solvespace/sketch.h

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#ifndef __SKETCH_H
#define __SKETCH_H
class hGroup;
class hRequest;
class hEntity;
class hParam;
class hStyle;
class hConstraint;
class hEquation;
class Entity;
class Param;
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 15: 0 -- group index
DWORD v;
inline hEntity entity(int i);
inline hParam param(int i);
inline hEquation equation(int i);
};
class hRequest {
public:
// bits 15: 0 -- request index
DWORD v;
inline hEntity entity(int i);
inline hParam param(int i);
inline bool IsFromReferences(void);
};
class hEntity {
public:
// bits 15: 0 -- entity index
// 31:16 -- request index
DWORD v;
inline bool isFromRequest(void);
inline hRequest request(void);
inline hGroup group(void);
inline hEquation equation(int i);
};
class hParam {
public:
// bits 15: 0 -- param index
// 31:16 -- request index
DWORD v;
inline hRequest request(void);
};
class hStyle {
public:
DWORD v;
};
class EntityId {
public:
DWORD v; // entity ID, starting from 0
};
class EntityMap {
public:
int tag;
EntityId h;
hEntity input;
int copyNumber;
// (input, copyNumber) gets mapped to ((Request)xxx).entity(h.v)
};
// A set of requests. Every request must have an associated group.
class Group {
public:
static const hGroup HGROUP_REFERENCES;
int tag;
hGroup h;
static const int DRAWING_3D = 5000;
static const int DRAWING_WORKPLANE = 5001;
static const int EXTRUDE = 5100;
static const int LATHE = 5101;
static const int SWEEP = 5102;
static const int HELICAL_SWEEP = 5103;
static const int ROTATE = 5200;
static const int TRANSLATE = 5201;
static const int IMPORTED = 5300;
int type;
int order;
hGroup opA;
hGroup opB;
bool visible;
bool suppress;
bool clean;
bool vvMeshClean;
hEntity activeWorkplane;
double valA;
double valB;
double valC;
DWORD color;
struct {
int how;
int dof;
List<hConstraint> remove;
} solved;
// For drawings in 2d
static const int WORKPLANE_BY_POINT_ORTHO = 6000;
static const int WORKPLANE_BY_LINE_SEGMENTS = 6001;
// For extrudes, translates, and rotates
static const int ONE_SIDED = 7000;
static const int TWO_SIDED = 7001;
// For helical sweeps
static const int RIGHT_HANDED = 8000;
static const int LEFT_HANDED = 8001;
int subtype;
bool skipFirst; // for step and repeat ops
struct {
Quaternion q;
hEntity origin;
hEntity entityB;
hEntity entityC;
bool swapUV;
bool negateU;
bool negateV;
} predef;
SPolygon poly;
SBezierLoopSet bezierLoopSet;
static const int POLY_GOOD = 0;
static const int POLY_NOT_CLOSED = 1;
static const int POLY_NOT_COPLANAR = 2;
static const int POLY_SELF_INTERSECTING = 3;
struct {
int how;
SEdge notClosedAt;
Vector errorPointAt;
} polyError;
bool booleanFailed;
SShell thisShell;
SShell runningShell;
SMesh thisMesh;
SMesh runningMesh;
bool displayDirty;
SMesh displayMesh;
SEdgeList displayEdges;
static const int COMBINE_AS_UNION = 0;
static const int COMBINE_AS_DIFFERENCE = 1;
static const int COMBINE_AS_ASSEMBLE = 2;
int meshCombine;
bool forceToMesh;
IdList<EntityMap,EntityId> remap;
static const int REMAP_PRIME = 19477;
int remapCache[REMAP_PRIME];
char impFile[MAX_PATH];
char impFileRel[MAX_PATH];
SMesh impMesh;
SShell impShell;
EntityList impEntity;
NameStr name;
void Activate(void);
char *DescriptionString(void);
static void AddParam(ParamList *param, hParam hp, double v);
void Generate(EntityList *entity, ParamList *param);
void TransformImportedBy(Vector t, Quaternion q);
// When a request generates entities from entities, and the source
// entities may have come from multiple requests, it's necessary to
// remap the entity ID so that it's still unique. We do this with a
// mapping list.
