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diff --git a/src/clp.f90 b/src/clp.f90
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+module clp
+ use iso_c_binding
+ implicit none
+ interface
+ function Clp_Version() bind(C,name="Clp_Version")
+ use iso_c_binding
+ type(c_ptr) :: Clp_Version
+ end function
+ function Clp_VersionMajor() bind(C,name="Clp_VersionMajor")
+ use iso_c_binding
+ integer(c_int) :: Clp_VersionMajor
+ end function
+ function Clp_VersionMinor() bind(C,name="Clp_VersionMinor")
+ use iso_c_binding
+ integer(c_int) :: Clp_VersionMinor
+ end function
+ function Clp_VersionRelease() bind(C,name="Clp_VersionRelease")
+ use iso_c_binding
+ integer(c_int) :: Clp_VersionRelease
+ end function
+ function Clp_newModel() bind(C,name="Clp_newModel")
+ use iso_c_binding
+ type(c_ptr) :: Clp_newModel
+ end function
+ subroutine Clp_deleteModel(model) bind(C,name="Clp_deleteModel")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ end subroutine
+ function ClpSolve_new() bind(C,name="ClpSolve_new")
+ use iso_c_binding
+ type(c_ptr) :: ClpSolve_new
+ end function
+ subroutine ClpSolve_delete(solve) bind(C,name="ClpSolve_delete")
+ use iso_c_binding
+ type(c_ptr), value :: solve
+ end subroutine
+ subroutine Clp_loadProblem(model,numcols,numrows,start, &
+ index,value,collb,colub,obj,rowlb,rowub) bind(C,name="Clp_loadProblem")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::numcols
+ integer(c_int), value ::numrows
+ type(c_ptr), value :: start
+ type(c_ptr), value :: index
+ real(c_double) :: value(*)
+ real(c_double) :: collb(*)
+ real(c_double) :: colub(*)
+ real(c_double) :: obj(*)
+ real(c_double) :: rowlb(*)
+ real(c_double) :: rowub(*)
+ end subroutine
+ subroutine Clp_loadQuadraticObjective(model,numberColumns, &
+ start,column,element) bind(C,name="Clp_loadQuadraticObjective")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::numberColumns
+ type(c_ptr), value :: start
+ type(c_ptr), value :: column
+ real(c_double) :: element(*)
+ end subroutine
+ function Clp_readMps(model,filename,keepNames,ignoreErrors) bind(C,name="Clp_readMps")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ character(c_char) :: filename(*)
+ integer(c_int), value ::keepNames
+ integer(c_int), value ::ignoreErrors
+ integer(c_int) :: Clp_readMps
+ end function
+ subroutine Clp_copyInIntegerInformation(model,information) bind(C,name="Clp_copyInIntegerInformation")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ character(c_char) :: information(*)
+ end subroutine
+ subroutine Clp_deleteIntegerInformation(model) bind(C,name="Clp_deleteIntegerInformation")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ end subroutine
+ subroutine Clp_resize(model,newNumberRows,newNumberColumns) bind(C,name="Clp_resize")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::newNumberRows
+ integer(c_int), value ::newNumberColumns
+ end subroutine
+ subroutine Clp_deleteRows(model,number,which) bind(C,name="Clp_deleteRows")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::number
+ type(c_ptr), value :: which
+ end subroutine
+ subroutine Clp_addRows(model,number,rowLower, &
+ rowUpper,rowStarts,columns,elements) bind(C,name="Clp_addRows")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::number
+ real(c_double) :: rowLower(*)
+ real(c_double) :: rowUpper(*)
+ type(c_ptr), value :: rowStarts
+ type(c_ptr), value :: columns
+ real(c_double) :: elements(*)
+ end subroutine
+ subroutine Clp_deleteColumns(model,number,which) bind(C,name="Clp_deleteColumns")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::number
+ type(c_ptr), value :: which
+ end subroutine
+ subroutine Clp_addColumns(model,number,columnLower,columnUpper, &
+ objective,columnStarts,rows,elements) bind(C,name="Clp_addColumns")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::number
+ real(c_double) :: columnLower(*)
+ real(c_double) :: columnUpper(*)
+ real(c_double) :: objective(*)
+ type(c_ptr), value :: columnStarts
+ type(c_ptr), value :: rows
+ real(c_double) :: elements(*)
+ end subroutine
+ subroutine Clp_chgRowLower(model,rowLower) bind(C,name="Clp_chgRowLower")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: rowLower(*)
+ end subroutine
+ subroutine Clp_chgRowUpper(model,rowUpper) bind(C,name="Clp_chgRowUpper")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: rowUpper(*)
+ end subroutine
