/* ** gl_models.cpp ** ** General model handling code ** **--------------------------------------------------------------------------- ** Copyright 2005 Christoph Oelckers ** All rights reserved. ** ** Redistribution and use in source and binary forms, with or without ** modification, are permitted provided that the following conditions ** are met: ** ** 1. Redistributions of source code must retain the above copyright ** notice, this list of conditions and the following disclaimer. ** 2. Redistributions in binary form must reproduce the above copyright ** notice, this list of conditions and the following disclaimer in the ** documentation and/or other materials provided with the distribution. ** 3. The name of the author may not be used to endorse or promote products ** derived from this software without specific prior written permission. ** 4. When not used as part of GZDoom or a GZDoom derivative, this code will be ** covered by the terms of the GNU Lesser General Public License as published ** by the Free Software Foundation; either version 2.1 of the License, or (at ** your option) any later version. ** ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR ** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. ** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, ** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT ** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, ** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY ** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF ** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. **--------------------------------------------------------------------------- ** */ #include "gl/system/gl_system.h" #include "w_wad.h" #include "cmdlib.h" #include "sc_man.h" #include "m_crc32.h" #include "c_console.h" #include "g_game.h" #include "doomstat.h" #include "g_level.h" #include "r_state.h" #include "d_player.h" //#include "resources/voxels.h" //#include "gl/gl_intern.h" #include "gl/system/gl_interface.h" #include "gl/renderer/gl_renderer.h" #include "gl/scene/gl_drawinfo.h" #include "gl/models/gl_models.h" #include "gl/textures/gl_material.h" #include "gl/utility/gl_geometric.h" #include "gl/utility/gl_convert.h" #include "gl/renderer/gl_renderstate.h" #include "gl/shaders/gl_shader.h" static inline float GetTimeFloat() { return (float)I_MSTime() * (float)TICRATE / 1000.0f; } CVAR(Bool, gl_interpolate_model_frames, true, CVAR_ARCHIVE) CVAR(Bool, gl_light_models, true, CVAR_ARCHIVE) EXTERN_CVAR(Int, gl_fogmode) extern TDeletingArray Voxels; extern TDeletingArray VoxelDefs; class DeletingModelArray : public TArray { public: #if 1 ~DeletingModelArray() { for(unsigned i=0;i= 0; i--) { Models[i]->BuildVertexBuffer(); } } void gl_FlushModels() { for (int i = Models.Size() - 1; i >= 0; i--) { Models[i]->DestroyVertexBuffer(); } } //=========================================================================== // // // //=========================================================================== FModelVertexBuffer::FModelVertexBuffer(bool needindex) { glBindVertexArray(vao_id); ibo_id = 0; if (needindex) { glGenBuffers(1, &ibo_id); glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, ibo_id); } glBindBuffer(GL_ARRAY_BUFFER, vbo_id); glEnableVertexAttribArray(VATTR_VERTEX); glEnableVertexAttribArray(VATTR_TEXCOORD); glEnableVertexAttribArray(VATTR_VERTEX2); glBindVertexArray(0); } //=========================================================================== // // // //=========================================================================== FModelVertexBuffer::~FModelVertexBuffer() { if (ibo_id != 