build/html/transforms_8h_source.html

// Copyright © 2023-2024 Apple Inc.


#pragma once


#include "mlx/array.h"


namespace mlx::core {


void async_eval(std::vector<array> outputs);


void eval(std::vector<array> outputs);


template <typename... Arrays, typename = enable_for_arrays_t<Arrays...>>


void eval(Arrays&&... outputs) {

  eval(std::vector<array>{std::forward<Arrays>(outputs)...});

}


std::pair<std::vector<array>, std::vector<array>> vjp(

    const std::function<std::vector<array>(const std::vector<array>&)>& fun,

    const std::vector<array>& primals,

    const std::vector<array>& cotangents);


std::pair<array, array> vjp(

    const std::function<array(const array&)>& fun,

    const array& primal,

    const array& cotangent);


std::pair<std::vector<array>, std::vector<array>> jvp(

    const std::function<std::vector<array>(const std::vector<array>&)>& fun,

    const std::vector<array>& primals,

    const std::vector<array>& tangents);


std::pair<array, array> jvp(

    const std::function<array(const array&)>& fun,

    const array& primal,

    const array& tangent);


// Return type of general value_and_grad: a function which takes an input

// vector of arrays and returns a pair of vectors of arrays one for the

// values and one for the gradients wrt the first value.

using ValueAndGradFn =

    std::function<std::pair<std::vector<array>, std::vector<array>>(

        const std::vector<array>&)>;

using SimpleValueAndGradFn = std::function<std::pair<array, std::vector<array>>(

    const std::vector<array>&)>;


ValueAndGradFn value_and_grad(

    const std::function<std::vector<array>(const std::vector<array>&)>& fun,

    const std::vector<int>& argnums);


ValueAndGradFn inline value_and_grad(

    const std::function<std::vector<array>(const std::vector<array>&)>& fun,

    int argnum = 0) {

  return value_and_grad(fun, std::vector<int>{argnum});

}


std::function<std::pair<array, array>(const array&)> inline value_and_grad(

    const std::function<array(const array&)>& fun) {

  return [fun](auto inputs) { return vjp(fun, inputs, array(1.0f)); };

}


SimpleValueAndGradFn inline value_and_grad(

    const std::function<array(const std::vector<array>&)>& fun,

    const std::vector<int>& argnums) {

  return [fun, argnums](auto inputs) {

    auto result = value_and_grad(

        [fun](auto inputs) { return std::vector<array>{fun(inputs)}; },

        argnums)(inputs);


    return std::make_pair(result.first[0], result.second);

  };

}


SimpleValueAndGradFn inline value_and_grad(

    const std::function<array(const std::vector<array>&)>& fun,

    int argnum = 0) {

  return value_and_grad(fun, std::vector<int>{argnum});

}


std::function<std::vector<array>(const std::vector<array>&)> inline grad(

    const std::function<array(const std::vector<array>&)>& fun,

    const std::vector<int>& argnums) {

  auto fn = value_and_grad(fun, argnums);

  return [fn](const std::vector<array>& inputs) { return fn(inputs).second; };

}


std::function<std::vector<array>(const std::vector<array>&)> inline grad(

    const std::function<array(const std::vector<array>&)>& fun,

    int argnum = 0) {

  return grad(fun, std::vector<int>{argnum});

}


std::function<array(const array&)> inline grad(

    const std::function<array(const array&)>& fun) {

  auto fn = value_and_grad(fun);

  return [fn](const array& input) { return fn(input).second; };

}


std::function<array(const array&)> vmap(

    const std::function<array(const array&)>& fun,

    int in_axis = 0,

    int out_axis = 0);


std::function<array(const array&, const array&)> vmap(

    const std::function<array(const array&, const array&)>& fun,

    int in_axis_a = 0,

    int in_axis_b = 0,

    int out_axis = 0);


std::function<std::vector<array>(const std::vector<array>&)> vmap(

    const std::function<std::vector<array>(const std::vector<array>&)>& fun,

    const std::vector<int>& in_axes = {},

    const std::vector<int>& out_axes = {});


std::function<std::vector<array>(const std::vector<array>&)> custom_vjp(

    std::function<std::vector<array>(const std::vector<array>&)> fun,

    std::function<std::vector<array>(

        const std::vector<array>&,

        const std::vector<array>&,

        const std::vector<array>&)> fun_vjp);


std::function<std::vector<array>(const std::vector<array>&)> checkpoint(

    std::function<std::vector<array>(const std::vector<array>&)> fun);


} // namespace mlx::core

array.h

mlx::core::array
Definition array.h:20

mlx::core
Definition allocator.h:7

mlx::core::async_eval
void async_eval(std::vector< array > outputs)

mlx::core::jvp
std::pair< std::vector< array >, std::vector< array > > jvp(const std::function< std::vector< array >(const std::vector< array > &)> &fun, const std::vector< array > &primals, const std::vector< array > &tangents)
Computes the output and Jacobian-vector product (JVP) of a function.

mlx::core::vjp
std::pair< std::vector< array >, std::vector< array > > vjp(const std::function< std::vector< array >(const std::vector< array > &)> &fun, const std::vector< array > &primals, const std::vector< array > &cotangents)
Computes the output and vector-Jacobian product (VJP) of a function.

mlx::core::checkpoint
std::function< std::vector< array >(const std::vector< array > &) checkpoint)(std::function< std::vector< array >(const std::vector< array > &)> fun)
Checkpoint the gradient of a function.

mlx::core::SimpleValueAndGradFn
std::function< std::pair< array, std::vector< array > >( const std::vector< array > &)> SimpleValueAndGradFn
Definition transforms.h:64

mlx::core::value_and_grad
std::function< std::pair< array, array >(const array &) value_and_grad)(const std::function< array(const array &)> &fun)
Returns a function which computes the value and gradient of the unary input function.
Definition transforms.h:89

mlx::core::custom_vjp
std::function< std::vector< array >(const std::vector< array > &) custom_vjp)(std::function< std::vector< array >(const std::vector< array > &)> fun, std::function< std::vector< array >(const std::vector< array > &, const std::vector< array > &, const std::vector< array > &)> fun_vjp)
Return the results of calling fun with args but if their vjp is computed it will be computed by fun_v...

mlx::core::eval
void eval(std::vector< array > outputs)

mlx::core::vmap
std::function< array(const array &) vmap)(const std::function< array(const array &)> &fun, int in_axis=0, int out_axis=0)
Automatically vectorize a unary function over the requested axes.

mlx::core::grad
std::function< std::vector< array >(const std::vector< array > &) grad)(const std::function< array(const std::vector< array > &)> &fun, const std::vector< int > &argnums)
Returns a function which computes the gradient of the input function with respect to a vector of inpu...
Definition transforms.h:120

mlx::core::ValueAndGradFn
std::function< std::pair< std::vector< array >, std::vector< array > >( const std::vector< array > &)> ValueAndGradFn
Definition transforms.h:61

mlx::core::enable_for_arrays_t
typename std::enable_if_t< is_arrays_v< T... > > enable_for_arrays_t
Definition array.h:565