The MOSEK Python optimizer API manual Version 7.0 (Revision 141)
Optimizer API for Python - Documentation - Mosek Optimizer API for Python - Documentation - Mosek
554 APPENDIX D. API CONSTANTS callbackcode.update dual simplex bi The call-back function is called from within the basis identification procedure at an intermediate point in the dual simplex clean-up phase. The frequency of the call-backs is controlled by the iparam.log sim freq parameter. callbackcode.update network dual simplex The call-back function is called in the dual network simplex optimizer. callbackcode.update network primal simplex The call-back function is called in the primal network simplex optimizer. callbackcode.update nonconvex The call-back function is called at an intermediate stage within the nonconvex optimizer where the information database has been updated. callbackcode.update presolve The call-back function is called from within the presolve procedure. callbackcode.update primal bi The call-back function is called from within the basis identification procedure at an intermediate point in the primal phase. callbackcode.update primal dual simplex The call-back function is called in the primal-dual simplex optimizer. callbackcode.update primal dual simplex bi The call-back function is called from within the basis identification procedure at an intermediate point in the primal-dual simplex clean-up phase. The frequency of the call-backs is controlled by the iparam.log sim freq parameter. callbackcode.update primal simplex The call-back function is called in the primal simplex optimizer. callbackcode.update primal simplex bi The call-back function is called from within the basis identification procedure at an intermediate point in the primal simplex clean-up phase. The frequency of the call-backs is controlled by the iparam.log sim freq parameter. callbackcode.write opf The call-back function is called from the OPF writer.
D.6. TYPES OF CONVEXITY CHECKS. 555 D.6 Types of convexity checks. checkconvexitytype.none No convexity check. checkconvexitytype.simple Perform simple and fast convexity check. checkconvexitytype.full Perform a full convexity check. D.7 Compression types compresstype.none No compression is used. compresstype.free The type of compression used is chosen automatically. compresstype.gzip The type of compression used is gzip compatible. D.8 Cone types conetype.quad The cone is a quadratic cone. conetype.rquad The cone is a rotated quadratic cone. D.9 Data format types dataformat.extension The file extension is used to determine the data file format. dataformat.mps The data file is MPS formatted. dataformat.lp The data file is LP formatted.
- Page 525 and 526: B.2. IPARAM: INTEGER PARAMETERS 503
- Page 527 and 528: B.3. SPARAM: STRING PARAMETER TYPES
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- Page 537 and 538: Appendix C Response codes Response
- Page 539 and 540: 517 rescode.err con q not psd The q
- Page 541 and 542: 519 rescode.err global inv conic pr
- Page 543 and 544: 521 rescode.err inv markj Invalid v
- Page 545 and 546: 523 rescode.err invalid format type
- Page 547 and 548: 525 rescode.err license no server s
- Page 549 and 550: 527 rescode.err mio no optimizer No
- Page 551 and 552: 529 rescode.err name max len A name
- Page 553 and 554: 531 rescode.err numconlim Maximum n
- Page 555 and 556: 533 rescode.err qcon upper triangle
- Page 557 and 558: 535 rescode.err sym mat invalid col
- Page 559 and 560: 537 rescode.err user nlo func The u
- Page 561 and 562: 539 rescode.wrn ana almost int boun
- Page 563 and 564: 541 rescode.wrn mio infeasible fina
- Page 565 and 566: 543 rescode.wrn write discarded cfi
- Page 567 and 568: Appendix D API constants D.1 Constr
- Page 569 and 570: D.5. PROGRESS CALL-BACK CODES 547 c
- Page 571 and 572: D.5. PROGRESS CALL-BACK CODES 549 c
- Page 573 and 574: D.5. PROGRESS CALL-BACK CODES 551 c
- Page 575: D.5. PROGRESS CALL-BACK CODES 553 c
- Page 579 and 580: D.10. DOUBLE INFORMATION ITEMS 557
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- Page 583 and 584: D.11. FEASIBILITY REPAIR TYPES 561
- Page 585 and 586: D.13. INTEGER INFORMATION ITEMS. 56
- Page 587 and 588: D.13. INTEGER INFORMATION ITEMS. 56
- Page 589 and 590: D.13. INTEGER INFORMATION ITEMS. 56
- Page 591 and 592: D.16. INPUT/OUTPUT MODES 569 intpnt
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- Page 595 and 596: D.26. OBJECTIVE SENSE TYPES 573 D.2
- Page 597 and 598: D.31. PRESOLVE METHOD. 575 paramete
- Page 599 and 600: D.35. RESPONSE CODE TYPE 577 D.35 R
- Page 601 and 602: D.42. PROBLEM REFORMULATION. 579 si
- Page 603 and 604: D.46. SOLUTION TYPES 581 solsta.dua
- Page 605 and 606: D.50. STREAM TYPES 583 startpointty
- Page 607 and 608: Appendix E Troubleshooting When cre
- Page 609 and 610: Appendix F Mosek file formats MOSEK
- Page 611 and 612: F.1. THE MPS FILE FORMAT 589 Fields
- Page 613 and 614: F.1. THE MPS FILE FORMAT 591 must b
- Page 615 and 616: F.1. THE MPS FILE FORMAT 593 Constr
- Page 617 and 618: F.1. THE MPS FILE FORMAT 595 v 1 is
- Page 619 and 620: F.1. THE MPS FILE FORMAT 597 Please
- Page 621 and 622: F.2. THE LP FILE FORMAT 599 minimiz
- Page 623 and 624: F.2. THE LP FILE FORMAT 601 st defi
- Page 625 and 626: F.2. THE LP FILE FORMAT 603 bounds
554 APPENDIX D. <strong>API</strong> CONSTANTS<br />
callbackcode.update dual simplex bi<br />
<strong>The</strong> call-back function is called from within the basis identification procedure at an intermediate<br />
point in the dual simplex clean-up phase. <strong>The</strong> frequency of the call-backs is controlled by the<br />
iparam.log sim freq parameter.<br />
callbackcode.update network dual simplex<br />
<strong>The</strong> call-back function is called in the dual network simplex <strong>optimizer</strong>.<br />
callbackcode.update network primal simplex<br />
<strong>The</strong> call-back function is called in the primal network simplex <strong>optimizer</strong>.<br />
callbackcode.update nonconvex<br />
<strong>The</strong> call-back function is called at an intermediate stage within the nonconvex <strong>optimizer</strong> where<br />
the information database has been updated.<br />
callbackcode.update presolve<br />
<strong>The</strong> call-back function is called from within the presolve procedure.<br />
callbackcode.update primal bi<br />
<strong>The</strong> call-back function is called from within the basis identification procedure at an intermediate<br />
point in the primal phase.<br />
callbackcode.update primal dual simplex<br />
<strong>The</strong> call-back function is called in the primal-dual simplex <strong>optimizer</strong>.<br />
callbackcode.update primal dual simplex bi<br />
<strong>The</strong> call-back function is called from within the basis identification procedure at an intermediate<br />
point in the primal-dual simplex clean-up phase. <strong>The</strong> frequency of the call-backs is controlled<br />
by the iparam.log sim freq parameter.<br />
callbackcode.update primal simplex<br />
<strong>The</strong> call-back function is called in the primal simplex <strong>optimizer</strong>.<br />
callbackcode.update primal simplex bi<br />
<strong>The</strong> call-back function is called from within the basis identification procedure at an intermediate<br />
point in the primal simplex clean-up phase. <strong>The</strong> frequency of the call-backs is controlled by the<br />
iparam.log sim freq parameter.<br />
callbackcode.write opf<br />
<strong>The</strong> call-back function is called from the OPF writer.