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workforce5.m
function workforce5()
% Copyright 2020, Gurobi Optimization, LLC
%
% Assign workers to shifts; each worker may or may not be available on a
% particular day. We use multi-objective optimization to solve the model.
% The highest-priority objective minimizes the sum of the slacks
% (i.e., the total number of uncovered shifts). The secondary objective
% minimizes the difference between the maximum and minimum number of
% shifts worked among all workers. The second optimization is allowed
% to degrade the first objective by up to the smaller value of 10% and 2
% define data
nShifts = 14;
nWorkers = 8;
nVars = (nShifts + 1) * (nWorkers + 1) + 2;
minShiftIdx = (nShifts+1)*(nWorkers+1);
maxShiftIdx = minShiftIdx+1;
totalSlackIdx = nVars;
Shifts = {'Mon1'; 'Tue2'; 'Wed3'; 'Thu4'; 'Fri5'; 'Sat6'; 'Sun7';
'Mon8'; 'Tue9'; 'Wed10'; 'Thu11'; 'Fri12'; 'Sat13'; 'Sun14'};
Workers = {'Amy'; 'Bob'; 'Cathy'; 'Dan'; 'Ed'; 'Fred'; 'Gu'; 'Tobi'};
shiftRequirements = [3; 2; 4; 4; 5; 6; 5; 2; 2; 3; 4; 6; 7; 5];
availability = [
0 1 1 0 1 0 1 0 1 1 1 1 1 1;
1 1 0 0 1 1 0 1 0 0 1 0 1 0;
0 0 1 1 1 0 1 1 1 1 1 1 1 1;
0 1 1 0 1 1 0 1 1 1 1 1 1 1;
1 1 1 1 1 0 1 1 1 0 1 0 1 1;
1 1 1 0 0 1 0 1 1 0 0 1 1 1;
0 1 1 1 0 1 1 0 1 1 1 0 1 1;
1 1 1 0 1 1 1 1 1 1 1 1 1 1
];
% Build model
model.modelname = 'workforce5';
model.modelsense = 'min';
% Initialize assignment decision variables:
% x[w][s] == 1 if worker w is assigned
% to shift s. Since an assignment model always produces integer
% solutions, we use continuous variables and solve as an LP.
model.vtype = repmat('C', nVars, 1);
model.lb = zeros(nVars, 1);
model.ub = ones(nVars, 1);
for w = 1:nWorkers
for s = 1:nShifts
model.vtype(s+(w-1)*nShifts) = 'B';
model.varnames{s+(w-1)*nShifts} = sprintf('%s.%s', Workers{w}, Shifts{s});
if availability(w, s) == 0
model.ub(s+(w-1)*nShifts) = 0;
end
end
end
% Initialize shift slack variables
for s = 1:nShifts
model.varnames{s+nShifts*nWorkers} = sprintf('ShiftSlack_%s', Shifts{s});
model.ub(s+nShifts*nWorkers) = inf;
end
% Initialize worker slack and diff variables
for w = 1:nWorkers
model.varnames{w + nShifts * (nWorkers+1)} = sprintf('TotalShifts_%s', Workers{w});
model.ub(w + nShifts * (nWorkers+1)) = inf;
end
% Initialize min/max shift variables
model.ub(minShiftIdx) = inf;
model.varnames{minShiftIdx} = 'MinShift';
model.ub(maxShiftIdx) = inf;
model.varnames{maxShiftIdx} = 'MaxShift';
% Initialize total slack variable
model.ub(totalSlackIdx) = inf;
model.varnames{totalSlackIdx} = 'TotalSlack';
% Set-up shift-requirements constraints with shift slack
model.sense = repmat('=', nShifts+1+nWorkers, 1);
model.rhs = [shiftRequirements; zeros(1+nWorkers, 1)];
model.constrnames = Shifts;
model.A = sparse(nShifts+1+nWorkers, nVars);
for s = 1:nShifts
for w = 1:nWorkers
model.A(s, s+(w-1)*nShifts) = 1;
end
model.A(s, s + nShifts*nWorkers) = 1;
end
% Set TotalSlack equal to the sum of each shift slack
for s = 1:nShifts
model.A(nShifts+1, s+nShifts*nWorkers) = -1;
end
model.A(nShifts+1, totalSlackIdx) = 1;
model.constrnames{nShifts+1} = 'TotalSlack';
% Set total number of shifts for each worker
for w = 1:nWorkers
for s = 1:nShifts
model.A(w + nShifts+1, s+(w-1)*nShifts) = -1;
end
model.A(w + nShifts+1, w + nShifts * (nWorkers+1)) = 1;
model.constrnames{nShifts+1+w} = sprintf('totShifts_%s', Workers{w});
end
% Set minShift / maxShift general constraints
model.genconmin.resvar = minShiftIdx;
model.genconmin.name = 'MinShift';
model.genconmax.resvar = maxShiftIdx;
model.genconmax.name = 'MaxShift';
for w = 1:nWorkers
model.genconmin.vars(w) = w + nShifts * (nWorkers+1);
model.genconmax.vars(w) = w + nShifts * (nWorkers+1);
end
% Set multiobjective
model.multiobj(1).objn = zeros(nVars, 1);
model.multiobj(1).objn(totalSlackIdx) = 1;
model.multiobj(1).priority = 2;
model.multiobj(1).weight = 1;
model.multiobj(1).abstol = 2;
model.multiobj(1).reltol = 0.1;
model.multiobj(1).name = 'TotalSlack';
model.multiobj(1).con = 0.0;
model.multiobj(2).objn = zeros(nVars, 1);
model.multiobj(2).objn(minShiftIdx) = -1;
model.multiobj(2).objn(maxShiftIdx) = 1;
model.multiobj(2).priority = 1;
model.multiobj(2).weight = 1;
model.multiobj(2).abstol = 0;
model.multiobj(2).reltol = 0;
model.multiobj(2).name = 'Fairness';
model.multiobj(2).con = 0.0;
% Save initial model
gurobi_write(model,'workforce5_m.lp');
% Optimize
params.logfile = 'workforce5_m.log';
result = solveandprint(model, params, Shifts, Workers);
if ~strcmp(result.status, 'OPTIMAL')
fprintf('Not optimal\n');
end
end
function result = solveandprint(model, params, Shifts, Workers)
% Helper function to solve and display results
nShifts = length(Shifts);
nWorkers = length(Workers);
result = gurobi(model, params);
if strcmp(result.status, 'OPTIMAL')
fprintf('The optimal objective is %g\n', result.objval);
fprintf('Schedule:\n');
for s = 1:nShifts
fprintf('\t%s:', Shifts{s});
for w = 1:nWorkers
if result.x(s+(w-1)*nShifts) > 0.9
fprintf('%s ', Workers{w});
end
end
fprintf('\n');
end
fprintf('Workload:\n');
for w = 1:nWorkers
fprintf('\t%s: %g\n', Workers{w}, result.x(w + nShifts * (nWorkers+1)));
end
else
fprintf('Optimization finished with status %s\n', result.status);
end
end