0) { glDeleteBuffers(1, &ibo_id); } } //=========================================================================== // // // //=========================================================================== FModelVertex *FModelVertexBuffer::LockVertexBuffer(unsigned int size) { glBindBuffer(GL_ARRAY_BUFFER, vbo_id); glBufferData(GL_ARRAY_BUFFER, size * sizeof(FModelVertex), NULL, GL_STATIC_DRAW); return (FModelVertex*)glMapBufferRange(GL_ARRAY_BUFFER, 0, size * sizeof(FModelVertex), GL_MAP_WRITE_BIT|GL_MAP_INVALIDATE_BUFFER_BIT); } //=========================================================================== // // // //=========================================================================== void FModelVertexBuffer::UnlockVertexBuffer() { glBindBuffer(GL_ARRAY_BUFFER, vbo_id); glUnmapBuffer(GL_ARRAY_BUFFER); } //=========================================================================== // // // //=========================================================================== unsigned int *FModelVertexBuffer::LockIndexBuffer(unsigned int size) { if (ibo_id != 0) { glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, ibo_id); glBufferData(GL_ELEMENT_ARRAY_BUFFER, size * sizeof(unsigned int), NULL, GL_STATIC_DRAW); return (unsigned int*)glMapBufferRange(GL_ELEMENT_ARRAY_BUFFER, 0, size * sizeof(unsigned int), GL_MAP_WRITE_BIT | GL_MAP_INVALIDATE_BUFFER_BIT); } else { return NULL; } } //=========================================================================== // // // //=========================================================================== void FModelVertexBuffer::UnlockIndexBuffer() { glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, ibo_id); glUnmapBuffer(GL_ELEMENT_ARRAY_BUFFER); } //=========================================================================== // // Sets up the buffer starts for frame interpolation // This must be called after gl_RenderState.Apply! // //=========================================================================== unsigned int FModelVertexBuffer::SetupFrame(unsigned int frame1, unsigned int frame2) { glBindBuffer(GL_ARRAY_BUFFER, vbo_id); glVertexAttribPointer(VATTR_VERTEX, 3, GL_FLOAT, false, sizeof(FModelVertex), &VMO[frame1].x); glVertexAttribPointer(VATTR_TEXCOORD, 2, GL_FLOAT, false, sizeof(FModelVertex), &VMO[frame1].u); glVertexAttribPointer(VATTR_VERTEX2, 3, GL_FLOAT, false, sizeof(FModelVertex), &VMO[frame2].x); return frame1; } //=========================================================================== // // FModel::~FModel // //=========================================================================== FModel::~FModel() { if (mVBuf != NULL) delete mVBuf; } static TArray SpriteModelFrames; static int * SpriteModelHash; //TArray StateModelFrames; static void DeleteModelHash() { if (SpriteModelHash != NULL) delete [] SpriteModelHash; SpriteModelHash = NULL; } //=========================================================================== // // FindGFXFile // //=========================================================================== static int FindGFXFile(FString & fn) { int best = -1; int dot = fn.LastIndexOf('.'); int slash = fn.LastIndexOf('/'); if (dot > slash) fn.Truncate(dot); static const char * extensions[] = { ".png", ".jpg", ".tga", ".pcx", NULL }; for (const char ** extp=extensions; *extp; extp++) { int lump = Wads.CheckNumForFullName(fn + *extp); if (lump >= best) best = lump; } return best; } //=========================================================================== // // LoadSkin // //=========================================================================== FTexture * LoadSkin(const char * path, const char * fn) { FString buffer; buffer.Format("%s%s", path, fn); int texlump = FindGFXFile(buffer); if (texlump>=0) { return