Supermodel/Src/Graphics/New3D/PolyHeader.cpp

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#include "Supermodel.h"
#include "PolyHeader.h"
namespace New3D {
PolyHeader::PolyHeader()
{
header = NULL;
}
PolyHeader::PolyHeader(UINT32* h)
{
header = h;
}
void PolyHeader::operator = (const UINT32* h)
{
header = (UINT32*)h;
}
UINT32* PolyHeader::StartOfData()
{
return header + 7; // 7 is size of header in bytes, data immediately follows
}
bool PolyHeader::NextPoly()
{
if (LastPoly()) {
return false;
}
header += 7 + (NumVerts() - NumSharedVerts()) * 4;
return true;
}
int PolyHeader::NumPolysTotal()
{
UINT32* start = header; // save start address
int count = 1;
while (NextPoly()) {
count++;
}
header = start; // restore start address
return count;
}
int PolyHeader::NumTrianglesTotal()
{
if (header[6] == 0) {
return 0; // no poly data
}
UINT32* start = header; // save start address
int count = (NumVerts() == 4) ? 2 : 1;
while (NextPoly()) {
count += (NumVerts() == 4) ? 2 : 1;
}
header = start; // restore start address
return count;
}
//
// header 0
//
bool PolyHeader::Specular()
{
return (header[0] & 0x800000000) > 0;
}
int PolyHeader::PolyNumber()
{
return (header[0] & 0x000FFFC00) >> 10; // not all programs pass this, instead they are set to 0
}
bool PolyHeader::Disabled()
{
if ((header[0] & 0x100) && (header[0] & 0x200)) { // assuming these two bits mean z and colour writes are disabled
return true;
}
return false;
}
int PolyHeader::NumVerts()
{
return (header[0] & 0x40) ? 4 : 3;
}
int PolyHeader::NumSharedVerts()
{
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int sharedVerts[] = { 0, 1, 1, 2, 1, 2, 2, 3, 1, 2, 2, 3, 2, 3, 3, 4 };
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return sharedVerts[header[0] & 0xf];
}
bool PolyHeader::SharedVertex(int vertex)
{
UINT32 mask = 1 << vertex;
return (header[0] & mask) > 0;
}
//
// header 1
//
void PolyHeader::FaceNormal(float n[3])
{
n[0] = (float)(((INT32)header[1]) >> 8) * (1.0f / 4194304.0f);
n[1] = (float)(((INT32)header[2]) >> 8) * (1.0f / 4194304.0f);
n[2] = (float)(((INT32)header[3]) >> 8) * (1.0f / 4194304.0f);
}
float PolyHeader::UVScale()
{
return (header[1] & 0x40) ? 1.0f : (1.0f / 8.0f);
}
bool PolyHeader::DoubleSided()
{
return (header[1] & 0x10) ? true : false;
}
bool PolyHeader::LastPoly()
{
if ((header[1] & 4) > 0 || header[6] == 0) {
return true;
}
return false;
}
bool PolyHeader::PolyColor()
{
return (header[1] & 2) > 0;
}
//
// header 2
//
bool PolyHeader::TexUMirror()
{
return (header[2] & 2) > 0;
}
bool PolyHeader::TexVMirror()
{
return (header[2] & 1) > 0;
}
//
// header 3
int PolyHeader::TexWidth()
{
return 32 << ((header[3] >> 3) & 7);
}
int PolyHeader::TexHeight()
{
return 32 << ((header[3] >> 0) & 7);
}
//
// header 4
//
void PolyHeader::Color(UINT8& r, UINT8& g, UINT8& b)
{
r = (header[4] >> 24);
g = (header[4] >> 16) & 0xFF;
b = (header[4] >> 8) & 0xFF;
}
int PolyHeader::Page()
{
return (header[4] & 0x40) >> 6;
}
//
// header 5
//
int PolyHeader::X()
{
//====
int x;
//====
x = (32 * (((header[4] & 0x1F) << 1) | ((header[5] >> 7) & 1)));
x &= 2047;
return x;
}
int PolyHeader::Y()
{
//=======
int y;
int page;
//=======
if (Page()) {
page = 1024;
}
else {
page = 0;
}
y = (32 * (header[5] & 0x1F) + page); // if we hit 2nd page add 1024 to y coordinate
y &= 2047;
return y;
}
//
// header 6
//
int PolyHeader::TexFormat()
{
return (header[6] >> 7) & 7;
}
bool PolyHeader::TexEnabled()
{
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return (header[6] & 0x400) > 0;
}
bool PolyHeader::LightEnabled()
{
return !(header[6] & 0x00010000);
}
bool PolyHeader::AlphaTest()
{
return (header[6] & 0x80000000) > 0;
}
UINT8 PolyHeader::Transparency()
{
return (UINT8)(((header[6] >> 18) & 0x1F) * 255.f / 0x1F);
}
bool PolyHeader::FixedShading()
{
return (header[6] & 0x2000000) > 0;
}
UINT8 PolyHeader::ShadeValue()
{
return (UINT8)(((header[6] >> 26) & 0x1F) * (255.f / 0x1F));
}
bool PolyHeader::PolyAlpha()
{
return (header[6] & 0x00800000) == 0;
}
bool PolyHeader::TextureAlpha()
{
return (header[6] & 0x1);
}
bool PolyHeader::StencilPoly()
{
return (header[6] & 1000000) > 0;
}
bool PolyHeader::Luminous()
{
return (header[6] & 0x00010000) > 0;
}
float PolyHeader::LightModifier()
{
return (float)((header[6] >> 11) & 0x1F) * (1.0f / 31.0f);
}
//
// misc
//
UINT64 PolyHeader::Hash()
{
UINT64 hash = 0;
hash |= (header[2] & 3); // bits 0-1 uv mirror bits
hash |= (UINT64)((header[3] >> 0) & 7) << 2; // bits 2-4 tex height
hash |= (UINT64)((header[3] >> 3) & 7) << 5; // bits 5-7 tex width
hash |= (UINT64)X() << 8; // bits 8-17 x offset
hash |= (UINT64)Y() << 18; // bits 18-27 y offset
hash |= (UINT64)TexFormat() << 28; // bits 28-30 tex format
hash |= (UINT64)TexEnabled() << 31; // bits 31 textures enabled
hash |= (UINT64)LightEnabled() << 32; // bits 32 light enabled
hash |= (UINT64)DoubleSided() << 33; // bits 33 double sided
hash |= (UINT64)AlphaTest() << 34; // bits 34 contour processing
hash |= (UINT64)PolyAlpha() << 35; // bits 35 poly alpha processing
hash |= (UINT64)TextureAlpha() << 36; // bits 35 poly alpha processing
//to do add the rest of the states
return hash;
}
} // New3D