Exemple #1
0
 public override void OnSingleClick(ProceduralObject obj)
 {
     foreach (var po in selection)
     {
         if (po.isRootOfGroup && logic.selectedGroup == null)
         {
             Quaternion diff = obj.m_rotation * Quaternion.Inverse(po.m_rotation);
             foreach (var o in po.group.objects)
             {
                 o.historyEditionBuffer.InitializeNewStep(EditingStep.StepType.moveTo, null);
                 o.SetRotation(diff * o.m_rotation);
                 if (o != po)
                 {
                     o.SetPosition(VertexUtils.RotatePointAroundPivot(o.m_position, po.m_position, diff));
                 }
                 o.historyEditionBuffer.ConfirmNewStep(null);
             }
         }
         else
         {
             po.historyEditionBuffer.InitializeNewStep(EditingStep.StepType.rotation, null);
             po.SetRotation(obj.m_rotation);
             po.historyEditionBuffer.ConfirmNewStep(null);
         }
     }
     ExitAction();
 }
        public void DoSlope(bool oriented)
        {
            var maxObjects = VertexUtils.OutmostPoints(selection.ToArray());

            float      heightDiff    = maxObjects.Value.m_position.y - maxObjects.Key.m_position.y;
            float      distDiff      = Vector2.Distance(maxObjects.Value.m_position.AsXZVector2(), maxObjects.Key.m_position.AsXZVector2());
            Vector3    flatDirection = new Vector3(maxObjects.Value.m_position.x, 0, maxObjects.Value.m_position.z) - new Vector3(maxObjects.Key.m_position.x, 0, maxObjects.Key.m_position.z);
            Quaternion rotDiff       = Quaternion.FromToRotation(flatDirection, maxObjects.Value.m_position - maxObjects.Key.m_position);

            foreach (var po in selection)
            {
                var localdistdiff   = Vector3.Project((po.m_position - maxObjects.Key.m_position).NullY(), (maxObjects.Value.m_position - maxObjects.Key.m_position).NullY()).magnitude;
                var localheightdiff = (po == maxObjects.Key) ? 0f : ((po == maxObjects.Value) ? heightDiff : heightDiff * localdistdiff / distDiff);
                if (po.isRootOfGroup && logic.selectedGroup == null)
                {
                    foreach (var o in po.group.objects)
                    {
                        if (oriented)
                        {
                            o.historyEditionBuffer.InitializeNewStep(EditingStep.StepType.moveTo, null);
                            o.SetPosition(new Vector3(o.m_position.x, localheightdiff + maxObjects.Key.m_position.y, o.m_position.z));
                            o.SetRotation(rotDiff * o.m_rotation);
                            if (o != po)
                            {
                                o.m_position = VertexUtils.RotatePointAroundPivot(o.m_position, po.m_position, rotDiff);
                            }
                        }
                        else
                        {
                            o.historyEditionBuffer.InitializeNewStep(EditingStep.StepType.position, null);
                            o.SetPosition(new Vector3(o.m_position.x, localheightdiff + maxObjects.Key.m_position.y, o.m_position.z));
                        }
                        o.historyEditionBuffer.ConfirmNewStep(null);
                    }
                }
                else
                {
                    if (oriented)
                    {
                        po.historyEditionBuffer.InitializeNewStep(EditingStep.StepType.moveTo, null);
                        po.SetRotation(rotDiff * po.m_rotation);
                    }
                    else
                    {
                        po.historyEditionBuffer.InitializeNewStep(EditingStep.StepType.position, null);
                    }
                    po.SetPosition(new Vector3(po.m_position.x, localheightdiff + maxObjects.Key.m_position.y, po.m_position.z));
                    po.historyEditionBuffer.ConfirmNewStep(null);
                }
            }
        }
        // move vertices
        public void ApplyToNewPosition(Vector3 newHitPoint, ProceduralObject obj)
        {
            if (relativePositions == null)
            {
                return;
            }
            if (relativePositions.Count == 0)
            {
                return;
            }
            var referencial = VertexUtils.RotatePointAroundPivot(newHitPoint, originHitPoint, Quaternion.Inverse(obj.m_rotation));

            foreach (KeyValuePair <Vertex, Vector3> kvp in relativePositions)
            {
                var newpos = kvp.Value + referencial;
                kvp.Key.Position = new Vector3(newpos.x, kvp.Key.Position.y, newpos.z);
            }
        }
        // rotate vertices
        public void ApplyToNewPosition(float mousePosX)
        {
            float      diff = originMousePosition.x - mousePosX;
            Quaternion rot  = Quaternion.identity;

            if (diff > 0)
            {
                rot = Quaternion.Euler(0, (diff * 370f) / Screen.width, 0);
            }
            else
            {
                rot = Quaternion.Euler(0, -(((-diff) * 370f) / Screen.width), 0);
            }

            foreach (KeyValuePair <Vertex, Vertex> kvp in rotVertices)
            {
                kvp.Value.Position = VertexUtils.RotatePointAroundPivot(kvp.Key.Position, verticesBounds.center, rot);
            }
        }
Exemple #5
0
 private void ApplyRotations()
 {
     foreach (var po in selection)
     {
         Quaternion appliedRot = Quaternion.Euler(RandomX ? randomizedRotations[po].x : 0f,
                                                  RandomY ? randomizedRotations[po].y : 0f,
                                                  RandomZ ? randomizedRotations[po].z : 0f);
         if (po.isRootOfGroup && logic.selectedGroup == null)
         {
             foreach (var o in po.group.objects)
             {
                 o.SetRotation(appliedRot * oldRotations[o]);
                 if (o != po)
                 {
                     o.SetPosition(VertexUtils.RotatePointAroundPivot(oldPositions[o], po.m_position, appliedRot));
                 }
             }
         }
         else
         {
             po.SetRotation(appliedRot * oldRotations[po]);
         }
     }
 }