Exemplo n.º 1
0
        /// <summary>
        /// Rebuilds the axis based on the specified list of ticks.
        /// </summary>
        /// <param name="ticks">The list of ticks representing the topology of the axis.</param>
        /// <param name="axisLabel">The label shown for the whole axis.</param>
        public void RebuildAxis(AxisTick[] ticks, string axisLabel = null)
        {
            var meshFilter = GetComponent <MeshFilter>();

            var canvasScale = _labelCanvas.transform.localScale;

            _invCanvasScale = new Vector3(1.0f / canvasScale.x, 1.0f / canvasScale.y, 1.0f / canvasScale.z);

            _axisRoot.localScale = new Vector3(_length, 1, 1);
            // set the canvas to the same size as the axis. Technically, there is no need to, but it looks nicer in the editor.
            _labelCanvas.GetComponent <RectTransform>().SetSizeWithCurrentAnchors(RectTransform.Axis.Horizontal, _length * _invCanvasScale.x);
            // Remove all previous labels
            for (int i = _labelCanvas.transform.childCount - 1; i >= 0; i--)
            {
                DestroyImmediate(_labelCanvas.transform.GetChild(i).gameObject);
            }
            // Create new Ticks & Labels
            var iMesh = new IntermediateMesh();

            for (int i = 0; i < ticks.Length; i++)
            {
                CreateSingleTick(iMesh, ticks[i]);
                if (ticks[i].HasLabel)
                {
                    CreateSingleLabel(ticks[i]);
                }
            }
            if (_hasAxisLabel)
            {
                CreateAxisLabel(axisLabel);
            }

            GameObject.Destroy(meshFilter.sharedMesh);
            meshFilter.sharedMesh = iMesh.GenerateMesh("AxisTicksMesh", MeshTopology.Lines);
        }
Exemplo n.º 2
0
        protected override void RebuildVisualization()
        {
            if (_presenter == null || _presenter.NumberOfDimensions < 2)
            {
                Debug.LogError("Presenter is either null or has not enough dimensions to represent this visualization");
                return;
            }
            var iMesh  = new IntermediateMesh();
            int offset = (int)_presenter.SelectedMinItem;
            int length = (int)_presenter.SelectedMaxItem - offset;

            for (int itemIndex = 0; itemIndex < length; itemIndex++)
            {
                for (int dimIndex = 0; dimIndex < _presenter.NumberOfDimensions; dimIndex++)
                {
                    float pos_x = (float)dimIndex / _presenter.NumberOfDimensions;
                    //Debug.Log(dimIndex + ", " + (itemIndex + offset));
                    float pos_y = VisViewHelper.GetItemValueAbsolute(_presenter, dimIndex, itemIndex + offset, true);
                    iMesh.Vertices.Add(new Vector3(pos_x * _size.x, pos_y * _size.y, 0.0f));
                    iMesh.Normals.Add(-Vector3.forward);
                    iMesh.Colors.Add(_style.GetColorCategorical(itemIndex, pos_x));
                    if (dimIndex == 0)
                    {
                        continue;
                    }
                    iMesh.Indices.Add(iMesh.Vertices.Count - 2);
                    iMesh.Indices.Add(iMesh.Vertices.Count - 1);
                }
            }
            var meshFilter = GetComponent <MeshFilter>();

            meshFilter.sharedMesh = iMesh.GenerateMesh("ParallelCoordinatesMesh", MeshTopology.Lines);
        }
Exemplo n.º 3
0
        protected override void RebuildVisualization()
        {
            if (_presenter == null || _presenter.NumberOfDimensions < 1)
            {
                Debug.LogError("Presenter is either null or has not enough dimensions to represent this visualization");
                return;
            }
            var   iMesh    = new IntermediateMesh();
            int   offset   = (int)_presenter.SelectedMinItem;
            int   length   = (int)_presenter.SelectedMaxItem - offset;
            float maxValue = VisViewHelper.GetGlobalMaximum(_presenter);
            float step     = 1.0f / _presenter.NumberOfDimensions;

