src/ten/enumsTen.c File Reference

#include "ten.h"
#include "privateTen.h"

Include dependency graph for enumsTen.c:

Defines
#define	BOX   tenGlyphTypeBox
#define	SPH   tenGlyphTypeSphere
#define	CYL   tenGlyphTypeCylinder
#define	SQD   tenGlyphTypeSuperquad
Variables
char	_tenAnisoStr [TEN_ANISO_MAX+1][AIR_STRLEN_SMALL]
airEnum	_tenAniso
airEnum *	tenAniso = &_tenAniso
char	_tenInterpTypeStr [TEN_INTERP_TYPE_MAX+1][AIR_STRLEN_SMALL]
char	_tenInterpTypeStrEqv [][AIR_STRLEN_SMALL]
int	_tenInterpTypeValEqv []
airEnum	_tenInterpType
airEnum *	tenInterpType = &_tenInterpType
char	_tenGageStr [][AIR_STRLEN_SMALL]
char	_tenGageDesc [][AIR_STRLEN_MED]
int	_tenGageVal []
char	_tenGageStrEqv [][AIR_STRLEN_SMALL]
int	_tenGageValEqv []
airEnum	_tenGage
airEnum *	tenGage = &_tenGage
char	_tenFiberTypeStr [][AIR_STRLEN_SMALL]
char	_tenFiberTypeDesc [][AIR_STRLEN_MED]
char	_tenFiberTypeStrEqv [][AIR_STRLEN_SMALL]
int	_tenFiberTypeValEqv []
airEnum	_tenFiberType
airEnum *	tenFiberType = &_tenFiberType
char	_tenDwiFiberTypeStr [][AIR_STRLEN_SMALL]
char	_tenDwiFiberTypeDesc [][AIR_STRLEN_MED]
char	_tenDwiFiberTypeStrEqv [][AIR_STRLEN_SMALL]
int	_tenDwiFiberTypeValEqv []
airEnum	_tenDwiFiberType
airEnum *	tenDwiFiberType = &_tenDwiFiberType
char	_tenFiberStopStr [][AIR_STRLEN_SMALL]
char	_tenFiberStopStrEqv [][AIR_STRLEN_SMALL]
int	_tenFiberStopValEqv []
char	_tenFiberStopDesc [][AIR_STRLEN_MED]
airEnum	_tenFiberStop
airEnum *	tenFiberStop = &_tenFiberStop
char	_tenFiberIntgStr [][AIR_STRLEN_SMALL]
char	_tenFiberIntgStrEqv [][AIR_STRLEN_SMALL]
int	_tenFiberIntgValEqv []
char	_tenFiberIntgDesc [][AIR_STRLEN_MED]
airEnum	_tenFiberIntg
airEnum *	tenFiberIntg = &_tenFiberIntg
char	_tenGlyphTypeStr [][AIR_STRLEN_SMALL]
char	_tenGlyphTypeStrEqv [][AIR_STRLEN_SMALL]
int	_tenGlyphTypeValEqv []
char	_tenGlyphTypeDesc [][AIR_STRLEN_MED]
airEnum	_tenGlyphType
airEnum *	tenGlyphType = &_tenGlyphType
char	_tenEstimate1MethodStr [][AIR_STRLEN_SMALL]
char	_tenEstimate1MethodDesc [][AIR_STRLEN_MED]
airEnum	_tenEstimate1Method
airEnum *	tenEstimate1Method = &_tenEstimate1Method
char	_tenEstimate2MethodStr [][AIR_STRLEN_SMALL]
char	_tenEstimate2MethodDesc [][AIR_STRLEN_MED]
airEnum	_tenEstimate2Method
airEnum *	tenEstimate2Method = &_tenEstimate2Method
char	_tenTripleTypeStr [][AIR_STRLEN_SMALL]
char	_tenTripleTypeDesc [][AIR_STRLEN_MED]
char	_tenTripleTypeStrEqv [][AIR_STRLEN_SMALL]
int	_tenTripleTypeValEqv []
airEnum	_tenTripleType
airEnum *	tenTripleType = &_tenTripleType