+ subroutine Clp_chgColumnLower(model,columnLower) bind(C,name="Clp_chgColumnLower")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: columnLower(*)
+ end subroutine
+ subroutine Clp_chgColumnUpper(model,columnUpper) bind(C,name="Clp_chgColumnUpper")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: columnUpper(*)
+ end subroutine
+ subroutine Clp_chgObjCoefficients(model,objIn) bind(C,name="Clp_chgObjCoefficients")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: objIn(*)
+ end subroutine
+ subroutine Clp_dropNames(model) bind(C,name="Clp_dropNames")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ end subroutine
+ subroutine Clp_copyNames(model,rowNames,columnNames) bind(C,name="Clp_copyNames")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ character(c_char) :: rowNames(*)
+ character(c_char) :: columnNames(*)
+ end subroutine
+ function Clp_numberRows(model) bind(C,name="Clp_numberRows")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_numberRows
+ end function
+ function Clp_numberColumns(model) bind(C,name="Clp_numberColumns")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_numberColumns
+ end function
+ function Clp_primalTolerance(model) bind(C,name="Clp_primalTolerance")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: Clp_primalTolerance
+ end function
+ subroutine Clp_setPrimalTolerance(model,value) bind(C,name="Clp_setPrimalTolerance")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double), value :: value
+ end subroutine
+ function Clp_dualTolerance(model) bind(C,name="Clp_dualTolerance")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: Clp_dualTolerance
+ end function
+ subroutine Clp_setDualTolerance(model,value) bind(C,name="Clp_setDualTolerance")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double), value :: value
+ end subroutine
+ function Clp_dualObjectiveLimit(model) bind(C,name="Clp_dualObjectiveLimit")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: Clp_dualObjectiveLimit
+ end function
+ subroutine Clp_setDualObjectiveLimit(model,value) bind(C,name="Clp_setDualObjectiveLimit")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double), value :: value
+ end subroutine
+ function Clp_objectiveOffset(model) bind(C,name="Clp_objectiveOffset")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: Clp_objectiveOffset
+ end function
+ subroutine Clp_setObjectiveOffset(model,value) bind(C,name="Clp_setObjectiveOffset")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double), value :: value
+ end subroutine
+ subroutine Clp_problemName(model,maxNumberCharacters,array) bind(C,name="Clp_problemName")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::maxNumberCharacters
+ character(c_char) :: array(*)
+ end subroutine
+ function Clp_setProblemName(model,maxNumberCharacters,array) bind(C,name="COINLINKAGEClp_setProblemName")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::maxNumberCharacters
+ character(c_char) :: array(*)
+ integer(c_int) :: COINLINKAGEClp_setProblemName
+ end function
+ function Clp_numberIterations(model) bind(C,name="Clp_numberIterations")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_numberIterations
+ end function
+ subroutine Clp_setNumberIterations(model,numberIterations) bind(C,name="Clp_setNumberIterations")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::numberIterations
+ end subroutine
+ function maximumIterations(model) bind(C,name="maximumIterations")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: maximumIterations
+ end function
+ subroutine Clp_setMaximumIterations(model,value) bind(C,name="Clp_setMaximumIterations")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::value
+ end subroutine
+ function Clp_maximumSeconds(model) bind(C,name="Clp_maximumSeconds")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: Clp_maximumSeconds
+ end function
+ subroutine Clp_setMaximumSeconds(model,value) bind(C,name="Clp_setMaximumSeconds")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double), value :: value
+ end subroutine
+ function Clp_hitMaximumIterations(model) bind(C,name="Clp_hitMaximumIterations")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_hitMaximumIterations
+ end function
+ function Clp_status(model) bind(C,name="Clp_status")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_status
+ end function
+ subroutine Clp_setProblemStatus(model,problemStatus) bind(C,name="Clp_setProblemStatus")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::problemStatus
