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Hexlaser paper fix fig S11 axis label crop 

Former-commit-id: d8cb511a77fd47a9a4dcfc7bbe36381adc79c7e3
This commit is contained in:
Marek Nečada 2018-11-28 18:11:09 +02:00
parent ad431b63d8
commit 394fc3813a
1 changed files with 104 additions and 0 deletions
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104
qpms/latticegens.c
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@ -1,4 +1,7 @@
#include "lattices.h"
#include <limits.h>
#include <math.h>
// here, various "classes" of the PGenSph point generators are implemented.
@ -107,3 +110,104 @@ const PGenSphClassInfo PGenSph_FromPoint2DArray = {
PGenSph_FromPoint2DArray_destructor,
};
//==== PGenSph_zAxis ====
//equidistant points along the z-axis;
extern const PGenSphClassInfo PGenSph_zAxis; // forward declaration needed by constructor (may be placed in header file instead)
enum PGenSph_zAxis_incrementDirection{
//PGENSPH_ZAXIS_POSITIVE_INC, // not implemented
//PGENSPH_ZAXIS_NEGATIVE_INC, // not implemented
PGENSPH_ZAXIS_INC_FROM_ORIGIN,
PGENSPH_ZAXIS_INC_TOWARDS_ORIGIN
};
// Internal state structure
typedef struct PGenSph_zAxis_StateData {
long ptindex;
long stopindex;
double minR, maxR;
bool inc_minR, inc_maxR;
double a; // lattice period
enum PGenSph_zAxis_incrementDirection incdir;
bool skip_origin;
} PGenSph_zAxis_StateData;
// Constructor, specified by maximum and maximum absolute value
PGenSph PGenSph_zAxis_new_minMaxR(double period, double offset, double minR, bool inc_minR, double maxR, bool inc_maxR,
PGenSph_zAxis_incrementDirection incdir) {
PGenSph_zAxis_StateData *s = g->stateData = malloc(sizeof(PGenSph_zAxis_StateData));
s->minR = minR;
s->maxR = maxR;
s->inc_minR = inc_minR;
s->inc_maxR = inc_maxR;
s->incdir = incdir;
period = fabs(period);
double offset_normalised = offset - period * floor(offset / period); // shift to interval [0, period]
if (offset_normalised > period / 2) offset_normalised -= period; // and to interval [-period/2, period/2]
s->offset = offset_normalised;
if (offset_normalised > 0) // reverse the direction so that the conditions in _next() are hit in correct order
period *= -1;
// !!!!!!!! ZDE JSEM SKONČIL !!!!!!!!!!!!!!
PGenSph g = {&PGenSph_zAxis, (void *) stateData};
return g;
}
// Dectructor
void PGenSph_zAxis_dectructor(PGenSph *g) {
free(g->stateData);
g->stateData = NULL;
}
// Extractor
PGenSphReturnData PGenSph_zAxis_next(PGenSph *g) {
if (g->stateData == NULL) // already destroyed
return PGenSphDoneVal;
PGenSph_zAxis_StateData *s = (PGenSph_zAxis_StateData *) g->stateData;
const double zval = s->ptindex * s->a + s->offset;
const double r = fabs(zval);
bool theEnd = false;
switch (s->incdir) {
case PGENSPH_ZAXIS_INC_FROM_ORIGIN:
if (r < s->maxR || (inc_maxR && r == s->maxR)) {
if (s->ptindex > 0)
s->ptindex *= -1;
else
s->ptindex = -s->ptindex + 1;
} else theEnd = true;
break;
case PGENSPH_ZAXIS_INC_TOWARDS_ORIGIN:
if (r > s->minR || (inc_minR && r == s->minR)) {
if (s->ptindex == 0) // handle "underflow"
s->minR = INFINITY;
else if (s->ptindex > 0)
s->ptindex = -s->ptindex - 1;
else // s->ptindex < 0
s->ptindex *= -1;
} else theEnd = true;
break;
default:
abort(); // invalid value
}
if (!theEnd) {
const PGenSphReturnData retval = {PGEN_NOTDONE | PGEN_NEWR | PGEN_AT_Z,
{r, zval >= 0 ? 0 : M_PI, 0}};
return retval;
} else {
PGenSph_destroy(g);
return PGenSphDoneVal;
}
}
// Class metadata structure; TODO maybe this can rather be done by macro.
const PGenSphClassInfo PGenSph_zAxis = {
"PGenSph_zAxis",
PGenSph_zAxis_next,
PGenSph_zAxis_destructor
};