gzdoom/src/gl/models/gl_models_md2.cpp

/*
** gl_models.cpp
**
** MD2/DMD model format 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 "gl/renderer/gl_renderer.h"
#include "gl/renderer/gl_renderstate.h"
#include "gl/scene/gl_drawinfo.h"
#include "gl/models/gl_models.h"
#include "gl/textures/gl_material.h"
#include "gl/shaders/gl_shader.h"
#include "gl/data/gl_vertexbuffer.h"

static float   avertexnormals[NUMVERTEXNORMALS][3] = {
#include "tab_anorms.h"
};

//===========================================================================
//
// UnpackVector
//  Packed: pppppppy yyyyyyyy. Yaw is on the XY plane.
//
//===========================================================================

static void UnpackVector(unsigned short packed, float vec[3])
{
	float   yaw = (packed & 511) / 512.0f * 2 * M_PI;
	float   pitch = ((packed >> 9) / 127.0f - 0.5f) * M_PI;
	float   cosp = (float) cos(pitch);

	vec[VX] = (float) cos(yaw) * cosp;
	vec[VY] = (float) sin(yaw) * cosp;
	vec[VZ] = (float) sin(pitch);
}


//===========================================================================
//
// DMD file structure
//
//===========================================================================

struct dmd_chunk_t
{
	int             type;
	int             length;		   // Next chunk follows...
};

#pragma pack(1)
struct dmd_packedVertex_t
{
	byte            vertex[3];
	unsigned short  normal;		   // Yaw and pitch.
};

struct dmd_packedFrame_t
{
	float           scale[3];
	float           translate[3];
	char            name[16];
	dmd_packedVertex_t vertices[1];
};
#pragma pack()

// Chunk types.
enum
{
	DMC_END,					   // Must be the last chunk.
	DMC_INFO					   // Required; will be expected to exist.
};

//===========================================================================
//
// FDMDModel::Load
//
//===========================================================================

bool FDMDModel::Load(const char * path, int lumpnum, const char * buffer, int length)
{
	dmd_chunk_t * chunk = (dmd_chunk_t*)(buffer + 12);
	char   *temp;
	ModelFrame *frame;
	int     i;

	int fileoffset = 12 + sizeof(dmd_chunk_t);

	chunk->type = LittleLong(chunk->type);
	while (chunk->type != DMC_END)
	{
		switch (chunk->type)
		{
		case DMC_INFO:			// Standard DMD information chunk.
			memcpy(&info, buffer + fileoffset, LittleLong(chunk->length));
			info.skinWidth = LittleLong(info.skinWidth);
			info.skinHeight = LittleLong(info.skinHeight);
			info.frameSize = LittleLong(info.frameSize);
			info.numSkins = LittleLong(info.numSkins);
			info.numVertices = LittleLong(info.numVertices);
			info.numTexCoords = LittleLong(info.numTexCoords);
			info.numFrames = LittleLong(info.numFrames);
			info.numLODs = LittleLong(info.numLODs);
			info.offsetSkins = LittleLong(info.offsetSkins);
			info.offsetTexCoords = LittleLong(info.offsetTexCoords);
			info.offsetFrames = LittleLong(info.offsetFrames);
			info.offsetLODs = LittleLong(info.offsetLODs);
			info.offsetEnd = LittleLong(info.offsetEnd);
			fileoffset += chunk->length;
			break;

		default:
			// Just skip all unknown chunks.
			fileoffset += chunk->length;
			break;
		}
		// Read the next chunk header.
		chunk = (dmd_chunk_t*)(buffer + fileoffset);
		chunk->type = LittleLong(chunk->type);
		fileoffset += sizeof(dmd_chunk_t);
	}

	// Allocate and load in the data.
	skins = new FTextureID[info.numSkins];

	for (i = 0; i < info.numSkins; i++)
	{
		skins[i] = LoadSkin(path, buffer + info.offsetSkins + i * 64);
	}
	temp = (char*)buffer + info.offsetFrames;
	frames = new ModelFrame[info.numFrames];

	for (i = 0, frame = frames; i < info.numFrames; i++, frame++)
	{
		dmd_packedFrame_t *pfr = (dmd_packedFrame_t *)(temp + info.frameSize * i);

		memcpy(frame->name, pfr->name, sizeof(pfr->name));
		frame->vindex = UINT_MAX;
	}
	mLumpNum = lumpnum;
	return true;
}

