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1 | 1 |
SET(PACKAGE_NAME ${PROJECT_NAME}) |
2 | 2 |
SET(PACKAGE_VERSION ${PROJECT_VERSION}) |
3 | 3 |
SET(abs_top_srcdir ${PROJECT_SOURCE_DIR}) |
4 | 4 |
SET(abs_top_builddir ${PROJECT_BINARY_DIR}) |
5 | 5 |
|
6 | 6 |
CONFIGURE_FILE( |
7 | 7 |
${PROJECT_SOURCE_DIR}/doc/Doxyfile.in |
8 | 8 |
${PROJECT_BINARY_DIR}/doc/Doxyfile |
9 | 9 |
@ONLY |
10 | 10 |
) |
11 | 11 |
|
12 | 12 |
IF(DOXYGEN_EXECUTABLE AND PYTHONINTERP_FOUND AND GHOSTSCRIPT_EXECUTABLE) |
13 | 13 |
FILE(MAKE_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}/html/) |
14 | 14 |
SET(GHOSTSCRIPT_OPTIONS -dNOPAUSE -dBATCH -q -dEPSCrop -dTextAlphaBits=4 -dGraphicsAlphaBits=4 -sDEVICE=pngalpha) |
15 | 15 |
ADD_CUSTOM_TARGET(html |
16 | 16 |
COMMAND ${CMAKE_COMMAND} -E remove_directory gen-images |
17 | 17 |
COMMAND ${CMAKE_COMMAND} -E make_directory gen-images |
18 | 18 |
COMMAND ${GHOSTSCRIPT_EXECUTABLE} ${GHOSTSCRIPT_OPTIONS} -r18 -sOutputFile=gen-images/bipartite_matching.png ${CMAKE_CURRENT_SOURCE_DIR}/images/bipartite_matching.eps |
19 | 19 |
COMMAND ${GHOSTSCRIPT_EXECUTABLE} ${GHOSTSCRIPT_OPTIONS} -r18 -sOutputFile=gen-images/bipartite_partitions.png ${CMAKE_CURRENT_SOURCE_DIR}/images/bipartite_partitions.eps |
20 | 20 |
COMMAND ${GHOSTSCRIPT_EXECUTABLE} ${GHOSTSCRIPT_OPTIONS} -r18 -sOutputFile=gen-images/connected_components.png ${CMAKE_CURRENT_SOURCE_DIR}/images/connected_components.eps |
21 | 21 |
COMMAND ${GHOSTSCRIPT_EXECUTABLE} ${GHOSTSCRIPT_OPTIONS} -r18 -sOutputFile=gen-images/edge_biconnected_components.png ${CMAKE_CURRENT_SOURCE_DIR}/images/edge_biconnected_components.eps |
22 | 22 |
COMMAND ${GHOSTSCRIPT_EXECUTABLE} ${GHOSTSCRIPT_OPTIONS} -r18 -sOutputFile=gen-images/grid_graph.png ${CMAKE_CURRENT_SOURCE_DIR}/images/grid_graph.eps |
23 |
COMMAND ${GHOSTSCRIPT_EXECUTABLE} ${GHOSTSCRIPT_OPTIONS} -r18 -sOutputFile=gen-images/matching.png ${CMAKE_CURRENT_SOURCE_DIR}/images/matching.eps |
|
23 | 24 |
COMMAND ${GHOSTSCRIPT_EXECUTABLE} ${GHOSTSCRIPT_OPTIONS} -r18 -sOutputFile=gen-images/node_biconnected_components.png ${CMAKE_CURRENT_SOURCE_DIR}/images/node_biconnected_components.eps |
24 | 25 |
COMMAND ${GHOSTSCRIPT_EXECUTABLE} ${GHOSTSCRIPT_OPTIONS} -r18 -sOutputFile=gen-images/nodeshape_0.png ${CMAKE_CURRENT_SOURCE_DIR}/images/nodeshape_0.eps |
25 | 26 |
COMMAND ${GHOSTSCRIPT_EXECUTABLE} ${GHOSTSCRIPT_OPTIONS} -r18 -sOutputFile=gen-images/nodeshape_1.png ${CMAKE_CURRENT_SOURCE_DIR}/images/nodeshape_1.eps |
26 | 27 |
COMMAND ${GHOSTSCRIPT_EXECUTABLE} ${GHOSTSCRIPT_OPTIONS} -r18 -sOutputFile=gen-images/nodeshape_2.png ${CMAKE_CURRENT_SOURCE_DIR}/images/nodeshape_2.eps |
27 | 28 |
COMMAND ${GHOSTSCRIPT_EXECUTABLE} ${GHOSTSCRIPT_OPTIONS} -r18 -sOutputFile=gen-images/nodeshape_3.png ${CMAKE_CURRENT_SOURCE_DIR}/images/nodeshape_3.eps |
28 | 29 |
COMMAND ${GHOSTSCRIPT_EXECUTABLE} ${GHOSTSCRIPT_OPTIONS} -r18 -sOutputFile=gen-images/nodeshape_4.png ${CMAKE_CURRENT_SOURCE_DIR}/images/nodeshape_4.eps |
29 | 30 |
COMMAND ${GHOSTSCRIPT_EXECUTABLE} ${GHOSTSCRIPT_OPTIONS} -r18 -sOutputFile=gen-images/planar.png ${CMAKE_CURRENT_SOURCE_DIR}/images/planar.eps |
30 | 31 |
