#ifndef __SKETCH_H #define __SKETCH_H class hGroup; class hRequest; class hEntity; class hParam; class hPoint; class Entity; class Param; class Point; class hEquation; class Equation; // All of the hWhatever handles are a 32-bit ID, that is used to represent // some data structure in the sketch. class hGroup { public: // bits 10: 0 -- group index DWORD v; }; class hRequest { public: // bits 14: 0 -- request index (the high bits may be used as an import ID) DWORD v; inline hEntity entity(int i); }; class hEntity { public: // bits 9: 0 -- entity index // 24:10 -- request index DWORD v; inline hRequest request(void); inline hParam param(int i); inline hPoint point(int i); }; class hParam { public: // bits 6: 0 -- param index // 16: 7 -- entity index // 31:17 -- request index DWORD v; }; class hPoint { // bits 6: 0 -- point index // 16: 7 -- entity index // 31:17 -- request index public: DWORD v; inline bool isFromReferences(void); }; // A set of requests. Every request must have an associated group. class Group { public: static const hGroup HGROUP_REFERENCES; int tag; hGroup h; NameStr name; char *DescriptionString(void); }; // A user request for some primitive or derived operation; for example a // line, or a class Request { public: // Some predefined requests, that are present in every sketch. static const hRequest HREQUEST_REFERENCE_XY; static const hRequest HREQUEST_REFERENCE_YZ; static const hRequest HREQUEST_REFERENCE_ZX; int tag; hRequest h; // Types of requests static const int CSYS_2D = 100; static const int DATUM_POINT = 101; static const int LINE_SEGMENT = 200; int type; hEntity csys; // or Entity::NO_CSYS hGroup group; NameStr name; inline hEntity entity(int i) { hEntity r; r.v = ((this->h.v) << 10) | i; return r; } void AddParam(IdList *param, Entity *e, int index); void Generate(IdList *entity, IdList *point, IdList *param); char *DescriptionString(void); }; class Entity { public: int tag; hEntity h; static const hEntity NO_CSYS; static const int CSYS_2D = 1000; static const int DATUM_POINT = 1001; static const int LINE_SEGMENT = 1010; int type; inline hRequest request(void) { hRequest r; r.v = (this->h.v >> 10); return r; } inline hParam param(int i) { hParam r; r.v = ((this->h.v) << 7) | i; return r; } inline hPoint point(int i) { hPoint r; r.v = ((this->h.v) << 7) | i; return r; } char *DescriptionString(void); void Get2dCsysBasisVectors(Vector *u, Vector *v); struct { bool drawing; Point2d mp; double dmin; } dogd; // state for drawing or getting distance (for hit testing) void LineDrawOrGetDistance(Vector a, Vector b); void DrawOrGetDistance(void); void Draw(void); double GetDistance(Point2d mp); }; class Param { public: int tag; hParam h; double val; bool known; void ForceTo(double v); }; class Point { public: int tag; // The point ID is equal to the initial param ID. hPoint h; int type; static const int IN_FREE_SPACE = 0; // three params, x y z static const int IN_2D_CSYS = 1; // two params, u v, plus csys hEntity csys; inline hEntity entity(void) { hEntity r; r.v = (h.v >> 7); return r; } inline hParam param(int i) { hParam r; r.v = h.v + i; return r; } // The point, in base coordinates. This may be a single parameter, or // it may be a more complex expression if our point is locked in a // 2d csys. void GetExprs(Expr **x, Expr **y, Expr **z); Vector GetCoords(void); void ForceTo(Vector v); void Draw(void); double GetDistance(Point2d mp); }; inline hEntity hRequest::entity(int i) { hEntity r; r.v = (v << 10) | i; return r; } inline hRequest hEntity::request(void) { hRequest r; r.v = (v >> 10); return r; } inline hParam hEntity::param(int i) { hParam r; r.v = (v << 7) | i; return r; } inline hPoint hEntity::point(int i) { hPoint r; r.v = (v << 7) | i; return r; } inline bool hPoint::isFromReferences(void) { DWORD d = v >> 17; if(d == Request::HREQUEST_REFERENCE_XY.v) return true; if(d == Request::HREQUEST_REFERENCE_YZ.v) return true; if(d == Request::HREQUEST_REFERENCE_ZX.v) return true; return false; } class hConstraint { public: DWORD v; }; class Constraint { public: static const int USER_EQUATION = 10; static const int POINTS_COINCIDENT = 20; static const int PT_PT_DISTANCE = 30; static const int PT_LINE_DISTANCE = 31; static const int HORIZONTAL = 40; static const int VERTICAL = 41; int tag; hConstraint h; int type; hGroup group; // These are the parameters for the constraint. Expr *exprA; Expr *exprB; hPoint ptA; hPoint ptB; hPoint ptC; hEntity entityA; hEntity entityB; // These define how the constraint is drawn on-screen. struct { Vector offset; } disp; static hConstraint AddConstraint(Constraint *c); static void MenuConstrain(int id); struct { bool drawing; Point2d mp; double dmin; } dogd; // state for drawing or getting distance (for hit testing) double GetDistance(Point2d mp); void Draw(void); void DrawOrGetDistance(void); bool HasLabel(void); void Generate(IdList *l); }; class hEquation { public: DWORD v; }; class Equation { public: int tag; hEquation h; Expr *e; }; #endif