// Token: 0x060001E4 RID: 484 RVA: 0x0000D60C File Offset: 0x0000B80C private static bool IsSingleIronInXYPlane(List <ItGeCurve3d> firstList) { ItGeVector3d directionFromCurve = SteelGroupElementRebarBase.GetDirectionFromCurve(firstList[0]); ItGeVector3d refVec = directionFromCurve.crossProduct(ItGeVector3d.kZAxis); ItGeVector3d vec = directionFromCurve.orthoProject(ItGeVector3d.kZAxis); double a = directionFromCurve.angleTo(vec, refVec); return(a.Eq(0.0, -1.0)); }
// Token: 0x0600022E RID: 558 RVA: 0x0000F4DC File Offset: 0x0000D6DC protected short GetUnitechnikAngleOfFreeForm(ItGeCurve3d first, out ItGeVector3d normal) { ItGeVector3d directionFromCurve = SteelGroupElementRebarBase.GetDirectionFromCurve(first); double num = ItGeVector3d.kXAxis.angleTo(directionFromCurve, ItGeVector3d.kZAxis); normal = ItGeVector3d.kYAxis.rotateBy(num, ItGeVector3d.kZAxis); num = SteelGroupElement.FixAngleRange(num, false); num = ItAngle.toDegree(num); return((short)Math.Round(num, 0)); }
// Token: 0x0600022C RID: 556 RVA: 0x0000F41C File Offset: 0x0000D61C protected bool IsMainAxis() { bool flag = this.IronSetsSchematic.none <List <ItGeCurve3d> >() || this.IronSetsSchematic[0].none <ItGeCurve3d>(); bool result; if (flag) { result = false; } else { ItGeVector3d directionFromCurve = SteelGroupElementRebarBase.GetDirectionFromCurve(this.IronSetsSchematic[0][0]); result = (directionFromCurve.isParallelTo(ItGeVector3d.kXAxis, null) || directionFromCurve.isParallelTo(ItGeVector3d.kYAxis, null)); } return(result); }
// Token: 0x060001D9 RID: 473 RVA: 0x0000CC6C File Offset: 0x0000AE6C private short GetUnitechnikAngleOfNextSegment(ItGeCurve3d thisCurve, ItGeCurve3d nextCurve, ItGeVector3d normal) { bool flag = nextCurve == null; short result; if (flag) { result = 0; } else { ItGeVector3d directionFromCurve = SteelGroupElementRebarBase.GetDirectionFromCurve(thisCurve); ItGeVector3d directionFromCurve2 = SteelGroupElementRebarBase.GetDirectionFromCurve(nextCurve); double num = directionFromCurve.angleTo(directionFromCurve2, normal); num = SteelGroupElement.FixAngleRange(num, false); num = ItAngle.toDegree(num); short num2 = (short)Math.Round(num, 0); result = num2; } return(result); }
// Token: 0x060001E0 RID: 480 RVA: 0x0000D164 File Offset: 0x0000B364 private static bool IsValidBendingFormForUnitechnikFreeForm(List <List <ItGeCurve3d> > arrayIrons) { bool flag = arrayIrons.any <List <ItGeCurve3d> >(); bool flag2 = !flag; bool result; if (flag2) { result = false; } else { ItGeCurve3d curve; flag = arrayIrons.All(delegate(List <ItGeCurve3d> curves) { bool result2 = false; if (curves.any <ItGeCurve3d>()) { // result2 = curves.All((ItGeCurve3d curve) => curve is ItGeLineSeg3d); } else { result2 = false; } return(result2); }); bool flag3 = !flag; if (flag3) { result = false; } else { flag = !SteelGroupElementRebar.IsSingleSegment(arrayIrons); bool flag4 = !flag; if (flag4) { result = false; } else { bool flag5 = arrayIrons.Count > 1; if (flag5) { //SteelGroupElementRebar.<>c__DisplayClass19_1 CS$<>8__locals1 = new SteelGroupElementRebar.<>c__DisplayClass19_1(); //List<List<double>> list4 = (from curves in arrayIrons //select (from curve in curves //select curve.len).ToList<double>()).ToList<List<double>>(); //CS$<>8__locals1.firstLengths = list4[0]; //int j; //int k; //for (k = 0; k < CS$<>8__locals1.firstLengths.Count; k = j + 1) //{ // flag = list4.All((List<double> list) => list[k].Eq(CS$<>8__locals1.firstLengths[k], -1.0)); // bool flag6 = !flag; // if (flag6) // { // return false; // } // j = k; //} //List<List<ItGeVector3d>> list2 = (from curves in arrayIrons //select curves.Select(new Func<ItGeCurve3d, ItGeVector3d>(SteelGroupElementRebarBase.GetDirectionFromCurve)).ToList<ItGeVector3d>()).ToList<List<ItGeVector3d>>(); //CS$<>8__locals1.firstDirections = list2[0]; //int i; //for (i = 0; i < CS$<>8__locals1.firstDirections.Count; i = j + 1) //{ // flag = list2.All((List<ItGeVector3d> list) => list[i].isCodirectionalTo(CS$<>8__locals1.firstDirections[i], null)); // bool flag7 = !flag; // if (flag7) // { // return false; // } // j = i; //} } ItGeVector3d itGeVector3d = null; itGeVector3d = SteelGroupElementRebarBase.GetNormalFromFirstTwoSegments(arrayIrons.First <List <ItGeCurve3d> >(), ItGeVector3d.kZAxis); flag = itGeVector3d.z.Eq(0.0, -1.0); bool flag8 = !flag; if (flag8) { result = false; } else { foreach (List <ItGeCurve3d> list3 in arrayIrons) { ItGeCurve3d firstCurve = list3[0]; foreach (ItGeCurve3d itGeCurve3d in list3) { ItGeCurve3d itGeCurve3d2 = itGeCurve3d; ItGeVector3d normalFromTwoSegments = SteelGroupElementRebarBase.GetNormalFromTwoSegments(firstCurve, itGeCurve3d2); flag = (normalFromTwoSegments == null || normalFromTwoSegments.isParallelTo(itGeVector3d, null)); bool flag9 = !flag; if (flag9) { return(false); } firstCurve = itGeCurve3d2; } } curve = arrayIrons[0][0]; ItGeVector3d directionFromCurve = SteelGroupElementRebarBase.GetDirectionFromCurve(curve); bool flag10 = directionFromCurve.dotProduct(ItGeVector3d.kZAxis).Ne(0.0, -1.0); if (flag10) { ItGeCurve3d curve2 = arrayIrons[0].Last <ItGeCurve3d>(); directionFromCurve = SteelGroupElementRebarBase.GetDirectionFromCurve(curve2); bool flag11 = directionFromCurve.dotProduct(ItGeVector3d.kZAxis).Ne(0.0, -1.0); if (flag11) { return(false); } arrayIrons.ForEach(delegate(List <ItGeCurve3d> list) { list.Reverse(); }); arrayIrons.ForEach(delegate(List <ItGeCurve3d> list) { //list.ForEach(delegate(ItGeCurve3d curve) //{ // curve.reverseParam(); //}); }); } result = true; } } } } return(result); }