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Folio - Modelling examples from 'Getting started'

Description
  • Chapter 3 Inputting and Solving a Linear Programming problem
    • foliolp.mos: modeling and solving a small LP problem
    • foliolperr.mos: LP model with syntax errors
    • foliolps.mos: LP model using string indices
  • Chapter 4 Working with data
    • foliodata.mos (data file: folio.dat): data input from file, result output to a file, model parameters
    • folioodbc.mos (data files: folio.xls, folio.mdb, folio.sqlite): data input from a spreadsheet or database, result output to a spreadsheet or database, model parameters
    • folioexcel.mos (data file: folio.xls): same as folioodbc.mos but with Excel-specific data input and output (Windows only)
    • foliosheet.mos (data file: folio.xls): same as folioodbc.mos but with data input and output through generic spreadsheet access
    • foliocsv.mos (data file: folio.csv): same as folioodbc.mos but with data input and output through generic spreadsheet access in CSV format
  • Chapter 5 Drawing user graphs
    • folioloop.mos (data files: folio.dat, foliodev.dat): re-solving with varied parameter settings
    • folioloop_graph.mos (data files: folio.dat, foliodev.dat): re-solving with varied parameter settings, graphical solution display
    • foliolps_graph.mos: same as foliolps, adding graphical solution display
  • Chapter 6 Mixed Integer Programming
    • foliomip1.mos (data file: folio.dat): modeling and solving a small MIP problem (binary variables)
    • foliomip2.mos (data file: folio.dat): modeling and solving a small MIP problem (semi-continuous variables)
  • Chapter 7 Quadratic Programming
    • folioqp.mos (data file: folioqp.dat): modeling and solving a QP and a MIQP problem
    • folioqp_graph.mos (data files: folioqp.dat, folioqpgraph.dat): re-solving a QP problem with varied parameter settings, graphical solution display
    • folioqc.mos (data file: folioqp.dat): modeling and solving a QCQP and
    • foliomiqc.mos (data file: folioqp.dat): modeling and solving a MIQCQP
  • Chapter 8 Heuristics
    • folioheur.mos (data file: folio.dat): heuristic solution of a MIP problem

folio.zip[download all files]

Source Files
By clicking on a file name, a preview is opened at the bottom of this page.
foliolp.mos[download]
foliolperr.mos[download]
foliolps.mos[download]
foliolps_graph.mos[download]
foliodata.mos[download]
folioodbc.mos[download]
folioexcel.mos[download]
foliosheet.mos[download]
foliocsv.mos[download]
folioloop.mos[download]
folioloop_graph.mos[download]
foliomip1.mos[download]
foliomip2.mos[download]
folioqp.mos[download]
folioqp_graph.mos[download]
folioqc.mos[download]
foliomiqc.mos[download]
folioheur.mos[download]
folioqpr.mos[download]
folioqpgraphr.mos[download]

Data Files
folio.dat[download]
folio.csv[download]
foliodev.dat[download]
folioqp.dat[download]
folioqpgraph.dat[download]
folio.xls[download]
folio.mdb[download]
folio.sqlite[download]
folioqphist.dat[download]




folioexcel.mos

(!******************************************************
   Mosel Example Problems
   ======================

   file folioexcel.mos
   ```````````````````
   Modeling a small LP problem 
   to perform portfolio optimization.
   -- Parameters, data input from Excel, 
      result output to Excel --
   
  (c) 2008 Fair Isaac Corporation
      author: S.Heipcke, Feb. 2007
*******************************************************!)

model "Portfolio optimization with LP (Excel)"
 uses "mmxprs", "mmsheet"

 parameters
  DATAFILE = "folio.xls"             ! Spreadsheet with problem data
  DBDATA = "foliodata"               ! Spreadsheet range with problem data
  DBSOL = "folioresult"              ! Range for solution data
  
  MAXRISK = 1/3                      ! Max. investment into high-risk values
  MAXVAL = 0.3                       ! Max. investment per share
  MINAM = 0.5                        ! Min. investment into N.-American values
 end-parameters

 declarations
  SHARES: set of string              ! Set of shares
  RET: array(SHARES) of real         ! Estimated return in investment
  RISK: array(SHARES) of boolean     ! List of high-risk values among shares
  NA: array(SHARES) of boolean       ! List of shares issued in N.-America
 end-declarations

! Data input from spreadsheet
 initializations from "mmsheet.excel:" + DATAFILE
   [RET,RISK,NA] as DBDATA
 end-initializations

 declarations
  frac: array(SHARES) of mpvar       ! Fraction of capital used per share
 end-declarations

! Objective: total return
 Return:= sum(s in SHARES) RET(s)*frac(s) 

! Limit the percentage of high-risk values
 sum(s in SHARES | RISK(s)) frac(s) <= MAXRISK

! Minimum amount of North-American values
 sum(s in SHARES | NA(s)) frac(s) >= MINAM

! Spend all the capital
 sum(s in SHARES) frac(s) = 1
 
! Upper bounds on the investment per share
 forall(s in SHARES) frac(s) <= MAXVAL

! Solve the problem
 maximize(Return)

! Solution printing
 writeln("Total return: ", getobjval)
 forall(s in SHARES) 
  writeln(strfmt(s,-12), ": \t", strfmt(getsol(frac(s))*100,5,2), "%")

! Solution output to spreadsheet
 declarations
  Solfrac: array(SHARES) of real      ! Solution values
 end-declarations

 forall(s in SHARES) Solfrac(s):= getsol(frac(s))*100
 
 initializations to "mmsheet.excel:" + DATAFILE
   Solfrac as "grow;"+DBSOL
 end-initializations

end-model
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