コード例 #1
0
    // update the attachment with the current slot data
    public void Update(Slot slot)
    {
        _attachment = slot.Attachment as RegionAttachment;
        _attachment.UpdateVertices(slot.Bone);
        element = _attachment.Texture as FAtlasElement;

        base.color = _slotCustomColor * new Color(slot.R, slot.G, slot.B, slot.A);

        UpdateLocalVertices();
    }
コード例 #2
0
    public void Update()
    {
        // Clear fields if missing information to render.
        if (skeletonDataAsset == null || skeletonDataAsset.GetSkeletonData(false) == null)
        {
            Clear();
            return;
        }

        // Initialize fields.
        if (skeleton == null || skeleton.Data != skeletonDataAsset.GetSkeletonData(false))
        {
            Initialize();
        }

        // Keep AnimationState in sync with animationName and loop fields.
        if (animationName == null && state.Animation != null)
        {
            state.Clear();
        }
        else if (state.Animation == null || animationName != state.Animation.Name)
        {
            Spine.Animation animation = skeleton.Data.FindAnimation(animationName);
            if (animation != null)
            {
                state.SetAnimation(animation, loop);
            }
        }
        state.Loop = loop;

        // Apply animation.
        skeleton.Update(Time.deltaTime * timeScale);
        state.Update(Time.deltaTime * timeScale);
        state.Apply(skeleton);
        skeleton.UpdateWorldTransform();

        // Count quads.
        int         quadCount = 0;
        List <Slot> drawOrder = skeleton.DrawOrder;

        for (int i = 0, n = drawOrder.Count; i < n; i++)
        {
            Slot       slot       = drawOrder[i];
            Attachment attachment = slot.Attachment;
            if (attachment is RegionAttachment)
            {
                quadCount++;
            }
        }

        // Ensure mesh data is the right size.
        if (quadCount != this.quadCount)
        {
            this.quadCount = quadCount;
            vertices       = new Vector3[quadCount * 4];
            uvs            = new Vector2[quadCount * 4];
            triangles      = new int[quadCount * 6];
        }

        // Setup mesh.
        int quadIndex = 0;

        for (int i = 0, n = drawOrder.Count; i < n; i++)
        {
            Slot       slot       = drawOrder[i];
            Attachment attachment = slot.Attachment;
            if (attachment is RegionAttachment)
            {
                RegionAttachment regionAttachment = (RegionAttachment)attachment;

                regionAttachment.UpdateVertices(slot.Bone);
                float[] regionVertices = regionAttachment.Vertices;
                int     vertexIndex    = quadIndex * 4;
                vertices[vertexIndex]     = new Vector3(regionVertices[RegionAttachment.X1], regionVertices[RegionAttachment.Y1], 0);
                vertices[vertexIndex + 1] = new Vector3(regionVertices[RegionAttachment.X4], regionVertices[RegionAttachment.Y4], 0);
                vertices[vertexIndex + 2] = new Vector3(regionVertices[RegionAttachment.X2], regionVertices[RegionAttachment.Y2], 0);
                vertices[vertexIndex + 3] = new Vector3(regionVertices[RegionAttachment.X3], regionVertices[RegionAttachment.Y3], 0);

                float[] regionUVs = regionAttachment.UVs;
                uvs[vertexIndex]     = new Vector2(regionUVs[RegionAttachment.X1], 1 - regionUVs[RegionAttachment.Y1]);
                uvs[vertexIndex + 1] = new Vector2(regionUVs[RegionAttachment.X4], 1 - regionUVs[RegionAttachment.Y4]);
                uvs[vertexIndex + 2] = new Vector2(regionUVs[RegionAttachment.X2], 1 - regionUVs[RegionAttachment.Y2]);
                uvs[vertexIndex + 3] = new Vector2(regionUVs[RegionAttachment.X3], 1 - regionUVs[RegionAttachment.Y3]);

                int index = quadIndex * 6;
                triangles[index]     = vertexIndex;
                triangles[index + 1] = vertexIndex + 2;
                triangles[index + 2] = vertexIndex + 1;
                triangles[index + 3] = vertexIndex + 2;
                triangles[index + 4] = vertexIndex + 3;
                triangles[index + 5] = vertexIndex + 1;

                quadIndex++;
            }
        }
        mesh.vertices  = vertices;
        mesh.uv        = uvs;
        mesh.triangles = triangles;

        renderer.sharedMaterial = skeletonDataAsset.atlasAsset.material;
    }
コード例 #3
0
    public void Update()
    {
        // Clear fields if missing information to render.
        if (skeletonDataAsset == null || skeletonDataAsset.GetSkeletonData(false) == null)
        {
            Clear();
            return;
        }

