if pe.from.precursor() == weight_type && pe.to.same_as(p) {
                        packs.push(&*pe.from);
                    }
                }
                packs.into_iter()
            })
            .sorted_by_key(|p| p.to_string())
            .dedup()
    }

    pub fn filter_impls<'o>(
        &'o self,
        weight: &'o dyn MMMInputFormat,
        acc: &[DatumType],
        act: DatumType,
        store: DatumType,
    ) -> impl Iterator<
        Item = (
            &'o dyn MatMatMul,
            usize,
            &'o dyn MMMInputFormat,
            Option<&'o PanelExtractor>,
            &'o dyn MMMInputFormat,
        ),
    > {
        let acc = acc.to_vec();
        self.mmm_impls
            .iter()
            .filter(move |mmm| acc.contains(&mmm.internal_type()) && mmm.stores().contains(&store))
            .flat_map(|mmm| {
                mmm.packings()
                    .iter()
                    .enumerate()
                    .map(|(pack_ix, (a, b))| (&**mmm, pack_ix, &**a, &**b))
            })
            .filter_map(|(mmm, ix, a, b)| {
                if a.same_as(weight) {
                    Some((mmm, ix, a, None, b))
                } else {
                    self.panel_extractors
                        .iter()
                        .find(|pe| pe.from.same_as(weight) && pe.to.same_as(a))
                        .map(|pe| (mmm, ix, a, Some(pe), b))
                }
            })
            .filter(move |(_mmm, _ix, _a, _pe, b)| {
                b.precursor().as_dt().is_some_and(|dt| dt == act)
            })
    }

    pub fn panel_extractors(&self) -> &[mmm::panel_extract::PanelExtractor] {
        &self.panel_extractors
    }

    pub fn mmm(
        &self,
        accumulator: DatumType,
        m: Option<usize>,
        k: Option<usize>,
        n: Option<usize>,
    ) -> Option<Box<dyn mmm::MatMatMul>> {
        use DatumType::*;
        match accumulator {
            F64 => Some(if n == Some(1) { (self.mmv_f64)(m, k) } else { (self.mmm_f64)(m, k, n) }),
            F32 => Some(if n == Some(1) { (self.mmv_f32)(m, k) } else { (self.mmm_f32)(m, k, n) }),
            F16 => Some(if n == Some(1) { (self.mmv_f16)(m, k) } else { (self.mmm_f16)(m, k, n) }),
            I32 => {
                Some(if n == Some(1) { (self.qmmv_i32)(m, k) } else { (self.qmmm_i32)(m, k, n) })
            }
            _ => None,
        }
    }
}

pub fn generic() -> Ops {
    use crate::generic::mmm::*;
    use element_wise::ElementWiseKer;
    use reduce::{MapReduceKer, ReduceKer};
    let mut ops = Ops {
        mmm_impls: vec![],
        panel_extractors: vec![],
        mmm_f64: Box::new(|_, _, _| generic_f64_4x4.mmm()),
        mmv_f64: Box::new(|_, _| generic_f64_4x1.mmm()),
        mmm_f32: Box::new(|_, _, _| generic_f32_4x4.mmm()),
        mmv_f32: Box::new(|_, _| generic_f32_4x1.mmm()),
        mmm_f16: Box::new(|_, _, _| generic_f16_4x4.mmm()),
        mmv_f16: Box::new(|_, _| generic_f16_4x1.mmm()),
        qmmm_i32: Box::new(|_, _, _| generic_i32_4x4.mmm()),
        qmmv_i32: Box::new(|_, _| generic_i32_4x4.mmm()),
        leaky_relu_f16: Box::new(|| generic::HLeakyRelu8::ew()),
        leaky_relu_f32: Box::new(|| generic::SLeakyRelu4::ew()),
        mul_by_scalar_f16: Box::new(|| generic::HMulByScalar8::ew()),
        mul_by_scalar_f32: Box::new(|| generic::SMulByScalar4::ew()),
        sigmoid_f16: Box::new(|| generic::HSigmoid8::ew()),
        sigmoid_f32: Box::new(|| generic::SSigmoid4::ew()),
        tanh_f16: Box::new(|| generic::HTanh8::ew()),
        tanh_f32: Box::new(|| generic::STanh4::ew()),
        erf_f32: Box::new(|| generic::SErf4::ew()),
        lut_u8: Box::new(|table: &[u8]| Box::new(lut::LutImpl::<generic::GenericLut8>::new(table))),
        max_f16: Box::new(|| generic::reduce::max::HMax8::red()),
        max_f32: Box::new(|| generic::reduce::max::SMax4::red()),
        sum_f16: Box::new(|| generic::reduce::sum::HSum8::red()),
        sum_f32: Box::new(|| generic::reduce::sum::SSum4::red()),
        /*
        activation_f32: Box::new(|microcode| generic::SActivation::new(microcode))
        */
        softmax2_fastcompact_f16: Box::new(|| generic::reduce::softmax_l2::HSoftMaxL2::red()),
        softmax2_fastcompact_f32: Box::new(|| generic::reduce::softmax_l2::SSoftMaxL2::red()),
    };
    crate::generic::mmm::plug(&mut ops);
    ops
}

