DXF: Import Z coordinate from DXF/DWG files.

pull/36/merge
EvilSpirit 2016-11-19 17:19:08 +07:00 committed by whitequark
parent 41365c5f9f
commit 8f93136d8a
3 changed files with 246 additions and 61 deletions

View File

@ -20,6 +20,7 @@ New export/import features:
use the current viewport projection.
* Wavefront OBJ: a material file is exported alongside the model, containing
mesh color information.
* DXF/DWG: 3D DXF files are imported as construction entities, in 3d.
New rendering features:
* The "Show/hide hidden lines" button is now a tri-state button that allows

View File

@ -525,6 +525,9 @@ void ConstraintBase::GenerateReal(IdList<Equation,hEquation> *l) const {
case Type::SYMMETRIC_HORIZ:
case Type::SYMMETRIC_VERT: {
ssassert(workplane.v != Entity::FREE_IN_3D.v,
"Unexpected horizontal/vertical symmetric constraint in 3d");
EntityBase *a = SK.GetEntity(ptA);
EntityBase *b = SK.GetEntity(ptB);
@ -577,6 +580,9 @@ void ConstraintBase::GenerateReal(IdList<Equation,hEquation> *l) const {
case Type::HORIZONTAL:
case Type::VERTICAL: {
ssassert(workplane.v != Entity::FREE_IN_3D.v,
"Unexpected horizontal/vertical constraint in 3d");
hEntity ha, hb;
if(entityA.v) {
EntityBase *e = SK.GetEntity(entityA);