+ end subroutine
+ function Clp_secondaryStatus(model) bind(C,name="Clp_secondaryStatus")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_secondaryStatus
+ end function
+ subroutine Clp_setSecondaryStatus(model,status) bind(C,name="Clp_setSecondaryStatus")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::status
+ end subroutine
+ function Clp_optimizationDirection(model) bind(C,name="Clp_optimizationDirection")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: Clp_optimizationDirection
+ end function
+ subroutine Clp_setOptimizationDirection(model,value) bind(C,name="Clp_setOptimizationDirection")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double), value :: value
+ end subroutine
+ function Clp_primalRowSolution(model) bind(C,name="Clp_primalRowSolution")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_primalRowSolution
+ end function
+ function Clp_primalColumnSolution(model) bind(C,name="Clp_primalColumnSolution")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_primalColumnSolution
+ end function
+ function Clp_dualRowSolution(model) bind(C,name="Clp_dualRowSolution")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_dualRowSolution
+ end function
+ function Clp_dualColumnSolution(model) bind(C,name="Clp_dualColumnSolution")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_dualColumnSolution
+ end function
+ function Clp_rowLower(model) bind(C,name="Clp_rowLower")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_rowLower
+ end function
+ function Clp_rowUpper(model) bind(C,name="Clp_rowUpper")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_rowUpper
+ end function
+ function Clp_objective(model) bind(C,name="Clp_objective")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_objective
+ end function
+ function Clp_columnLower(model) bind(C,name="Clp_columnLower")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_columnLower
+ end function
+ function Clp_columnUpper(model) bind(C,name="Clp_columnUpper")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_columnUpper
+ end function
+ function Clp_getNumElements(model) bind(C,name="Clp_getNumElements")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_getNumElements
+ end function
+ function Clp_getVectorStarts(model) bind(C,name="Clp_getVectorStarts")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_getVectorStarts
+ end function
+ function Clp_getIndices(model) bind(C,name="Clp_getIndices")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_getIndices
+ end function
+ function Clp_getVectorLengths(model) bind(C,name="Clp_getVectorLengths")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_getVectorLengths
+ end function
+ function Clp_getElements(model) bind(C,name="Clp_getElements")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_getElements
+ end function
+ function Clp_objectiveValue(model) bind(C,name="Clp_objectiveValue")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: Clp_objectiveValue
+ end function
+ function Clp_integerInformation(model) bind(C,name="Clp_integerInformation")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_integerInformation
+ end function
+ function Clp_infeasibilityRay(model) bind(C,name="Clp_infeasibilityRay")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_infeasibilityRay
+ end function
+ function Clp_unboundedRay(model) bind(C,name="Clp_unboundedRay")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_unboundedRay
+ end function
+ subroutine Clp_freeRay(model,ray) bind(C,name="Clp_freeRay")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: ray(*)
+ end subroutine
+ function Clp_statusExists(model) bind(C,name="Clp_statusExists")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_statusExists
+ end function
+ function Clp_statusArray(model) bind(C,name="Clp_statusArray")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_statusArray
+ end function
+ subroutine Clp_copyinStatus(model,statusArray) bind(C,name="Clp_copyinStatus")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr), value :: statusArray
+ end subroutine
+ function Clp_getColumnStatus(model,sequence) bind(C,name="Clp_getColumnStatus")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::sequence
+ integer(c_int) :: Clp_getColumnStatus
+ end function
