// //--------------------------------------------------------------------------- // // Copyright(C) 2018 Christoph Oelckers // All rights reserved. // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with this program. If not, see http://www.gnu.org/licenses/ // //-------------------------------------------------------------------------- // /* ** 2d drawer ** Renderer interface ** */ #include "cmdlib.h" #include "gl_buffers.h" #include "v_2ddrawer.h" #include "c_cvars.h" #include "glbackend.h" #include "v_draw.h" #include "palette.h" //=========================================================================== // // Vertex buffer for 2D drawer // //=========================================================================== class F2DVertexBuffer { IVertexBuffer *mVertexBuffer; IIndexBuffer *mIndexBuffer; public: F2DVertexBuffer() { mVertexBuffer = new OpenGLRenderer::GLVertexBuffer(); mIndexBuffer = new OpenGLRenderer::GLIndexBuffer(); static const FVertexBufferAttribute format[] = { { 0, VATTR_VERTEX, VFmt_Float3, (int)myoffsetof(F2DDrawer::TwoDVertex, x) }, { 0, VATTR_TEXCOORD, VFmt_Float2, (int)myoffsetof(F2DDrawer::TwoDVertex, u) }, { 0, VATTR_COLOR, VFmt_Byte4, (int)myoffsetof(F2DDrawer::TwoDVertex, color0) } }; mVertexBuffer->SetFormat(1, 3, sizeof(F2DDrawer::TwoDVertex), format); } ~F2DVertexBuffer() { delete mIndexBuffer; delete mVertexBuffer; } void UploadData(F2DDrawer::TwoDVertex *vertices, int vertcount, int *indices, int indexcount) { mVertexBuffer->SetData(vertcount * sizeof(*vertices), vertices, false); mIndexBuffer->SetData(indexcount * sizeof(unsigned int), indices, false); } std::pair GetBufferObjects() const { return std::make_pair(mVertexBuffer, mIndexBuffer); } }; //=========================================================================== // // Draws the 2D stuff. This is the version for OpenGL 3 and later. // //=========================================================================== void GLInstance::Draw2D(F2DDrawer *drawer) { VSMatrix mat(0); SetMatrix(Matrix_View, mat.get()); SetMatrix(Matrix_ModelView, mat.get()); SetMatrix(Matrix_Detail, mat.get()); mat.ortho(0, xdim, ydim, 0, -1, 1); SetMatrix(Matrix_Projection, mat.get()); SetViewport(0, 0, xdim, ydim); EnableDepthTest(false); EnableMultisampling(false); EnableBlend(true); EnableAlphaTest(true); SetBlendFunc(STYLEALPHA_Src, STYLEALPHA_InvSrc); auto &vertices = drawer->mVertices; auto &indices = drawer->mIndices; auto &commands = drawer->mData; if (commands.Size() == 0) { return; } if (drawer->mIsFirstPass) { for (auto &v : vertices) { // Change from BGRA to RGBA std::swap(v.color0.r, v.color0.b); } } F2DVertexBuffer vb; vb.UploadData(&vertices[0], vertices.Size(), &indices[0], indices.Size()); SetVertexBuffer(vb.GetBufferObjects().first, 0, 0); SetIndexBuffer(vb.GetBufferObjects().second); SetFadeDisable(true); for(auto &cmd : commands) { int gltrans = -1; //state.SetRenderStyle(cmd.mRenderStyle); //state.EnableBrightmap(!(cmd.mRenderStyle.Flags & STYLEF_ColorIsFixed)); //state.SetTextureMode(cmd.mDrawMode); int sciX, sciY, sciW, sciH; if (cmd.mFlags & F2DDrawer::DTF_Scissor) { // scissor test doesn't use the current viewport for the coordinates, so use real screen coordinates // Note that the origin here is the lower left corner! sciX = /*screen->ScreenToWindowX*/(cmd.mScissor[0]); sciY = /*screen->ScreenToWindowY*/(cmd.mScissor[3]); sciW = /*screen->ScreenToWindowX*/(cmd.mScissor[2]) - sciX; sciH = /*screen->ScreenToWindowY*/(cmd.mScissor[1]) - sciY; } else { sciX = sciY = sciW = sciH = -1; } //SetScissor(sciX, sciY, sciW, sciH); //state.SetFog(cmd.mColor1, 0); SetColor(1, 1, 1); //state.SetColor(1, 1, 1, 1, cmd.mDesaturate); if (cmd.mTexture != nullptr) { auto tex = cmd.mTexture; SetNamedTexture(cmd.mTexture, cmd.mRemapIndex, cmd.mFlags & F2DDrawer::DTF_Wrap ? SamplerRepeat : SamplerClampXY); UseColorOnly(false); } else { UseColorOnly(true); } switch (cmd.mType) { case F2DDrawer::DrawTypeTriangles: Draw(DT_TRIANGLES, cmd.mIndexIndex, cmd.mIndexCount); break; case F2DDrawer::DrawTypeLines: //Draw(DT_LINES, cmd.mVertIndex, cmd.mVertCount); break; case F2DDrawer::DrawTypePoints: //Draw(DT_POINTS, cmd.mVertIndex, cmd.mVertCount); break; } /* state.SetObjectColor(0xffffffff); state.SetObjectColor2(0); state.SetAddColor(0); state.EnableTextureMatrix(false); state.SetEffect(EFF_NONE); */ } //state.SetScissor(-1, -1, -1, -1); //state.SetRenderStyle(STYLE_Translucent); SetVertexBuffer(nullptr, 0, 0); SetIndexBuffer(nullptr); UseColorOnly(false); //state.EnableBrightmap(true); //state.SetTextureMode(TM_NORMAL); SetFadeDisable(false); SetColor(1, 1, 1); //drawer->mIsFirstPass = false; twod.Clear(); EnableMultisampling(true); } void fullscreen_tint_gl(PalEntry pe) { // Todo: reroute to the 2D drawer auto oldproj = GLInterface.GetMatrix(Matrix_Projection); auto oldmv = GLInterface.GetMatrix(Matrix_ModelView); VSMatrix identity(0); GLInterface.SetMatrix(Matrix_Projection, &identity); GLInterface.SetMatrix(Matrix_ModelView, &identity); GLInterface.EnableDepthTest(false); GLInterface.EnableAlphaTest(false); GLInterface.SetBlendFunc(STYLEALPHA_Src, STYLEALPHA_InvSrc); GLInterface.EnableBlend(true); GLInterface.SetColorub (pe.r, pe.g, pe.b, pe.a); GLInterface.UseColorOnly(true); auto data = GLInterface.AllocVertices(3); auto vt = data.second; vt[0].Set(-2.5f, 1.f); vt[1].Set(2.5f, 1.f); vt[2].Set(.0f, -2.5f); GLInterface.Draw(DT_TRIANGLES, data.first, 3); GLInterface.UseColorOnly(false); GLInterface.SetMatrix(Matrix_Projection, &oldproj); GLInterface.SetMatrix(Matrix_ModelView, &oldmv); } void fullscreen_tint_gl_blood(int tint_blood_r, int tint_blood_g, int tint_blood_b) { if (!(tint_blood_r | tint_blood_g | tint_blood_b)) return; auto oldproj = GLInterface.GetMatrix(Matrix_Projection); auto oldmv = GLInterface.GetMatrix(Matrix_ModelView); VSMatrix identity(0); GLInterface.SetMatrix(Matrix_Projection, &identity); GLInterface.SetMatrix(Matrix_ModelView, &identity); GLInterface.EnableDepthTest(false); GLInterface.EnableAlphaTest(false); GLInterface.SetBlendFunc(STYLEALPHA_One, STYLEALPHA_One); GLInterface.EnableBlend(true); GLInterface.UseColorOnly(true); GLInterface.SetColorub(max(tint_blood_r, 0), max(tint_blood_g, 0), max(tint_blood_b, 0), 255); auto data = GLInterface.AllocVertices(3); auto vt = data.second; vt[0].Set(-2.5f, 1.f); vt[1].Set(2.5f, 1.f); vt[2].Set(.0f, -2.5f); GLInterface.Draw(DT_TRIANGLES, data.first, 3); GLInterface.SetBlendOp(STYLEOP_RevSub); GLInterface.SetColorub(max(-tint_blood_r, 0), max(-tint_blood_g, 0), max(-tint_blood_b, 0), 255); data = GLInterface.AllocVertices(3); vt = data.second; vt[0].Set(-2.5f, 1.f); vt[1].Set(2.5f, 1.f); vt[2].Set(.0f, -2.5f); GLInterface.Draw(DT_TRIANGLES, data.first, 3); GLInterface.SetBlendOp(STYLEOP_Add); GLInterface.SetColorub(255, 255, 255, 255); GLInterface.SetBlendFunc(STYLEALPHA_Src, STYLEALPHA_InvSrc); GLInterface.UseColorOnly(false); GLInterface.SetMatrix(Matrix_Projection, &oldproj); GLInterface.SetMatrix(Matrix_ModelView, &oldmv); } static int32_t tint_blood_r = 0, tint_blood_g = 0, tint_blood_b = 0; extern palette_t palfadergb; extern char palfadedelta ; void DrawFullscreenBlends() { if (palfadedelta) fullscreen_tint_gl(PalEntry(palfadedelta, palfadergb.r, palfadergb.g, palfadergb.b)); fullscreen_tint_gl_blood(tint_blood_r, tint_blood_g, tint_blood_b); } void videoTintBlood(int32_t r, int32_t g, int32_t b) { tint_blood_r = r; tint_blood_g = g; tint_blood_b = b; }