public override void WriteGroupCodes() { WriteGroupCodeValue(2, ViewName.Trim()); WriteGroupCodeValue(40, ViewHeight.ToString().Trim()); WriteGroupCodeValue(41, ViewWidth.ToString().Trim()); WriteGroupCodeValue(10, ViewCenterX.ToString().Trim()); WriteGroupCodeValue(20, ViewCenterY.ToString().Trim()); WriteGroupCodeValue(11, ViewDirectionX.ToString().Trim()); WriteGroupCodeValue(21, ViewDirectionY.ToString().Trim()); WriteGroupCodeValue(31, ViewDirectionZ.ToString().Trim()); WriteGroupCodeValue(12, ViewTargetX.ToString().Trim()); WriteGroupCodeValue(22, ViewTargetY.ToString().Trim()); WriteGroupCodeValue(32, ViewTargetZ.ToString().Trim()); WriteGroupCodeValue(42, LensLength.ToString().Trim()); WriteGroupCodeValue(43, FrontClippingPlaneOffset.ToString().Trim()); WriteGroupCodeValue(44, BackClippingPlaneOffset.ToString().Trim()); WriteGroupCodeValue(50, TwistAngle.ToString().Trim()); WriteGroupCodeValue(70, GetStandardFlags().ToString().Trim()); }
RelativeBuilder AlignViewX(ViewDirectionX alignViewDirection) { var transaction = _transactionManager.GetTransactionFor(_lastViewAddedToCollection); transaction.AlignViewToX = alignViewDirection; return(this); }
private Constraint GetXPositionFor(ViewDirectionX alignViewTo, View view, View relative, double paddingLeft, double paddingRight) { paddingLeft = paddingLeft - paddingRight; switch (alignViewTo) { case ViewDirectionX.None: { return(Constraint.RelativeToParent(p => paddingLeft)); } case ViewDirectionX.ParentCenterX: { return(Constraint.RelativeToParent(p => (p.Width / 2) - (view.Width / 2) + paddingLeft)); } case ViewDirectionX.ParentLeft: { return(Constraint.RelativeToParent(p => paddingLeft)); } case ViewDirectionX.ParentRight: { return(Constraint.RelativeToParent(p => (p.Width - view.Width) + paddingLeft)); } case ViewDirectionX.LeftOf: { return(Constraint.RelativeToView(relative, (p, v) => ((v.X + v.Width) - ((view.Width + v.Width))) + paddingLeft)); } case ViewDirectionX.RightOf: { return(Constraint.RelativeToView(relative, (p, v) => (v.X + v.Width) + paddingLeft)); } case ViewDirectionX.AlignLeft: { return(Constraint.RelativeToView(relative, (p, v) => v.X + paddingLeft)); } case ViewDirectionX.AlignRight: { return(Constraint.RelativeToView(relative, (p, v) => (v.X + v.Width) + paddingLeft)); } default: { return(null); } } }
RelativeBuilder AlignViewRelativeToX(View sibling, ViewDirectionX alignViewX) { if (sibling == null) { throw new ArgumentNullException("sibling"); } var transaction = _transactionManager.GetTransactionFor(_lastViewAddedToCollection); transaction.AlignViewToX = alignViewX; transaction.RelativeView = sibling; return(this); }
public override void WriteGroupCodes() { WriteGroupCodeValue(2, ViewportName.Trim()); WriteGroupCodeValue(10, LowerLeftX.ToString().Trim()); WriteGroupCodeValue(20, LowerLeftY.ToString().Trim()); WriteGroupCodeValue(11, UpperRightX.ToString().Trim()); WriteGroupCodeValue(21, UpperRightY.ToString().Trim()); WriteGroupCodeValue(12, CenterX.ToString().Trim()); WriteGroupCodeValue(22, CenterY.ToString().Trim()); WriteGroupCodeValue(13, SnapBaseX.ToString().Trim()); WriteGroupCodeValue(23, SnapBaseY.ToString().Trim()); WriteGroupCodeValue(14, SnapSpacingX.ToString().Trim()); WriteGroupCodeValue(24, SnapSpacingY.ToString().Trim()); WriteGroupCodeValue(15, GridSpacingX.ToString().Trim()); WriteGroupCodeValue(25, GridSpacingY.ToString().Trim()); WriteGroupCodeValue(16, ViewDirectionX.ToString().Trim()); WriteGroupCodeValue(26, ViewDirectionY.ToString().Trim()); WriteGroupCodeValue(36, ViewDirectionZ.ToString().Trim()); WriteGroupCodeValue(17, ViewTargetX.ToString().Trim()); WriteGroupCodeValue(27, ViewTargetY.ToString().Trim()); WriteGroupCodeValue(37, ViewTargetZ.ToString().Trim()); WriteGroupCodeValue(40, ViewHeight.ToString().Trim()); WriteGroupCodeValue(41, ViewportAspectRatio.ToString().Trim()); WriteGroupCodeValue(42, LensLength.ToString().Trim()); WriteGroupCodeValue(43, FrontClippingPlaneOffset.ToString().Trim()); WriteGroupCodeValue(44, BackClippingPlaneOffset.ToString().Trim()); WriteGroupCodeValue(50, SnapRotationAngle.ToString().Trim()); WriteGroupCodeValue(51, TwistAngle.ToString().Trim()); WriteGroupCodeValue(70, GetStandardFlags().ToString().Trim()); }
private Constraint GetXPositionFor(ViewDirectionX alignViewTo, View view, View relative, double paddingLeft, double paddingRight) { paddingLeft = paddingLeft - paddingRight; switch (alignViewTo) { case ViewDirectionX.None: { return Constraint.RelativeToParent(p => paddingLeft); } case ViewDirectionX.ParentCenterX: { return Constraint.RelativeToParent(p => (p.Width / 2) - (view.Width / 2) + paddingLeft); } case ViewDirectionX.ParentLeft: { return Constraint.RelativeToParent(p => paddingLeft); } case ViewDirectionX.ParentRight: { return Constraint.RelativeToParent(p => (p.Width - view.Width) + paddingLeft); } case ViewDirectionX.LeftOf: { return Constraint.RelativeToView(relative, (p,v) => ((v.X + v.Width) - ((view.Width + v.Width))) + paddingLeft); } case ViewDirectionX.RightOf: { return Constraint.RelativeToView(relative, (p,v) => (v.X + v.Width) + paddingLeft); } case ViewDirectionX.AlignLeft: { return Constraint.RelativeToView(relative, (p,v) => v.X + paddingLeft); } case ViewDirectionX.AlignRight: { return Constraint.RelativeToView(relative, (p,v) => (v.X + v.Width) + paddingLeft); } default: { return null; } } }
RelativeBuilder AlignViewX(ViewDirectionX alignViewDirection) { var transaction = _transactionManager.GetTransactionFor(_lastViewAddedToCollection); transaction.AlignViewToX = alignViewDirection; return this; }
RelativeBuilder AlignViewRelativeToX(View sibling, ViewDirectionX alignViewX) { if (sibling == null) throw new ArgumentNullException("sibling"); var transaction = _transactionManager.GetTransactionFor(_lastViewAddedToCollection); transaction.AlignViewToX = alignViewX; transaction.RelativeView = sibling; return this; }