COMMAND ${GHOSTSCRIPT_EXECUTABLE} ${GHOSTSCRIPT_OPTIONS} -r18 -sOutputFile=gen-images/strongly_connected_components.png ${CMAKE_CURRENT_SOURCE_DIR}/images/strongly_connected_components.eps |
31 | 32 |
COMMAND ${CMAKE_COMMAND} -E remove_directory html |
32 | 33 |
COMMAND ${PYTHON_EXECUTABLE} ${PROJECT_SOURCE_DIR}/scripts/bib2dox.py ${CMAKE_CURRENT_SOURCE_DIR}/references.bib >references.dox |
33 | 34 |
COMMAND ${DOXYGEN_EXECUTABLE} Doxyfile |
34 | 35 |
WORKING_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR} |
35 | 36 |
) |
36 | 37 |
|
37 | 38 |
SET_TARGET_PROPERTIES(html PROPERTIES PROJECT_LABEL BUILD_DOC) |
38 | 39 |
|
39 | 40 |
IF(UNIX) |
40 | 41 |
INSTALL( |
41 | 42 |
DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}/html/ |
42 | 43 |
DESTINATION share/doc/lemon/html |
43 | 44 |
COMPONENT html_documentation |
44 | 45 |
) |
45 | 46 |
ELSEIF(WIN32) |
46 | 47 |
INSTALL( |
47 | 48 |
DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}/html/ |
48 | 49 |
DESTINATION doc |
49 | 50 |
COMPONENT html_documentation |
50 | 51 |
) |
51 | 52 |
ENDIF() |
52 | 53 |
|
53 | 54 |
ENDIF() |
1 | 1 |
EXTRA_DIST += \ |
2 | 2 |
doc/Doxyfile.in \ |
3 | 3 |
doc/DoxygenLayout.xml \ |
4 | 4 |
doc/coding_style.dox \ |
5 | 5 |
doc/dirs.dox \ |
6 | 6 |
doc/groups.dox \ |
7 | 7 |
doc/lgf.dox \ |
8 | 8 |
doc/license.dox \ |
9 | 9 |
doc/mainpage.dox \ |
10 | 10 |
doc/migration.dox \ |
11 | 11 |
doc/min_cost_flow.dox \ |
12 | 12 |
doc/named-param.dox \ |
13 | 13 |
doc/namespaces.dox \ |
14 | 14 |
doc/html \ |
15 | 15 |
doc/CMakeLists.txt |
16 | 16 |
|
17 | 17 |
DOC_EPS_IMAGES18 = \ |
18 | 18 |
grid_graph.eps \ |
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nodeshape_0.eps \ |
20 | 20 |
nodeshape_1.eps \ |
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nodeshape_2.eps \ |
22 | 22 |
nodeshape_3.eps \ |
23 | 23 |
nodeshape_4.eps |
24 | 24 |
|
25 | 25 |
DOC_EPS_IMAGES27 = \ |
26 | 26 |
bipartite_matching.eps \ |
27 | 27 |
bipartite_partitions.eps \ |
28 | 28 |
connected_components.eps \ |
29 | 29 |
edge_biconnected_components.eps \ |
30 |
matching.eps \ |
|
30 | 31 |
node_biconnected_components.eps \ |
31 | 32 |
planar.eps \ |
32 | 33 |
strongly_connected_components.eps |
33 | 34 |
|
34 | 35 |
DOC_EPS_IMAGES = \ |
35 | 36 |
$(DOC_EPS_IMAGES18) \ |
36 | 37 |
$(DOC_EPS_IMAGES27) |
37 | 38 |
|
38 | 39 |
DOC_PNG_IMAGES = \ |
39 | 40 |
$(DOC_EPS_IMAGES:%.eps=doc/gen-images/%.png) |
40 | 41 |
|
41 | 42 |
EXTRA_DIST += $(DOC_EPS_IMAGES:%=doc/images/%) |
42 | 43 |
|
43 | 44 |
doc/html: |
44 | 45 |
$(MAKE) $(AM_MAKEFLAGS) html |
45 | 46 |
|
46 | 47 |
GS_COMMAND=gs -dNOPAUSE -dBATCH -q -dEPSCrop -dTextAlphaBits=4 -dGraphicsAlphaBits=4 |
47 | 48 |
|
48 | 49 |
$(DOC_EPS_IMAGES18:%.eps=doc/gen-images/%.png): doc/gen-images/%.png: doc/images/%.eps |
49 | 50 |
-mkdir doc/gen-images |
50 | 51 |
if test ${gs_found} = yes; then \ |
51 | 52 |
$(GS_COMMAND) -sDEVICE=pngalpha -r18 -sOutputFile=$@ $<; \ |
52 | 53 |
else \ |
53 | 54 |
echo; \ |
54 | 55 |
echo "Ghostscript not found."; \ |
55 | 56 |
echo; \ |
56 | 57 |
exit 1; \ |
57 | 58 |
fi |
58 | 59 |
|
59 | 60 |
$(DOC_EPS_IMAGES27:%.eps=doc/gen-images/%.png): doc/gen-images/%.png: doc/images/%.eps |
60 | 61 |
