Ejemplo n.º 1
0
Acad::ErrorStatus
AcRectJig::setPlane()
{
    // Acquire current UCS transformation matrix.
    // We save the matrix for later use.
    //
    acdbUcsMatrix(mUcsToWcsMat);
    mWcsToUcsMat = mUcsToWcsMat.inverse();

    // Get data from user coordinate system.
    //
    AcGePoint3d orgPt;
    AcGeVector3d xAxis, yAxis, zAxis;
    mUcsToWcsMat.getCoordSystem(orgPt, xAxis, yAxis, zAxis);

    // Get the current elevation w.r.t current UCS, w.r.t the current space.
    //
    struct resbuf rb;
    ads_getvar(/*MSG0*/"CVPORT", &rb);
    double elev;
    if (rb.resval.rint == 1)
        elev = mpDb->pelevation();  // Paper space
    else
        elev = mpDb->elevation();   // Model space

    // Convert elevation from UCS to WCS.
    //
    orgPt += elev * zAxis;
    mElevation = zAxis.dotProduct(orgPt.asVector());
    mNormal = zAxis;
    mHorizDir = xAxis;
    mVertDir = mNormal.crossProduct(mHorizDir);
    return Acad::eOk;
}
Ejemplo n.º 2
0
MaterialJig::MaterialJig(
    const AcGePoint3d& center,
    const AcDbObjectId& materialId)
{
    mpMaterialEnt = (AsdkMaterial*)AsdkMaterial::desc()->create();
    mpMaterialEnt->setDatabaseDefaults();
    mpMaterialEnt->setMaterialId(materialId);

    AcGeMatrix3d translateMat;
    translateMat.setToTranslation(center.asVector());
    mpMaterialEnt->setTransform(translateMat);
}
Ejemplo n.º 3
0
AcDbObjectId CArxHelper::CreateText(const CString& strText, const AcGePoint3d& pt1, const AcGePoint3d& pt2, double dDist, BOOL bUp /* = TRUE */)
{
	AcDbObjectId textId = AcDbObjectId::kNull;
	AcGePoint3d pt = (pt1 + pt2.asVector()) / 2.0;
	AcDbMText* pMText = new AcDbMText();
	pMText->setContents(strText);
	pMText->setLocation(pt);

	pMText->setDirection(pt2-pt1);

	textId = AddToCAD(pMText,4);

	AcDbExtents extents;
	pMText->getGeomExtents(extents);
	AcGeVector3d vect = (pt2-pt1).normal() * (extents.maxPoint().x - extents.minPoint().x) / 2.0;
	AcGeMatrix3d xform = AcGeMatrix3d::translation(-vect);
	acdbOpenObject(pMText,textId,AcDb::kForWrite);
	pMText->transformBy(xform);
	pMText->close();
	return textId;
}
void
ArxDbgUtils::getUcsToWcsOriginMatrix(AcGeMatrix3d& m,
                        const AcGePoint3d& wcsBasePt, AcDbDatabase* db)
{
	ASSERT(db != NULL);

    AcGeMatrix3d tmpMat;

	if (acdbUcsMatrix(tmpMat, db)) {
		AcGePoint3d origin;
		AcGeVector3d xDir, yDir, zDir;

		tmpMat.getCoordSystem(origin, xDir, yDir, zDir);
		origin += wcsBasePt.asVector();

	    m.setToAlignCoordSys(origin, xDir, yDir, zDir,
            AcGePoint3d::kOrigin, AcGeVector3d::kXAxis,
            AcGeVector3d::kYAxis, AcGeVector3d::kZAxis);
	}
	else {
		ASSERT(0);
        m = AcGeMatrix3d::kIdentity;
	}
}
void
ArxDbgDbAdeskLogo::drawSingleCaliper(AcGiCommonDraw* drawContext, AcGePoint3d* pts,
                                   ArxDbgDbAdeskLogoStyle* lStyle)
{
	AcGeVector3d viewDir;
	AcGiViewportDraw* vportDraw = AcGiViewportDraw::cast(drawContext);
	if (vportDraw)
		viewDir = vportDraw->viewport().viewDir();
	else {
			// cheat and get viewdir for current viewport from the system variable
		AcGePoint3d tmpPt;
		getSysVar(_T("viewdir"), tmpPt);
		viewDir = tmpPt.asVector();
	}

    if (viewDir == AcGeVector3d::kZAxis) {
            // if solid fill is on we have to save the current state
            // first and then restore it.  If we don't, then if we 
            // are drawn as part of some other entity, we'll mess it up
            // for them.
        if (lStyle && (lStyle->isSolidFill()) && (drawContext->isDragging() == Adesk::kFalse)) {
            AcGiFillType savedFillType = drawContext->subEntityTraits().fillType();
            drawContext->subEntityTraits().setFillType(kAcGiFillAlways);
            drawContext->rawGeometry()->polygon(5, pts);
            drawContext->subEntityTraits().setFillType(savedFillType);
        }
        else {
            drawContext->rawGeometry()->polygon(5, pts);
        }
    }
    else {
        AcGePoint3d allPts[10];
        allPts[0] = pts[0];
        allPts[1] = pts[1];
        allPts[2] = pts[2];
        allPts[3] = pts[3];
        allPts[4] = pts[4];

        allPts[5].set(pts[0].x, pts[0].y, 1.0);
        allPts[6].set(pts[1].x, pts[1].y, 1.0);
        allPts[7].set(pts[2].x, pts[2].y, 1.0);
        allPts[8].set(pts[3].x, pts[3].y, 1.0);
        allPts[9].set(pts[4].x, pts[4].y, 1.0);

        Adesk::Int32 faceList[37];

            // bottom face
        faceList[0]  = 5;   // number of vertices
        faceList[1]  = 0;
        faceList[2]  = 1;
        faceList[3]  = 2;
        faceList[4]  = 3;
        faceList[5]  = 4;

            // top face
        faceList[6]  = 5;   // number of vertices
        faceList[7]  = 5;
        faceList[8]  = 6;
        faceList[9]  = 7;
        faceList[10] = 8;
        faceList[11] = 9;

            // inside left face
        faceList[12] = 4;   // number of vertices
        faceList[13] = 0;
        faceList[14] = 1;
        faceList[15] = 6;
        faceList[16] = 5;

            // inside right face
        faceList[17] = 4;   // number of vertices
        faceList[18] = 1;
        faceList[19] = 2;
        faceList[20] = 7;
        faceList[21] = 6;

            // outside right face
        faceList[22] = 4;   // number of vertices
        faceList[23] = 2;
        faceList[24] = 3;
        faceList[25] = 8;
        faceList[26] = 7;

            // outside top face
        faceList[27] = 4;   // number of vertices
        faceList[28] = 3;
        faceList[29] = 4;
        faceList[30] = 9;
        faceList[31] = 8;

            // outside left face
        faceList[32] = 4;   // number of vertices
        faceList[33] = 4;
        faceList[34] = 0;
        faceList[35] = 5;
        faceList[36] = 9;

        drawContext->rawGeometry()->shell(10, allPts, 37, faceList);
    }
}