        // Initialize fields.
        if (skeleton == null || skeleton.Data != skeletonDataAsset.GetSkeletonData(false))
        {
            Initialize();
        }

        // Keep AnimationState in sync with animationName and loop fields.
        if (animationName == null || animationName.Length == 0)
        {
            if (state.Animation != null)
            {
                state.ClearAnimation();
            }
        }
        else if (state.Animation == null || animationName != state.Animation.Name)
        {
            Spine.Animation animation = skeleton.Data.FindAnimation(animationName);
            if (animation != null)
            {
                state.SetAnimation(animation, loop);
            }
        }
        state.Loop = loop;

        // Keep Skeleton in sync with skinName.
        if (skinName == null || skinName.Length == 0)
        {
            if (skeleton.Skin != null)
            {
                skeleton.SetSkin((Skin)null);
                skeleton.SetSlotsToBindPose();
            }
        }
        else if (skeleton.Skin == null || skinName != skeleton.Skin.Name)
        {
            skeleton.SetSkin(skinName);
            skeleton.SetSlotsToBindPose();
        }

        UpdateAnimation();

        // Count quads.
        int         quadCount = 0;
        List <Slot> drawOrder = skeleton.DrawOrder;

        for (int i = 0, n = drawOrder.Count; i < n; i++)
        {
            Slot       slot       = drawOrder[i];
            Attachment attachment = slot.Attachment;
            if (attachment is RegionAttachment)
            {
                quadCount++;
            }
        }

        // Ensure mesh data is the right size.
        if (quadCount != this.quadCount)
        {
            this.quadCount = quadCount;
            vertices       = new Vector3[quadCount * 4];
            colors         = new Color[quadCount * 4];
            uvs            = new Vector2[quadCount * 4];
            triangles      = new int[quadCount * 6];
            mesh.Clear();
        }

        // Setup mesh.
        int   quadIndex = 0;
        Color color     = new Color();

        for (int i = 0, n = drawOrder.Count; i < n; i++)
        {
            Slot       slot       = drawOrder[i];
            Attachment attachment = slot.Attachment;
            if (attachment is RegionAttachment)
            {
                RegionAttachment regionAttachment = (RegionAttachment)attachment;

                regionAttachment.UpdateVertices(slot.Bone);
                float[] regionVertices = regionAttachment.Vertices;
                int     vertexIndex    = quadIndex * 4;
                vertices[vertexIndex]     = new Vector3(regionVertices[RegionAttachment.X1], regionVertices[RegionAttachment.Y1], 0);
                vertices[vertexIndex + 1] = new Vector3(regionVertices[RegionAttachment.X4], regionVertices[RegionAttachment.Y4], 0);
                vertices[vertexIndex + 2] = new Vector3(regionVertices[RegionAttachment.X2], regionVertices[RegionAttachment.Y2], 0);
                vertices[vertexIndex + 3] = new Vector3(regionVertices[RegionAttachment.X3], regionVertices[RegionAttachment.Y3], 0);

                color.r                 = skeleton.R * slot.R;
                color.g                 = skeleton.G * slot.G;
                color.b                 = skeleton.B * slot.B;
                color.a                 = skeleton.A * slot.A;
                colors[vertexIndex]     = color;
                colors[vertexIndex + 1] = color;
                colors[vertexIndex + 2] = color;
                colors[vertexIndex + 3] = color;

                float[] regionUVs = regionAttachment.UVs;
                uvs[vertexIndex]     = new Vector2(regionUVs[RegionAttachment.X1], 1 - regionUVs[RegionAttachment.Y1]);
                uvs[vertexIndex + 1] = new Vector2(regionUVs[RegionAttachment.X4], 1 - regionUVs[RegionAttachment.Y4]);
                uvs[vertexIndex + 2] = new Vector2(regionUVs[RegionAttachment.X2], 1 - regionUVs[RegionAttachment.Y2]);
                uvs[vertexIndex + 3] = new Vector2(regionUVs[RegionAttachment.X3], 1 - regionUVs[RegionAttachment.Y3]);

                int index = quadIndex * 6;
                triangles[index]     = vertexIndex;
                triangles[index + 1] = vertexIndex + 2;
                triangles[index + 2] = vertexIndex + 1;
                triangles[index + 3] = vertexIndex + 2;
                triangles[index + 4] = vertexIndex + 3;
                triangles[index + 5] = vertexIndex + 1;

                quadIndex++;
            }
        }
        mesh.vertices  = vertices;
        mesh.colors    = colors;
        mesh.uv        = uvs;
        mesh.triangles = triangles;

        renderer.sharedMaterial = skeletonDataAsset.atlasAsset.material;
    }