solvespace/dsc.h

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8.4 KiB
C
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#ifndef __DSC_H
#define __DSC_H
typedef unsigned long DWORD;
typedef unsigned char BYTE;
class Vector;
class Point2d;
class hEntity;
class hParam;
class Quaternion {
public:
// a + (vx)*i + (vy)*j + (vz)*k
double w, vx, vy, vz;
static Quaternion From(double w, double vx, double vy, double vz);
static Quaternion From(hParam w, hParam vx, hParam vy, hParam vz);
static Quaternion From(Vector u, Vector v);
Quaternion Plus(Quaternion b);
Quaternion Minus(Quaternion b);
Quaternion ScaledBy(double s);
double Magnitude(void);
Quaternion WithMagnitude(double s);
// Call a rotation matrix [ u' v' n' ]'; this returns the first and
// second rows, where that matrix is generated by this quaternion
Vector RotationU(void);
Vector RotationV(void);
Vector RotationN(void);
Vector Rotate(Vector p);
Quaternion ToThe(double p);
Quaternion Inverse(void);
Quaternion Times(Quaternion b);
};
class Vector {
public:
double x, y, z;
static Vector From(double x, double y, double z);
static Vector From(hParam x, hParam y, hParam z);
static Vector AtIntersectionOfPlanes(Vector n1, double d1,
Vector n2, double d2);
static Vector AtIntersectionOfLines(Vector a0, Vector a1,
Vector b0, Vector b1,
bool *skew,
double *pa=NULL, double *pb=NULL);
static Vector AtIntersectionOfPlaneAndLine(Vector n, double d,
Vector p0, Vector p1,
bool *parallel);
static Vector AtIntersectionOfPlanes(Vector na, double da,
Vector nb, double db,
Vector nc, double dc,
bool *parallel);
double Element(int i);
bool Equals(Vector v, double tol=LENGTH_EPS);
bool EqualsExactly(Vector v);
Vector Plus(Vector b);
Vector Minus(Vector b);
Vector Negated(void);
Vector Cross(Vector b);
double Dot(Vector b);
Vector Normal(int which);
Vector RotatedAbout(Vector orig, Vector axis, double theta);
Vector RotatedAbout(Vector axis, double theta);
Vector DotInToCsys(Vector u, Vector v, Vector n);
Vector ScaleOutOfCsys(Vector u, Vector v, Vector n);
double DistanceToLine(Vector p0, Vector dp);
bool OnLineSegment(Vector a, Vector b);
Vector ClosestPointOnLine(Vector p0, Vector dp);
double Magnitude(void);
double MagSquared(void);
Vector WithMagnitude(double s);
Vector ScaledBy(double s);
Vector ProjectInto(hEntity wrkpl);
Vector ProjectVectorInto(hEntity wrkpl);
double DivPivoting(Vector delta);
Vector ClosestOrtho(void);
void MakeMaxMin(Vector *maxv, Vector *minv);
static bool BoundingBoxesDisjoint(Vector amax, Vector amin,
Vector bmax, Vector bmin);
bool OutsideAndNotOn(Vector maxv, Vector minv);
Point2d Project2d(Vector u, Vector v);
Point2d ProjectXy(void);
};
class Point2d {
public:
double x, y;
Point2d Plus(Point2d b);
Point2d Minus(Point2d b);
Point2d ScaledBy(double s);
double Dot(Point2d p);
double DistanceTo(Point2d p);
double DistanceToLine(Point2d p0, Point2d dp, bool segment);
double Magnitude(void);
double MagSquared(void);
Point2d WithMagnitude(double v);
Point2d Normal(void);
bool Equals(Point2d v, double tol=LENGTH_EPS);
};
// A simple list
template <class T>
class List {
public:
T *elem;
int n;
int elemsAllocated;
void Add(T *t) {
if(n >= elemsAllocated) {
elemsAllocated = (elemsAllocated + 32)*2;
elem = (T *)MemRealloc(elem, elemsAllocated*sizeof(elem[0]));
}
elem[n++] = *t;
}
T *First(void) {
return (n == 0) ? NULL : &(elem[0]);
}
T *NextAfter(T *prev) {
if(!prev) return NULL;
if(prev - elem == (n - 1)) return NULL;
return prev + 1;
}
void ClearTags(void) {
int i;
for(i = 0; i < n; i++) {
elem[i].tag = 0;
}
}
void Clear(void) {
if(elem) MemFree(elem);
elem = NULL;
n = elemsAllocated = 0;
}
void RemoveTagged(void) {
int src, dest;
dest = 0;
for(src = 0; src < n; src++) {
if(elem[src].tag) {
// this item should be deleted
} else {
if(src != dest) {
elem[dest] = elem[src];
}
dest++;
}
}
n = dest;
// and elemsAllocated is untouched, because we didn't resize
}
void Reverse(void) {
int i;
for(i = 0; i < (n/2); i++) {
SWAP(T, elem[i], elem[(n-1)-i]);
}
}
};
// A list, where each element has an integer identifier. The list is kept
// sorted by that identifier, and items can be looked up in log n time by
// id.