static const int REMAP_LAST = 1000;
static const int REMAP_TOP = 1001;
static const int REMAP_BOTTOM = 1002;
static const int REMAP_PT_TO_LINE = 1003;
static const int REMAP_LINE_TO_FACE = 1004;
hEntity Remap(hEntity in, int copyNumber);
void MakeExtrusionLines(EntityList *el, hEntity in);
void MakeExtrusionTopBottomFaces(EntityList *el, hEntity pt);
void CopyEntity(EntityList *el,
Entity *ep, int timesApplied, int remap,
hParam dx, hParam dy, hParam dz,
hParam qw, hParam qvx, hParam qvy, hParam qvz,
bool asTrans, bool asAxisAngle);
void AddEq(IdList<Equation,hEquation> *l, Expr *expr, int index);
void GenerateEquations(IdList<Equation,hEquation> *l);
// Assembling the curves into loops, and into a piecewise linear polygon
// at the same time.
bool AssembleLoops(void);
void GenerateLoops(void);
// And the mesh stuff
Group *PreviousGroup(void);
Group *RunningMeshGroup(void);
void GenerateShellAndMesh(void);
template<class T> void GenerateForStepAndRepeat(T *steps, T *outs);
template<class T> void GenerateForBoolean(T *a, T *b, T *o, int how);
void GenerateDisplayItems(void);
void DrawDisplayItems(int t);
void Draw(void);
SPolygon GetPolygon(void);
static void MenuGroup(int id);
};
// A user request for some primitive or derived operation; for example a
// line, or a step and repeat.
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 WORKPLANE = 100;
static const int DATUM_POINT = 101;
static const int LINE_SEGMENT = 200;
static const int CUBIC = 300;
static const int CIRCLE = 400;
static const int ARC_OF_CIRCLE = 500;
static const int TTF_TEXT = 600;
int type;
hEntity workplane; // or Entity::FREE_IN_3D
hGroup group;
hStyle style;
bool construction;
NameStr str;
NameStr font;
static hParam AddParam(ParamList *param, hParam hp);
void Generate(EntityList *entity, ParamList *param);
char *DescriptionString(void);
};
class EntityBase {
public:
int tag;
hEntity h;
static const hEntity FREE_IN_3D;
static const hEntity NO_ENTITY;
static const int POINT_IN_3D = 2000;
static const int POINT_IN_2D = 2001;
static const int POINT_N_TRANS = 2010;
static const int POINT_N_ROT_TRANS = 2011;
static const int POINT_N_COPY = 2012;
static const int POINT_N_ROT_AA = 2013;
static const int NORMAL_IN_3D = 3000;
static const int NORMAL_IN_2D = 3001;
static const int NORMAL_N_COPY = 3010;
static const int NORMAL_N_ROT = 3011;
static const int NORMAL_N_ROT_AA = 3012;
static const int DISTANCE = 4000;
static const int DISTANCE_N_COPY = 4001;
static const int FACE_NORMAL_PT = 5000;
static const int FACE_XPROD = 5001;
static const int FACE_N_ROT_TRANS = 5002;
static const int FACE_N_TRANS = 5003;
static const int FACE_N_ROT_AA = 5004;
static const int WORKPLANE = 10000;
static const int LINE_SEGMENT = 11000;
static const int CUBIC = 12000;
static const int CIRCLE = 13000;
static const int ARC_OF_CIRCLE = 14000;
static const int TTF_TEXT = 15000;
int type;
hGroup group;
hEntity workplane; // or Entity::FREE_IN_3D
// When it comes time to draw an entity, we look here to get the
// defining variables.
hEntity point[4];
hEntity normal;
hEntity distance;
// The only types that have their own params are points, normals,
// and directions.
hParam param[7];
// Transformed points/normals/distances have their numerical base
Vector numPoint;
Quaternion numNormal;
double numDistance;
NameStr str;
NameStr font;
// For entities that are derived by a transformation, the number of
// times to apply the transformation.
