using System; using System.Collections.Generic; using System.Linq; using System.Drawing; using Syroot.NintenTools.NSW.Bfres; using Syroot.NintenTools.NSW.Bfres.Helpers; using OpenTK; using OpenTK.Graphics.OpenGL; using System.Windows.Forms; using GL_EditorFramework.GL_Core; using GL_EditorFramework.Interfaces; using Switch_Toolbox.Library; using Switch_Toolbox.Library.Rendering; using Switch_Toolbox.Library.IO; using Switch_Toolbox.Library.Forms; using ResU = Syroot.NintenTools.Bfres; using Bfres.Structs; using GL_EditorFramework.EditorDrawables; namespace FirstPlugin { public class BFRESRender : EditableObject { public Matrix4 ModelTransform = Matrix4.Identity; Vector3 Position; protected bool Selected = false; public bool Hovered = false; public override bool IsSelected() => Selected; // gl buffer objects int vbo_position; int ibo_elements; public List models { get { List fmdls = new List(); foreach (var node in ResFileNode.Nodes) { if (node is BFRESGroupNode && ((BFRESGroupNode)node).Type == BRESGroupType.Models) { foreach (FMDL mdl in ((BFRESGroupNode)node).Nodes) fmdls.Add(mdl); } } return fmdls; } } public BFRES ResFileNode; public BFRESRender() { } private void GenerateBuffers() { GL.GenBuffers(1, out vbo_position); GL.GenBuffers(1, out ibo_elements); } public void LoadFile(ResU.ResFile resFileU) { ResFileNode.Load(resFileU); } public void LoadFile(ResFile resFile) { ResFileNode.Load(resFile); } public void Destroy() { bool buffersWereInitialized = ibo_elements != 0 && vbo_position != 0; if (!buffersWereInitialized) return; GL.DeleteBuffer(vbo_position); GL.DeleteBuffer(ibo_elements); } #region Rendering public ShaderProgram BotwShaderProgram; public ShaderProgram normalsShaderProgram; public ShaderProgram debugShaderProgram; public ShaderProgram pbrShaderProgram; public ShaderProgram defaultShaderProgram; public ShaderProgram solidColorShaderProgram; public override void Prepare(GL_ControlModern control) { string pathFrag = System.IO.Path.Combine(Runtime.ExecutableDir, "Shader", "Bfres") + "\\BFRES.frag"; string pathVert = System.IO.Path.Combine(Runtime.ExecutableDir, "Shader", "Bfres") + "\\BFRES.vert"; string pathBotwFrag = System.IO.Path.Combine(Runtime.ExecutableDir, "Shader", "Bfres") + "\\BFRES_Botw.frag"; string pathPbrFrag = System.IO.Path.Combine(Runtime.ExecutableDir, "Shader", "Bfres") + "\\BFRES_PBR.frag"; string pathBfresUtiltyFrag = System.IO.Path.Combine(Runtime.ExecutableDir, "Shader", "Bfres") + "\\BFRES_utility.frag"; string pathBfresTurboShadow = System.IO.Path.Combine(Runtime.ExecutableDir, "Shader", "Bfres") + "\\BFRESTurboShadow.frag"; string pathUtiltyFrag = System.IO.Path.Combine(Runtime.ExecutableDir, "Shader", "Utility") + "\\Utility.frag"; string pathDebugFrag = System.IO.Path.Combine(Runtime.ExecutableDir, "Shader", "Bfres") + "\\BFRES_Debug.frag"; string pathNormalsFrag = System.IO.Path.Combine(Runtime.ExecutableDir, "Shader", "Bfres") + "\\Normals.frag"; string pathNormalsVert = System.IO.Path.Combine(Runtime.ExecutableDir, "Shader", "Bfres") + "\\Normals.vert"; string pathNormalGeom = System.IO.Path.Combine(Runtime.ExecutableDir, "Shader", "Bfres") + "\\Normals.geom"; var defaultFrag = new FragmentShader(System.IO.File.ReadAllText(pathFrag)); var defaultVert = new VertexShader(System.IO.File.ReadAllText(pathVert)); var BotwtFrag = new FragmentShader(System.IO.File.ReadAllText(pathBotwFrag)); var shadowMapAGL = new FragmentShader(System.IO.File.ReadAllText(pathBfresTurboShadow)); var PbrFrag = new FragmentShader(System.IO.File.ReadAllText(pathPbrFrag)); var debugFrag = new FragmentShader(System.IO.File.ReadAllText(pathDebugFrag)); var normalsVert = new VertexShader(System.IO.File.ReadAllText(pathNormalsVert)); var normalsFrag = new FragmentShader(System.IO.File.ReadAllText(pathNormalsFrag)); var normalsGeom = new GeomertyShader(System.IO.File.ReadAllText(pathNormalGeom)); var bfresUtiltyFrag = new FragmentShader(System.IO.File.ReadAllText(pathBfresUtiltyFrag)); var utiltyFrag = new FragmentShader(System.IO.File.ReadAllText(pathUtiltyFrag)); var solidColorFrag = new FragmentShader( @"#version 330 uniform vec4 color; out vec4 fragColor; void main(){ fragColor = color; }"); var solidColorVert = new VertexShader( @"#version 330 in vec3 vPosition; in