---

Define Documentation

#define BOX   tenGlyphTypeBox

#define CYL   tenGlyphTypeCylinder

#define SPH   tenGlyphTypeSphere

#define SQD   tenGlyphTypeSuperquad

---

Variable Documentation

airEnum _tenAniso

Initial value:

 {
  "anisotropy metric",
  TEN_ANISO_MAX,
  _tenAnisoStr,  NULL,
  NULL,
  NULL, NULL,
  AIR_FALSE
}

char _tenAnisoStr[TEN_ANISO_MAX+1][AIR_STRLEN_SMALL]

airEnum _tenDwiFiberType

Initial value:

 {
  "tenDwiFiberType",
  TEN_DWI_FIBER_TYPE_MAX,
  _tenDwiFiberTypeStr, NULL,
  _tenDwiFiberTypeDesc,
  _tenDwiFiberTypeStrEqv, _tenDwiFiberTypeValEqv,
  AIR_FALSE
}

char _tenDwiFiberTypeDesc[][AIR_STRLEN_MED]

Initial value:

 {
  "unknown tenDwiFiber type",
  "single tensor evec0-based",
  "two-tensor evec0-based",
  "parameterized blend between 1- and 2-tensor fits"
}

char _tenDwiFiberTypeStr[][AIR_STRLEN_SMALL]

Initial value:

 {
  "(unknown tenDwiFiberType)",
  "1evec0",
  "2evec0",
  "12BlendEvec0"
}

char _tenDwiFiberTypeStrEqv[][AIR_STRLEN_SMALL]

Initial value:

 {
  "1evec0", "1e0",
  "2evec0", "2e0",
  "12BlendEvec0", "12be0",
  ""
}

int _tenDwiFiberTypeValEqv[]

Initial value:

 {
  tenDwiFiberType1Evec0, tenDwiFiberType1Evec0,
  tenDwiFiberType2Evec0, tenDwiFiberType2Evec0,
  tenDwiFiberType12BlendEvec0, tenDwiFiberType12BlendEvec0
}

airEnum _tenEstimate1Method

Initial value:

 {
  "single-tensor-estimation",
  TEN_ESTIMATE_1_METHOD_MAX,
  _tenEstimate1MethodStr, NULL,
  _tenEstimate1MethodDesc,
  NULL, NULL,
  AIR_FALSE
}

char _tenEstimate1MethodDesc[][AIR_STRLEN_MED]

Initial value:

 {
  "unknown tenEstimate1Method",
  "linear least-squares fit of log(DWI)",
  "weighted least-squares fit of log(DWI)",
  "non-linear least-squares fit of DWI",
  "maximum likelihood estimate from DWI"
}

char _tenEstimate1MethodStr[][AIR_STRLEN_SMALL]

Initial value:

 {
  "(unknown tenEstimate1Method)",
  "LLS",
  "WLS",
  "NLS",
  "MLE"
}

airEnum _tenEstimate2Method

Initial value:

 {
  "two-tensor-estimation",
  TEN_ESTIMATE_2_METHOD_MAX,
  _tenEstimate2MethodStr, NULL,
  _tenEstimate2MethodDesc,
  NULL, NULL,
  AIR_FALSE
}

char _tenEstimate2MethodDesc[][AIR_STRLEN_MED]

Initial value:

 {
  "unknown tenEstimate2Method",
  "Q-ball segmentation",
  "Peled"
}

char _tenEstimate2MethodStr[][AIR_STRLEN_SMALL]

Initial value:

 {
  "(unknown tenEstimate2Method)",
  "QSegLLS",
  "Peled"
}

airEnum _tenFiberIntg

Initial value:

