The Conley-Morse Graphs Software
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Parameters for a sample map with two circles on a torus. More...
Go to the source code of this file.
Namespaces | |
namespace | custom |
Customizable settings that are supposed to be modified and/or chosen by the user of the software. | |
namespace | custom::twotorus |
Parameters for sample computations for the 2-dimensional Leslie population model with 2 varying parameters. | |
Variables | |
const int | custom::twotorus::spaceDim = 2 |
The dimension of the phase space. More... | |
const bool | custom::twotorus::spaceWrapping [spaceDim] = {true, true} |
Is space wrapping (a.k.a. More... | |
const int | custom::twotorus::initialDepth = 6 |
The initial depth of subdivisions in the phase space. More... | |
const int | custom::twotorus::finalDepth = 6 |
The final depth of subdivisions in the phase space. More... | |
const int | custom::twotorus::paramDim = 1 |
The dimension of the parameter space to iterate. More... | |
const short int | custom::twotorus::paramSubdiv [paramDim] = {2} |
The numbers of subintervals in each direction of the parameter space. More... | |
const int | custom::twotorus::paramSelect [paramDim] = {0} |
The numbers of parameters to subdivide. More... | |
const int | custom::twotorus::paramCount = 1 |
The number of all the parameters, both varying and fixed. More... | |
const double | custom::twotorus::paramLeft [paramCount] = {0.1} |
The left bounds on the parameters. More... | |
const double | custom::twotorus::paramRight [paramCount] = {2.1} |
The right bounds on the parameters. More... | |
const double | custom::twotorus::spaceOffset [spaceDim] = {0, 0} |
An array which keeps the offset of the rectangular area in the phase space that contains the invariant sets of interest. More... | |
const double | custom::twotorus::spaceWidth [spaceDim] = {1, 1} |
An array which keeps the width of the rectangular area in the phase space that contains the invariant sets of interest. More... | |
const int | custom::twotorus::refineDepth = 3 |
The number of refinements that should be done if a Morse set with the trivial index is encountered or if the image of a Morse set sticks out of the rectangular region to which the computations are restricted. More... | |
const int | custom::twotorus::maxRefineSize0 = 200000 |
The maximal allowed size of a set of cubes in the phase space which can be refined at the initial subdivision level. More... | |
const int | custom::twotorus::maxRefineSize1 = 20000 |
The maximal allowed size of a set of cubes in the phase space which can be refined at the subsequent subdivision levels. More... | |
const int | custom::twotorus::maxImageDiameter = 2000 |
The maximal allowed diameter of the cubical image of a signle box. More... | |
const int | custom::twotorus::maxImageVolume = 4000 |
The maximal allowed volume of the cubical image of a single box. More... | |
const int | custom::twotorus::maxIndexPairSize = 1200000 |
The maximal allowed size of the index pair. More... | |
const int | custom::twotorus::maxJoinSize = 0 |
The maximal number of cubes in a trivial Morse set for which an attempt is made to join this set with another near-by Morse set. More... | |
const int | custom::twotorus::maxJoinConnection = 1000 |
The maximal size of a connecting orbit between two Morse sets which can be considered for joining. More... | |
const int | custom::twotorus::maxJoinDistance = 100 |
The maximal allowed distance between two Morse sets which can be considered for joining. More... | |
const bool | custom::twotorus::compareMorseOrdering = true |
Should the ordering between the Morse sets be taken into consideration while determining whether two Morse decompositions computed for adjacent parameter boxes are in the same class? More... | |
const bool | custom::twotorus::ignoreIsolationForContinuation = true |
Ignoring the isolation problem while matching Morse decompositions. More... | |
const bool | custom::twotorus::ignoreIsolationForConleyIndex = false |
Ignoring the isolation problem while computing the Conley index. More... | |
Parameters for a sample map with two circles on a torus.
Definition in file p_twotorus.h.