//===========================================================================
//
// FDMDModel::LoadGeometry
//
//===========================================================================

void FDMDModel::LoadGeometry()
{
	static int axis[3] = { VX, VY, VZ };
	FMemLump lumpdata = Wads.ReadLump(mLumpNum);
	const char *buffer = (const char *)lumpdata.GetMem();
	texCoords = new FTexCoord[info.numTexCoords];
	memcpy(texCoords, buffer + info.offsetTexCoords, info.numTexCoords * sizeof(FTexCoord));

	const char *temp = buffer + info.offsetFrames;
	framevtx= new ModelFrameVertexData[info.numFrames];

	ModelFrameVertexData *framev;
	int i, k, c;
	for(i = 0, framev = framevtx; i < info.numFrames; i++, framev++)
	{
		dmd_packedFrame_t *pfr = (dmd_packedFrame_t *) (temp + info.frameSize * i);
		dmd_packedVertex_t *pVtx;

		framev->vertices = new DMDModelVertex[info.numVertices];
		framev->normals = new DMDModelVertex[info.numVertices];

		// Translate each vertex.
		for(k = 0, pVtx = pfr->vertices; k < info.numVertices; k++, pVtx++)
		{
			UnpackVector((unsigned short)(pVtx->normal), framev->normals[k].xyz);
			for(c = 0; c < 3; c++)
			{
				framev->vertices[k].xyz[axis[c]] =
					(pVtx->vertex[c] * FLOAT(pfr->scale[c]) + FLOAT(pfr->translate[c]));
			}
		}
	}

	memcpy(lodInfo, buffer+info.offsetLODs, info.numLODs * sizeof(DMDLoDInfo));
	for(i = 0; i < info.numLODs; i++)
	{
		lodInfo[i].numTriangles = LittleLong(lodInfo[i].numTriangles);
		lodInfo[i].offsetTriangles = LittleLong(lodInfo[i].offsetTriangles);
		if (lodInfo[i].numTriangles > 0)
		{
			lods[i].triangles = new FTriangle[lodInfo[i].numTriangles];
			memcpy(lods[i].triangles, buffer + lodInfo[i].offsetTriangles, lodInfo[i].numTriangles * sizeof(FTriangle));
			for (int j = 0; j < lodInfo[i].numTriangles; j++)
			{
				for (int k = 0; k < 3; k++)
				{
					lods[i].triangles[j].textureIndices[k] = LittleShort(lods[i].triangles[j].textureIndices[k]);
					lods[i].triangles[j].vertexIndices[k] = LittleShort(lods[i].triangles[j].vertexIndices[k]);
				}
			}
		}
	}

}

//===========================================================================
//
// Deletes everything that's no longer needed after building the vertex buffer
//
//===========================================================================

void FDMDModel::UnloadGeometry()
{
	int i;

	if (framevtx != NULL)
	{
		for (i=0;i<info.numFrames;i++)
		{
			if (framevtx[i].vertices != NULL) delete [] framevtx[i].vertices;
			if (framevtx[i].normals != NULL) delete [] framevtx[i].normals;

			framevtx[i].vertices = NULL;
			framevtx[i].normals = NULL;
		}
		delete[] framevtx;
		framevtx = NULL;
	}

	for(i = 0; i < info.numLODs; i++)
	{
		if (lods[i].triangles != NULL) delete[] lods[i].triangles;
		lods[i].triangles = NULL;
	}

	if (texCoords != NULL) delete[] texCoords;
	texCoords = NULL;
}

//===========================================================================
//
//
//
//===========================================================================

FDMDModel::~FDMDModel()
{
	UnloadGeometry();

	// skins are managed by the texture manager so they must not be deleted here.
	if (skins != NULL) delete [] skins;
	if (frames != NULL) delete [] frames;
}

//===========================================================================
//
//
//
//===========================================================================

void FDMDModel::BuildVertexBuffer()
{
	if (mVBuf == NULL)
	{
		LoadGeometry();

		int VertexBufferSize = info.numFrames * lodInfo[0].numTriangles * 3;
		unsigned int vindex = 0;

		mVBuf = new FModelVertexBuffer(false, info.numFrames == 1);
		FModelVertex *vertptr = mVBuf->LockVertexBuffer(VertexBufferSize);

		for (int i = 0; i < info.numFrames; i++)
		{
			DMDModelVertex *vert = framevtx[i].vertices;
			DMDModelVertex *norm = framevtx[i].normals;

			frames[i].vindex = vindex;