+ function Clp_getRowStatus(model,sequence) bind(C,name="Clp_getRowStatus")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::sequence
+ integer(c_int) :: Clp_getRowStatus
+ end function
+ subroutine Clp_setColumnStatus(model,sequence,value) bind(C,name="Clp_setColumnStatus")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::sequence
+ integer(c_int), value ::value
+ end subroutine
+ subroutine Clp_setRowStatus(model,sequence,value) bind(C,name="Clp_setRowStatus")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::sequence
+ integer(c_int), value ::value
+ end subroutine
+ subroutine Clp_setUserPointer(model,pointer) bind(C,name="Clp_setUserPointer")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr), value :: pointer
+ end subroutine
+ subroutine Clp_getUserPointer(model) bind(C,name="Clp_getUserPointer")
+ use iso_c_binding
+ type(c_ptr) :: model
+ end subroutine
+ subroutine Clp_registerCallBack(model,userCallBack) bind(C,name="Clp_registerCallBack")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr), value :: userCallBack
+ end subroutine
+ subroutine Clp_clearCallBack(model) bind(C,name="Clp_clearCallBack")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ end subroutine
+ subroutine Clp_setLogLevel(model,value) bind(C,name="Clp_setLogLevel")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::value
+ end subroutine
+ function Clp_logLevel(model) bind(C,name="Clp_logLevel")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_logLevel
+ end function
+ function Clp_lengthNames(model) bind(C,name="Clp_lengthNames")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_lengthNames
+ end function
+ subroutine Clp_rowName(model,iRow,name) bind(C,name="Clp_rowName")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::iRow
+ character(c_char) :: name(*)
+ end subroutine
+ subroutine Clp_columnName(model,iColumn,name) bind(C,name="Clp_columnName")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::iColumn
+ character(c_char) :: name(*)
+ end subroutine
+ function Clp_initialSolve(model) bind(C,name="Clp_initialSolve")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_initialSolve
+ end function
+ function Clp_initialSolveWithOptions(model,solver) bind(C,name="Clp_initialSolveWithOptions")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr), value :: solver
+ integer(c_int) :: Clp_initialSolveWithOptions
+ end function
+ function Clp_initialDualSolve(model) bind(C,name="Clp_initialDualSolve")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_initialDualSolve
+ end function
+ function Clp_initialPrimalSolve(model) bind(C,name="Clp_initialPrimalSolve")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_initialPrimalSolve
+ end function
+ function Clp_initialBarrierSolve(model) bind(C,name="Clp_initialBarrierSolve")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_initialBarrierSolve
+ end function
+ function Clp_initialBarrierNoCrossSolve(model) bind(C,name="Clp_initialBarrierNoCrossSolve")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_initialBarrierNoCrossSolve
+ end function
+ function Clp_dual(model,ifValuesPass) bind(C,name="Clp_dual")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::ifValuesPass
+ integer(c_int) :: Clp_dual
+ end function
+ function Clp_primal(model,ifValuesPass) bind(C,name="Clp_primal")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::ifValuesPass
+ integer(c_int) :: Clp_primal
+ end function
+ subroutine Clp_idiot(model,tryhard) bind(C,name="Clp_idiot")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::tryhard
+ end subroutine
+ subroutine Clp_scaling(model,mode) bind(C,name="Clp_scaling")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::mode
+ end subroutine
+ function Clp_scalingFlag(model) bind(C,name="Clp_scalingFlag")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_scalingFlag
+ end function
+ function Clp_crash(model,gap,pivot) bind(C,name="Clp_crash")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double), value :: gap
+ integer(c_int), value ::pivot
+ integer(c_int) :: Clp_crash
+ end function
+ function Clp_primalFeasible(model) bind(C,name="Clp_primalFeasible")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_primalFeasible
+ end function
+ function Clp_dualFeasible(model) bind(C,name="Clp_dualFeasible")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_dualFeasible
+ end function
+ function Clp_dualBound(model) bind(C,name="Clp_dualBound")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: Clp_dualBound