TexMan.FindTexture(Wads.GetLumpFullName(texlump), FTexture::TEX_Any, FTextureManager::TEXMAN_TryAny); } else { return NULL; } } //=========================================================================== // // ModelFrameHash // //=========================================================================== static int ModelFrameHash(FSpriteModelFrame * smf) { const DWORD *table = GetCRCTable (); DWORD hash = 0xffffffff; const char * s = (const char *)(&smf->type); // this uses type, sprite and frame for hashing const char * se= (const char *)(&smf->hashnext); for (; smFileName.CompareNoCase(fullname)) return Models[i]; } int len = Wads.LumpLength(lump); FMemLump lumpd = Wads.ReadLump(lump); char * buffer = (char*)lumpd.GetMem(); if (!memcmp(buffer, "DMDM", 4)) { model = new FDMDModel; } else if (!memcmp(buffer, "IDP2", 4)) { model = new FMD2Model; } else if (!memcmp(buffer, "IDP3", 4)) { model = new FMD3Model; } if (model != NULL) { if (!model->Load(path, lump, buffer, len)) { delete model; return NULL; } } else { // try loading as a voxel FVoxel *voxel = R_LoadKVX(lump); if (voxel != NULL) { model = new FVoxelModel(voxel, true); } else { Printf("LoadModel: Unknown model format in '%s'\n", fullname.GetChars()); return NULL; } } // The vertex buffer cannot be initialized here because this gets called before OpenGL is initialized model->mFileName = fullname; Models.Push(model); return model; } //=========================================================================== // // gl_InitModels // //=========================================================================== void gl_InitModels() { int Lump, lastLump; FString path; int index; int i; FSpriteModelFrame smf; lastLump = 0; for(unsigned i=0;iVoxelIndex = Models.Push(md); } // now create GL model frames for the voxeldefs for (unsigned i = 0; i < VoxelDefs.Size(); i++) { FVoxelModel *md = (FVoxelModel*)Models[VoxelDefs[i]->Voxel->VoxelIndex]; memset(&smf, 0, sizeof(smf)); smf.models[0] = md; smf.skins[0] = md->GetPaletteTexture(); smf.xscale = smf.yscale = smf.zscale = FIXED2FLOAT(VoxelDefs[i]->Scale); smf.angleoffset = VoxelDefs[i]->AngleOffset; if (VoxelDefs[i]->PlacedSpin != 0) { smf.yrotate = 1.f; smf.rotationSpeed = VoxelDefs[i]->PlacedSpin / 55.55f; smf.flags |= MDL_ROTATING; } VoxelDefs[i]->VoxeldefIndex = SpriteModelFrames.Push(smf); if (VoxelDefs[i]->PlacedSpin != VoxelDefs[i]->DroppedSpin) { if (VoxelDefs[i]->DroppedSpin != 0) { smf.yrotate = 1.f; smf.rotationSpeed = VoxelDefs[i]->DroppedSpin / 55.55f; smf.flags |= MDL_ROTATING; } else { smf.yrotate = 0; smf.rotationSpeed = 0; smf.flags &= ~MDL_ROTATING; } SpriteModelFrames.Push(smf); } } memset(&smf, 0, sizeof(smf)); while ((Lump = Wads.FindLump("MODELDEF", &lastLump)) != -1) { FScanner sc(Lump); while (sc.GetString()) { if (sc.Compare("model")) { sc.MustGetString(); memset(&smf, 0, sizeof(smf)); smf.xscale=smf.yscale=smf.zscale=1.f; smf.type = PClass::FindClass(sc.String); if (!smf.type || smf.type->Defaults == NULL) { sc.ScriptError("MODELDEF: Unknown actor type '%s'\n", sc.String); } GetDefaultByType(smf.type)->hasmodel=true; sc.MustGetStringName("{"); while (!sc.CheckString("}")) { sc.MustGetString(); if (sc.Compare("path")) { sc.MustGetString(); FixPathSeperator(sc.String); path = sc.String; if (path[(int)path.Len()-1]!