prime/include/Kyoto/Graphics/CTevCombiners.hpp

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#ifndef _CTEVCOMBINERS
#define _CTEVCOMBINERS
#include "types.h"
#include <dolphin/gx/GXEnum.h>
class CTevCombiners {
public:
enum EColorSrc {
kCS_PreviousColor,
kCS_PreviousAlpha,
kCS_RegisterC0,
kCS_RegisterA0,
kCS_RegisterC1,
kCS_RegisterA1,
kCS_RegisterC2,
kCS_RegisterA2,
kCS_TextureColor,
kCS_TextureAlpha,
kCS_RasterColor,
kCS_RasterAlpha,
kCS_One,
kCS_Half,
kCS_Konst,
kCS_Zero,
};
class ColorVar {
public:
ColorVar(EColorSrc src);
ColorVar(const ColorVar& other) : x0_src(other.GetSource()) {}
EColorSrc GetSource() const { return x0_src; }
private:
EColorSrc x0_src;
};
class ColorPass {
public:
ColorPass(const ColorVar& a, const ColorVar& b, const ColorVar& c, const ColorVar& d)
: x0_a(a), x4_b(b), x8_c(c), xc_d(d) {}
ColorPass(const ColorPass& other)
: x0_a(other.GetA()), x4_b(other.GetB()), x8_c(other.GetC()), xc_d(other.GetD()) {}
ColorVar GetA() const { return x0_a; }
ColorVar GetB() const { return x4_b; }
ColorVar GetC() const { return x8_c; }
ColorVar GetD() const { return xc_d; }
private:
ColorVar x0_a;
ColorVar x4_b;
ColorVar x8_c;
ColorVar xc_d;
};
enum EAlphaSrc {
kAS_PreviousAlpha,
kAS_RegisterA0,
kAS_RegisterA1,
kAS_RegisterA2,
kAS_TextureAlpha,
kAS_RasterAlpha,
kAS_Konst,
kAS_Zero,
};
class AlphaVar {
public:
AlphaVar(EAlphaSrc src);
AlphaVar(const AlphaVar& other) : x0_src(other.GetSource()) {}
EAlphaSrc GetSource() const { return x0_src; }
private:
EAlphaSrc x0_src;
};
class AlphaPass {
public:
AlphaPass(const AlphaVar& a, const AlphaVar& b, const AlphaVar& c, const AlphaVar& d)
: x0_a(a), x4_b(b), x8_c(c), xc_d(d) {}
AlphaPass(const AlphaPass& other)
: x0_a(other.GetA()), x4_b(other.GetB()), x8_c(other.GetC()), xc_d(other.GetD()) {}
AlphaVar GetA() const { return x0_a; }
AlphaVar GetB() const { return x4_b; }
AlphaVar GetC() const { return x8_c; }
AlphaVar GetD() const { return xc_d; }
private:
AlphaVar x0_a;
AlphaVar x4_b;
AlphaVar x8_c;
AlphaVar xc_d;
};
enum ETevOp {
kTO_Add,
kTO_Subtract,
};
enum ETevBias {
kTB_Zero,
kTB_AddHalf,
kTB_SubHalf,
};
enum ETevScale {
kTS_Scale1,
kTS_Scale2,
kTS_Scale4,
kTS_Divide2,
};
enum ETevOutput {
kTO_Previous,
kTO_Register0,
kTO_Register1,
kTO_Register2,
};
class CTevOp {
public:
CTevOp(ETevOp op = kTO_Add, ETevBias bias = kTB_Zero, ETevScale scale = kTS_Scale1,
bool clamp = true, ETevOutput output = kTO_Previous)
: x0_clamp(clamp), x4_op(op), x8_bias(bias), xc_scale(scale), x10_output(output) {}
CTevOp(const CTevOp& other)
: x0_clamp(other.GetClamp())
, x4_op(other.GetOp())
, x8_bias(other.GetBias())
, xc_scale(other.GetScale())
, x10_output(other.GetOutput()) {}
bool GetClamp() const { return x0_clamp; }
ETevOp GetOp() const { return x4_op; }
ETevBias GetBias() const { return x8_bias; }
ETevScale GetScale() const { return xc_scale; }
ETevOutput GetOutput() const { return x10_output; }
private:
bool x0_clamp;
ETevOp x4_op;
ETevBias x8_bias;
ETevScale xc_scale;
ETevOutput x10_output;
};
class CTevPass {
public:
CTevPass(const ColorPass& colorPass, const AlphaPass& alphaPass,
const CTevOp& colorOp = CTevOp(), const CTevOp& alphaOp = CTevOp())
: x0_id(sNextUniquePass++)
, x4_colorPass(colorPass)
, x14_alphaPass(alphaPass)
, x24_colorOp(colorOp)
, x38_alphaOp(alphaOp) {}
void Execute(int) const;
private:
uint x0_id;
ColorPass x4_colorPass;
AlphaPass x14_alphaPass;
CTevOp x24_colorOp;
CTevOp x38_alphaOp;
};
static void RecomputePasses();
static void Init();
static void DeletePass(int);
static void SetupPass(int, const CTevPass& pass);
static bool SetPassCombiners(int stage, const CTevPass& pass);
static void ResetStates();
static int sNextUniquePass;
static const CTevPass kEnvPassthru;
static const AlphaVar skAlphaOne;
static const ColorVar skColorOne;
private:
static bool sValidPasses[2];
static uint sNumEnabledPasses;
};
extern CTevCombiners::CTevPass CTevPass_805a5ebc;
#endif // _CTEVCOMBINERS