+ end function
+ subroutine Clp_setDualBound(model,value) bind(C,name="Clp_setDualBound")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double), value :: value
+ end subroutine
+ function Clp_infeasibilityCost(model) bind(C,name="Clp_infeasibilityCost")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: Clp_infeasibilityCost
+ end function
+ subroutine Clp_setInfeasibilityCost(model,value) bind(C,name="Clp_setInfeasibilityCost")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double), value :: value
+ end subroutine
+ function Clp_perturbation(model) bind(C,name="Clp_perturbation")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_perturbation
+ end function
+ subroutine Clp_setPerturbation(model,value) bind(C,name="Clp_setPerturbation")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::value
+ end subroutine
+ function Clp_algorithm(model) bind(C,name="Clp_algorithm")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_algorithm
+ end function
+ subroutine Clp_setAlgorithm(model,value) bind(C,name="Clp_setAlgorithm")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int), value ::value
+ end subroutine
+ function Clp_sumDualInfeasibilities(model) bind(C,name="Clp_sumDualInfeasibilities")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: Clp_sumDualInfeasibilities
+ end function
+ function Clp_numberDualInfeasibilities(model) bind(C,name="Clp_numberDualInfeasibilities")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_numberDualInfeasibilities
+ end function
+ function Clp_sumPrimalInfeasibilities(model) bind(C,name="Clp_sumPrimalInfeasibilities")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: Clp_sumPrimalInfeasibilities
+ end function
+ function Clp_numberPrimalInfeasibilities(model) bind(C,name="Clp_numberPrimalInfeasibilities")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_numberPrimalInfeasibilities
+ end function
+ function Clp_saveModel(model,fileName) bind(C,name="Clp_saveModel")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ character(c_char) :: fileName(*)
+ integer(c_int) :: Clp_saveModel
+ end function
+ function Clp_restoreModel(model,fileName) bind(C,name="Clp_restoreModel")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ character(c_char) :: fileName(*)
+ integer(c_int) :: Clp_restoreModel
+ end function
+ subroutine Clp_checkSolution(model) bind(C,name="Clp_checkSolution")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ end subroutine
+ function Clp_getNumRows(model) bind(C,name="Clp_getNumRows")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_getNumRows
+ end function
+ function Clp_getNumCols(model) bind(C,name="Clp_getNumCols")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_getNumCols
+ end function
+ function Clp_getIterationCount(model) bind(C,name="Clp_getIterationCount")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_getIterationCount
+ end function
+ function Clp_isAbandoned(model) bind(C,name="Clp_isAbandoned")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_isAbandoned
+ end function
+ function Clp_isProvenOptimal(model) bind(C,name="Clp_isProvenOptimal")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_isProvenOptimal
+ end function
+ function Clp_isProvenPrimalInfeasible(model) bind(C,name="Clp_isProvenPrimalInfeasible")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_isProvenPrimalInfeasible
+ end function
+ function Clp_isProvenDualInfeasible(model) bind(C,name="Clp_isProvenDualInfeasible")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_isProvenDualInfeasible
+ end function
+ function Clp_isPrimalObjectiveLimitReached(model) bind(C,name="Clp_isPrimalObjectiveLimitReached")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_isPrimalObjectiveLimitReached
+ end function
+ function Clp_isDualObjectiveLimitReached(model) bind(C,name="Clp_isDualObjectiveLimitReached")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_isDualObjectiveLimitReached
+ end function
+ function Clp_isIterationLimitReached(model) bind(C,name="Clp_isIterationLimitReached")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ integer(c_int) :: Clp_isIterationLimitReached
+ end function
+ function Clp_getObjSense(model) bind(C,name="Clp_getObjSense")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: Clp_getObjSense
+ end function