 {
  "fiber integration method",
  TEN_FIBER_INTG_MAX,
  _tenFiberIntgStr, NULL,
  _tenFiberIntgDesc,
  _tenFiberIntgStrEqv, _tenFiberIntgValEqv, 
  AIR_FALSE
}

char _tenFiberIntgDesc[][AIR_STRLEN_MED]

Initial value:

 {
  "unknown tenFiber intg",
  "plain Euler",
  "midpoint method, 2nd order Runge-Kutta",
  "4rth order Runge-Kutta"
}

char _tenFiberIntgStr[][AIR_STRLEN_SMALL]

Initial value:

 {
  "(unknown tenFiberIntg)",
  "euler",
  "midpoint",
  "rk4"
}

char _tenFiberIntgStrEqv[][AIR_STRLEN_SMALL]

Initial value:

 {
  "euler",
  "midpoint", "rk2",
  "rk4",
  ""
}

int _tenFiberIntgValEqv[]

Initial value:

 {
  tenFiberIntgEuler,
  tenFiberIntgMidpoint, tenFiberIntgMidpoint,
  tenFiberIntgRK4
}

airEnum _tenFiberStop

Initial value:

 {
  "fiber stopping criteria",
  TEN_FIBER_STOP_MAX,
  _tenFiberStopStr, NULL,
  _tenFiberStopDesc,
  _tenFiberStopStrEqv, _tenFiberStopValEqv, 
  AIR_FALSE
}

char _tenFiberStopDesc[][AIR_STRLEN_MED]

Initial value:

 {
  "unknown tenFiber stop",
  "anisotropy went below threshold",
  "fiber length exceeded normalcy bounds",
  "number of steps along fiber too many",
  "tensor \"confidence\" value too low",
  "radius of curvature of path got too small",
  "fiber went outside bounding box",
  "fractional constituency of tracked tensor got too small",
  "neither fiber half got anywhere; fiber has single vert",
  "whole fiber has insufficient length",
  "whole fiber has too few numbers of steps"
}

char _tenFiberStopStr[][AIR_STRLEN_SMALL]

Initial value:

 {
  "(unknown tenFiberStop)",
  "aniso",
  "length",
  "steps",
  "confidence",
  "radius",
  "bounds",
  "fraction",
  "stub",
  "minlen",
  "minsteps",
}

char _tenFiberStopStrEqv[][AIR_STRLEN_SMALL]

Initial value:

 {
  "aniso",
  "length", "len",
  "steps",
  "confidence", "conf", "c",
  "radius",
  "bounds",
  "fraction", "frac", "f",
  "stub",
  "minlen", "minlength",
  "minsteps", "minnumsteps",
  ""
}

int _tenFiberStopValEqv[]

Initial value:

 {
  tenFiberStopAniso,
  tenFiberStopLength, tenFiberStopLength,
  tenFiberStopNumSteps,
  tenFiberStopConfidence, tenFiberStopConfidence, tenFiberStopConfidence,
  tenFiberStopRadius,
  tenFiberStopBounds,
  tenFiberStopFraction, tenFiberStopFraction, tenFiberStopFraction, 
  tenFiberStopStub,
  tenFiberStopMinLength, tenFiberStopMinLength,
  tenFiberStopMinNumSteps, tenFiberStopMinNumSteps,
}

airEnum _tenFiberType

Initial value:

 {
  "tenFiberType",
  TEN_FIBER_TYPE_MAX,
  _tenFiberTypeStr, NULL,
  _tenFiberTypeDesc,
  _tenFiberTypeStrEqv, _tenFiberTypeValEqv,
  AIR_FALSE
}

char _tenFiberTypeDesc[][AIR_STRLEN_MED]

Initial value:

 {
  "unknown tenFiber type",
  "simply follow principal eigenvector",
  "follow medium eigenvector",
  "follow minor eigenvector",
  "Weinstein-Kindlmann tensorlines",
  "based on tensor multiplication only",
  "Zhukov\'s oriented tensors"
}

char _tenFiberTypeStr[][AIR_STRLEN_SMALL]