			FTriangle *tri = lods[0].triangles;

			for (int i = 0; i < lodInfo[0].numTriangles; i++)
			{
				for (int j = 0; j < 3; j++)
				{

					int ti = tri->textureIndices[j];
					int vi = tri->vertexIndices[j];

					FModelVertex *bvert = &vertptr[vindex++];
					bvert->Set(vert[vi].xyz[0], vert[vi].xyz[1], vert[vi].xyz[2], (float)texCoords[ti].s / info.skinWidth, (float)texCoords[ti].t / info.skinHeight);
					bvert->SetNormal(norm[vi].xyz[0], norm[vi].xyz[1], norm[vi].xyz[2]);
				}
				tri++;
			}
		}
		mVBuf->UnlockVertexBuffer();
		UnloadGeometry();
	}
}

//===========================================================================
//
// for skin precaching
//
//===========================================================================

void FDMDModel::AddSkins(BYTE *hitlist)
{
	for (int i = 0; i < info.numSkins; i++)
	{
		if (skins[i].isValid())
		{
			hitlist[skins[i].GetIndex()] |= FTexture::TEX_Flat;
		}
	}
}

//===========================================================================
//
// FDMDModel::FindFrame
//
//===========================================================================
int FDMDModel::FindFrame(const char * name)
{
	for (int i=0;i<info.numFrames;i++)
	{
		if (!stricmp(name, frames[i].name)) return i;
	}
	return -1;
}

//===========================================================================
//
//
//
//===========================================================================

void FDMDModel::RenderFrame(FTexture * skin, int frameno, int frameno2, double inter, int translation)
{
	if (frameno >= info.numFrames || frameno2 >= info.numFrames) return;

	if (!skin)
	{
		if (info.numSkins == 0 || !skins[0].isValid()) return;
		skin = TexMan(skins[0]);
		if (!skin) return;
	}

	FMaterial * tex = FMaterial::ValidateTexture(skin, false);

	gl_RenderState.SetMaterial(tex, CLAMP_NONE, translation, -1, false);
	gl_RenderState.SetInterpolationFactor((float)inter);

	gl_RenderState.Apply();
	mVBuf->SetupFrame(frames[frameno].vindex, frames[frameno2].vindex, lodInfo[0].numTriangles * 3);
	glDrawArrays(GL_TRIANGLES, 0, lodInfo[0].numTriangles * 3);
	gl_RenderState.SetInterpolationFactor(0.f);
}



//===========================================================================
//
// Internal data structures of MD2 files - only used during loading
//
//===========================================================================

struct md2_header_t
{
	int             magic;
	int             version;
	int             skinWidth;
	int             skinHeight;
	int             frameSize;
	int             numSkins;
	int             numVertices;
	int             numTexCoords;
	int             numTriangles;
	int             numGlCommands;
	int             numFrames;
	int             offsetSkins;
	int             offsetTexCoords;
	int             offsetTriangles;
	int             offsetFrames;
	int             offsetGlCommands;
	int             offsetEnd;
};

struct md2_triangleVertex_t
{
	byte            vertex[3];
	byte            lightNormalIndex;
};

struct md2_packedFrame_t
{
	float           scale[3];
	float           translate[3];
	char            name[16];
	md2_triangleVertex_t vertices[1];
};

//===========================================================================
//
// FMD2Model::Load
//
//===========================================================================

bool FMD2Model::Load(const char * path, int lumpnum, const char * buffer, int length)
{
	md2_header_t * md2header = (md2_header_t *)buffer;
	ModelFrame *frame;
	byte   *md2_frames;
	int     i;