            for (int dimIndex = 0; dimIndex < _presenter.NumberOfDimensions; dimIndex++)
            {
                for (int itemIndex = 0; itemIndex < length; itemIndex++)
                {
                    float valueX = (float)itemIndex / length;
                    float valueY = VisViewHelper.GetItemValueAbsolute(_presenter, dimIndex, itemIndex + offset) / maxValue;
                    float valueZ = dimIndex * step + (0.5f * step);
                    iMesh.Vertices.Add(new Vector3(valueX * _size.x, valueY * _size.y, valueZ * _size.z));
                    iMesh.Normals.Add(-Vector3.forward);
                    iMesh.Colors.Add(_style.GetColorCategorical(dimIndex, valueX));
                    if (itemIndex == 0)
                    {
                        continue;
                    }
                    iMesh.Indices.Add(iMesh.Vertices.Count - 2);
                    iMesh.Indices.Add(iMesh.Vertices.Count - 1);
                }
            }
            var meshFilter = GetComponent <MeshFilter>();

            meshFilter.sharedMesh = iMesh.GenerateMesh("LineChart2DMesh", MeshTopology.Lines);
        }
Exemplo n.º 4
0
        protected override void RebuildVisualization()
        {
            if (_presenter == null || _presenter.NumberOfDimensions < 2)
            {
                Debug.LogError("Presenter is either null or has not enough dimensions to represent this visualization");
                return;
            }
            if (_dataItemMesh == null)
            {
                Debug.LogError("No DataMesh was set for this visualization.");
                return;
            }
            var iMesh = new IntermediateMesh();
            // temporary save the mesh data from the template for faster access
            var tVertices = _dataItemMesh.vertices;
            var tNromals  = _dataItemMesh.normals;
            var tUVs      = _dataItemMesh.uv;
            var tIndices  = _dataItemMesh.triangles;

            int   offset     = _presenter.SelectedMinItem;
            int   length     = _presenter.SelectedItemsCount;
            float posXStep   = _size.x / length;
            float posXOffset = posXStep * 0.5f;
            float uStep      = 1.0f / length;
            float uOffset    = uStep * 0.5f;

            for (int i = 0; i < length; i++)
            {
                int itemIndex  = i + offset;
                var value      = VisViewHelper.GetItemValueAbsolute(_presenter, 1, itemIndex, true);
                var pos        = new Vector3(posXOffset + i * posXStep, 0, 0);
                var scale      = new Vector3(posXStep * _barThickness, value * _size.y, _size.z);
                var startIndex = iMesh.Vertices.Count;
                var color      = _style.GetColorContinous(_presenter.IsItemHighlighted(itemIndex), uOffset + uStep * i);
                foreach (var v in tVertices)
                {
                    iMesh.Vertices.Add(new Vector3(pos.x + v.x * scale.x, pos.y + v.y * scale.y, pos.z + v.z * scale.z));
                    iMesh.Colors.Add(color);
                }
                iMesh.Normals.AddRange(tNromals);
                iMesh.TexCoords.AddRange(tUVs);
                foreach (var j in tIndices)
                {
                    iMesh.Indices.Add(startIndex + j);
                }
            }

            var meshFilter = GetComponent <MeshFilter>();

            meshFilter.sharedMesh = iMesh.GenerateMesh("BarChart2DMesh", MeshTopology.Triangles);
        }
Exemplo n.º 5
0
        protected override void RebuildVisualization()
        {
            if (_presenter == null || _presenter.NumberOfDimensions < 3)
            {
                Debug.LogError("Presenter is either null or has not enough dimensions to represent this visualization");
                return;
            }
            var   iMesh    = new IntermediateMesh();
            int   offset   = _presenter.SelectedMinItem;
            int   length   = _presenter.SelectedItemsCount;
            float posXStep = _size.x / length;
            float posZStep = _size.z / _presenter.NumberOfDimensions;
            float maxValue = VisViewHelper.GetGlobalMaximum(_presenter);
            float uStep    = 1.0f / length;
            float vStep    = 1.0f / _presenter.NumberOfDimensions;