int timesApplied;
Quaternion GetAxisAngleQuaternion(int param0);
ExprQuaternion GetAxisAngleQuaternionExprs(int param0);
bool IsCircle(void);
Expr *CircleGetRadiusExpr(void);
double CircleGetRadiusNum(void);
void ArcGetAngles(double *thetaa, double *thetab, double *dtheta);
bool HasVector(void);
ExprVector VectorGetExprs(void);
Vector VectorGetNum(void);
Vector VectorGetRefPoint(void);
// For distances
double DistanceGetNum(void);
Expr *DistanceGetExpr(void);
void DistanceForceTo(double v);
bool IsWorkplane(void);
// The plane is points P such that P dot (xn, yn, zn) - d = 0
void WorkplaneGetPlaneExprs(ExprVector *n, Expr **d);
ExprVector WorkplaneGetOffsetExprs(void);
Vector WorkplaneGetOffset(void);
EntityBase *Normal(void);
bool IsFace(void);
ExprVector FaceGetNormalExprs(void);
Vector FaceGetNormalNum(void);
ExprVector FaceGetPointExprs(void);
Vector FaceGetPointNum(void);
bool IsPoint(void);
// Applies for any of the point types
Vector PointGetNum(void);
ExprVector PointGetExprs(void);
void PointGetExprsInWorkplane(hEntity wrkpl, Expr **u, Expr **v);
void PointForceTo(Vector v);
// These apply only the POINT_N_ROT_TRANS, which has an assoc rotation
Quaternion PointGetQuaternion(void);
void PointForceQuaternionTo(Quaternion q);
bool IsNormal(void);
// Applies for any of the normal types
Quaternion NormalGetNum(void);
ExprQuaternion NormalGetExprs(void);
void NormalForceTo(Quaternion q);
Vector NormalU(void);
Vector NormalV(void);
Vector NormalN(void);
ExprVector NormalExprsU(void);
ExprVector NormalExprsV(void);
ExprVector NormalExprsN(void);
void AddEq(IdList<Equation,hEquation> *l, Expr *expr, int index);
void GenerateEquations(IdList<Equation,hEquation> *l);
};
class Entity : public EntityBase {
public:
// An imported entity that was hidden in the source file ends up hidden
// here too.
bool forceHidden;
// All points/normals/distances have their numerical value; this is
// a convenience, to simplify the import/assembly code, so that the
// part is entirely described by the entities.
Vector actPoint;
Quaternion actNormal;
double actDistance;
// and the shown state also gets saved here, for later import
bool actVisible;
hStyle style;
bool construction;
// Routines to draw and hit-test the representation of the entity
// on-screen.
struct {
bool drawing;
Point2d mp;
double dmin;
Vector refp;
double lineWidth;
} dogd; // state for drawing or getting distance (for hit testing)
void LineDrawOrGetDistance(Vector a, Vector b, bool maybeFat=false);
void DrawOrGetDistance(void);
bool IsVisible(void);
bool PointIsFromReferences(void);
void GenerateBezierCurves(SBezierList *sbl);
void GenerateEdges(SEdgeList *el, bool includingConstruction=false);
static void DrawAll(void);
void Draw(void);
double GetDistance(Point2d mp);
Vector GetReferencePos(void);
void CalculateNumerical(bool forExport);
char *DescriptionString(void);
};
class Param {
public:
int tag;
hParam h;
double val;
bool known;
bool free;
// Used only in the solver
hParam substd;
static const hParam NO_PARAM;
};
class hConstraint {
public:
DWORD v;
inline hEquation equation(int i);
};
class ConstraintBase {
public:
int tag;
hConstraint h;
static const hConstraint NO_CONSTRAINT;
static const int POINTS_COINCIDENT = 20;
static const int PT_PT_DISTANCE = 30;
static const int PT_PLANE_DISTANCE = 31;
static const int PT_LINE_DISTANCE = 32;
static const int PT_FACE_DISTANCE = 33;
static const int PT_IN_PLANE = 41;
static const int PT_ON_LINE = 42;
static const int PT_ON_FACE = 43;
static const int EQUAL_LENGTH_LINES = 50;
static const int LENGTH_RATIO = 51;
static const int EQ_LEN_PT_LINE_D = 52;
static const int EQ_PT_LN_DISTANCES = 53;
static const int EQUAL_ANGLE = 54;
static const int EQUAL_LINE_ARC_LEN = 55;
static const int SYMMETRIC = 60;
static const int SYMMETRIC_HORIZ = 61;
static const int SYMMETRIC_VERT = 62;
static const int SYMMETRIC_LINE = 63;
static const int AT_MIDPOINT = 70;
static const int HORIZONTAL = 80;
static const int VERTICAL = 81;
static const int DIAMETER = 90;
static const int PT_ON_CIRCLE = 100;
static const int SAME_ORIENTATION = 110;
static const int ANGLE = 120;
static const int PARALLEL = 121;
static const int PERPENDICULAR = 122;
static const int ARC_LINE_TANGENT = 123;
static const int CUBIC_LINE_TANGENT = 124;
static const int EQUAL_RADIUS = 130;
static const int COMMENT = 1000;
int type;
hGroup group;
hEntity workplane;
// These are the parameters for the constraint.