vec3 vNormal; in vec3 vColor; uniform mat4 mtxMdl; uniform mat4 mtxCam; out vec3 normal; out vec3 color; out vec3 position; void main(){ normal = vNormal; color = vColor; position = vPosition; gl_Position = mtxMdl * mtxCam * vec4(vPosition.xyz, 1.0); }"); defaultShaderProgram = new ShaderProgram(new Shader[] { bfresUtiltyFrag, utiltyFrag, defaultFrag, defaultVert, utiltyFrag, shadowMapAGL }); BotwShaderProgram = new ShaderProgram(new Shader[] { bfresUtiltyFrag, utiltyFrag, BotwtFrag, defaultVert, utiltyFrag, shadowMapAGL }); normalsShaderProgram = new ShaderProgram(new Shader[] { normalsFrag, normalsVert, normalsGeom }); debugShaderProgram = new ShaderProgram(new Shader[] { bfresUtiltyFrag, utiltyFrag, debugFrag, defaultVert, utiltyFrag, shadowMapAGL }); pbrShaderProgram = new ShaderProgram(new Shader[] { bfresUtiltyFrag, utiltyFrag, PbrFrag, defaultVert, shadowMapAGL }); solidColorShaderProgram = new ShaderProgram(solidColorFrag, solidColorVert); } public override void Prepare(GL_ControlLegacy control) { } private void DrawBoundingBoxes() { foreach (FMDL mdl in models) { foreach (FSHP m in mdl.shapes) { if (m.IsSelected) GL.Color4(Color.GhostWhite); else GL.Color4(Color.OrangeRed); foreach (FSHP.BoundingBox box in m.boundingBoxes) { RenderTools.DrawRectangularPrism(box.Center, box.Extend.X, box.Extend.Y, box.Extend.Z, true); } } } } public override void Draw(GL_ControlLegacy control, Pass pass) { bool buffersWereInitialized = ibo_elements != 0 && vbo_position != 0; if (!buffersWereInitialized) GenerateBuffers(); if (!Runtime.OpenTKInitialized) return; } public void FrameSelection(GL_ControlModern control) { var spheres = new List(); foreach (var model in models) { foreach (var shape in model.shapes) { List vertexPositions = new List(); foreach (var vertex in shape.vertices) { vertexPositions.Add(vertex.pos); } spheres.Add(SFGraphics.Utils.BoundingSphereGenerator.GenerateBoundingSphere(vertexPositions)); } } //Depth sort meshes DepthSortMeshes(control.CameraTarget); } public static Vector4 GenerateBoundingSphere(IEnumerable boundingSpheres) { // The initial max/min should be the first point. Vector3 min = boundingSpheres.FirstOrDefault().Xyz - new Vector3(boundingSpheres.FirstOrDefault().W); Vector3 max = boundingSpheres.FirstOrDefault().Xyz + new Vector3(boundingSpheres.FirstOrDefault().W); // Calculate the end points using the center and radius foreach (var sphere in boundingSpheres) { min = Vector3.ComponentMin(min, sphere.Xyz - new Vector3(sphere.W)); max = Vector3.ComponentMax(max, sphere.Xyz + new Vector3(sphere.W)); } return GetBoundingSphereFromSpheres(min, max); } private static Vector4 GetBoundingSphereFromSpheres(Vector3 min, Vector3 max) { Vector3 lengths = max - min; float maxLength = Math.Max(lengths.X, Math.Max(lengths.Y, lengths.Z)); Vector3 center = (max + min) / 2.0f; float radius = maxLength / 2.0f; return new Vector4(center, radius); } public override void Draw(GL_ControlModern control, Pass pass) { } public override void Draw(GL_ControlModern control, Pass pass, EditorScene editorScene) { if (!Runtime.OpenTKInitialized || pass == Pass.TRANSPARENT) return; bool buffersWereInitialized = ibo_elements != 0 && vbo_position != 0; if (!buffersWereInitialized) GenerateBuffers(); Hovered = (editorScene.hovered == this); if (Hovered == true) throw new Exception("model selected"); ShaderProgram shader = defaultShaderProgram; if (Runtime.EnablePBR) shader = pbrShaderProgram; if (models.Count > 0) { if (models[0].materials.Count > 0) { if( models[0].shapes[0].GetMaterial().shaderassign.ShaderModel == "uking_mat") shader = BotwShaderProgram; } } if (Runtime.viewportShading != Runtime.ViewportShading.Default) shader = debugShaderProgram; control.CurrentShader = shader; control.UpdateModelMatrix(ModelTransform); Matrix4 previewScale = Utils.TransformValues(Vector3.Zero, Vector3.Zero, Runtime.previewScale); shader.SetMatrix4x4("previewScale", ref previewScale); Matrix4 camMat = previewScale * control.mtxCam * control.mtxProj; Matrix4 sphereMatrix = camMat; sphereMatrix.Invert(); sphereMatrix.Transpose(); shader.SetMatrix4x4("sphereMatrix", ref sphereMatrix); SetRenderSettings(shader); Color pickingColor = control.nextPickingColor(); shader.SetVector3("difLightColor", new