本文整理汇总了C++中AIR_EXISTS函数的典型用法代码示例。如果您正苦于以下问题:C++ AIR_EXISTS函数的具体用法?C++ AIR_EXISTS怎么用?C++ AIR_EXISTS使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了AIR_EXISTS函数的15个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的C++代码示例。
示例1: nrrdRangeSafeSet
void
nrrdRangeSafeSet(NrrdRange *range, const Nrrd *nrrd, int blind8BitRange) {
double minIn, maxIn;
if (!range) {
return;
}
minIn = range->min;
maxIn = range->max;
nrrdRangeSet(range, nrrd, blind8BitRange);
if (AIR_EXISTS(minIn)) {
range->min = minIn;
}
if (AIR_EXISTS(maxIn)) {
range->max = maxIn;
}
return;
}示例2: _pullPointEnergyTotal
/*
** its in here that we scale from "energy gradient" to "force"
*/
double
_pullPointEnergyTotal(pullTask *task, pullBin *bin, pullPoint *point,
/* output */
double force[4]) {
char me[]="_pullPointEnergyTotal";
double enrIm, enrPt, egradIm[4], egradPt[4], energy;
ELL_4V_SET(egradIm, 0, 0, 0, 0); /* sssh */
ELL_4V_SET(egradPt, 0, 0, 0, 0); /* sssh */
enrIm = _energyFromImage(task, point,
force ? egradIm : NULL);
enrPt = _energyFromPoints(task, bin, point,
force ? egradPt : NULL);
energy = AIR_LERP(task->pctx->alpha, enrIm, enrPt);
/*
fprintf(stderr, "!%s(%u): energy = lerp(%g, im %g, pt %g) = %g\n", me,
point->idtag, task->pctx->alpha, enrIm, enrPt, energy);
*/
if (force) {
ELL_4V_LERP(force, task->pctx->alpha, egradIm, egradPt);
ELL_4V_SCALE(force, -1, force);
/*
fprintf(stderr, "!%s(%u): egradIm = %g %g %g %g\n", me, point->idtag,
egradIm[0], egradIm[1], egradIm[2], egradIm[3]);
fprintf(stderr, "!%s(%u): egradPt = %g %g %g %g\n", me, point->idtag,
egradPt[0], egradPt[1], egradPt[2], egradPt[3]);
fprintf(stderr, "!%s(%u): ---> force = %g %g %g %g\n", me,
point->idtag, force[0], force[1], force[2], force[3]);
*/
}
if (task->pctx->wall) {
unsigned int axi;
double frc;
for (axi=0; axi<4; axi++) {
frc = task->pctx->bboxMin[axi] - point->pos[axi];
if (frc < 0) {
/* not below min */
frc = task->pctx->bboxMax[axi] - point->pos[axi];
if (frc > 0) {
/* not above max */
frc = 0;
}
}
energy += task->pctx->wall*frc*frc/2;
if (force) {
force[axi] += task->pctx->wall*frc;
}
}
}
if (!AIR_EXISTS(energy)) {
fprintf(stderr, "!%s(%u): HEY! non-exist energy %g\n", me, point->idtag,
energy);
}
return energy;
}示例3: _nrrdApplyDomainMax
double
_nrrdApplyDomainMax(const Nrrd *nmap, int ramps, int mapAxis) {
double ret;
ret = nmap->axis[mapAxis].max;
if (!AIR_EXISTS(ret)) {
ret = nmap->axis[mapAxis].size;
ret = ramps ? ret-1 : ret;
}
return ret;
}示例4: _nrrdMeasureHistoSum
void
_nrrdMeasureHistoSum(void *ans, int ansType,
const void *line, int lineType, size_t len,
double axmin, double axmax) {
double sum, hits, val, (*lup)(const void*, size_t);
size_t ii;
if (!(AIR_EXISTS(axmin) && AIR_EXISTS(axmax))) {
axmin = -0.5;
axmax = len-0.5;
}
lup = nrrdDLookup[lineType];
sum = 0;
for (ii=0; ii<len; ii++) {
val = NRRD_CELL_POS(axmin, axmax, len, ii);
hits = lup(line, ii);
hits = AIR_MAX(hits, 0);
sum += hits*val;
}
nrrdDStore[ansType](ans, sum);
}示例5: pullScaleTracePlotAdd
int
