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mirror of https://github.com/kalmarek/PropertyT.jl.git synced 2024-11-23 08:15:29 +01:00

fill the JuMP model variables from its internal model

This commit is contained in:
kalmarek 2017-12-01 17:06:20 +01:00
parent 659e5e03a1
commit e94662e615

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@ -161,6 +161,101 @@ function λandP(name::String, SDP_problem::JuMP.Model, varλ, varP)
end end
function fillfrominternal!(m::JuMP.Model, traits)
# Copied from JuMP/src/solvers.jl:178
stat::Symbol = MathProgBase.status(m.internalModel)
numRows, numCols = length(m.linconstr), m.numCols
m.objBound = NaN
m.objVal = NaN
m.colVal = fill(NaN, numCols)
m.linconstrDuals = Array{Float64}(0)
discrete = (traits.int || traits.sos)
if stat == :Optimal
# If we think dual information might be available, try to get it
# If not, return an array of the correct length
if discrete
m.redCosts = fill(NaN, numCols)
m.linconstrDuals = fill(NaN, numRows)
else
if !traits.conic
m.redCosts = try
MathProgBase.getreducedcosts(m.internalModel)[1:numCols]
catch
fill(NaN, numCols)
end
m.linconstrDuals = try
MathProgBase.getconstrduals(m.internalModel)[1:numRows]
catch
fill(NaN, numRows)
end
elseif !traits.qp && !traits.qc
JuMP.fillConicDuals(m)
end
end
else
# Problem was not solved to optimality, attempt to extract useful
# information anyway
if traits.lin
if stat == :Infeasible
m.linconstrDuals = try
infray = MathProgBase.getinfeasibilityray(m.internalModel)
@assert length(infray) == numRows
infray
catch
suppress_warnings || warn("Infeasibility ray (Farkas proof) not available")
fill(NaN, numRows)
end
elseif stat == :Unbounded
m.colVal = try
unbdray = MathProgBase.getunboundedray(m.internalModel)
@assert length(unbdray) == numCols
unbdray
catch
suppress_warnings || warn("Unbounded ray not available")
fill(NaN, numCols)
end
end
end
# conic duals (currently, SOC and SDP only)
if !discrete && traits.conic && !traits.qp && !traits.qc
if stat == :Infeasible
JuMP.fillConicDuals(m)
end
end
end
# If the problem was solved, or if it terminated prematurely, try
# to extract a solution anyway. This commonly occurs when a time
# limit or tolerance is set (:UserLimit)
if !(stat == :Infeasible || stat == :Unbounded)
try
# Do a separate try since getobjval could work while getobjbound does not and vice versa
objBound = MathProgBase.getobjbound(m.internalModel) + m.obj.aff.constant
m.objBound = objBound
end
try
objVal = MathProgBase.getobjval(m.internalModel) + m.obj.aff.constant
colVal = MathProgBase.getsolution(m.internalModel)[1:numCols]
# Rescale off-diagonal terms of SDP variables
if traits.sdp
offdiagvars = JuMP.offdiagsdpvars(m)
colVal[offdiagvars] /= sqrt(2)
end
# Don't corrupt the answers if one of the above two calls fails
m.objVal = objVal
m.colVal = colVal
end
end
return stat
end
function compute_λandP(m, varλ, varP; warmstart=nothing) function compute_λandP(m, varλ, varP; warmstart=nothing)
λ = 0.0 λ = 0.0
P = nothing P = nothing
@ -183,6 +278,9 @@ function compute_λandP(m, varλ, varP; warmstart=nothing)
warmstart = (m.internalModel.primal_sol, m.internalModel.dual_sol, warmstart = (m.internalModel.primal_sol, m.internalModel.dual_sol,
m.internalModel.slack) m.internalModel.slack)
fillfrominternal!(m, traits)
P = JuMP.getvalue(varP) P = JuMP.getvalue(varP)
λ = JuMP.getvalue(varλ) λ = JuMP.getvalue(varλ)