gzdoom-gles/src/r_data/models/models_ue1.h

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#pragma once
#include "models.h"
class FUE1Model : public FModel
{
public:
enum EPolyType
{
PT_Normal = 0, // normal renderstyle
PT_TwoSided = 1, // like normal, but don't cull backfaces
PT_Translucent = 2, // additive blending
PT_Masked = 3, // draw with alpha testing
PT_Modulated = 4, // overlay-like blending (rgb values below 128 darken, 128 is unchanged, and above 128 lighten)
// types mask
PT_Type = 7,
// flags
PT_WeaponTriangle = 0x08, // this poly is used for positioning a weapon attachment and should not be drawn
PT_Unlit = 0x10, // this poly is fullbright
PT_Curvy = 0x20, // this poly uses the facet normal
PT_EnvironmentMap = 0x40, // vertex UVs are remapped to their view-space X and Z normals, fake cubemap look
PT_NoSmooth = 0x80 // this poly forcibly uses nearest filtering
};
bool Load(const char * fn, int lumpnum, const char * buffer, int length) override;
int FindFrame(const char * name) override;
void RenderFrame(FModelRenderer *renderer, FTexture * skin, int frame, int frame2, double inter, int translation=0) override;
void BuildVertexBuffer(FModelRenderer *renderer) override;
void AddSkins(uint8_t *hitlist) override;
void LoadGeometry();
void UnloadGeometry();
FUE1Model()
{
mDataLump = -1;
mAnivLump = -1;
mDataLoaded = false;
dhead = NULL;
dpolys = NULL;
ahead = NULL;
averts = NULL;
numVerts = 0;
numFrames = 0;
numPolys = 0;
numGroups = 0;
}
~FUE1Model();
private:
int mDataLump, mAnivLump;
bool mDataLoaded;
// raw data structures
struct d3dhead
{
uint16_t numpolys, numverts;
uint16_t bogusrot, bogusframe;
uint32_t bogusnorm[3];
uint32_t fixscale;
uint32_t unused[3];
uint8_t padding[12];
};
struct d3dpoly
{
uint16_t vertices[3];
uint8_t type, color;
uint8_t uv[3][2];
uint8_t texnum, flags;
};
struct a3dhead
{
uint16_t numframes, framesize;
};
d3dhead * dhead;
d3dpoly * dpolys;
a3dhead * ahead;
uint32_t * averts;
struct dxvert
{
int16_t x, y, z, pad;
};
dxvert * dxverts;
// converted data structures
struct UE1Vertex
{
FVector3 Pos, Normal;
};
struct UE1Poly
{
int V[3];
FVector2 C[3];
FVector3 Normal;
};
struct UE1Group
{
TArray<int> P;
int numPolys, texNum, type;
};
int numVerts;
int numFrames;
int numPolys;
int numGroups;
int weaponPoly; // for future model attachment support, unused for now
TArray<UE1Vertex> verts;
TArray<UE1Poly> polys;
TArray<UE1Group> groups;
};