pullScaleTracePlotAdd(pullContext *pctx, Nrrd *nwild, Nrrd *nccd,
Nrrd *nmask, double mth, airArray *insideArr,
double velHalf, pullTrace *pts) {
static const char me[]="pullScaleTracePlotAdd";
double ssr[2], *pos, *velo, *wild, *ccd, *mask;
unsigned int pnum, pidx, sizeS, sizeV;
if (!(pctx && nwild && nccd && pts)) {
biffAddf(PULL, "%s: got NULL pointer", me);
return 1;
}
if (!nrrdSameSize(nwild, nccd, AIR_TRUE)) {
biffMovef(PULL, NRRD, "%s: nwild not same size as nccd", me);
return 1;
}
if (nmask || insideArr) {
if (!insideArr) {
biffAddf(PULL, "%s: got nmask but not insideArr", me);
return 1;
}
if (!nmask) {
biffAddf(PULL, "%s: got insideArr but not nmask", me);
return 1;
}
if (nrrdTypeDouble != nmask->type) {
biffAddf(PULL, "%s: nmask has type %s but want %s", me,
airEnumStr(nrrdType, nmask->type),
airEnumStr(nrrdType, nrrdTypeDouble));
return 1;
}
if (!nrrdSameSize(nwild, nmask, AIR_TRUE)) {
biffMovef(PULL, NRRD, "%s: nwild not same size as nmask", me);
return 1;
}
if (!nrrdSameSize(nccd, nmask, AIR_TRUE)) {
biffMovef(PULL, NRRD, "%s: nccd not same size as nmask", me);
return 1;
}
if (!AIR_EXISTS(mth)) {
biffAddf(PULL, "%s: got non-existent mask thresh %g", me, mth);
return 1;
}
}
ssr[0] = nwild->axis[0].min;
ssr[1] = nwild->axis[0].max;
sizeS = AIR_CAST(unsigned int, nwild->axis[0].size);
sizeV = AIR_CAST(unsigned int, nwild->axis[1].size);
wild = AIR_CAST(double *, nwild->data);
ccd = AIR_CAST(double *, nccd->data);
if (nmask) {
mask = AIR_CAST(double *, nmask->data);
} else {示例6: _nrrdResampleCheckInfo
/*
** _nrrdResampleCheckInfo()
**
** checks validity of given NrrdResampleInfo *info:
** - all required parameters exist
** - both min[d] and max[d] for all axes d
*/
int
_nrrdResampleCheckInfo(const Nrrd *nin, const NrrdResampleInfo *info) {
char me[] = "_nrrdResampleCheckInfo", err[BIFF_STRLEN];
const NrrdKernel *k;
int center, p, np;
unsigned int ai, minsmp;
if (nrrdTypeBlock == nin->type || nrrdTypeBlock == info->type) {
sprintf(err, "%s: can't resample to or from type %s", me,
airEnumStr(nrrdType, nrrdTypeBlock));
biffAdd(NRRD, err); return 1;
}
if (nrrdBoundaryUnknown == info->boundary) {
sprintf(err, "%s: didn't set boundary behavior\n", me);
biffAdd(NRRD, err); return 1;
}
if (nrrdBoundaryPad == info->boundary && !AIR_EXISTS(info->padValue)) {
sprintf(err, "%s: asked for boundary padding, but no pad value set\n", me);
biffAdd(NRRD, err); return 1;
}
for (ai=0; ai<nin->dim; ai++) {
k = info->kernel[ai];
/* we only care about the axes being resampled */
if (!k)
continue;
if (!(info->samples[ai] > 0)) {
sprintf(err, "%s: axis %d # samples (" _AIR_SIZE_T_CNV ") invalid",
me, ai, info->samples[ai]);
biffAdd(NRRD, err); return 1;
}
if (!( AIR_EXISTS(nin->axis[ai].min) && AIR_EXISTS(nin->axis[ai].max) )) {
sprintf(err, "%s: input nrrd's axis %d min,max have not both been set",
me, ai);
biffAdd(NRRD, err); return 1;
}
if (!( AIR_EXISTS(info->min[ai]) && AIR_EXISTS(info->max[ai]) )) {
sprintf(err, "%s: info's axis %d min,max not both set", me, ai);