-mkdir doc/gen-images |
61 | 62 |
if test ${gs_found} = yes; then \ |
62 | 63 |
$(GS_COMMAND) -sDEVICE=pngalpha -r27 -sOutputFile=$@ $<; \ |
63 | 64 |
else \ |
64 | 65 |
echo; \ |
65 | 66 |
echo "Ghostscript not found."; \ |
66 | 67 |
echo; \ |
67 | 68 |
exit 1; \ |
68 | 69 |
fi |
69 | 70 |
|
70 | 71 |
references.dox: doc/references.bib |
71 | 72 |
if test ${python_found} = yes; then \ |
72 | 73 |
cd doc; \ |
73 | 74 |
python @abs_top_srcdir@/scripts/bib2dox.py @abs_top_builddir@/$< >$@; \ |
74 | 75 |
cd ..; \ |
75 | 76 |
else \ |
76 | 77 |
echo; \ |
77 | 78 |
echo "Python not found."; \ |
78 | 79 |
echo; \ |
79 | 80 |
exit 1; \ |
80 | 81 |
fi |
81 | 82 |
|
82 | 83 |
html-local: $(DOC_PNG_IMAGES) references.dox |
83 | 84 |
if test ${doxygen_found} = yes; then \ |
84 | 85 |
cd doc; \ |
85 | 86 |
doxygen Doxyfile; \ |
86 | 87 |
cd ..; \ |
87 | 88 |
else \ |
88 | 89 |
echo; \ |
89 | 90 |
echo "Doxygen not found."; \ |
90 | 91 |
echo; \ |
91 | 92 |
exit 1; \ |
92 | 93 |
fi |
93 | 94 |
... | ... |
@@ -462,130 +462,130 @@ |
462 | 462 |
of minimum mean length (cost) in a digraph. |
463 | 463 |
The mean length of a cycle is the average length of its arcs, i.e. the |
464 | 464 |
ratio between the total length of the cycle and the number of arcs on it. |
465 | 465 |
|
466 | 466 |
This problem has an important connection to \e conservative \e length |
467 | 467 |
\e functions, too. A length function on the arcs of a digraph is called |
468 | 468 |
conservative if and only if there is no directed cycle of negative total |
469 | 469 |
length. For an arbitrary length function, the negative of the minimum |
470 | 470 |
cycle mean is the smallest \f$\epsilon\f$ value so that increasing the |
471 | 471 |
arc lengths uniformly by \f$\epsilon\f$ results in a conservative length |
472 | 472 |
function. |
473 | 473 |
|
474 | 474 |
LEMON contains three algorithms for solving the minimum mean cycle problem: |
475 | 475 |
- \ref Karp "Karp"'s original algorithm \ref amo93networkflows, |
476 | 476 |
\ref dasdan98minmeancycle. |
477 | 477 |
- \ref HartmannOrlin "Hartmann-Orlin"'s algorithm, which is an improved |
478 | 478 |
version of Karp's algorithm \ref dasdan98minmeancycle. |
479 | 479 |
- \ref Howard "Howard"'s policy iteration algorithm |
480 | 480 |
\ref dasdan98minmeancycle. |
481 | 481 |
|
482 | 482 |
In practice, the Howard algorithm proved to be by far the most efficient |
483 | 483 |
one, though the best known theoretical bound on its running time is |
484 | 484 |
exponential. |
485 | 485 |
Both Karp and HartmannOrlin algorithms run in time O(ne) and use space |
486 | 486 |
O(n<sup>2</sup>+e), but the latter one is typically faster due to the |
487 | 487 |
applied early termination scheme. |
488 | 488 |
*/ |
489 | 489 |
|
490 | 490 |
/** |
491 | 491 |
@defgroup matching Matching Algorithms |
492 | 492 |
@ingroup algs |
493 | 493 |
\brief Algorithms for finding matchings in graphs and bipartite graphs. |
494 | 494 |
|
495 | 495 |
This group contains the algorithms for calculating |
496 | 496 |
matchings in graphs and bipartite graphs. The general matching problem is |
497 | 497 |