='/') path+='/'; } else if (sc.Compare("model")) { sc.MustGetNumber(); index=sc.Number; if (index<0 || index>=MAX_MODELS_PER_FRAME) { sc.ScriptError("Too many models in %s", smf.type->TypeName.GetChars()); } sc.MustGetString(); FixPathSeperator(sc.String); smf.models[index] = FindModel(path.GetChars(), sc.String); if (!smf.models[index]) { Printf("%s: model not found in %s\n", sc.String, path.GetChars()); } } else if (sc.Compare("scale")) { sc.MustGetFloat(); smf.xscale=sc.Float; sc.MustGetFloat(); smf.yscale=sc.Float; sc.MustGetFloat(); smf.zscale=sc.Float; } // [BB] Added zoffset reading. // Now it must be considered deprecated. else if (sc.Compare("zoffset")) { sc.MustGetFloat(); smf.zoffset=sc.Float; } // Offset reading. else if (sc.Compare("offset")) { sc.MustGetFloat(); smf.xoffset = sc.Float; sc.MustGetFloat(); smf.yoffset = sc.Float; sc.MustGetFloat(); smf.zoffset = sc.Float; } // angleoffset, pitchoffset and rolloffset reading. else if (sc.Compare("angleoffset")) { sc.MustGetFloat(); smf.angleoffset = FLOAT_TO_ANGLE(sc.Float); } else if (sc.Compare("pitchoffset")) { sc.MustGetFloat(); smf.pitchoffset = sc.Float; } else if (sc.Compare("rolloffset")) { sc.MustGetFloat(); smf.rolloffset = sc.Float; } // [BB] Added model flags reading. else if (sc.Compare("ignoretranslation")) { smf.flags |= MDL_IGNORETRANSLATION; } else if (sc.Compare("pitchfrommomentum")) { smf.flags |= MDL_PITCHFROMMOMENTUM; } else if (sc.Compare("inheritactorpitch")) { smf.flags |= MDL_INHERITACTORPITCH; } else if (sc.Compare("inheritactorroll")) { smf.flags |= MDL_INHERITACTORROLL; } else if (sc.Compare("rotating")) { smf.flags |= MDL_ROTATING; smf.xrotate = 0.; smf.yrotate = 1.; smf.zrotate = 0.; smf.rotationCenterX = 0.; smf.rotationCenterY = 0.; smf.rotationCenterZ = 0.; smf.rotationSpeed = 1.; } else if (sc.Compare("rotation-speed")) { sc.MustGetFloat(); smf.rotationSpeed = sc.Float; } else if (sc.Compare("rotation-vector")) { sc.MustGetFloat(); smf.xrotate = sc.Float; sc.MustGetFloat(); smf.yrotate = sc.Float; sc.MustGetFloat(); smf.zrotate = sc.Float; } else if (sc.Compare("rotation-center")) { sc.MustGetFloat(); smf.rotationCenterX = sc.Float; sc.MustGetFloat(); smf.rotationCenterY = sc.Float; sc.MustGetFloat(); smf.rotationCenterZ = sc.Float; } else if (sc.Compare("interpolatedoubledframes")) { smf.flags |= MDL_INTERPOLATEDOUBLEDFRAMES; } else if (sc.Compare("nointerpolation")) { smf.flags |= MDL_NOINTERPOLATION; } else if (sc.Compare("skin")) { sc.MustGetNumber(); index=sc.Number; if (index<0 || index>=MAX_MODELS_PER_FRAME) { sc.ScriptError("Too many models in %s", smf.type->TypeName.GetChars()); } sc.MustGetString(); FixPathSeperator(sc.String); if (sc.Compare("")) { smf.skins[index]=NULL; } else { smf.skins[index]=LoadSkin(path.GetChars(), sc.String); if (smf.skins[index] == NULL) { Printf("Skin '%s' not found in '%s'\n", sc.String, smf.type->TypeName.GetChars()); } } } else if (sc.Compare("frameindex") || sc.Compare("frame")) { bool isframe=!!sc.Compare("frame"); sc.MustGetString(); smf.sprite = -1; for (i = 0; i < (int)sprites.Size (); ++i) { if (strnicmp (sprites[i].name, sc.String, 4) == 0) { if (sprites[i].numframes==0) { //sc.ScriptError("Sprite %s has no frames", sc.String); } smf.sprite = i; break; } } if (smf.sprite==-1) { sc.ScriptError("Unknown sprite %s in model definition for %s", sc.String, smf.type->TypeName.GetChars()); } sc.MustGetString(); FString framechars = sc.String; sc.MustGetNumber(); index=sc.Number; if (index<0 || index>=MAX_MODELS_PER_FRAME) { sc.ScriptError("Too many models in %s", smf.type->TypeName.GetChars()); } if (isframe) { sc.MustGetString(); if (smf.models[index]!