Vector3(1)); shader.SetVector3("ambLightColor", new Vector3(1)); Matrix4 invertedCamera = camMat.Inverted(); Vector3 lightDirection = new Vector3(0f, 0f, -1f); //Todo. Maybe change direction via AAMP file (configs shader data) shader.SetVector3("specLightDirection", Vector3.TransformNormal(lightDirection, invertedCamera).Normalized()); shader.SetVector3("difLightDirection", Vector3.TransformNormal(lightDirection, invertedCamera).Normalized()); GL.Enable(EnableCap.AlphaTest); GL.AlphaFunc(AlphaFunction.Gequal, 0.1f); DrawModels(shader, control); if (Runtime.renderNormalsPoints) { control.CurrentShader = normalsShaderProgram; Matrix4 projection = control.mtxProj; normalsShaderProgram.SetMatrix4x4("mtxProj", ref projection); normalsShaderProgram.SetFloat("normalsLength", Runtime.normalsLineLength); DrawModels(normalsShaderProgram, control); } GL.UseProgram(0); GL.Disable(EnableCap.DepthTest); GL.Enable(EnableCap.DepthTest); GL.Enable(EnableCap.CullFace); } private void DrawModels(ShaderProgram shader, GL_ControlModern control) { shader.EnableVertexAttributes(); foreach (FMDL mdl in models) { if (mdl.Checked) { List opaque = new List(); List transparent = new List(); foreach (FSHP m in mdl.depthSortedMeshes) { if (m.GetMaterial().isTransparent) transparent.Add(m); else opaque.Add(m); } foreach (FSHP shp in mdl.shapes) { DrawModel(shp, mdl, shader, mdl.IsSelected); } } } shader.DisableVertexAttributes(); } public void DepthSortMeshes(Vector3 cameraPosition) { foreach (FMDL fmdl in models) { List unsortedMeshes = new List(); foreach (FSHP m in fmdl.shapes) { m.sortingDistance = m.CalculateSortingDistance(cameraPosition); unsortedMeshes.Add(m); } fmdl.depthSortedMeshes = unsortedMeshes.OrderBy(o => (o.sortingDistance)).ToList(); } // Order by the distance from the camera to the closest point on the bounding sphere. // Positive values are usually closer to camera. Negative values are usually farther away. } private void SetRenderSettings(ShaderProgram shader) { shader.SetBoolToInt("renderVertColor", Runtime.renderVertColor); shader.SetBoolToInt("useNormalMap", Runtime.useNormalMap); shader.SetBoolToInt("renderR", Runtime.renderR); shader.SetBoolToInt("renderG", Runtime.renderG); shader.SetBoolToInt("renderB", Runtime.renderB); shader.SetBoolToInt("renderAlpha", Runtime.renderAlpha); shader.SetInt("renderType", (int)Runtime.viewportShading); shader.SetInt("uvChannel", (int)Runtime.uvChannel); shader.SetBoolToInt("renderFog", Runtime.renderFog); shader.SetBoolToInt("renderDiffuse", Runtime.renderDiffuse); shader.SetBoolToInt("renderSpecular", Runtime.renderSpecular); shader.SetBoolToInt("renderFresnel", Runtime.renderFresnel); } private static void SetDefaultTextureAttributes(FMAT mat, ShaderProgram shader) { shader.SetBoolToInt("HasDiffuse", mat.HasDiffuseMap); shader.SetBoolToInt("HasDiffuseLayer", mat.HasDiffuseLayer); shader.SetBoolToInt("HasNormalMap", mat.HasNormalMap); shader.SetBoolToInt("HasEmissionMap", mat.HasEmissionMap); shader.SetBoolToInt("HasLightMap", mat.HasLightMap); shader.SetBoolToInt("HasShadowMap", mat.HasShadowMap); shader.SetBoolToInt("HasSpecularMap", mat.HasSpecularMap); shader.SetBoolToInt("HasTeamColorMap", mat.HasTeamColorMap); shader.SetBoolToInt("HasSphereMap", mat.HasSphereMap); shader.SetBoolToInt("HasSubSurfaceScatteringMap", mat.HasSubSurfaceScatteringMap); //Unused atm untill I do PBR shader shader.SetBoolToInt("HasMetalnessMap", mat.HasMetalnessMap); shader.SetBoolToInt("HasRoughnessMap", mat.HasRoughnessMap); shader.SetBoolToInt("HasMRA", mat.HasMRA); } private static void SetBoneUniforms(ShaderProgram shader, FMDL fmdl, FSHP fshp) { for (int i = 0; i < fmdl.Skeleton.Node_Array.Length; i++) { // if (!fmdl.Skeleton.bones[fmdl.Skeleton.Node_Array[i]].Visible) // fshp.Checked = false; GL.Uniform1(GL.GetUniformLocation(shader.program, String.Format("boneIds[{0}]", i)), fmdl.Skeleton.Node_Array[i]); Matrix4 transform = fmdl.Skeleton.bones[fmdl.Skeleton.Node_Array[i]].invert * fmdl.Skeleton.bones[fmdl.Skeleton.Node_Array[i]].Transform; GL.UniformMatrix4(GL.GetUniformLocation(shader.program, String.Format("bones[{0}]", i)), false, ref transform); } } private static void SetTextureUniforms(FMAT mat, FSHP m, ShaderProgram