finding a subset of the edges for which each node has at most one incident |
498 | 498 |
edge. |
499 | 499 |
|
500 | 500 |
There are several different algorithms for calculate matchings in |
501 | 501 |
graphs. The matching problems in bipartite graphs are generally |
502 | 502 |
easier than in general graphs. The goal of the matching optimization |
503 | 503 |
can be finding maximum cardinality, maximum weight or minimum cost |
504 | 504 |
matching. The search can be constrained to find perfect or |
505 | 505 |
maximum cardinality matching. |
506 | 506 |
|
507 | 507 |
The matching algorithms implemented in LEMON: |
508 | 508 |
- \ref MaxBipartiteMatching Hopcroft-Karp augmenting path algorithm |
509 | 509 |
for calculating maximum cardinality matching in bipartite graphs. |
510 | 510 |
- \ref PrBipartiteMatching Push-relabel algorithm |
511 | 511 |
for calculating maximum cardinality matching in bipartite graphs. |
512 | 512 |
- \ref MaxWeightedBipartiteMatching |
513 | 513 |
Successive shortest path algorithm for calculating maximum weighted |
514 | 514 |
matching and maximum weighted bipartite matching in bipartite graphs. |
515 | 515 |
- \ref MinCostMaxBipartiteMatching |
516 | 516 |
Successive shortest path algorithm for calculating minimum cost maximum |
517 | 517 |
matching in bipartite graphs. |
518 | 518 |
- \ref MaxMatching Edmond's blossom shrinking algorithm for calculating |
519 | 519 |
maximum cardinality matching in general graphs. |
520 | 520 |
- \ref MaxWeightedMatching Edmond's blossom shrinking algorithm for calculating |
521 | 521 |
maximum weighted matching in general graphs. |
522 | 522 |
- \ref MaxWeightedPerfectMatching |
523 | 523 |
Edmond's blossom shrinking algorithm for calculating maximum weighted |
524 | 524 |
perfect matching in general graphs. |
525 | 525 |
|
526 |
\image html bipartite_matching.png |
|
527 |
\image latex bipartite_matching.eps "Bipartite Matching" width=\textwidth |
|
526 |
\image html matching.png |
|
527 |
\image latex matching.eps "Bipartite Matching" width=\textwidth |
|
528 | 528 |
*/ |
529 | 529 |
|
530 | 530 |
/** |
531 | 531 |
@defgroup graph_properties Connectivity and Other Graph Properties |
532 | 532 |
@ingroup algs |
533 | 533 |
\brief Algorithms for discovering the graph properties |
534 | 534 |
|
535 | 535 |
This group contains the algorithms for discovering the graph properties |
536 | 536 |
like connectivity, bipartiteness, euler property, simplicity etc. |
537 | 537 |
|
538 | 538 |
\image html connected_components.png |
539 | 539 |
\image latex connected_components.eps "Connected components" width=\textwidth |
540 | 540 |
*/ |
541 | 541 |
|
542 | 542 |
/** |
543 | 543 |
@defgroup planar Planarity Embedding and Drawing |
544 | 544 |
@ingroup algs |
545 | 545 |
\brief Algorithms for planarity checking, embedding and drawing |
546 | 546 |
|
547 | 547 |
This group contains the algorithms for planarity checking, |
548 | 548 |
embedding and drawing. |
549 | 549 |
|
550 | 550 |
\image html planar.png |
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\image latex planar.eps "Plane graph" width=\textwidth |
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*/ |
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|
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/** |
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@defgroup approx Approximation Algorithms |
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@ingroup algs |
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\brief Approximation algorithms. |
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|
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This group contains the approximation and heuristic algorithms |
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implemented in LEMON. |
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*/ |
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|
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/** |
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@defgroup auxalg Auxiliary Algorithms |
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@ingroup algs |
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\brief Auxiliary algorithms implemented in LEMON. |
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|
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This group contains some algorithms implemented in LEMON |
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in order to make it easier to implement complex algorithms. |
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*/ |
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|
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/** |
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@defgroup gen_opt_group General Optimization Tools |
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\brief This group contains some general optimization frameworks |
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implemented in LEMON. |
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|
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This group contains some general optimization frameworks |
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implemented in LEMON. |
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*/ |
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|
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/** |
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@defgroup lp_group LP and MIP Solvers |
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@ingroup gen_opt_group |
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\brief LP and MIP solver interfaces for LEMON. |
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|
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This group contains LP and MIP solver interfaces for LEMON. |
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Various LP solvers could be used in the same manner with this |
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high-level interface. |
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|
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The currently supported solvers are \ref glpk, \ref clp, \ref cbc, |
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\ref cplex, \ref soplex. |
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