+ subroutine Clp_setObjSense(model,objsen) bind(C,name="Clp_setObjSense")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double), value :: objsen
+ end subroutine
+ function Clp_getRowActivity(model) bind(C,name="Clp_getRowActivity")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_getRowActivity
+ end function
+ function Clp_getColSolution(model) bind(C,name="Clp_getColSolution")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_getColSolution
+ end function
+ subroutine Clp_setColSolution(model,input) bind(C,name="Clp_setColSolution")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: input(*)
+ end subroutine
+ function Clp_getRowPrice(model) bind(C,name="Clp_getRowPrice")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_getRowPrice
+ end function
+ function Clp_getReducedCost(model) bind(C,name="Clp_getReducedCost")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_getReducedCost
+ end function
+ function Clp_getRowLower(model) bind(C,name="Clp_getRowLower")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_getRowLower
+ end function
+ function Clp_getRowUpper(model) bind(C,name="Clp_getRowUpper")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_getRowUpper
+ end function
+ function Clp_getObjCoefficients(model) bind(C,name="Clp_getObjCoefficients")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_getObjCoefficients
+ end function
+ function Clp_getColLower(model) bind(C,name="Clp_getColLower")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_getColLower
+ end function
+ function Clp_getColUpper(model) bind(C,name="Clp_getColUpper")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ type(c_ptr) :: Clp_getColUpper
+ end function
+ function Clp_getObjValue(model) bind(C,name="Clp_getObjValue")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: Clp_getObjValue
+ end function
+ subroutine Clp_printModel(model,prefix) bind(C,name="Clp_printModel")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ character(c_char) :: prefix(*)
+ end subroutine
+ function Clp_getSmallElementValue(model) bind(C,name="Clp_getSmallElementValue")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double) :: Clp_getSmallElementValue
+ end function
+ subroutine Clp_setSmallElementValue(model,value) bind(C,name="Clp_setSmallElementValue")
+ use iso_c_binding
+ type(c_ptr), value :: model
+ real(c_double), value :: value
+ end subroutine
+ subroutine ClpSolve_setSpecialOption(solver,which,value,extraInfo) bind(C,name="ClpSolve_setSpecialOption")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int), value ::which
+ integer(c_int), value ::value
+ integer(c_int), value ::extraInfo
+ end subroutine
+ function ClpSolve_getSpecialOption(solver,which) bind(C,name="ClpSolve_getSpecialOption")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int), value ::which
+ integer(c_int) :: ClpSolve_getSpecialOption
+ end function
+ subroutine ClpSolve_setSolveType(solver,method,extraInfo) bind(C,name="ClpSolve_setSolveType")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int), value ::method
+ integer(c_int), value ::extraInfo
+ end subroutine
+ function ClpSolve_getSolveType(solver) bind(C,name="ClpSolve_getSolveType")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int) :: ClpSolve_getSolveType
+ end function
+ subroutine ClpSolve_setPresolveType(solver,amount,extraInfo) bind(C,name="ClpSolve_setPresolveType")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int), value ::amount
+ integer(c_int), value ::extraInfo
+ end subroutine
+ function ClpSolve_getPresolveType(solver) bind(C,name="ClpSolve_getPresolveType")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int) :: ClpSolve_getPresolveType
+ end function
+ function ClpSolve_getPresolvePasses(solver) bind(C,name="ClpSolve_getPresolvePasses")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int) :: ClpSolve_getPresolvePasses
+ end function
+ function ClpSolve_getExtraInfo(solver,which) bind(C,name="ClpSolve_getExtraInfo")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int), value :: which
+ integer(c_int) :: ClpSolve_getExtraInfo
+ end function
+ subroutine ClpSolve_setInfeasibleReturn(solver,trueFalse) bind(C,name="ClpSolve_setInfeasibleReturn")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int), value ::trueFalse
+ end subroutine
+ function ClpSolve_infeasibleReturn(solver) bind(C,name="ClpSolve_infeasibleReturn")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int) :: ClpSolve_infeasibleReturn