template <class T, class H>
class IdList {
public:
T *elem;
int n;
int elemsAllocated;
H AddAndAssignId(T *t) {
int i;
DWORD id = 0;
for(i = 0; i < n; i++) {
id = max(id, elem[i].h.v);
}
t->h.v = (id + 1);
Add(t);
return t->h;
}
void Add(T *t) {
if(n >= elemsAllocated) {
elemsAllocated = (elemsAllocated + 32)*2;
elem = (T *)MemRealloc(elem, elemsAllocated*sizeof(elem[0]));
}
int first = 0, last = n;
// We know that we must insert within the closed interval [first,last]
while(first != last) {
int mid = (first + last)/2;
H hm = elem[mid].h;
if(hm.v > t->h.v) {
last = mid;
} else if(hm.v < t->h.v) {
first = mid + 1;
} else {
oops();
}
}
int i = first;
memmove(elem+i+1, elem+i, (n-i)*sizeof(elem[0]));
elem[i] = *t;
n++;
}
T *FindById(H h) {
T *t = FindByIdNoOops(h);
if(!t) {
dbp("failed to look up item %08x, searched %d items", h.v, n);
oops();
}
return t;
}
T *FindByIdNoOops(H h) {
int first = 0, last = n-1;
while(first <= last) {
int mid = (first + last)/2;
H hm = elem[mid].h;
if(hm.v > h.v) {
last = mid-1; // and first stays the same
} else if(hm.v < h.v) {
first = mid+1; // and last stays the same
} else {
return &(elem[mid]);
}
}
return NULL;
}
T *First(void) {
return (n == 0) ? NULL : &(elem[0]);
}
T *NextAfter(T *prev) {
if(!prev) return NULL;
if(prev - elem == (n - 1)) return NULL;
return prev + 1;
}
void ClearTags(void) {
int i;
for(i = 0; i < n; i++) {
elem[i].tag = 0;
}
}
void Tag(H h, int tag) {
int i;
for(i = 0; i < n; i++) {
if(elem[i].h.v == h.v) {
elem[i].tag = tag;
}
}
}
void RemoveTagged(void) {
int src, dest;
dest = 0;
for(src = 0; src < n; src++) {
if(elem[src].tag) {
// this item should be deleted
} else {
if(src != dest) {
elem[dest] = elem[src];
}
dest++;
}
}
n = dest;
// and elemsAllocated is untouched, because we didn't resize
}
void RemoveById(H h) {
ClearTags();
FindById(h)->tag = 1;
RemoveTagged();
}
void MoveSelfInto(IdList<T,H> *l) {
memcpy(l, this, sizeof(*this));
elemsAllocated = n = 0;
elem = NULL;
}
void DeepCopyInto(IdList<T,H> *l) {
l->elem = (T *)MemAlloc(elemsAllocated * sizeof(elem[0]));
memcpy(l->elem, elem, elemsAllocated * sizeof(elem[0]));
l->elemsAllocated = elemsAllocated;
l->n = n;
}
void Clear(void) {
elemsAllocated = n = 0;
if(elem) MemFree(elem);
elem = NULL;
}
};
class NameStr {
public:
char str[64];
inline void strcpy(char *in) {
memcpy(str, in, min(strlen(in)+1, sizeof(str)));
str[sizeof(str)-1] = '\0';
}
};
#endif