View File

@ -9,10 +9,11 @@ static std::string ToUpper(std::string str) {
return str;
}
class DxfReadInterface : public DRW_Interface {
class DxfImport : public DRW_Interface {
public:
Vector blockX;
Vector blockY;
Vector blockZ;
Vector blockT;
void invertXTransform() {
@ -43,6 +44,7 @@ public:
void clearBlockTransform() {
blockX = Vector::From(1.0, 0.0, 0.0);
blockY = Vector::From(0.0, 1.0, 0.0);
blockZ = Vector::From(0.0, 0.0, 1.0);
blockT = Vector::From(0.0, 0.0, 0.0);
}
@ -50,6 +52,7 @@ public:
Vector r = blockT;
r = r.Plus(blockX.ScaledBy(v.x));
r = r.Plus(blockY.ScaledBy(v.y));
r = r.Plus(blockZ.ScaledBy(v.z));
return r;
}
@ -65,7 +68,7 @@ public:
}
Vector toVector(const DRW_Coord &c, bool transform = true) {
Vector result = Vector::From(c.x, c.y, 0.0);
Vector result = Vector::From(c.x, c.y, c.z);
if(transform) return blockTransform(result);
return result;
}
@ -76,7 +79,7 @@ public:
}
Vector toVector(const DRW_Vertex &c) {
Vector result = Vector::From(c.basePoint.x, c.basePoint.y, 0.0);
Vector result = Vector::From(c.basePoint.x, c.basePoint.y, c.basePoint.z);
return blockTransform(result);
}
@ -134,6 +137,7 @@ public:
DRW_Block data;
};
bool asConstruction = false;
unsigned unknownEntities = 0;
std::map<std::string, hStyle> styles;
std::map<std::string, Block> blocks;
@ -418,8 +422,9 @@ public:
return hs;
}
void setStyle(hRequest hr, hStyle hs) {
void configureRequest(hRequest hr, hStyle hs) {
Request *r = SK.GetRequest(hr);
r->construction = asConstruction;
r->style = hs;
}
@ -479,7 +484,7 @@ public:
return he;
}
hEntity createLine(Vector p0, Vector p1, uint32_t style, bool constrainHV = false) {
hEntity createLine(Vector p0, Vector p1, hStyle style, bool constrainHV = false) {
if(p0.Equals(p1)) return Entity::NO_ENTITY;
hRequest hr = SS.GW.AddRequest(Request::Type::LINE_SEGMENT, /*rememberForUndo=*/false);
SK.GetEntity(hr.entity(1))->PointForceTo(p0);
@ -487,7 +492,7 @@ public:
processPoint(hr.entity(1));
processPoint(hr.entity(2));
if(constrainHV) {
if(constrainHV && SS.GW.LockedInWorkplane()) {
bool hasConstraint = false;
Constraint::Type cType;
if(fabs(p0.x - p1.x) < LENGTH_EPS) {
@ -507,22 +512,17 @@ public:
}
}
if(style != 0) {
Request *r = SK.GetRequest(hr);
r->style = hStyle{ style };
}
configureRequest(hr, style);
return hr.entity(0);
}
hEntity createCircle(const Vector &c, double r, uint32_t style) {
hEntity createCircle(const Vector &c, double r, hStyle style) {
hRequest hr = SS.GW.AddRequest(Request::Type::CIRCLE, /*rememberForUndo=*/false);
SK.GetEntity(hr.entity(1))->PointForceTo(c);
processPoint(hr.entity(1));
SK.GetEntity(hr.entity(64))->DistanceForceTo(r);
if(style != 0) {
Request *r = SK.GetRequest(hr);
r->style = hStyle{ style };
}
configureRequest(hr, style);
return hr.entity(0);
}
@ -552,7 +552,8 @@ public:
if(data.space != DRW::ModelSpace) return;
if(addPendingBlockEntity<DRW_Line>(data)) return;
createLine(toVector(data.basePoint), toVector(data.secPoint), styleFor(&data).v, /*constrainHV=*/true);
createLine(toVector(data.basePoint), toVector(data.secPoint), styleFor(&data),
/*constrainHV=*/true);
}
void addArc(const DRW_Arc &data) override {
@ -563,7 +564,7 @@ public:
double r = data.radious;
double sa = data.staangle;
double ea = data.endangle;
Vector c = Vector::From(data.basePoint.x, data.basePoint.y, 0.0);
Vector c = Vector::From(data.basePoint.x, data.basePoint.y, data.basePoint.z);
Vector rvs = Vector::From(r * cos(sa), r * sin(sa), data.basePoint.z).Plus(c);
Vector rve = Vector::From(r * cos(ea), r * sin(ea), data.basePoint.z).Plus(c);
@ -582,14 +583,14 @@ public:
processPoint(hr.entity(1));
processPoint(hr.entity(2));
processPoint(hr.entity(3));
setStyle(hr, styleFor(&data));
configureRequest(hr, styleFor(&data));
}
void addCircle(const DRW_Circle &data) override {
if(data.space != DRW::ModelSpace) return;
if(addPendingBlockEntity<DRW_Circle>(data)) return;
createCircle(toVector(data.basePoint), data.radious, styleFor(&data).v);
createCircle(toVector(data.basePoint), data.radious, styleFor(&data));
}
void addLWPolyline(const DRW_LWPolyline &data) override {
@ -620,10 +621,10 @@ public:
hStyle hs = styleFor(&data);
if(EXACT(data.vertlist[i]->bulge == 0.0)) {
createLine(blockTransform(p0), blockTransform(p1), hs.v, /*constrainHV=*/true);
