Wed, 22 Mar 2023 20:37:49 +0200
Bump version
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Support arbitrary regularisation terms; implement non-positivity-constrained regularisation.
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1 | /*! |
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2 | Iterative algorithms for solving the finite-dimensional subproblem without constraints. |
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3 | */ |
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4 | |
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5 | use nalgebra::{DVector, DMatrix}; |
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6 | use numeric_literals::replace_float_literals; |
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7 | use itertools::{izip, Itertools}; |
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8 | use colored::Colorize; |
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9 | use std::cmp::Ordering::*; |
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10 | |
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11 | use alg_tools::iter::Mappable; |
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12 | use alg_tools::error::NumericalError; |
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13 | use alg_tools::iterate::{ |
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14 | AlgIteratorFactory, |
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15 | AlgIteratorState, |
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16 | Step, |
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17 | }; |
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18 | use alg_tools::linops::GEMV; |
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19 | use alg_tools::nalgebra_support::ToNalgebraRealField; |
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20 | |
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21 | use crate::types::*; |
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22 | use super::{ |
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23 | InnerMethod, |
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24 | InnerSettings |
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25 | }; |
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26 | |
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27 | /// Compute the proximal operator of $x \mapsto |x|$, i.e., the soft-thresholding operator. |
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28 | #[inline] |
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29 | #[replace_float_literals(F::cast_from(literal))] |
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30 | fn soft_thresholding<F : Float>(v : F, λ : F) -> F { |
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31 | if v > λ { |
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32 | v - λ |
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33 | } else if v < -λ { |
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34 | v + λ |
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35 | } else { |
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36 | 0.0 |
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37 | } |
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38 | } |
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39 | |
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40 | /// Returns the ∞-norm minimal subdifferential of $x ↦ x^⊤Ax - g^⊤ x + λ\|x\|₁$ at $x$. |
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41 | /// |
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42 | /// `v` will be modified and cannot be trusted to contain useful values afterwards. |
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43 | #[replace_float_literals(F::cast_from(literal).to_nalgebra_mixed())] |
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44 | fn min_subdifferential<F : Float + ToNalgebraRealField>( |
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45 | v : &mut DVector<F::MixedType>, |
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46 | mA : &DMatrix<F::MixedType>, |
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47 | x : &DVector<F::MixedType>, |
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48 | g : &DVector<F::MixedType>, |
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49 | λ : F::MixedType |
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50 | ) -> F { |
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51 | v.copy_from(g); |
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52 | mA.gemv(v, 1.0, x, -1.0); // v = Ax - g |
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53 | let mut val = 0.0; |
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54 | for (&v_i, &x_i) in izip!(v.iter(), x.iter()) { |
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55 | // The subdifferential at x is $Ax - g + λ ∂‖·‖₁(x)$. |
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56 | val = val.max(match x_i.partial_cmp(&0.0) { |
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57 | Some(Greater) => v_i + λ, |
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58 | Some(Less) => v_i - λ, |
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59 | Some(Equal) => soft_thresholding(v_i, λ), |
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60 | None => F::MixedType::nan(), |
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61 | }) |
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62 | } |
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63 | F::from_nalgebra_mixed(val) |
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64 | } |
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65 | |
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66 | |
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67 | /// Forward-backward splitting implementation of [`quadratic_unconstrained`]. |
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68 | /// For detailed documentation of the inputs and outputs, refer to there. |
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69 | /// |
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70 | /// The `λ` component of the model is handled in the proximal step instead of the gradient step |
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71 | /// for potential performance improvements. |
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72 | #[replace_float_literals(F::cast_from(literal).to_nalgebra_mixed())] |
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73 | pub fn quadratic_unconstrained_fb<F, I>( |
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74 | mA : &DMatrix<F::MixedType>, |
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75 | g : &DVector<F::MixedType>, |
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76 | //c_ : F, |
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77 | λ_ : F, |
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78 | x : &mut DVector<F::MixedType>, |
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79 | τ_ : F, |
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80 | iterator : I |
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81 | ) -> usize |
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82 | where F : Float + ToNalgebraRealField, |
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83 | I : AlgIteratorFactory<F> |
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84 | { |
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85 | let mut xprev = x.clone(); |
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86 | //let c = c_.to_nalgebra_mixed(); |
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87 | let λ = λ_.to_nalgebra_mixed(); |
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88 | let τ = τ_.to_nalgebra_mixed(); |
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89 | let τλ = τ * λ; |
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90 | let mut v = DVector::zeros(x.len()); |
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91 | let mut iters = 0; |
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92 | |
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93 | iterator.iterate(|state| { |
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94 | // Replace `x` with $x - τ[Ax-g]= [x + τg]- τAx$ |
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95 | v.copy_from(g); // v = g |
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96 | v.axpy(1.0, x, τ); // v = x + τ*g |
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97 | v.sygemv(-τ, mA, x, 1.0); // v = [x + τg]- τAx |
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98 | let backup = state.if_verbose(|| { |
