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Differences From Artifact [22dbb3e6fb]:

  • File src/mcf/problem.rs — part of check-in [9f344e6086] at 2019-07-23 13:06:39 on branch mmcf-parallel — mmcf: add independent evaluation of each subproblem (user: fifr size: 11705)

To Artifact [cd4a08d9a5]:

  • File src/mcf/problem.rs — part of check-in [fd63d80f7d] at 2019-07-23 13:16:23 on branch mmcf-parallel — mmcf: put all subproblems in an `RwLock` (user: fifr size: 11732) 
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use std::f64::INFINITY;
use std::fmt;
use std::fs::File;
use std::io::Read;
use std::iter;
use std::result;


/// An error in the mmcf file format.
#[derive(Debug)]
pub enum MMCFReadError {
    Format(String),
    Solver(mcf::solver::Error),
    Io(std::io::Error),








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use std::f64::INFINITY;
use std::fmt;
use std::fs::File;
use std::io::Read;
use std::iter;
use std::result;
use std::sync::RwLock;

/// An error in the mmcf file format.
#[derive(Debug)]
pub enum MMCFReadError {
    Format(String),
    Solver(mcf::solver::Error),
    Io(std::io::Error),

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    cbase: DVector,
    c: DVector,
}

pub struct MMCFProblem {
    pub multimodel: bool,

    subs: Vec<Subproblem>,
    nvars: usize,
}

impl Subproblem {
    fn evaluate(&mut self, y: &[Real]) -> Result<(Real, DVector, DVector)> {
        // compute costs
        self.c.clear();








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    cbase: DVector,
    c: DVector,
}

pub struct MMCFProblem {
    pub multimodel: bool,

    subs: Vec<RwLock<Subproblem>>,
    nvars: usize,
}

impl Subproblem {
    fn evaluate(&mut self, y: &[Real]) -> Result<(Real, DVector, DVector)> {
        // compute costs
        self.c.clear();

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            .map(|(net, cbase, lhs, rhs)| Subproblem {
                net,
                cbase,
                c: dvec![],
                lhs,
                rhs,
            })

            .collect();

        Ok(MMCFProblem {
            multimodel: false,
            subs: subproblems,
            nvars: ncaps,
        })
    }

    /// Compute costs for a primal solution.
    pub fn get_primal_costs(&self, fidx: usize, primals: &[DVector]) -> Real {

        if self.multimodel {
            primals[0]
                .iter()
                .enumerate()
                .map(|(i, x)| x * self.subs[fidx].cbase[i])
                .sum()
        } else {
            let mut sum = 0.0;
            for (fidx, p) in primals.iter().enumerate() {
                for (i, x) in p.iter().enumerate() {
                    sum += x * self.subs[fidx].cbase[i];
                }
            }
            sum
        }
    }

    /// Aggregate primal vectors.








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            .map(|(net, cbase, lhs, rhs)| Subproblem {
                net,
                cbase,
                c: dvec![],
                lhs,
                rhs,
            })
            .map(RwLock::new)
            .collect();

        Ok(MMCFProblem {
            multimodel: false,
            subs: subproblems,
            nvars: ncaps,
        })
    }

    /// Compute costs for a primal solution.
    pub fn get_primal_costs(&self, fidx: usize, primals: &[DVector]) -> Real {
        let sub = self.subs[fidx].read().unwrap();
        if self.multimodel {
            primals[0].iter().enumerate().map(|(i, x)| x * sub.cbase[i]).sum()




        } else {
            let mut sum = 0.0;
            for p in primals {
                for (i, x) in p.iter().enumerate() {
                    sum += x * sub.cbase[i];
                }
            }
            sum
        }
    }

    /// Aggregate primal vectors.

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        } else {
            1
        }
    }

    fn evaluate(&mut self, fidx: usize, y: &[Real], _nullstep_bound: Real, _relprec: Real) -> Result<Self::EvalResult> {
        let (objective, subg, sol) = if self.multimodel {
            let (objective, subg, sol) = self.subs[fidx].evaluate(y)?;
            (objective, subg, vec![sol])
        } else {
            let mut objective = 0.0;
            let mut subg = dvec![0.0; self.nvars];
            let mut sols = Vec::with_capacity(self.subs.len());
            for sub in &mut self.subs {
                let (obj, sg, sol) = sub.evaluate(y)?;
                objective += obj;
                subg.add_scaled(1.0, &sg);
                sols.push(sol);
            }
            (objective, subg, sols)
        };
        Ok(SimpleEvaluation {








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        } else {
            1
        }
    }

    fn evaluate(&mut self, fidx: usize, y: &[Real], _nullstep_bound: Real, _relprec: Real) -> Result<Self::EvalResult> {
        let (objective, subg, sol) = if self.multimodel {
            let (objective, subg, sol) = self.subs[fidx].write().unwrap().evaluate(y)?;
            (objective, subg, vec![sol])
        } else {
            let mut objective = 0.0;
            let mut subg = dvec![0.0; self.nvars];
            let mut sols = Vec::with_capacity(self.subs.len());
            for sub in &mut self.subs {
                let (obj, sg, sol) = sub.write().unwrap().evaluate(y)?;
                objective += obj;
                subg.add_scaled(1.0, &sg);
                sols.push(sol);
            }
            (objective, subg, sols)
        };
        Ok(SimpleEvaluation {
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