biffAdd(NRRD, err); return 1;
}
np = k->numParm;
for (p=0; p<np; p++) {
if (!AIR_EXISTS(info->parm[ai][p])) {
sprintf(err, "%s: didn't set parameter %d (of %d) for axis %d\n",
me, p, np, ai);
biffAdd(NRRD, err); return 1;
}
}
center = _nrrdCenter(nin->axis[ai].center);
minsmp = nrrdCenterCell == center ? 1 : 2;
if (!( nin->axis[ai].size >= minsmp && info->samples[ai] >= minsmp )) {
sprintf(err, "%s: axis %d # input samples (" _AIR_SIZE_T_CNV
") or output samples (" _AIR_SIZE_T_CNV ") "
" invalid for %s centering",
me, ai, nin->axis[ai].size, info->samples[ai],
airEnumStr(nrrdCenter, center));
biffAdd(NRRD, err); return 1;
}
}
return 0;
}示例7: _nrrdMeasureLineError
void
_nrrdMeasureLineError(void *ans, int ansType,
const void *line, int lineType, size_t len,
double axmin, double axmax) {
double x, y, slope, intc, tmp, err=0, (*lup)(const void*, size_t);
size_t ii;
_nrrdMeasureLineFit(&intc, &slope, line, lineType, len, axmin, axmax);
if (!( AIR_EXISTS(axmin) && AIR_EXISTS(axmax) )) {
axmin = 0;
axmax = len-1;
}
lup = nrrdDLookup[lineType];
for (ii=0; ii<len; ii++) {
x = NRRD_NODE_POS(axmin, axmax, len, ii);
y = lup(line, ii);
tmp = slope*x + intc - y;
err += tmp*tmp;
}
nrrdDStore[ansType](ans, err);
}示例8: _nrrdMeasureMean
void
_nrrdMeasureMean(void *ans, int ansType,
const void *line, int lineType, size_t len,
double axmin, double axmax) {
double val, S, M, (*lup)(const void*, size_t);
size_t ii, count;
AIR_UNUSED(axmin);
AIR_UNUSED(axmax);
lup = nrrdDLookup[lineType];
if (nrrdTypeIsIntegral[lineType]) {
S = 0.0;
for (ii=0; ii<len; ii++) {
S += lup(line, ii);
}
M = S/len;
} else {
S = AIR_NAN;
for (ii=0; !AIR_EXISTS(S) && ii<len; ii++) {
S = lup(line, ii);
}
if (AIR_EXISTS(S)) {
/* there was an existant value */
count = 1;
for (; ii<len; ii++) {
val = lup(line, ii);
if (AIR_EXISTS(val)) {
count++;
S += val;
}
}
M = S/count;
} else {
/* there were NO existant values */
M = AIR_NAN;
}
}
nrrdDStore[ansType](ans, M);
}示例9: _nrrdMeasureMedian
void
_nrrdMeasureMedian(void *ans, int ansType,
const void *_line, int lineType, size_t len,
double axmin, double axmax) {
double M=0, (*lup)(const void*, size_t);
size_t ii, mid;
void *line;
AIR_UNUSED(axmin);
AIR_UNUSED(axmax);
lup = nrrdDLookup[lineType];
line = calloc(len, nrrdTypeSize[lineType]);
if (line) {
memcpy(line, _line, len*nrrdTypeSize[lineType]);
/* yes, I know, this is not the fastest median. I'll get to it ... */
qsort(line, len, nrrdTypeSize[lineType], nrrdValCompare[lineType]);
M = AIR_NAN;
for (ii=0; !AIR_EXISTS(M) && ii<len; ii++) {
M = lup(line, ii);
}
if (AIR_EXISTS(M)) {
/* i is index AFTER first existant value */
ii--;
len -= ii;
mid = len/2;
if (len % 2) {
/* len is odd, there is a middle value, its at mid */
M = lup(line, ii+mid);
} else {
/* len is even, two middle values are at mid-1 and mid */
M = (lup(line, ii+mid-1) + lup(line, ii+mid))/2;
}
}
}
nrrdDStore[ansType](ans, M);
}示例10: baneInputCheck
int
baneInputCheck (Nrrd *nin, baneHVolParm *hvp) {