+ end function
+ function ClpSolve_doDual(solver) bind(C,name="ClpSolve_doDual")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int) :: ClpSolve_doDual
+ end function
+ subroutine ClpSolve_setDoDual(solver,doDual) bind(C,name="ClpSolve_setDoDual")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int), value ::doDual
+ end subroutine
+ function ClpSolve_doSingleton(solver) bind(C,name="ClpSolve_doSingleton")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int) :: ClpSolve_doSingleton
+ end function
+ subroutine ClpSolve_setDoSingleton(solver,doSingleton) bind(C,name="ClpSolve_setDoSingleton")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int), value :: doSingleton
+ end subroutine
+ function ClpSolve_doDoubleton(solver) bind(C,name="ClpSolve_doDoubleton")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int) :: ClpSolve_doDoubleton
+ end function
+ subroutine ClpSolve_setDoDoubleton(solver,doDoubleton) bind(C,name="ClpSolve_setDoDoubleton")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int), value ::doDoubleton
+ end subroutine
+ function ClpSolve_doTripleton(solver) bind(C,name="ClpSolve_doTripleton")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int) :: ClpSolve_doTripleton
+ end function
+ subroutine ClpSolve_setDoTripleton(solver,doTripleton) bind(C,name="ClpSolve_setDoTripleton")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int), value ::doTripleton
+ end subroutine
+ function ClpSolve_doTighten(solver) bind(C,name="ClpSolve_doTighten")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int) :: ClpSolve_doTighten
+ end function
+ subroutine ClpSolve_setDoTighten(solver,doTighten) bind(C,name="ClpSolve_setDoTighten")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int), value ::doTighten
+ end subroutine
+ function ClpSolve_doForcing(solver) bind(C,name="ClpSolve_doForcing")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int) :: ClpSolve_doForcing
+ end function
+ subroutine ClpSolve_setDoForcing(solver,doForcing) bind(C,name="ClpSolve_setDoForcing")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int), value ::doForcing
+ end subroutine
+ function ClpSolve_doImpliedFree(solver) bind(C,name="ClpSolve_doImpliedFree")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int) :: ClpSolve_doImpliedFree
+ end function
+ subroutine ClpSolve_setDoImpliedFree(solver,doImpliedFree) bind(C,name="ClpSolve_setDoImpliedFree")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int), value :: doImpliedFree
+ end subroutine
+ function ClpSolve_doDupcol(solver) bind(C,name="ClpSolve_doDupcol")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int) :: ClpSolve_doDupcol
+ end function
+ subroutine ClpSolve_setDoDupcol(solver,doDupcol) bind(C,name="ClpSolve_setDoDupcol")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int), value ::doDupcol
+ end subroutine
+ function ClpSolve_doDuprow(solver) bind(C,name="ClpSolve_doDuprow")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int) :: ClpSolve_doDuprow
+ end function
+ subroutine ClpSolve_setDoDuprow(solver,doDuprow) bind(C,name="ClpSolve_setDoDuprow")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int), value ::doDuprow
+ end subroutine
+ function ClpSolve_doSingletonColumn(solver) bind(C,name="ClpSolve_doSingletonColumn")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int) :: ClpSolve_doSingletonColumn
+ end function
+ subroutine ClpSolve_setDoSingletonColumn(solver,doSingleton) bind(C,name="ClpSolve_setDoSingletonColumn")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int), value ::doSingleton
+ end subroutine
+ function ClpSolve_presolveActions(solver) bind(C,name="ClpSolve_presolveActions")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int) :: ClpSolve_presolveActions
+ end function
+ subroutine ClpSolve_setPresolveActions(solver,action) bind(C,name="ClpSolve_setPresolveActions")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int), value ::action
+ end subroutine
+ function ClpSolve_substitution(solver) bind(C,name="ClpSolve_substitution")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int) :: ClpSolve_substitution
+ end function
+ subroutine ClpSolve_setSubstitution(solver,value) bind(C,name="ClpSolve_setSubstitution")
+ use iso_c_binding
+ type(c_ptr), value :: solver
+ integer(c_int), value ::value
+ end subroutine
+ end interface
+end module clp