shader) { SetDefaultTextureAttributes(mat, shader); // GL.ActiveTexture(TextureUnit.Texture0 + 1); // GL.BindTexture(TextureTarget.Texture2D, RenderTools.defaultTex.Id); GL.ActiveTexture(TextureUnit.Texture11); GL.Uniform1(shader["weightRamp1"], 11); GL.BindTexture(TextureTarget.Texture2D, RenderTools.BoneWeightGradient.Id); GL.ActiveTexture(TextureUnit.Texture12); GL.Uniform1(shader["weightRamp2"], 12); GL.BindTexture(TextureTarget.Texture2D, RenderTools.BoneWeightGradient2.Id); GL.Uniform1(shader["debugOption"], 2); GL.ActiveTexture(TextureUnit.Texture10); GL.Uniform1(shader["UVTestPattern"], 10); GL.BindTexture(TextureTarget.Texture2D, RenderTools.uvTestPattern.Id); GL.Uniform1(shader["normalMap"], 0); GL.Uniform1(shader["BakeShadowMap"], 0); LoadPBRMaps(shader); foreach (MatTexture matex in mat.TextureMaps) { if (matex.Type == MatTexture.TextureType.Diffuse) TextureUniform(shader, mat, mat.HasDiffuseMap, "DiffuseMap", matex); else if (matex.Type == MatTexture.TextureType.Normal) TextureUniform(shader, mat, mat.HasNormalMap, "NormalMap", matex); else if (matex.Type == MatTexture.TextureType.Emission) TextureUniform(shader, mat, mat.HasEmissionMap, "EmissionMap", matex); else if (matex.Type == MatTexture.TextureType.Specular) TextureUniform(shader, mat, mat.HasSpecularMap, "SpecularMap", matex); else if (matex.Type == MatTexture.TextureType.Shadow) TextureUniform(shader, mat, mat.HasShadowMap, "BakeShadowMap", matex); else if (matex.Type == MatTexture.TextureType.Light) TextureUniform(shader, mat, mat.HasLightMap, "BakeLightMap", matex); else if (matex.Type == MatTexture.TextureType.Metalness) TextureUniform(shader, mat, mat.HasMetalnessMap, "MetalnessMap", matex); else if (matex.Type == MatTexture.TextureType.Roughness) TextureUniform(shader, mat, mat.HasRoughnessMap, "RoughnessMap", matex); else if (matex.Type == MatTexture.TextureType.TeamColor) TextureUniform(shader, mat, mat.HasTeamColorMap, "TeamColorMap", matex); else if (matex.Type == MatTexture.TextureType.Transparency) TextureUniform(shader, mat, mat.HasTransparencyMap, "TransparencyMap", matex); else if (matex.Type == MatTexture.TextureType.DiffuseLayer2) TextureUniform(shader, mat, mat.HasDiffuseLayer, "DiffuseLayer", matex); else if (matex.Type == MatTexture.TextureType.SphereMap) TextureUniform(shader, mat, mat.HasSphereMap, "SphereMap", matex); else if (matex.Type == MatTexture.TextureType.SubSurfaceScattering) TextureUniform(shader, mat, mat.HasSubSurfaceScatteringMap, "SubSurfaceScatteringMap", matex); else if (matex.Type == MatTexture.TextureType.MRA) TextureUniform(shader, mat, mat.HasMRA, "MRA", matex); } } private static void LoadPBRMaps(ShaderProgram shader) { GL.ActiveTexture(TextureUnit.Texture0 + 26); RenderTools.specularPbr.Bind(); GL.Uniform1(shader["specularIbl"], 26); // GL.GenerateMipmap(GenerateMipmapTarget.TextureCubeMap); // PBR IBL GL.ActiveTexture(TextureUnit.Texture0 + 25); RenderTools.diffusePbr.Bind(); GL.Uniform1(shader["irradianceMap"], 25); GL.ActiveTexture(TextureUnit.Texture0 + 27); RenderTools.brdfPbr.Bind(); GL.Uniform1(shader["brdfLUT"], 27); } private static void TextureUniform(ShaderProgram shader, FMAT mat, bool hasTex, string name, MatTexture mattex) { if (mattex.textureState == STGenericMatTexture.TextureState.Binded) return; // Bind the texture and create the uniform if the material has the right textures. if (hasTex) { GL.Uniform1(shader[name], BindTexture(mattex, mat.GetResFileU() != null)); } } public static int BindTexture(MatTexture tex, bool IsWiiU) { GL.ActiveTexture(TextureUnit.Texture0 + tex.textureUnit + 1); // GL.BindTexture(TextureTarget.Texture2D, RenderTools.defaultTex.Id); string activeTex = tex.Name; if (tex.animatedTexName != "") activeTex = tex.animatedTexName; if (IsWiiU) { foreach (var ftexContainer in PluginRuntime.ftexContainers) { if (ftexContainer.ResourceNodes.ContainsKey(activeTex)) { FTEX ftex = (FTEX)ftexContainer.ResourceNodes[activeTex]; if (ftex.RenderableTex == null || !ftex.RenderableTex.GLInitialized) ftex.LoadOpenGLTexture(); BindGLTexture(tex, ftex.RenderableTex.TexID); } } } else { foreach (var bntx in PluginRuntime.bntxContainers) { if (bntx.Textures.ContainsKey(activeTex)) { if (bntx.Textures[activeTex].RenderableTex == null || !bntx.Textures[activeTex].RenderableTex.GLInitialized) { bntx.Textures[activeTex].LoadOpenGLTexture(); } BindGLTexture(tex, bntx.Textures[activeTex].RenderableTex.TexID); } } } return tex.textureUnit + 1; } private static void BindGLTexture(MatTexture tex, int texid) { // GL.ActiveTexture(TextureUnit.Texture0 + texid); GL.BindTexture(TextureTarget.Texture2D, texid); GL.TexParameter(TextureTarget.Texture2D, TextureParameterName.TextureWrapS, (int)MatTexture.wrapmode[tex.wrapModeS]); GL.TexParameter(TextureTarget.Texture2D, TextureParameterName.TextureWrapT, (int)MatTexture.wrapmode[tex.wrapModeT]); GL.TexParameter(TextureTarget.Texture2D, TextureParameterName.TextureMinFilter, (int)MatTexture.minfilter[tex.minFilter]); GL.TexParameter(TextureTarget.Texture2D, TextureParameterName.TextureMagFilter, (int)MatTexture.magfilter[tex.magFilter]); GL.TexParameter(TextureTarget.Texture2D, (TextureParameterName)ExtTextureFilterAnisotropic.TextureMaxAnisotropyExt, 0.0f); } private void DrawModel(FSHP m, FMDL mdl, ShaderProgram shader, bool drawSelection) { if (m.lodMeshes[m.DisplayLODIndex].faces.Count <= 3) return; if (shader != normalsShaderProgram) { SetRenderPass(m.GetMaterial(), shader, m, m.DisplayId); SetUniforms(m.GetMaterial(), shader, m, m.DisplayId); SetTextureUniforms(m.GetMaterial(), m, shader); } SetBoneUniforms(shader, mdl, m); ApplyTransformFix(mdl, m, shader); SetVertexAttributes(m, shader); //Check the binded bone if it's visible from bone visual anims // if (!mdl.Skeleton.bones[m.boneIndx].Visible) // m.Checked = false; if (m.Checked && mdl.Skeleton.bones[m.BoneIndex].Visible) { if ((m.IsSelected)) { DrawModelSelection(m, shader); } else { if (Runtime.RenderModelWireframe) { DrawModelWireframe(m, shader); } if (Runtime.RenderModels) { DrawMdoelHoverSelection(m, shader, IsSelected(), Hovered); PrimitiveType primitiveType = PrimitiveType.Triangles; switch (m.lodMeshes[m.DisplayLODIndex].PrimitiveType) { case STPolygonType.Line: primitiveType = PrimitiveType.Lines; break; case STPolygonType.LineStrip: primitiveType = PrimitiveType.LineStrip; break; case STPolygonType.Point: primitiveType = PrimitiveType.Points; break; case STPolygonType.Triangle: primitiveType = PrimitiveType.Triangles; break; } GL.DrawElements(primitiveType, m.lodMeshes[m.DisplayLODIndex].displayFaceSize, DrawElementsType.UnsignedInt, m.Offset); } } } } private static void ApplyTransformFix(FMDL fmdl, FSHP m, ShaderProgram shader) { Matrix4 idenity = Matrix4.Identity; shader.SetInt("NoSkinning", 0); shader.SetInt("RigidSkinning", 0); shader.SetInt("SingleBoneIndex", m.BoneIndex); shader.SetMatrix4x4("SingleBoneBindTransform", ref idenity); //Some objects will have no weights or indices. These will weigh to the bone index in the shape section. if (m.VertexSkinCount == 1) { shader.SetInt("RigidSkinning", 1); } if (m.VertexSkinCount == 0) { if (fmdl.Skeleton.bones.Count > 0) { Matrix4 transform = fmdl.Skeleton.bones[m.BoneIndex].invert * fmdl.Skeleton.bones[m.BoneIndex].Transform; shader.SetMatrix4x4("SingleBoneBindTransform", ref transform); shader.SetInt("NoSkinning", 1); } } } static bool Loaded = false; public void UpdateVertexData() { if (!Runtime.OpenTKInitialized) return; STProgressBar progressBar = new STProgressBar(); progressBar.Task = "Updating Vertex Data..."; progressBar.Value = 0; progressBar.StartPosition = FormStartPosition.CenterScreen; progressBar.Show(); progressBar.Refresh(); Loaded = false; DisplayVertex[] Vertices; int[] Faces; int poffset = 0; int voffset = 0; List Vs = new List(); List Ds = new List(); int TotalShapeCount = models.Sum(b => b.shapes.Count); int curShape = 0; int value = 0; foreach (FMDL mdl in models) { foreach (FSHP m in mdl.shapes) { progressBar.Task = "Updating Shape... " + m.Text; value = ((curShape * 100) / TotalShapeCount); progressBar.Value = value; progressBar.Refresh(); m.Offset = poffset * 4; List pv = m.CreateDisplayVertices(); Vs.AddRange(pv); for (int i = 0; i < m.lodMeshes[m.DisplayLODIndex].displayFaceSize; i++) { Ds.Add(m.display[i] + voffset); } poffset += m.lodMeshes[m.DisplayLODIndex].displayFaceSize; voffset += pv.Count; curShape++; } } progressBar.Value = 100; progressBar.Close(); // Binds Vertices = Vs.ToArray(); Faces = Ds.ToArray(); // Bind only