char me[]="baneInputCheck", err[BIFF_STRLEN];
int i;
if (nrrdCheck(nin)) {
sprintf(err, "%s: basic nrrd validity check failed", me);
biffMove(BANE, err, NRRD); return 1;
}
if (3 != nin->dim) {
sprintf(err, "%s: need a 3-dimensional nrrd (not %d)", me, nin->dim);
biffAdd(BANE, err); return 1;
}
if (nrrdTypeBlock == nin->type) {
sprintf(err, "%s: can't operate on block type", me);
biffAdd(BANE, err); return 1;
}
if (!( AIR_EXISTS(nin->axis[0].spacing) && nin->axis[0].spacing != 0 &&
AIR_EXISTS(nin->axis[1].spacing) && nin->axis[1].spacing != 0 &&
AIR_EXISTS(nin->axis[2].spacing) && nin->axis[2].spacing != 0 )) {
sprintf(err, "%s: must have non-zero existant spacing for all 3 axes", me);
biffAdd(BANE, err); return 1;
}
for (i=0; i<=2; i++) {
if (_baneAxisCheck(hvp->axis + i)) {
sprintf(err, "%s: trouble with axis %d", me, i);
biffAdd(BANE, err); return 1;
}
}
if (!hvp->clip) {
sprintf(err, "%s: got NULL baneClip", me);
biffAdd(BANE, err); return 1;
}
/* all okay */
return 0;
}示例11: _nrrdSpaceVecExists
int
_nrrdSpaceVecExists(const Nrrd *nrrd, unsigned int axi) {
unsigned int sai;
int ret;
if (!( nrrd && axi < nrrd->dim && nrrd->spaceDim )) {
ret = AIR_FALSE;
} else {
ret = AIR_TRUE;
for (sai=0; sai<nrrd->spaceDim; sai++) {
ret &= AIR_EXISTS(nrrd->axis[axi].spaceDirection[sai]);
}
}
return ret;
}示例12: _nrrdMeasureHistoMin
void
_nrrdMeasureHistoMin(void *ans, int ansType,
const void *line, int lineType, size_t len,
double axmin, double axmax) {
double val, (*lup)(const void*, size_t);
size_t ii;
if (!(AIR_EXISTS(axmin) && AIR_EXISTS(axmax))) {
axmin = -0.5;
axmax = len-0.5;
}
lup = nrrdDLookup[lineType];
for (ii=0; ii<len; ii++) {
if (lup(line, ii) > 0) {
break;
}
}
if (ii==len) {
nrrdDStore[ansType](ans, AIR_NAN);
return;
}
val = NRRD_CELL_POS(axmin, axmax, len, ii);
nrrdDStore[ansType](ans, val);
}示例13: baneClipNew
baneClip *
baneClipNew(int type, double *parm) {
static const char me[]="baneClipNew";
baneClip *clip;
if (!( AIR_IN_OP(baneClipUnknown, type, baneClipLast) )) {
biffAddf(BANE, "%s: baneClip %d invalid", me, type);
return NULL;
}
if (!parm) {
biffAddf(BANE, "%s: got NULL pointer", me);
return NULL;
}
if (!(AIR_EXISTS(parm[0]))) {
biffAddf(BANE, "%s: parm[0] doesn't exist", me);
return NULL;
}
clip = (baneClip*)calloc(1, sizeof(baneClip));
if (!clip) {
biffAddf(BANE, "%s: couldn't allocate baneClip!", me);
return NULL;
}
clip->parm[0] = parm[0];
clip->type = type;
switch(type) {
case baneClipAbsolute:
sprintf(clip->name, "absolute");
clip->answer = _baneClipAnswer_Absolute;
break;
case baneClipPeakRatio:
sprintf(clip->name, "peak ratio");
clip->answer = _baneClipAnswer_PeakRatio;
break;
case baneClipPercentile:
sprintf(clip->name, "percentile");
clip->answer = _baneClipAnswer_Percentile;
break;
case baneClipTopN:
sprintf(clip->name, "top N");
clip->answer = _baneClipAnswer_TopN;
break;
default:
biffAddf(BANE, "%s: sorry, baneClip %d not implemented", me, type);
baneClipNix(clip); return NULL;
break;
}
return clip;