#[allow(unreachable_code, unused_mut, unexpected_cfgs)]
pub fn best() -> Ops {
    let mut ops = generic();
    #[cfg(target_arch = "x86_64")]
    x86_64_fma::plug(&mut ops);
    #[cfg(any(target_arch = "arm", target_arch = "armv7"))]
    arm32::plug(&mut ops);
    #[cfg(target_arch = "aarch64")]
    arm64::plug(&mut ops);
    #[cfg(all(target_family = "wasm", target_feature = "simd128"))]
    wasm::plug(&mut ops);

    ops
}

lazy_static::lazy_static! {
    static ref OPS: Ops = {
        best()
    };
}

#[derive(Copy, Clone, Debug, PartialEq, Eq, Hash)]
pub enum BinOp {
    Min,
    Max,
    Add,
    Mul,
    Sub,
    SubF,
}

impl BinOp {
    pub fn flip(&self) -> BinOp {
        use BinOp::*;
        match self {
            Sub => SubF,
            SubF => Sub,
            sym => *sym,
        }
    }
}

fn register_all_unicast(registry: &mut LinalgRegistry) {
    generic::register_all_unicast(registry);
    #[cfg(target_arch = "aarch64")]
    arm64::register_all_unicast(registry);
}

fn register_all_by_scalar(registry: &mut LinalgRegistry) {
    generic::register_all_by_scalar(registry);
    #[cfg(target_arch = "aarch64")]
    arm64::register_all_by_scalar(registry);
}

pub type LinalgFn = dyn Fn(&mut TensorView, &TensorView) -> TractResult<()> + Send + Sync;
type LinalgRegistry = HashMap<(BinOp, DatumType), Box<dyn Fn() -> Box<LinalgFn> + Send + Sync>>;
lazy_static! {
    static ref BIN_UNICAST_OPS: Mutex<LinalgRegistry> = {
        let mut registry = HashMap::default();
        register_all_unicast(&mut registry);
        Mutex::new(registry)
    };
    static ref BIN_BY_SCALAR_OPS: Mutex<LinalgRegistry> = {
        let mut registry = HashMap::default();
        register_all_by_scalar(&mut registry);
        Mutex::new(registry)
    };
}

pub fn bin_by_scalar(dt: DatumType, bin: BinOp) -> Option<Box<LinalgFn>> {
    let map = BIN_BY_SCALAR_OPS.lock().unwrap();
    if (dt == DatumType::F16) && !has_fp16() {
        return None;
    }
    map.get(&(bin, dt)).map(|it| (it)())
}

pub fn bin_unicast(dt: DatumType, bin: BinOp) -> Option<Box<LinalgFn>> {
    let map = BIN_UNICAST_OPS.lock().unwrap();
    if (dt == DatumType::F16) && !has_fp16() {
        return None;
    }
    map.get(&(bin, dt)).map(|it| (it)())
}

pub fn ops() -> &'static Ops {
    &OPS
}

use num_traits::*;
use std::collections::HashMap;
use std::fmt::Debug;
use std::ops::*;
use std::sync::Mutex;

pub trait LADatum:
    Sized
    + std::fmt::Display
    + Debug
    + Copy
    + Clone
    + Zero
    + One
    + 'static
    + Add<Output = Self>
    + Sub<Output = Self>
    + Mul
    + AddAssign
    + PartialOrd
    + Bounded
    + tract_data::prelude::Datum
{
    #[cfg(test)]
    fn strat() -> proptest::prelude::BoxedStrategy<Self>;
}

#[cfg(test)]
use proptest::prelude::*;

impl LADatum for f16 {
    #[cfg(test)]
    fn strat() -> BoxedStrategy<Self> {
        f32::strat().prop_map(|f| f.as_()).boxed()
    }
}

impl LADatum for f32 {
    #[cfg(test)]
    fn strat() -> BoxedStrategy<Self> {
        (-1000isize..1000).prop_map(|i| i as f32 / 1000.0).boxed()
    }
}

impl LADatum for f64 {
    #[cfg(test)]
    fn strat() -> BoxedStrategy<Self> {
        (-1000isize..1000).prop_map(|i| i as f64 / 1000.0).boxed()
    }
}

impl LADatum for u8 {
    #[cfg(test)]
    fn strat() -> BoxedStrategy<Self> {
        any::<u8>().boxed()
    }
}

impl LADatum for i8 {
    #[cfg(test)]
    fn strat() -> BoxedStrategy<Self> {
        any::<i8>().boxed()
    }
}

impl LADatum for i32 {
    #[cfg(test)]
    fn strat() -> BoxedStrategy<Self> {
        any::<i32>().boxed()
    }
}

#[cfg(test)]
#[allow(dead_code)]
fn setup_test_logger() {
    let _ = env_logger::Builder::from_env("TRACT_LOG").try_init();
}