            for (int dimIndex = 0; dimIndex < _presenter.NumberOfDimensions; dimIndex++)
            {
                for (int itemIndex = 0; itemIndex < length; itemIndex++)
                {
                    float value = VisViewHelper.GetItemValueAbsolute(_presenter, dimIndex, itemIndex + offset) / maxValue;
                    var   pos   = new Vector3(posXStep * itemIndex, value, posZStep * dimIndex);
                    iMesh.Vertices.Add(new Vector3(pos.x * _size.x, pos.y * _size.y, pos.z * _size.z));
                    iMesh.Colors.Add(_style.GetColorContinous(uStep * itemIndex, vStep * dimIndex));
                    if (itemIndex < 1 || dimIndex < 1)
                    {
                        continue;
                    }
                    iMesh.Indices.Add(dimIndex * length + itemIndex);
                    iMesh.Indices.Add((dimIndex - 1) * length + itemIndex - 1);
                    iMesh.Indices.Add(dimIndex * length + itemIndex - 1);

                    iMesh.Indices.Add(dimIndex * length + itemIndex);
                    iMesh.Indices.Add((dimIndex - 1) * length + itemIndex);
                    iMesh.Indices.Add((dimIndex - 1) * length + itemIndex - 1);
                }
            }
            var mesh = iMesh.GenerateMesh("HeightmapMesh", MeshTopology.Triangles);

            mesh.RecalculateNormals();
            var meshFilter = GetComponent <MeshFilter>();

            Destroy(meshFilter.sharedMesh);
            meshFilter.sharedMesh = mesh;
        }
Exemplo n.º 6
0
        /// <summary>
        /// Creates a single tick line for the axis.
        /// </summary>
        /// <param name="iMesh">The intermediate mesh holding the components for the final mesh.</param>
        /// <param name="tick">The tick data.</param>
        protected void CreateSingleTick(IntermediateMesh iMesh, AxisTick tick)
        {
            float posX = tick.Position * _length;

            if (_mirrored)
            {
                posX = _length - posX;
            }
            float posY = _tickLength;

            if (!_swapped)
            {
                posY *= -1;
            }

            iMesh.Vertices.Add(new Vector3(posX, 0, 0));
            iMesh.Vertices.Add(new Vector3(posX, posY, 0));
            iMesh.Normals.Add(-Vector3.forward);
            iMesh.Normals.Add(-Vector3.forward);
            iMesh.Colors.Add(Color.white);
            iMesh.Colors.Add(Color.white);
            iMesh.Indices.Add(iMesh.Vertices.Count - 2);
            iMesh.Indices.Add(iMesh.Vertices.Count - 1);
        }
Exemplo n.º 7
0
        protected override void RebuildVisualization()
        {
            if (_presenter == null || _presenter.NumberOfDimensions < 3)
            {
                Debug.LogError("Presenter is either null or has not enough dimensions to represent this visualization");
                return;
            }
            if (_dataItemMesh == null)
            {
                _dataItemMesh = buildCircleMesh();
                Debug.Log("No DataMesh was set for this visualization. Using default");
            }
            var iMesh = new IntermediateMesh();
            // temporary save the mesh data from the template for faster access
            var tVertices = _dataItemMesh.vertices;
            var tNromals  = _dataItemMesh.normals;
            var tUVs      = _dataItemMesh.uv;
            var tIndices  = _dataItemMesh.triangles;

            //int offset = _presenter.SelectedMinItem;
            float divisor = 0;

            MultiDimDataPresenter presenter = (MultiDimDataPresenter)_presenter;

            //TODO find better way to determine divisor (what 100% is)
            for (int valueIndex = 0; valueIndex < presenter[1].Count; valueIndex++)
            {
                float sum = 0;
                for (int dimIndex = 0; dimIndex < presenter.NumberOfDimensions; dimIndex++)
                {
                    sum += VisViewHelper.GetItemValueAbsolute(presenter, dimIndex, valueIndex);
                }
                divisor = Mathf.Max(divisor, sum);
                //Debug.Log("Div " + divisor);
            }
            float startHeight = 0;

            _divisor = divisor;
            //Debug.Log(presenter.CaptionDimension.GetStringValue(ValueIndex));