double valA;
hEntity ptA;
hEntity ptB;
hEntity entityA;
hEntity entityB;
hEntity entityC;
hEntity entityD;
bool other;
bool reference; // a ref dimension, that generates no eqs
NameStr comment; // since comments are represented as constraints
void Generate(IdList<Equation,hEquation> *l);
void GenerateReal(IdList<Equation,hEquation> *l);
// Some helpers when generating symbolic constraint equations
void ModifyToSatisfy(void);
void AddEq(IdList<Equation,hEquation> *l, Expr *expr, int index);
static Expr *DirectionCosine(hEntity wrkpl, ExprVector ae, ExprVector be);
static Expr *Distance(hEntity workplane, hEntity pa, hEntity pb);
static Expr *PointLineDistance(hEntity workplane, hEntity pt, hEntity ln);
static Expr *PointPlaneDistance(ExprVector p, hEntity plane);
static Expr *VectorsParallel(int eq, ExprVector a, ExprVector b);
static ExprVector PointInThreeSpace(hEntity workplane, Expr *u, Expr *v);
};
class Constraint : public ConstraintBase {
public:
// These define how the constraint is drawn on-screen.
struct {
Vector offset;
hStyle style;
} disp;
// State for drawing or getting distance (for hit testing).
struct {
bool drawing;
Point2d mp;
double dmin;
Vector refp;
SEdgeList *sel;
} dogd;
double GetDistance(Point2d mp);
Vector GetLabelPos(void);
Vector GetReferencePos(void);
void Draw(void);
void GetEdges(SEdgeList *sel);
void LineDrawOrGetDistance(Vector a, Vector b);
void DrawOrGetDistance(Vector *labelPos);
double EllipticalInterpolation(double rx, double ry, double theta);
char *Label(void);
void DoArcForAngle(Vector a0, Vector da, Vector b0, Vector db,
Vector offset, Vector *ref);
void DoLineWithArrows(Vector ref, Vector a, Vector b, bool onlyOneExt);
int DoLineTrimmedAgainstBox(Vector ref, Vector a, Vector b);
void DoLabel(Vector ref, Vector *labelPos, Vector gr, Vector gu);
void DoProjectedPoint(Vector *p);
void DoEqualLenTicks(Vector a, Vector b, Vector gn);
void DoEqualRadiusTicks(hEntity he);
bool HasLabel(void);
char *DescriptionString(void);
static void AddConstraint(Constraint *c, bool rememberForUndo);
static void AddConstraint(Constraint *c);
static void MenuConstrain(int id);
static void DeleteAllConstraintsFor(int type, hEntity entityA, hEntity ptA);
static void ConstrainCoincident(hEntity ptA, hEntity ptB);
static void Constrain(int type, hEntity ptA, hEntity ptB, hEntity entityA);
static void Constrain(int type, hEntity ptA, hEntity ptB,
hEntity entityA, hEntity entityB,
bool other);
};
class hEquation {
public:
DWORD v;
inline bool isFromConstraint(void);
inline hConstraint constraint(void);
};
class Equation {
public:
int tag;
hEquation h;
Expr *e;
};
class Style {
public:
int tag;
hStyle h;
// If an entity has no style, then it will be colored according to
// whether the group that it's in is active or not, whether it's
// construction or not, and so on.