=NULL) { smf.modelframes[index] = smf.models[index]->FindFrame(sc.String); if (smf.modelframes[index]==-1) sc.ScriptError("Unknown frame '%s' in %s", sc.String, smf.type->TypeName.GetChars()); } else smf.modelframes[index] = -1; } else { sc.MustGetNumber(); smf.modelframes[index] = sc.Number; } for(i=0; framechars[i]>0; i++) { char map[29]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}; int c = toupper(framechars[i])-'A'; if (c<0 || c>=29) { sc.ScriptError("Invalid frame character %c found", c+'A'); } if (map[c]) continue; smf.frame=c; SpriteModelFrames.Push(smf); map[c]=1; } } else { sc.ScriptMessage("Unrecognized string \"%s\"", sc.String); } } } } } // create a hash table for quick access SpriteModelHash = new int[SpriteModelFrames.Size ()]; atterm(DeleteModelHash); memset(SpriteModelHash, 0xff, SpriteModelFrames.Size () * sizeof(int)); for (i = 0; i < (int)SpriteModelFrames.Size (); i++) { int j = ModelFrameHash(&SpriteModelFrames[i]) % SpriteModelFrames.Size (); SpriteModelFrames[i].hashnext = SpriteModelHash[j]; SpriteModelHash[j]=i; } } //=========================================================================== // // gl_FindModelFrame // //=========================================================================== EXTERN_CVAR (Bool, r_drawvoxels) FSpriteModelFrame * gl_FindModelFrame(const PClass * ti, int sprite, int frame, bool dropped) { if (GetDefaultByType(ti)->hasmodel) { FSpriteModelFrame smf; memset(&smf, 0, sizeof(smf)); smf.type=ti; smf.sprite=sprite; smf.frame=frame; int hash = SpriteModelHash[ModelFrameHash(&smf) % SpriteModelFrames.Size()]; while (hash>=0) { FSpriteModelFrame * smff = &SpriteModelFrames[hash]; if (smff->type==ti && smff->sprite==sprite && smff->frame==frame) return smff; hash=smff->hashnext; } } // Check for voxel replacements if (r_drawvoxels) { spritedef_t *sprdef = &sprites[sprite]; if (frame < sprdef->numframes) { spriteframe_t *sprframe = &SpriteFrames[sprdef->spriteframes + frame]; if (sprframe->Voxel != NULL) { int index = sprframe->Voxel->VoxeldefIndex; if (dropped && sprframe->Voxel->DroppedSpin !=sprframe->Voxel->PlacedSpin) index++; return &SpriteModelFrames[index]; } } } return NULL; } //=========================================================================== // // gl_RenderModel // //=========================================================================== void gl_RenderFrameModels( const FSpriteModelFrame *smf, const FState *curState, const int curTics, const PClass *ti, Matrix3x4 *normaltransform, int translation) { // [BB] Frame interpolation: Find the FSpriteModelFrame smfNext which follows after smf in the animation // and the scalar value inter ( element of [0,1) ), both necessary to determine the interpolated frame. FSpriteModelFrame * smfNext = NULL; double inter = 0.; if( gl_interpolate_model_frames && !(smf->flags & MDL_NOINTERPOLATION) ) { FState *nextState = curState->GetNextState( ); if( curState != nextState && nextState ) { // [BB] To interpolate at more than 35 fps we take tic fractions into account. float ticFraction = 0.; // [BB] In case the tic counter is frozen we have to leave ticFraction at zero. if ( ConsoleState == c_up && menuactive != MENU_On && !(level.flags2 & LEVEL2_FROZEN) ) { float time = GetTimeFloat(); ticFraction = (time - static_cast(time)); } inter = static_cast(curState->Tics - curTics - ticFraction)/static_cast(curState->Tics); // [BB] For some actors (e.g. ZPoisonShroom) spr->actor->tics can be bigger than curState->Tics. // In this case inter is negative and we need to set it to zero. if ( inter < 0. ) inter = 0.; else { // [BB] Workaround for actors that use the same frame twice in a row. // Most of the standard Doom monsters do this in their see state. if ( (smf->flags & MDL_INTERPOLATEDOUBLEDFRAMES) ) { const FState *prevState = curState - 1; if ( (curState->sprite == prevState->sprite) && ( curState->Frame == prevState->Frame) ) { inter /= 2.; inter += 0.5; } if ( (curState->sprite == nextState->sprite) && ( curState->Frame == nextState->Frame) ) { inter /= 2.; nextState = nextState->GetNextState( ); } } if ( inter != 0.0 ) smfNext = gl_FindModelFrame(ti, nextState->sprite, nextState->Frame, false); } } } for(int i=0; imodels[i]; if (mdl!