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99 | xprev.copy_from(x) |
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100 | }); |
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101 | // Calculate the proximal map |
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102 | x.iter_mut().zip(v.iter()).for_each(|(x_i, &v_i)| { |
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103 | *x_i = soft_thresholding(v_i, τλ); |
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104 | }); |
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105 | |
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106 | iters +=1; |
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107 | |
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108 | backup.map(|_| { |
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109 | min_subdifferential(&mut v, mA, x, g, λ) |
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110 | }) |
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111 | }); |
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112 | |
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113 | iters |
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114 | } |
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115 | |
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116 | /// Semismooth Newton implementation of [`quadratic_unconstrained`]. |
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117 | /// |
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118 | /// For detailed documentation of the inputs, refer to there. |
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119 | /// This function returns the number of iterations taken if there was no inversion failure, |
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120 | /// |
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121 | /// For method derivarion, see the documentation for [`super::nonneg::quadratic_nonneg`]. |
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122 | #[replace_float_literals(F::cast_from(literal).to_nalgebra_mixed())] |
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123 | pub fn quadratic_unconstrained_ssn<F, I>( |
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124 | mA : &DMatrix<F::MixedType>, |
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125 | g : &DVector<F::MixedType>, |
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126 | //c_ : F, |
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127 | λ_ : F, |
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128 | x : &mut DVector<F::MixedType>, |
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129 | τ_ : F, |
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130 | iterator : I |
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131 | ) -> Result<usize, NumericalError> |
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132 | where F : Float + ToNalgebraRealField, |
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133 | I : AlgIteratorFactory<F> |
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134 | { |
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135 | let n = x.len(); |
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136 | let mut xprev = x.clone(); |
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137 | let mut v = DVector::zeros(n); |
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138 | //let c = c_.to_nalgebra_mixed(); |
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139 | let λ = λ_.to_nalgebra_mixed(); |
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140 | let τ = τ_.to_nalgebra_mixed(); |
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141 | let τλ = τ * λ; |
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142 | let mut inact : Vec<bool> = Vec::from_iter(std::iter::repeat(false).take(n)); |
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143 | let mut s = DVector::zeros(0); |
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144 | let mut decomp = nalgebra::linalg::LU::new(DMatrix::zeros(0, 0)); |
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145 | let mut iters = 0; |
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146 | |
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147 | let res = iterator.iterate_fallible(|state| { |
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148 | // 1. Perform delayed SSN-update based on previously computed step on active |
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149 | // coordinates. The step is delayed to the beginning of the loop because |
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150 | // the SSN step may violate constraints, so we arrange `x` to contain at the |
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151 | // end of the loop the valid FB step that forms part of the SSN step |
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152 | let mut si = s.iter(); |
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153 | for (&ast, x_i, xprev_i) in izip!(inact.iter(), x.iter_mut(), xprev.iter_mut()) { |
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154 | if ast { |
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155 | *x_i = *xprev_i + *si.next().unwrap() |
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156 | } |
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157 | *xprev_i = *x_i; |
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158 | } |
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159 | |
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160 | //xprev.copy_from(x); |
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161 | |
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162 | // 2. Calculate FB step. |
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163 | // 2.1. Replace `x` with $x⁻ - τ[Ax⁻-g]= [x⁻ + τg]- τAx⁻$ |
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164 | x.axpy(τ, g, 1.0); // x = x⁻ + τ*g |
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165 | x.sygemv(-τ, mA, &xprev, 1.0); // x = [x⁻ + τg]- τAx⁻ |
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166 | // 2.2. Calculate prox and set of active coordinates at the same time |
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167 | let mut act_changed = false; |
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168 | let mut n_inact = 0; |
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169 | for (x_i, ast) in izip!(x.iter_mut(), inact.iter_mut()) { |
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170 | if *x_i > τλ { |
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171 | *x_i -= τλ; |
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172 | if !*ast { |
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173 | act_changed = true; |
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174 | *ast = true; |
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175 | } |
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176 | n_inact += 1; |
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177 | } else if *x_i < -τλ { |
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178 | *x_i += τλ; |
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179 | if !*ast { |
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180 | act_changed = true; |
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181 | *ast = true; |
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182 | } |
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183 | n_inact += 1; |
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184 | } else { |
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185 | *x_i = 0.0; |
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186 | if *ast { |
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187 | act_changed = true; |
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188 | *ast = false; |
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189 | } |
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190 | } |
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191 | } |
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192 | |
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193 | // *** x now contains forward-backward step *** |
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194 | |
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195 | // 3. Solve SSN step `s`. |
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196 | // 3.1 Construct [τ A_{ℐ × ℐ}] if the set of inactive coordinates has changed. |
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197 | if act_changed { |
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198 | let decomp_iter = inact.iter().cartesian_product(inact.iter()).zip(mA.iter()); |