once! GL.BindBuffer(BufferTarget.ArrayBuffer, vbo_position); GL.BufferData(BufferTarget.ArrayBuffer, (IntPtr)(Vertices.Length * DisplayVertex.Size), Vertices, BufferUsageHint.StaticDraw); GL.BindBuffer(BufferTarget.ElementArrayBuffer, ibo_elements); GL.BufferData(BufferTarget.ElementArrayBuffer, (IntPtr)(Faces.Length * sizeof(int)), Faces, BufferUsageHint.StaticDraw); LibraryGUI.Instance.UpdateViewport(); Loaded = true; } public void UpdateSingleMaterialTextureMaps(FMAT mat) { if (!Runtime.OpenTKInitialized) return; foreach (BNTX bntx in PluginRuntime.bntxContainers) { foreach (var t in mat.TextureMaps) { if (bntx.Textures.ContainsKey(t.Name)) { if (!bntx.Textures[t.Name].RenderableTex.GLInitialized) bntx.Textures[t.Name].LoadOpenGLTexture(); } } } LibraryGUI.Instance.UpdateViewport(); } public void UpdateTextureMaps() { if (!Runtime.OpenTKInitialized) return; foreach (BNTX bntx in PluginRuntime.bntxContainers) { if (!bntx.AllGLInitialized) { foreach (var tex in bntx.Textures) { if (!tex.Value.RenderableTex.GLInitialized) tex.Value.LoadOpenGLTexture(); } } } foreach (BFRESGroupNode ftexCont in PluginRuntime.ftexContainers) { foreach (var tex in ftexCont.ResourceNodes) { if (!((FTEX)tex.Value).RenderableTex.GLInitialized) ((FTEX)tex.Value).LoadOpenGLTexture(); } } LibraryGUI.Instance.UpdateViewport(); } private static void SetRenderPass(FMAT mat, ShaderProgram shader, FSHP m, int id) { if (mat.shaderassign.ShaderArchive == "Turbo_UBER") { AglShaderTurbo aglShader = new AglShaderTurbo(); foreach (var renderInfo in mat.renderinfo) aglShader.LoadRenderInfo(renderInfo); aglShader.LoadRenderPass(mat, shader); } } private static void SetUniforms(FMAT mat, ShaderProgram shader, FSHP m, int id) { shader.SetBoolToInt("isTransparent", mat.isTransparent); shader.SetFloat("ao_density", 1); shader.SetFloat("normal_map_weight", 1); //Bake map UV coordinate ST shader.SetVector4("gsys_bake_st0", new Vector4(1, 1, 0, 0)); shader.SetVector4("gsys_bake_st1", new Vector4(1, 1, 0, 0)); //Colors shader.SetVector4("const_color0", new Vector4(1, 1, 1, 1)); shader.SetVector4("base_color_mul_color", new Vector4(1, 1, 1, 1)); shader.SetVector3("albedo_tex_color", new Vector3(1, 1, 1)); shader.SetVector3("emission_color", new Vector3(1, 1, 1)); shader.SetVector3("specular_color", new Vector3(1, 1, 1)); shader.SetFloat("fuv1_mtx", 0); //SRT shader.SetVector4("tex_mtx0", new Vector4(1, 1, 1, 1)); shader.SetVector2("SRT_Scale", new Vector2(1, 1)); shader.SetFloat("SRT_Rotate", 0); shader.SetVector2("SRT_Translate", new Vector2(0, 0)); shader.SetInt("selectedBoneIndex", Runtime.SelectedBoneIndex); SetUniformData(mat, shader, "base_color_mul_color"); shader.SetInt("enableCellShading", 0); bool HasTans = m.vertexAttributes.Any(x => x.Name == "_t0"); shader.SetBoolToInt("hasTangents", HasTans); SetUniformData(mat, shader, "fuv1_mtx"); SetUniformData(mat, shader, "gsys_bake_st0"); SetUniformData(mat, shader, "gsys_bake_st1"); SetUniformData(mat, shader, "ao_density"); SetUniformData(mat, shader, "normal_map_weight"); SetUniformData(mat, shader, "const_color0"); SetUniformData(mat, shader, "base_color_mul_color"); SetUniformData(mat, shader, "albedo_tex_color"); SetUniformData(mat, shader, "emission_color"); SetUniformData(mat, shader, "specular_color"); //This uniform sets various maps for BOTW to use second UV channel SetUniformData(mat, shader, "uking_texture2_texcoord"); SetUniformData(mat, shader, "tex_mtx0"); //Sets shadow type //0 = Ambient occusion bake map //1 = Shadow //2 = Shadow + Ambient occusion map SetUniformData(mat, shader, "bake_shadow_type"); SetUniformData(mat, shader, "bake_light_type"); SetUniformData(mat, shader, "gsys_bake_light_scale"); SetUniformData(mat, shader, "enable_projection_light"); SetUniformData(mat, shader, "enable_actor_light"); SetUniformData(mat, shader, "bake_calc_type"); } private static void SetUniformData(FMAT mat, ShaderProgram shader, string propertyName) { if (mat.shaderassign.options.ContainsKey(propertyName)) { float value = float.Parse(mat.shaderassign.options[propertyName]); shader.SetFloat(propertyName, value); } if (mat.matparam.ContainsKey(propertyName)) { if (mat.matparam[propertyName].Type == ShaderParamType.Float) { if (mat.anims.ContainsKey(propertyName)) mat.matparam[propertyName].ValueFloat[0] = mat.anims[propertyName][0]; shader.SetFloat(propertyName, mat.matparam[propertyName].ValueFloat[0]); } if (mat.matparam[propertyName].Type == ShaderParamType.Float2) { if (mat.anims.ContainsKey(propertyName)) { mat.matparam[propertyName].ValueFloat = new float[2] { mat.anims[propertyName][0], mat.anims[propertyName][1]}; } shader.SetVector2(propertyName, Utils.ToVec2(mat.matparam[propertyName].ValueFloat)); } if (mat.matparam[propertyName].Type == ShaderParamType.Float3) { if (mat.anims.ContainsKey(propertyName)) { mat.matparam[propertyName].ValueFloat = new float[3] { mat.anims[propertyName][0], mat.anims[propertyName][1], mat.anims[propertyName][2]}; } shader.SetVector3(propertyName, Utils.ToVec3(mat.matparam[propertyName].ValueFloat)); } if (mat.matparam[propertyName].Type == ShaderParamType.Float4) { if (mat.anims.ContainsKey(propertyName)) { mat.matparam[propertyName].ValueFloat = new float[4] { mat.anims[propertyName][0], mat.anims[propertyName][1], mat.anims[propertyName][2], mat.anims[propertyName][3]}; } shader.SetVector4(propertyName, Utils.ToVec4(mat.matparam[propertyName].ValueFloat)); } if (mat.matparam[propertyName].Type == ShaderParamType.TexSrt) { // Vector 2 Scale // 1 roation float // Vector2 translate TexSrt texSRT = mat.matparam[propertyName].ValueTexSrt; shader.SetVector2("SRT_Scale", Utils.ToVec2(texSRT.Scaling)); shader.SetFloat("SRT_Rotate", texSRT.Rotation); shader.SetVector2("SRT_Translate", Utils.ToVec2(texSRT.Translation)); } } if (mat.animatedMatParams.ContainsKey(propertyName)) { if (mat.animatedMatParams[propertyName].Type == ShaderParamType.Float) { if (mat.anims.ContainsKey(propertyName)) mat.animatedMatParams[propertyName].ValueFloat[0] = mat.anims[propertyName][0]; shader.SetFloat(propertyName, mat.animatedMatParams[propertyName].ValueFloat[0]); } if (mat.animatedMatParams[propertyName].Type == ShaderParamType.Float2) { if (mat.anims.ContainsKey(propertyName)) { mat.animatedMatParams[propertyName].ValueFloat = new float[2] { mat.anims[propertyName][0], mat.anims[propertyName][1]}; } shader.SetVector2(propertyName, Utils.ToVec2(mat.animatedMatParams[propertyName].ValueFloat)); } if (mat.animatedMatParams[propertyName].Type == ShaderParamType.Float3) { Console.WriteLine(propertyName + " " + mat.animatedMatParams[propertyName].ValueFloat); if (mat.anims.ContainsKey(propertyName)) { mat.animatedMatParams[propertyName].ValueFloat = new float[3] { mat.anims[propertyName][0], mat.anims[propertyName][1], mat.anims[propertyName][2]}; } shader.SetVector3(propertyName, Utils.ToVec3(mat.animatedMatParams[propertyName].ValueFloat)); } if (mat.animatedMatParams[propertyName].Type == ShaderParamType.Float4) { if (mat.anims.ContainsKey(propertyName)) { mat.animatedMatParams[propertyName].ValueFloat = new float[4] { mat.anims[propertyName][0], mat.anims[propertyName][1], mat.anims[propertyName][2], mat.anims[propertyName][3]}; } shader.SetVector4(propertyName, Utils.ToVec4(mat.animatedMatParams[propertyName].ValueFloat)); } if (mat.animatedMatParams[propertyName].Type == ShaderParamType.TexSrt) { // Vector 2 Scale // 1 roation float // Vector2 translate TexSrt texSRT = mat.animatedMatParams[propertyName].ValueTexSrt; shader.SetVector2("SRT_Scale", Utils.ToVec2(texSRT.Scaling)); shader.SetFloat("SRT_Rotate", texSRT.Rotation); shader.SetVector2("SRT_Translate", Utils.ToVec2(texSRT.Translation)); } } } private void SetVertexAttributes(FSHP m, ShaderProgram shader) { GL.BindBuffer(BufferTarget.ArrayBuffer, vbo_position); GL.VertexAttribPointer(shader.GetAttribute("vPosition"), 3, VertexAttribPointerType.Float, false, DisplayVertex.Size, 0); GL.VertexAttribPointer(shader.GetAttribute("vNormal"), 3, VertexAttribPointerType.Float, false, DisplayVertex.Size, 12); GL.VertexAttribPointer(shader.GetAttribute("vTangent"), 3, VertexAttribPointerType.Float, false, DisplayVertex.Size, 24); GL.VertexAttribPointer(shader.GetAttribute("vBitangent"), 3, VertexAttribPointerType.Float, false, DisplayVertex.Size, 36); GL.VertexAttribPointer(shader.GetAttribute("vUV0"), 2, VertexAttribPointerType.Float, false, DisplayVertex.Size, 48); GL.VertexAttribPointer(shader.GetAttribute("vColor"), 4, VertexAttribPointerType.Float, false, DisplayVertex.Size, 56); GL.VertexAttribIPointer(shader.GetAttribute("vBone"), 