	// Convert it to DMD.
	header.magic = MD2_MAGIC;
	header.version = 8;
	header.flags = 0;
	info.skinWidth = LittleLong(md2header->skinWidth);
	info.skinHeight = LittleLong(md2header->skinHeight);
	info.frameSize = LittleLong(md2header->frameSize);
	info.numLODs = 1;
	info.numSkins = LittleLong(md2header->numSkins);
	info.numTexCoords = LittleLong(md2header->numTexCoords);
	info.numVertices = LittleLong(md2header->numVertices);
	info.numFrames = LittleLong(md2header->numFrames);
	info.offsetSkins = LittleLong(md2header->offsetSkins);
	info.offsetTexCoords = LittleLong(md2header->offsetTexCoords);
	info.offsetFrames = LittleLong(md2header->offsetFrames);
	info.offsetLODs = LittleLong(md2header->offsetEnd);	// Doesn't exist.
	lodInfo[0].numTriangles = LittleLong(md2header->numTriangles);
	lodInfo[0].numGlCommands = LittleLong(md2header->numGlCommands);
	lodInfo[0].offsetTriangles = LittleLong(md2header->offsetTriangles);
	lodInfo[0].offsetGlCommands = LittleLong(md2header->offsetGlCommands);
	info.offsetEnd = LittleLong(md2header->offsetEnd);

	if (info.offsetFrames + info.frameSize * info.numFrames > length)
	{
		Printf("LoadModel: Model '%s' file too short\n", path);
		return false;
	}
	if (lodInfo[0].numGlCommands <= 0)
	{
		Printf("LoadModel: Model '%s' invalid NumGLCommands\n", path);
		return false;
	}

	skins = new FTextureID[info.numSkins];

	for (i = 0; i < info.numSkins; i++)
	{
		skins[i] = LoadSkin(path, buffer + info.offsetSkins + i * 64);
	}

	// The frames need to be unpacked.
	md2_frames = (byte*)buffer + info.offsetFrames;
	frames = new ModelFrame[info.numFrames];

	for (i = 0, frame = frames; i < info.numFrames; i++, frame++)
	{
		md2_packedFrame_t *pfr = (md2_packedFrame_t *)(md2_frames + info.frameSize * i);

		memcpy(frame->name, pfr->name, sizeof(pfr->name));
		frame->vindex = UINT_MAX;
	}
	mLumpNum = lumpnum;
	return true;
}

//===========================================================================
//
// FMD2Model::LoadGeometry
//
//===========================================================================

void FMD2Model::LoadGeometry()
{
	static int axis[3] = { VX, VY, VZ };
	byte   *md2_frames;
	FMemLump lumpdata = Wads.ReadLump(mLumpNum);
	const char *buffer = (const char *)lumpdata.GetMem();

	texCoords = new FTexCoord[info.numTexCoords];
	memcpy(texCoords, (byte*)buffer + info.offsetTexCoords, info.numTexCoords * sizeof(FTexCoord));

	md2_frames = (byte*)buffer + info.offsetFrames;
	framevtx = new ModelFrameVertexData[info.numFrames];
	ModelFrameVertexData *framev;
	int i, k, c;

	for(i = 0, framev = framevtx; i < info.numFrames; i++, framev++)
	{
		md2_packedFrame_t *pfr = (md2_packedFrame_t *) (md2_frames + info.frameSize * i);
		md2_triangleVertex_t *pVtx;

		framev->vertices = new DMDModelVertex[info.numVertices];
		framev->normals = new DMDModelVertex[info.numVertices];

		// Translate each vertex.
		for(k = 0, pVtx = pfr->vertices; k < info.numVertices; k++, pVtx++)
		{
			memcpy(framev->normals[k].xyz,
				avertexnormals[pVtx->lightNormalIndex], sizeof(float) * 3);

			for(c = 0; c < 3; c++)
			{
				framev->vertices[k].xyz[axis[c]] =
					(pVtx->vertex[c] * pfr->scale[c] + pfr->translate[c]);
			}
		}
	}

	lods[0].triangles = new FTriangle[lodInfo[0].numTriangles];
		
	int cnt = lodInfo[0].numTriangles;
	memcpy(lods[0].triangles, buffer + lodInfo[0].offsetTriangles, sizeof(FTriangle) * cnt);
	for (int j = 0; j < cnt; j++)
	{
		for (int k = 0; k < 3; k++)
		{
			lods[0].triangles[j].textureIndices[k] = LittleShort(lods[0].triangles[j].textureIndices[k]);
			lods[0].triangles[j].vertexIndices[k] = LittleShort(lods[0].triangles[j].vertexIndices[k]);
		}
	}
}

FMD2Model::~FMD2Model()
{
}