}示例14: nrrdSpacingCalculate
/*
******** nrrdSpacingCalculate
**
** Determine nrrdSpacingStatus, and whatever can be calculated about
** spacing for a given axis. Takes a nrrd, an axis, a double pointer
** (for returning a scalar), a space vector, and an int pointer for
** returning the known length of the space vector.
**
** The behavior of what has been set by the function is determined by
** the return value, which takes values from the nrrdSpacingStatus*
** enum, as follows:
**
** returned status value: what it means, and what it set
** ---------------------------------------------------------------------------
** nrrdSpacingStatusUnknown Something about the given arguments is
** invalid.
** *spacing = NaN,
** vector = all NaNs
**
** nrrdSpacingStatusNone There is no spacing info at all:
** *spacing = NaN,
** vector = all NaNs
**
** nrrdSpacingStatusScalarNoSpace There is no surrounding space, but the
** axis's spacing was known.
** *spacing = axis->spacing,
** vector = all NaNs
**
** nrrdSpacingStatusScalarWithSpace There *is* a surrounding space, but the
** given axis does not live in that space,
** because it has no space direction. Caller
** may want to think about what's going on.
** *spacing = axis->spacing,
** vector = all NaNs
**
** nrrdSpacingStatusDirection There is a surrounding space, in which
** this axis has a direction V:
** *spacing = |V| (length of direction),
** vector = V/|V| (normalized direction)
** NOTE: it is still possible for both
** *spacing and vector to be all NaNs!!
*/
int
nrrdSpacingCalculate(const Nrrd *nrrd, unsigned int ax,
double *spacing, double vector[NRRD_SPACE_DIM_MAX]) {
int ret;
if (!( nrrd && spacing && vector
&& ax <= nrrd->dim-1
&& !_nrrdCheck(nrrd, AIR_FALSE, AIR_FALSE) )) {
/* there's a problem with the arguments. Note: the _nrrdCheck()
call does not check on non-NULL-ity of nrrd->data */
ret = nrrdSpacingStatusUnknown;
if (spacing) {
*spacing = AIR_NAN;
}
if (vector) {
nrrdSpaceVecSetNaN(vector);
}
} else {
if (AIR_EXISTS(nrrd->axis[ax].spacing)) {
if (nrrd->spaceDim > 0) {
ret = nrrdSpacingStatusScalarWithSpace;
} else {
ret = nrrdSpacingStatusScalarNoSpace;
}
*spacing = nrrd->axis[ax].spacing;
nrrdSpaceVecSetNaN(vector);
} else {
if (nrrd->spaceDim > 0 && _nrrdSpaceVecExists(nrrd, ax)) {
ret = nrrdSpacingStatusDirection;
*spacing = nrrdSpaceVecNorm(nrrd->spaceDim,
nrrd->axis[ax].spaceDirection);
nrrdSpaceVecScale(vector, 1.0/(*spacing),
nrrd->axis[ax].spaceDirection);
} else {
ret = nrrdSpacingStatusNone;
*spacing = AIR_NAN;
nrrdSpaceVecSetNaN(vector);
}
}
}
return ret;
}示例15: dyeColorSet
dyeColor *
dyeColorSet(dyeColor *col, int space, float v0, float v1, float v2) {
if (col && DYE_VALID_SPACE(space)) {
col->ii = AIR_CLAMP(0, col->ii, 1);
/* We switch to the other one if the current one seems to be used,
but we don't switch if new and current colorspaces are the same.
If the other one is being used too, oh well. */
if (dyeSpaceUnknown != col->spc[col->ii] &&
AIR_EXISTS(col->val[col->ii][0]) &&
col->spc[col->ii] != space) {
col->ii = 1 - col->ii;
}
ELL_3V_SET(col->val[col->ii], v0, v1, v2);
col->spc[col->ii] = space;
}
return col;
}