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199 | let decomp_constr = decomp_iter.filter_map(|((&i_inact, &j_inact), &mAij)| { |
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200 | //(i_inact && j_inact).then_some(mAij * τ) |
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201 | (i_inact && j_inact).then_some(mAij) // 🔺 below matches removal of τ |
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202 | }); |
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203 | let mat = DMatrix::from_iterator(n_inact, n_inact, decomp_constr); |
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204 | decomp = nalgebra::linalg::LU::new(mat); |
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205 | } |
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206 | |
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207 | // 3.2 Solve `s` = $s_ℐ^k$ from |
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208 | // $[τ A_{ℐ × ℐ}]s^k_ℐ = - x^k_ℐ + [G ∘ F](x^k)_ℐ - [τ A_{ℐ × 𝒜}]s^k_𝒜$. |
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209 | // With current variable setup we have $[G ∘ F](x^k) = $`x` and $x^k = x⁻$ = `xprev`, |
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210 | // so the system to solve is $[τ A_{ℐ × ℐ}]s^k_ℐ = (x-x⁻)_ℐ - [τ A_{ℐ × 𝒜}](x-x⁻)_𝒜$ |
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211 | // The matrix $[τ A_{ℐ × ℐ}]$ we have already LU-decomposed above into `decomp`. |
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212 | s = if n_inact > 0 { |
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213 | // 3.2.1 Construct `rhs` = $(x-x⁻)_ℐ - [τ A_{ℐ × 𝒜}](x-x⁻)_𝒜$ |
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214 | let inactfilt = inact.iter().copied(); |
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215 | let rhs_iter = izip!(x.iter(), xprev.iter(), mA.row_iter()).filter_zip(inactfilt); |
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216 | let rhs_constr = rhs_iter.map(|(&x_i, &xprev_i, mAi)| { |
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217 | // Calculate row i of [τ A_{ℐ × 𝒜}]s^k_𝒜 = [τ A_{ℐ × 𝒜}](x-xprev)_𝒜 |
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218 | let actfilt = inact.iter().copied().map(std::ops::Not::not); |
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219 | let actit = izip!(x.iter(), xprev.iter(), mAi.iter()).filter_zip(actfilt); |
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220 | let actpart = actit.map(|(&x_j, &xprev_j, &mAij)| { |
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221 | mAij * (x_j - xprev_j) |
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222 | }).sum(); |
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223 | // Subtract it from [x-prev]_i |
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224 | //x_i - xprev_i - τ * actpart |
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225 | (x_i - xprev_i) / τ - actpart // 🔺 change matches removal of τ above |
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226 | }); |
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227 | let mut rhs = DVector::from_iterator(n_inact, rhs_constr); |
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228 | assert_eq!(rhs.len(), n_inact); |
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229 | // Solve the system |
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230 | if !decomp.solve_mut(&mut rhs) { |
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231 | return Step::Failure(NumericalError( |
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232 | "Failed to solve linear system for subproblem SSN." |
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233 | )) |
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234 | } |
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235 | rhs |
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236 | } else { |
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237 | DVector::zeros(0) |
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238 | }; |
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239 | |
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240 | iters += 1; |
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241 | |
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242 | // 4. Report solution quality |
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243 | state.if_verbose(|| { |
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244 | // Calculate subdifferential at the FB step `x` that hasn't yet had `s` yet added. |
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245 | min_subdifferential(&mut v, mA, x, g, λ) |
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246 | }) |
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247 | }); |
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248 | |
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249 | res.map(|_| iters) |
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250 | } |
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251 | |
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252 | /// This function applies an iterative method for the solution of the problem |
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253 | /// <div>$$ |
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254 | /// \min_{x ∈ ℝ^n} \frac{1}{2} x^⊤Ax - g^⊤ x + λ\|x\|₁ + c. |
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255 | /// $$</div> |
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256 | /// Semismooth Newton or forward-backward are supported based on the setting in `method`. |
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257 | /// The parameter `mA` is matrix $A$, and `g` and `λ` are as in the mathematical formulation. |
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258 | /// The constant $c$ does not need to be provided. The step length parameter is `τ` while |
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259 | /// `x` contains the initial iterate and on return the final one. The `iterator` controls |
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260 | /// stopping. The “verbose” value output by all methods is the $ℓ\_∞$ distance of some |
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261 | /// subdifferential of the objective to zero. |
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262 | /// |
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263 | /// This function returns the number of iterations taken. |
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264 | pub fn quadratic_unconstrained<F, I>( |
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265 | method : InnerMethod, |
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266 | mA : &DMatrix<F::MixedType>, |
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267 | g : &DVector<F::MixedType>, |
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268 | //c_ : F, |
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269 | λ : F, |
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270 | x : &mut DVector<F::MixedType>, |
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271 | τ : F, |
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272 | iterator : I |
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273 | ) -> usize |
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274 | where F : Float + ToNalgebraRealField, |
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275 | I : AlgIteratorFactory<F> |
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276 | { |
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277 | |
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278 | match method { |
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279 | InnerMethod::FB => |
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280 | quadratic_unconstrained_fb(mA, g, λ, x, τ, iterator), |
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281 | InnerMethod::SSN => |
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282 | quadratic_unconstrained_ssn(mA, g, λ, x, τ, iterator).unwrap_or_else(|e| { |
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283 | println!("{}", format!("{e}. Using FB fallback.").red()); |
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284 | let ins = InnerSettings::<F>::default(); |
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285 | quadratic_unconstrained_fb(mA, g, λ, x, τ, ins.iterator_options) |
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286 | }) |
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287 | } |
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288 | } |