Initial value:

 {
  "(unknown tenFiberType)",
  "evec0",
  "evec1",
  "evec2",
  "tensorline",
  "pureline",
  "zhukov"
}

char _tenFiberTypeStrEqv[][AIR_STRLEN_SMALL]

Initial value:

 {
  "ev0", "evec0",
  "ev1", "evec1",
  "ev2", "evec2",
  "tline", "tensorline",
  "pline", "pureline",
  "z", "zhukov",
  ""
}

int _tenFiberTypeValEqv[]

Initial value:

 {
  tenFiberTypeEvec0, tenFiberTypeEvec0,
  tenFiberTypeEvec1, tenFiberTypeEvec1,
  tenFiberTypeEvec2, tenFiberTypeEvec2,
  tenFiberTypeTensorLine, tenFiberTypeTensorLine,
  tenFiberTypePureLine, tenFiberTypePureLine,
  tenFiberTypeZhukov, tenFiberTypeZhukov
}

airEnum _tenGage

Initial value:

 {
  "tenGage",
  TEN_GAGE_ITEM_MAX+1,
  _tenGageStr, _tenGageVal,
  _tenGageDesc,
  _tenGageStrEqv, _tenGageValEqv,
  AIR_FALSE
}

char _tenGageDesc[][AIR_STRLEN_MED]

char _tenGageStr[][AIR_STRLEN_SMALL]

char _tenGageStrEqv[][AIR_STRLEN_SMALL]

int _tenGageVal[]

int _tenGageValEqv[]

airEnum _tenGlyphType

Initial value:

 {
  "tenGlyphType",
  TEN_GLYPH_TYPE_MAX,
  _tenGlyphTypeStr, NULL,
  _tenGlyphTypeDesc,
  _tenGlyphTypeStrEqv, _tenGlyphTypeValEqv, 
  AIR_FALSE
}

char _tenGlyphTypeDesc[][AIR_STRLEN_MED]

Initial value:

 {
  "unknown tenGlyph type",
  "box/cube (rectangular prisms)",
  "sphere (ellipsoids)",
  "cylinders aligned along major eigenvector",
  "superquadric (superellipsoids)"
}

char _tenGlyphTypeStr[][AIR_STRLEN_SMALL]

Initial value:

 {
  "(unknown tenGlyphType)",
  "box",
  "sphere",
  "cylinder",
  "superquad"
}

char _tenGlyphTypeStrEqv[][AIR_STRLEN_SMALL]

Initial value:

 {
  "b", "box",
  "s", "sph", "sphere",
  "c", "cyl", "cylind", "cylinder",
  "q", "superq", "sqd", "superquad", "superquadric",
  ""
}

int _tenGlyphTypeValEqv[]

Initial value:

 {
  BOX, BOX,
  SPH, SPH, SPH,
  CYL, CYL, CYL, CYL,
  SQD, SQD, SQD, SQD, SQD
}

airEnum _tenInterpType

Initial value:

 {
  "interp type",
  TEN_INTERP_TYPE_MAX,
  _tenInterpTypeStr, NULL,
  NULL,
  _tenInterpTypeStrEqv, _tenInterpTypeValEqv, 
  AIR_FALSE
}

char _tenInterpTypeStr[TEN_INTERP_TYPE_MAX+1][AIR_STRLEN_SMALL]

Initial value:

 {
  "(unknown interp type)",
  "lin",
  "loglin",
  "affinv",
  "wang",
  "geoloxk",
  "geoloxr",
  "loxk",
  "loxr",
  "qgeoloxk",
  "qgeoloxr",
}

char _tenInterpTypeStrEqv[][AIR_STRLEN_SMALL]

Initial value:

 {
  "lin", "linear", "lerp",
  "loglin", "loglinear", "loglerp",
  "affinv",
  "wang",
  "geoloxk", "glk",
  "geoloxr", "glr",
  "loxk",
  "loxr",
  "qgeoloxk", "qglk",
  "qgeoloxr", "qglr",
  ""
}

int _tenInterpTypeValEqv[]

Initial value:

 {
  tenInterpTypeLinear, tenInterpTypeLinear, tenInterpTypeLinear,
  tenInterpTypeLogLinear, tenInterpTypeLogLinear, tenInterpTypeLogLinear,
  tenInterpTypeAffineInvariant,
  tenInterpTypeWang,
  tenInterpTypeGeoLoxK, tenInterpTypeGeoLoxK,
  tenInterpTypeGeoLoxR, tenInterpTypeGeoLoxR,
  tenInterpTypeLoxK,
  tenInterpTypeLoxR,
  tenInterpTypeQuatGeoLoxK, tenInterpTypeQuatGeoLoxK,
  tenInterpTypeQuatGeoLoxR, tenInterpTypeQuatGeoLoxR,
}

airEnum _tenTripleType

Initial value:

 {
  "tenTripleType",
  TEN_TRIPLE_TYPE_MAX,
  _tenTripleTypeStr, NULL,
  _tenTripleTypeDesc,
  _tenTripleTypeStrEqv, _tenTripleTypeValEqv,
  AIR_FALSE
}

char _tenTripleTypeDesc[][AIR_STRLEN_MED]

Initial value:

 {
  "unknown tenTriple",
  "eigenvalues sorted in descending order",
  "central moments (mu1,mu2,mu3)",
  "rotation of evals, like Bahn 1999 JMR:141(68-77)",
  "cylindrical coords of rotated evals",
  "spherical coords of rotated evals",
  "principal invariants (J1,J2,J3)",
  "cylindrical invariants (K1,K2,K3)",
  "spherical invariants (R1,R2,R3)",
  "eigenvalue wheel (center,radius,angle)"
}

char _tenTripleTypeStr[][AIR_STRLEN_SMALL]

Initial value:

 {
  "(unknown tenTriple)",
  "eigenvalue",
  "moment",
  "XYZ",
  "RThetaZ",
  "RThetaPhi",
  "J",
  "K",
  "R",
  "wheelParms"
}

char _tenTripleTypeStrEqv[][AIR_STRLEN_SMALL]

Initial value:

 {
  "eigenvalue", "eval", "ev",
  "moment", "mu",
  "XYZ",
  "RThetaZ", "RThZ", "rtz",
  "RThetaPhi", "RThPh", "rtp",
  "J",
  "K",
  "R",
  "wheelParm", "WP",
  ""
}

int _tenTripleTypeValEqv[]

Initial value:

 {
  tenTripleTypeEigenvalue, tenTripleTypeEigenvalue, tenTripleTypeEigenvalue,
  tenTripleTypeMoment, tenTripleTypeMoment,
  tenTripleTypeXYZ,
  tenTripleTypeRThetaZ, tenTripleTypeRThetaZ, tenTripleTypeRThetaZ,
  tenTripleTypeRThetaPhi, tenTripleTypeRThetaPhi, tenTripleTypeRThetaPhi,
  tenTripleTypeJ,
  tenTripleTypeK,
  tenTripleTypeR,
  tenTripleTypeWheelParm, tenTripleTypeWheelParm
}

airEnum* tenAniso = &_tenAniso

airEnum* tenDwiFiberType = &_tenDwiFiberType

airEnum* tenEstimate1Method = &_tenEstimate1Method

airEnum* tenEstimate2Method = &_tenEstimate2Method

airEnum* tenFiberIntg = &_tenFiberIntg

airEnum* tenFiberStop = &_tenFiberStop

airEnum* tenFiberType = &_tenFiberType

airEnum* tenGage = &_tenGage

airEnum* tenGlyphType = &_tenGlyphType

airEnum* tenInterpType = &_tenInterpType

airEnum* tenTripleType = &_tenTripleType