            for (int dimIndex = 0; dimIndex < _presenter.NumberOfDimensions; dimIndex++)
            {
                float dim;
                if (_useMinIndex)
                {
                    dim = VisViewHelper.GetItemValueAbsolute(_presenter, dimIndex, _presenter.SelectedMinItem);
                }
                else
                {
                    dim = VisViewHelper.GetItemValueAbsolute(_presenter, dimIndex, _valueIndex);
                }
                float height = dim / divisor;
                //Debug.Log(presenter[dimIndex].Name + " height " + height+ " dim " + dim +" div " + divisor);
                //var pos = new Vector3(0, startHeight * _size.y, 0);
                var scale      = new Vector3(_size.x, height * _size.y, _size.z);
                var startIndex = iMesh.Vertices.Count;
                foreach (var v in tVertices)
                {
                    var vPos = new Vector3(v.x * scale.x, startHeight * _size.y + v.y * scale.y, v.z * scale.z);
                    iMesh.Vertices.Add(vPos);
                    iMesh.Colors.Add(_style.GetColorCategorical(dimIndex, height));
                }
                iMesh.Normals.AddRange(tNromals);
                iMesh.TexCoords.AddRange(tUVs);
                foreach (var index in tIndices)
                {
                    iMesh.Indices.Add(startIndex + index);
                }
                startHeight += height;
            }

            var mesh       = iMesh.GenerateMesh("StackedBarMesh", MeshTopology.Triangles);
            var meshFilter = GetComponent <MeshFilter>();

            meshFilter.sharedMesh = mesh;
            var meshCollider = GetComponent <MeshCollider>();

            if (meshCollider != null)
            {
                meshCollider.sharedMesh = mesh;
            }
        }
Exemplo n.º 8
0
        protected override void RebuildVisualization()
        {
            if (_presenter == null || _presenter.NumberOfDimensions < 3)
            {
                Debug.LogError("Presenter is either null or has not enough dimensions to represent this visualization");
                return;
            }
            if (_dataItemMesh == null)
            {
                Debug.LogError("No DataMesh was set for this visualization.");
                return;
            }
            var iMesh = new IntermediateMesh();
            // temporary save the mesh data from the template for faster access
            var tVertices = _dataItemMesh.vertices;
            var tNromals  = _dataItemMesh.normals;
            var tUVs      = _dataItemMesh.uv;
            var tIndices  = _dataItemMesh.triangles;

            int   offset     = _presenter.SelectedMinItem;
            int   length     = _presenter.SelectedItemsCount;
            float maxValue   = VisViewHelper.GetGlobalMaximum(_presenter);
            float posXStep   = _size.x / length;
            float posXOffset = posXStep * 0.5f;
            float posZStep   = _size.z / _presenter.NumberOfDimensions;
            float posZOffset = posZStep * 0.5f;

            float uStep   = 1.0f / length;
            float uOffset = uStep * 0.5f;
            float vStep   = 1.0f / _presenter.NumberOfDimensions;
            float vOffset = vStep * 0.5f;

            //TODO: UV coords of mesh based on height to add grid lines
            for (int dimIndex = 0; dimIndex < _presenter.NumberOfDimensions; dimIndex++)
            {
                for (int itemIndex = 0; itemIndex < length; itemIndex++)
                {
                    float value      = VisViewHelper.GetItemValueAbsolute(_presenter, dimIndex, itemIndex + offset) / maxValue;
                    var   pos        = new Vector3(posXOffset + posXStep * itemIndex, 0, posZOffset + posZStep * dimIndex);
                    var   scale      = new Vector3(posXStep * _barThickness.x, value * _size.y, posZStep * _barThickness.y);
                    var   startIndex = iMesh.Vertices.Count;
                    foreach (var v in tVertices)
                    {
                        var vPos = new Vector3(pos.x + v.x * scale.x, pos.y + v.y * scale.y, pos.z + v.z * scale.z);
                        iMesh.Vertices.Add(vPos);
                        iMesh.Colors.Add(_style.GetColorContinous(_presenter.IsItemHighlighted(itemIndex), uOffset + uStep * itemIndex, vOffset + vStep * dimIndex, vPos.y));
                    }
                    iMesh.Normals.AddRange(tNromals);
                    iMesh.TexCoords.AddRange(tUVs);
                    foreach (var index in tIndices)
                    {
                        iMesh.Indices.Add(startIndex + index);
                    }
                }
            }

            var mesh       = iMesh.GenerateMesh("BarChart3DMesh", MeshTopology.Triangles);
            var meshFilter = GetComponent <MeshFilter>();

            meshFilter.sharedMesh = mesh;
            // TODO Move this into separate class
            var meshCollider = GetComponent <MeshCollider>();

            if (meshCollider != null)
            {
                meshCollider.sharedMesh = mesh;
            }
        }