static const int NO_STYLE = 0;
static const int ACTIVE_GRP = 1;
static const int CONSTRUCTION = 2;
static const int INACTIVE_GRP = 3;
static const int DATUM = 4;
static const int SOLID_EDGE = 5;
static const int CONSTRAINT = 6;
static const int SELECTED = 7;
static const int HOVERED = 8;
static const int CONTOUR_FILL = 9;
static const int NORMALS = 10;
static const int ANALYZE = 11;
static const int DRAW_ERROR = 12;
static const int DIM_SOLID = 13;
static const int FIRST_CUSTOM = 0x100;
NameStr name;
static const int UNITS_AS_PIXELS = 0;
static const int UNITS_AS_MM = 1;
double width;
int widthAs;
double textHeight;
int textHeightAs;
static const int ORIGIN_LEFT = 0x01;
static const int ORIGIN_RIGHT = 0x02;
static const int ORIGIN_BOT = 0x04;
static const int ORIGIN_TOP = 0x08;
int textOrigin;
double textAngle;
DWORD color;
bool visible;
bool exportable;
// The default styles, for entities that don't have a style assigned yet,
// and for datums and such.
typedef struct {
hStyle h;
char *cnfPrefix;
DWORD color;
double width;
} Default;
static const Default Defaults[];
static char *CnfColor(char *prefix);
static char *CnfWidth(char *prefix);
static char *CnfPrefixToName(char *prefix);
static void CreateAllDefaultStyles(void);
static void CreateDefaultStyle(hStyle h);
static void FreezeDefaultStyles(void);
static void LoadFactoryDefaults(void);
static void AssignSelectionToStyle(DWORD v);
static DWORD CreateCustomStyle(void);
static Style *Get(hStyle hs);
static DWORD Color(hStyle hs, bool forExport=false);
static float Width(hStyle hs);
static DWORD Color(int hs, bool forExport=false);
static float Width(int hs);
static double WidthMm(int hs);
static double TextHeight(hStyle hs);
static bool Exportable(int hs);
static hStyle ForEntity(hEntity he);
char *DescriptionString(void);
};
inline hEntity hGroup::entity(int i)
{ hEntity r; r.v = 0x80000000 | (v << 16) | i; return r; }
inline hParam hGroup::param(int i)
{ hParam r; r.v = 0x80000000 | (v << 16) | i; return r; }
inline hEquation hGroup::equation(int i)
{ hEquation r; r.v = (v << 16) | 0x80000000 | i; return r; }
inline bool hRequest::IsFromReferences(void) {
if(v == Request::HREQUEST_REFERENCE_XY.v) return true;
if(v == Request::HREQUEST_REFERENCE_YZ.v) return true;
if(v == Request::HREQUEST_REFERENCE_ZX.v) return true;
return false;
}
inline hEntity hRequest::entity(int i)
{ hEntity r; r.v = (v << 16) | i; return r; }
inline hParam hRequest::param(int i)
{ hParam r; r.v = (v << 16) | i; return r; }
inline bool hEntity::isFromRequest(void)
{ if(v & 0x80000000) return false; else return true; }
inline hRequest hEntity::request(void)
{ hRequest r; r.v = (v >> 16); return r; }
inline hGroup hEntity::group(void)
{ hGroup r; r.v = (v >> 16) & 0x3fff; return r; }
inline hEquation hEntity::equation(int i)
{ if(i != 0) oops(); hEquation r; r.v = v | 0x40000000; return r; }
inline hRequest hParam::request(void)
{ hRequest r; r.v = (v >> 16); return r; }
inline hEquation hConstraint::equation(int i)
{ hEquation r; r.v = (v << 16) | i; return r; }
inline bool hEquation::isFromConstraint(void)
{ if(v & 0xc0000000) return false; else return true; }
inline hConstraint hEquation::constraint(void)
{ hConstraint r; r.v = (v >> 16); return r; }
#endif