createLine(blockTransform(p0), blockTransform(p1), hs, /*constrainHV=*/true);
} else {
hRequest hr = createBulge(p0, p1, c0.bulge);
setStyle(hr, hs);
configureRequest(hr, hs);
}
}
}
@ -652,15 +653,15 @@ public:
bulge = -bulge;
}
Vector p0 = Vector::From(c0.x, c0.y, 0.0);
Vector p1 = Vector::From(c1.x, c1.y, 0.0);
Vector p0 = Vector::From(c0.x, c0.y, c0.z);
Vector p1 = Vector::From(c1.x, c1.y, c1.z);
hStyle hs = styleFor(&data);
if(EXACT(bulge == 0.0)) {
createLine(blockTransform(p0), blockTransform(p1), hs.v, /*constrainHV=*/true);
createLine(blockTransform(p0), blockTransform(p1), hs, /*constrainHV=*/true);
} else {
hRequest hr = createBulge(p0, p1, bulge);
setStyle(hr, hs);
configureRequest(hr, hs);
}
}
}
@ -675,7 +676,7 @@ public:
SK.GetEntity(hr.entity(i + 1))->PointForceTo(toVector(*data->controllist[i]));
processPoint(hr.entity(i + 1));
}
setStyle(hr, styleFor(data));
configureRequest(hr, styleFor(data));
}
void addInsert(const DRW_Insert &data) override {
@ -695,7 +696,8 @@ public:
insertInsert = &data;
if(data.extPoint.z == -1.0) invertXTransform();
multBlockTransform(data.basePoint.x, data.basePoint.y, data.xscale, data.yscale, data.angle);
multBlockTransform(data.basePoint.x, data.basePoint.y, data.xscale, data.yscale,
data.angle);
for(auto &e : block->entities) {
addEntity(&*e);
}
@ -785,7 +787,7 @@ public:
Constraint::Type::PT_LINE_DISTANCE,
createOrGetPoint(p0),
Entity::NO_ENTITY,
createLine(p1, p3, invisibleStyle().v)
createLine(p1, p3, invisibleStyle())
);
Constraint *c = SK.GetConstraint(hc);
@ -810,8 +812,8 @@ public:
Constraint::Type::ANGLE,
Entity::NO_ENTITY,
Entity::NO_ENTITY,
createLine(l0p0, l0p1, invisibleStyle().v),
createLine(l1p1, l1p0, invisibleStyle().v),
createLine(l0p0, l0p1, invisibleStyle()),
createLine(l1p1, l1p0, invisibleStyle()),
/*other=*/false,
/*other2=*/false
);
@ -833,8 +835,9 @@ public:
}
}
hConstraint createDiametric(Vector cp, double r, Vector tp, double actual, bool asRadius = false) {
hEntity he = createCircle(cp, r, invisibleStyle().v);
hConstraint createDiametric(Vector cp, double r, Vector tp, double actual,
bool asRadius = false) {
hEntity he = createCircle(cp, r, invisibleStyle());
hConstraint hc = Constraint::Constrain(
Constraint::Type::DIAMETER,
@ -899,9 +902,175 @@ public:
}
};
void ImportDxf(const std::string &filename) {
DxfReadInterface interface;
interface.clearBlockTransform();
class DxfCheck3D : public DRW_Interface {
public:
bool is3d;
void addEntity(DRW_Entity *e) {
switch(e->eType) {
case DRW::POINT:
addPoint(*static_cast<DRW_Point *>(e));
break;
case DRW::LINE:
addLine(*static_cast<DRW_Line *>(e));
break;
case DRW::ARC:
addArc(*static_cast<DRW_Arc *>(e));
break;
case DRW::CIRCLE:
addCircle(*static_cast<DRW_Circle *>(e));
break;
case DRW::POLYLINE:
addPolyline(*static_cast<DRW_Polyline *>(e));
break;
case DRW::LWPOLYLINE:
addLWPolyline(*static_cast<DRW_LWPolyline *>(e));
break;
case DRW::SPLINE:
addSpline(static_cast<DRW_Spline *>(e));
break;
case DRW::INSERT:
addInsert(*static_cast<DRW_Insert *>(e));
break;
case DRW::TEXT:
addText(*static_cast<DRW_Text *>(e));
break;
case DRW::MTEXT:
addMText(*static_cast<DRW_MText *>(e));
break;
case DRW::DIMALIGNED:
addDimAlign(static_cast<DRW_DimAligned *>(e));
break;
case DRW::DIMLINEAR:
addDimLinear(static_cast<DRW_DimLinear *>(e));
break;
case DRW::DIMRADIAL:
addDimRadial(static_cast<DRW_DimRadial *>(e));
break;
case DRW::DIMDIAMETRIC:
addDimDiametric(static_cast<DRW_DimDiametric *>(e));
break;
case DRW::DIMANGULAR:
addDimAngular(static_cast<DRW_DimAngular *>(e));
break;
default:
break;
}
}
void addPoint(const DRW_Point &data) override {
if(data.space != DRW::ModelSpace) return;
checkCoord(data.basePoint);
}
void addLine(const DRW_Line &data) override {
if(data.space != DRW::ModelSpace) return;
checkCoord(data.basePoint);
checkCoord(data.secPoint);
}
void addArc(const DRW_Arc &data) override {
if(data.space != DRW::ModelSpace) return;
checkCoord(data.basePoint);
}
void addCircle(const DRW_Circle &data) override {
if(data.space != DRW::ModelSpace) return;
checkCoord(data.basePoint);
}
void addPolyline(const DRW_Polyline &data) override {
if(data.space != DRW::ModelSpace) return;
for(size_t i = 0; i < data.vertlist.size(); i++) {
checkCoord(data.vertlist[i]->basePoint);
}
}
void addSpline(const DRW_Spline *data) override {