=NULL) { mdl->BuildVertexBuffer(); gl_RenderState.SetVertexBuffer(mdl->mVBuf); if ( smfNext && smf->modelframes[i] != smfNext->modelframes[i] ) mdl->RenderFrame(smf->skins[i], smf->modelframes[i], smfNext->modelframes[i], inter, translation); else mdl->RenderFrame(smf->skins[i], smf->modelframes[i], smf->modelframes[i], 0.f, translation); gl_RenderState.SetVertexBuffer(GLRenderer->mVBO); } } } void gl_RenderModel(GLSprite * spr) { FSpriteModelFrame * smf = spr->modelframe; // Setup transformation. glDepthFunc(GL_LEQUAL); gl_RenderState.EnableTexture(true); // [BB] In case the model should be rendered translucent, do back face culling. // This solves a few of the problems caused by the lack of depth sorting. // TO-DO: Implement proper depth sorting. if (!( spr->actor->RenderStyle == LegacyRenderStyles[STYLE_Normal] )) { glEnable(GL_CULL_FACE); glFrontFace(GL_CW); } int translation = 0; if ( !(smf->flags & MDL_IGNORETRANSLATION) ) translation = spr->actor->Translation; // y scale for a sprite means height, i.e. z in the world! float scaleFactorX = FIXED2FLOAT(spr->actor->scaleX) * smf->xscale; float scaleFactorY = FIXED2FLOAT(spr->actor->scaleX) * smf->yscale; float scaleFactorZ = FIXED2FLOAT(spr->actor->scaleY) * smf->zscale; float pitch = 0; float roll = 0; float rotateOffset = 0; float angle = ANGLE_TO_FLOAT(spr->actor->angle); // [BB] Workaround for the missing pitch information. if ( (smf->flags & MDL_PITCHFROMMOMENTUM) ) { const double x = static_cast(spr->actor->velx); const double y = static_cast(spr->actor->vely); const double z = static_cast(spr->actor->velz); // [BB] Calculate the pitch using spherical coordinates. if(z || x || y) pitch = float(atan( z/sqrt(x*x+y*y) ) / M_PI * 180); // Correcting pitch if model is moving backwards if(x || y) { if((x * cos(angle * M_PI / 180) + y * sin(angle * M_PI / 180)) / sqrt(x * x + y * y) < 0) pitch *= -1; } else pitch = fabs(pitch); } if( smf->flags & MDL_ROTATING ) { const float time = smf->rotationSpeed*GetTimeFloat()/200.f; rotateOffset = float((time - xs_FloorToInt(time)) *360.f ); } // Added MDL_INHERITACTORPITCH and MDL_INHERITACTORROLL flags processing. // If both flags MDL_INHERITACTORPITCH and MDL_PITCHFROMMOMENTUM are set, the pitch sums up the actor pitch and the momentum vector pitch. // This is rather crappy way to transfer fixet_t type into angle in degrees, but its works! if(smf->flags & MDL_INHERITACTORPITCH) pitch += float(static_cast(spr->actor->pitch >> 16) / (1 << 13) * 45 + static_cast(spr->actor->pitch & 0x0000FFFF) / (1 << 29) * 45); if(smf->flags & MDL_INHERITACTORROLL) roll += float(static_cast(spr->actor->roll >> 16) / (1 << 13) * 45 + static_cast(spr->actor->roll & 0x0000FFFF) / (1 << 29) * 45); gl_RenderState.mModelMatrix.loadIdentity(); // Model space => World space gl_RenderState.mModelMatrix.translate(spr->x, spr->z, spr->y ); // Applying model transformations: // 1) Applying actor angle, pitch and roll to the model gl_RenderState.mModelMatrix.rotate(-angle, 0, 1, 0); gl_RenderState.mModelMatrix.rotate(pitch, 0, 0, 1); gl_RenderState.mModelMatrix.rotate(-roll, 1, 0, 0); // 2) Applying Doomsday like rotation of the weapon pickup models // The rotation angle is based on the elapsed time. if( smf->flags & MDL_ROTATING ) { gl_RenderState.mModelMatrix.translate(smf->rotationCenterX, smf->rotationCenterY, smf->rotationCenterZ); gl_RenderState.mModelMatrix.rotate(rotateOffset, smf->xrotate, smf->yrotate, smf->zrotate); gl_RenderState.mModelMatrix.translate(-smf->rotationCenterX, -smf->rotationCenterY, -smf->rotationCenterZ); } // 3) Scaling model. gl_RenderState.mModelMatrix.scale(scaleFactorX, scaleFactorZ, scaleFactorY); // 4) Aplying model offsets (model offsets do not depend on model scalings). gl_RenderState.mModelMatrix.translate(smf->xoffset / smf->xscale, smf->zoffset / smf->zscale, smf->yoffset / smf->yscale); // 5) Applying model rotations. gl_RenderState.mModelMatrix.rotate(-ANGLE_TO_FLOAT(smf->angleoffset), 0, 1, 0); gl_RenderState.mModelMatrix.rotate(smf->pitchoffset, 0, 0, 1); gl_RenderState.mModelMatrix.rotate(-smf->rolloffset, 1, 0, 0); // consider the pixel stretching. For non-voxels this must be factored out here float stretch = (smf->models[0] != NULL ? smf->models[0]->getAspectFactor() : 1.f) / glset.pixelstretch; gl_RenderState.mModelMatrix.scale(1, stretch, 1); gl_RenderState.EnableModelMatrix(true); gl_RenderFrameModels( smf, spr->actor->state, spr->actor->tics, RUNTIME_TYPE(spr->actor), NULL, translation ); gl_RenderState.EnableModelMatrix(false); glDepthFunc(GL_LESS); if (!( spr->actor->RenderStyle == LegacyRenderStyles[STYLE_Normal] )) glDisable(GL_CULL_FACE); } //=========================================================================== // // gl_RenderHUDModel // //=========================================================================== void gl_RenderHUDModel(pspdef_t *psp, fixed_t ofsx, fixed_t ofsy) { AActor * playermo=players[consoleplayer].camera; FSpriteModelFrame *smf = gl_FindModelFrame(playermo->player->ReadyWeapon->GetClass(), psp->state->sprite, psp->state->GetFrame(), false); // [BB] No model found for this sprite, so we can't render anything. if ( smf == NULL ) return; glDepthFunc(GL_LEQUAL); // [BB] In case the model should be rendered translucent, do back face culling. // This solves a few of the problems caused by the lack of depth sorting. // TO-DO: Implement proper depth sorting. if (!( playermo->RenderStyle == LegacyRenderStyles[STYLE_Normal] )) { glEnable(GL_CULL_FACE); glFrontFace(GL_CCW); } // [BB] The model has to be drawn independently from the position of the player, // so we have to reset the view matrix. gl_RenderState.mViewMatrix.loadIdentity(); // Scaling model (y scale for a sprite means height, i.e. z in the world!). gl_RenderState.mViewMatrix.scale(smf->xscale, smf->zscale, smf->yscale); // Aplying model offsets (model offsets do not depend on model scalings). gl_RenderState.mViewMatrix.translate(smf->xoffset / smf->xscale, smf->zoffset / smf->zscale, smf->yoffset / smf->yscale); // [BB] Weapon bob, very similar to the normal Doom weapon bob. gl_RenderState.mViewMatrix.rotate(FIXED2FLOAT(ofsx)/4, 0, 1, 0); gl_RenderState.mViewMatrix.rotate(-FIXED2FLOAT(ofsy-WEAPONTOP)/4, 1, 0, 0); // [BB] For some reason the jDoom models need to be rotated. gl_RenderState.mViewMatrix.rotate(90.f, 0, 1, 0); // Applying angleoffset, pitchoffset, rolloffset. gl_RenderState.mViewMatrix.rotate(-ANGLE_TO_FLOAT(smf->angleoffset), 0, 1, 0); gl_RenderState.mViewMatrix.rotate(smf->pitchoffset, 0, 0, 1); gl_RenderState.mViewMatrix.rotate(-smf->rolloffset, 1, 0, 0); gl_RenderState.ApplyMatrices(); gl_RenderFrameModels( smf, psp->state, psp->tics, playermo->player->ReadyWeapon->GetClass(), NULL, 0 ); glDepthFunc(GL_LESS); if (!( playermo->RenderStyle == LegacyRenderStyles[STYLE_Normal] )) glDisable(GL_CULL_FACE); } //=========================================================================== // // gl_IsHUDModelForPlayerAvailable // //=========================================================================== bool gl_IsHUDModelForPlayerAvailable (player_t * player) { if ( (player == NULL) || (player->ReadyWeapon == NULL) || (player->psprites[0].state == NULL) ) return false; FState* state = player->psprites[0].state; FSpriteModelFrame *smf = gl_FindModelFrame(player->ReadyWeapon->GetClass(), state->sprite, state->GetFrame(), false); return ( smf != NULL ); }