4, VertexAttribIntegerType.Int, DisplayVertex.Size, new IntPtr(72)); GL.VertexAttribPointer(shader.GetAttribute("vWeight"), 4, VertexAttribPointerType.Float, false, DisplayVertex.Size, 88); GL.VertexAttribPointer(shader.GetAttribute("vUV1"), 2, VertexAttribPointerType.Float, false, DisplayVertex.Size, 104); GL.VertexAttribPointer(shader.GetAttribute("vUV2"), 2, VertexAttribPointerType.Float, false, DisplayVertex.Size, 112); GL.VertexAttribPointer(shader.GetAttribute("vPosition2"), 3, VertexAttribPointerType.Float, false, DisplayVertex.Size, 124); GL.VertexAttribPointer(shader.GetAttribute("vPosition3"), 3, VertexAttribPointerType.Float, false, DisplayVertex.Size, 136); GL.BindBuffer(BufferTarget.ElementArrayBuffer, ibo_elements); } private static void DrawMdoelHoverSelection(STGenericObject p, ShaderProgram shader, bool IsSelected, bool IsHovered) { if (IsHovered && IsSelected) GL.Uniform4(shader["pickingColor"], hoverColor); else if (IsHovered || IsSelected) GL.Uniform4(shader["pickingColor"], selectColor); else GL.Uniform4(shader["pickingColor"], new Vector4(1)); } private static void DrawModelWireframe(STGenericObject p, ShaderProgram shader) { // use vertex color for wireframe color shader.SetInt("colorOverride", 1); GL.PolygonMode(MaterialFace.Front, PolygonMode.Line); GL.Enable(EnableCap.LineSmooth); GL.LineWidth(1.5f); GL.DrawElements(PrimitiveType.Triangles, p.lodMeshes[p.DisplayLODIndex].displayFaceSize, DrawElementsType.UnsignedInt, p.Offset); GL.PolygonMode(MaterialFace.FrontAndBack, PolygonMode.Fill); shader.SetInt("colorOverride", 0); } private static void DrawModelSelection(STGenericObject p, ShaderProgram shader) { //This part needs to be reworked for proper outline. Currently would make model disappear /* GL.Enable(EnableCap.DepthTest); GL.StencilOp(StencilOp.Keep, StencilOp.Keep, StencilOp.Replace); GL.Clear(ClearBufferMask.ColorBufferBit | ClearBufferMask.DepthBufferBit | ClearBufferMask.StencilBufferBit); GL.StencilMask(0x00); GL.StencilFunc(StencilFunction.Always, 1, 0xFF); // all fragments should update the stencil buffer GL.StencilMask(0xFF); // enable writing to the stencil buffer GL.DrawElements(PrimitiveType.Triangles, p.lodMeshes[p.DisplayLODIndex].displayFaceSize, DrawElementsType.UnsignedInt, p.Offset); GL.StencilFunc(StencilFunction.Notequal, 1, 0xFF); GL.StencilMask(0x00); // enable writing to the stencil buffer GL.Disable(EnableCap.DepthTest); shader.SetInt("colorOverride", 1); GL.PolygonMode(MaterialFace.Front, PolygonMode.Line); GL.LineWidth(2.0f); GL.DrawElements(PrimitiveType.Triangles, p.lodMeshes[p.DisplayLODIndex].displayFaceSize, DrawElementsType.UnsignedInt, p.Offset); GL.PolygonMode(MaterialFace.FrontAndBack, PolygonMode.Fill); shader.SetInt("colorOverride", 0); GL.StencilMask(0xFF); GL.Enable(EnableCap.DepthTest);*/ // Override the model color with white in the shader. GL.Uniform1(shader["colorOverride"], 1); GL.PolygonMode(MaterialFace.Front, PolygonMode.Line); GL.Enable(EnableCap.LineSmooth); GL.LineWidth(1.3f); GL.DrawElements(PrimitiveType.Triangles, p.lodMeshes[p.DisplayLODIndex].displayFaceSize, DrawElementsType.UnsignedInt, p.Offset); GL.PolygonMode(MaterialFace.FrontAndBack, PolygonMode.Fill); GL.Uniform1(shader["colorOverride"], 0); GL.DrawElements(PrimitiveType.Triangles, p.lodMeshes[p.DisplayLODIndex].displayFaceSize, DrawElementsType.UnsignedInt, p.Offset); } public override void ApplyTransformationToSelection(DeltaTransform deltaTransform) { Position += deltaTransform.Translation; } public override bool CanStartDragging() => true; public override Vector3 GetSelectionCenter() { return Position; } public override uint Select(int index, I3DControl control) { Selected = true; control.AttachPickingRedrawer(); return 0; } public override uint SelectDefault(I3DControl control) { Selected = true; control.AttachPickingRedrawer(); return 0; } public override uint SelectAll(I3DControl control) { Selected = true; control.AttachPickingRedrawer(); return 0; } public override uint Deselect(int index, I3DControl control) { Selected = false; control.DetachPickingRedrawer(); return 0; } public override uint DeselectAll(I3DControl control) { Selected = false; control.DetachPickingRedrawer(); return 0; } #endregion } }