if(data->space != DRW::ModelSpace) return;
if(data->degree != 3) return;
for(int i = 0; i < 4; i++) {
checkCoord(*data->controllist[i]);
}
}
void addInsert(const DRW_Insert &data) override {
if(data.space != DRW::ModelSpace) return;
checkCoord(data.basePoint);
}
void addMText(const DRW_MText &data) override {
if(data.space != DRW::ModelSpace) return;
DRW_MText text = data;
text.secPoint = text.basePoint;
addText(text);
}
void addText(const DRW_Text &data) override {
if(data.space != DRW::ModelSpace) return;
checkCoord(data.basePoint);
checkCoord(data.secPoint);
}
void addDimAlign(const DRW_DimAligned *data) override {
if(data->space != DRW::ModelSpace) return;
checkCoord(data->getDef1Point());
checkCoord(data->getDef2Point());
checkCoord(data->getTextPoint());
}
void addDimLinear(const DRW_DimLinear *data) override {
if(data->space != DRW::ModelSpace) return;
checkCoord(data->getDef1Point());
checkCoord(data->getDef2Point());
checkCoord(data->getTextPoint());
}
void addDimAngular(const DRW_DimAngular *data) override {
if(data->space != DRW::ModelSpace) return;
checkCoord(data->getFirstLine1());
checkCoord(data->getFirstLine2());
checkCoord(data->getSecondLine1());
checkCoord(data->getSecondLine2());
checkCoord(data->getTextPoint());
}
void addDimRadial(const DRW_DimRadial *data) override {
if(data->space != DRW::ModelSpace) return;
checkCoord(data->getCenterPoint());
checkCoord(data->getDiameterPoint());
checkCoord(data->getTextPoint());
}
void addDimDiametric(const DRW_DimDiametric *data) override {
if(data->space != DRW::ModelSpace) return;
checkCoord(data->getDiameter1Point());
checkCoord(data->getDiameter2Point());
checkCoord(data->getTextPoint());
}
void addDimAngular3P(const DRW_DimAngular3p *data) override {
if(data->space != DRW::ModelSpace) return;
DRW_DimAngular dim = *static_cast<const DRW_Dimension *>(data);
dim.setFirstLine1(data->getVertexPoint());
dim.setFirstLine2(data->getFirstLine());
dim.setSecondLine1(data->getVertexPoint());
dim.setSecondLine2(data->getSecondLine());
addDimAngular(&dim);
}
void checkCoord(const DRW_Coord &coord) {
if(fabs(coord.z) > LENGTH_EPS) {
is3d = true;
}
}
};
static void ImportDwgDxf(const std::string &filename,
std::function<bool(const std::string &data, DRW_Interface *intf)> read) {
std::string fileType = ToUpper(Extension(filename));
std::string data;
if(!ReadFile(filename, &data)) {
@ -909,38 +1078,47 @@ void ImportDxf(const std::string &filename) {
return;
}
SS.UndoRemember();
std::stringstream stream(data);
if(!dxfRW().read(stream, &interface, /*ext=*/false)) {
Error("Corrupted DXF file.");
bool asConstruction = true;
if(SS.GW.LockedInWorkplane()) {
DxfCheck3D checker = {};
read(data, &checker);
if(checker.is3d) {
Message("This %s file contains entities with non-zero Z coordinate; "
"the entire file will be imported as construction entities in 3d.",
fileType.c_str());
SS.GW.SetWorkplaneFreeIn3d();
SS.GW.EnsureValidActives();
} else {
asConstruction = false;
}
}
if(interface.unknownEntities > 0) {
Message(ssprintf("%u DXF entities of unknown type were ignored.",
interface.unknownEntities).c_str());
SS.UndoRemember();
DxfImport importer = {};
importer.asConstruction = asConstruction;
importer.clearBlockTransform();
if(!read(data, &importer)) {
Error("Corrupted %s file.", fileType.c_str());
}
if(importer.unknownEntities > 0) {
Message("%u %s entities of unknown type were ignored.",
importer.unknownEntities, fileType.c_str());
}
}
void ImportDxf(const std::string &filename) {
ImportDwgDxf(filename, [](const std::string &data, DRW_Interface *intf) {
std::stringstream stream(data);
return dxfRW().read(stream, intf, /*ext=*/false);
});
}
void ImportDwg(const std::string &filename) {
DxfReadInterface interface;
interface.clearBlockTransform();
std::string data;
if(!ReadFile(filename, &data)) {
Error("Couldn't read from '%s'", filename.c_str());
return;
}
SS.UndoRemember();
ImportDwgDxf(filename, [](const std::string &data, DRW_Interface *intf) {
std::stringstream stream(data);
if(!dwgR().read(stream, &interface, /*ext=*/false)) {
Error("Corrupted DWG file.");
}
if(interface.unknownEntities > 0) {
Message(ssprintf("%u DWG entities of unknown type were ignored.",
interface.unknownEntities).c_str());
}
return dwgR().read(stream, intf, /*ext=*/false);
});
}
}