qzdoom/src/gl/renderer/gl_renderstate.h

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#ifndef __GL_RENDERSTATE_H
#define __GL_RENDERSTATE_H
#include <string.h>
#include "gl/system/gl_interface.h"
#include "gl/data/gl_data.h"
#include "gl/data/gl_matrix.h"
#include "c_cvars.h"
#include "r_defs.h"
class FVertexBuffer;
extern TArray<VSMatrix> gl_MatrixStack;
EXTERN_CVAR(Bool, gl_direct_state_change)
struct FStateVec4
{
float vec[4];
void Set(float r, float g, float b, float a)
{
vec[0] = r;
vec[1] = g;
vec[2] = b;
vec[3] = a;
}
};
enum EEffect
{
EFF_NONE=-1,
EFF_FOGBOUNDARY,
EFF_SPHEREMAP,
EFF_BURN,
EFF_STENCIL,
MAX_EFFECTS
};
class FRenderState
{
bool mTextureEnabled;
bool mFogEnabled;
bool mGlowEnabled;
bool mLightEnabled;
bool mBrightmapEnabled;
int mSpecialEffect;
int mTextureMode;
int mDesaturation;
int mSoftLight;
float mLightParms[4];
int mNumLights[4];
float *mLightData;
int mSrcBlend, mDstBlend;
float mAlphaThreshold;
bool mAlphaTest;
int mBlendEquation;
bool m2D;
float mInterpolationFactor;
float mClipHeightTop, mClipHeightBottom;
bool mModelMatrixEnabled;
bool mTextureMatrixEnabled;
FVertexBuffer *mVertexBuffer, *mCurrentVertexBuffer;
FStateVec4 mColor;
FStateVec4 mCameraPos;
FStateVec4 mGlowTop, mGlowBottom;
FStateVec4 mGlowTopPlane, mGlowBottomPlane;
PalEntry mFogColor;
PalEntry mObjectColor;
FStateVec4 mDynColor;
int mEffectState;
int mColormapState;
float glAlphaThreshold;
bool glClipOn;
int glSrcBlend, glDstBlend;
bool glAlphaTest;
int glBlendEquation;
bool ApplyShader();
public:
VSMatrix mProjectionMatrix;
VSMatrix mViewMatrix;
VSMatrix mModelMatrix;
VSMatrix mTextureMatrix;
FRenderState()
{
Reset();
}
void Reset();
void SetupShader(int &shaderindex, float warptime);
void Apply();
void ApplyMatrices();
void SetVertexBuffer(FVertexBuffer *vb)
{
mVertexBuffer = vb;
}
void ResetVertexBuffer()
{
// forces rebinding with the next 'apply' call.
mCurrentVertexBuffer = NULL;
}
void SetClipHeightTop(float clip)
{
mClipHeightTop = clip;
}
float GetClipHeightTop()
{
return mClipHeightTop;
}
void SetClipHeightBottom(float clip)
{
mClipHeightBottom = clip;
}
float GetClipHeightBottom()
{
return mClipHeightBottom;
}
void SetColor(float r, float g, float b, float a = 1.f, int desat = 0)
{
mColor.Set(r, g, b, a);
mDesaturation = desat;
}
void SetColor(PalEntry pe, int desat = 0)
{
mColor.Set(pe.r/255.f, pe.g/255.f, pe.b/255.f, pe.a/255.f);
mDesaturation = desat;
}
void SetColorAlpha(PalEntry pe, float alpha = 1.f, int desat = 0)
{
mColor.Set(pe.r/255.f, pe.g/255.f, pe.b/255.f, alpha);
mDesaturation = desat;
}
void ResetColor()
{
mColor.Set(1,1,1,1);
mDesaturation = 0;
}
void SetTextureMode(int mode)
{
mTextureMode = mode;
}
void EnableTexture(bool on)
{
mTextureEnabled = on;
}
void EnableFog(bool on)
{
mFogEnabled = on;
}
void SetEffect(int eff)
{
mSpecialEffect = eff;
}
void EnableGlow(bool on)
{
mGlowEnabled = on;
}
void EnableLight(bool on)
{
mLightEnabled = on;
}
void EnableBrightmap(bool on)
{
mBrightmapEnabled = on;
}
void EnableModelMatrix(bool on)
{
mModelMatrixEnabled = on;
}
void EnableTextureMatrix(bool on)
{
mTextureMatrixEnabled = on;
}
void SetCameraPos(float x, float y, float z)
{
mCameraPos.Set(x, z, y, 0);
}
void SetGlowParams(float *t, float *b)
{
mGlowTop.Set(t[0], t[1], t[2], t[3]);
mGlowBottom.Set(b[0], b[1], b[2], b[3]);
}
void SetSoftLightLevel(int level)
{
if (glset.lightmode == 8) mLightParms[3] = level / 255.f;
else mLightParms[3] = -1.f;
}
void SetGlowPlanes(const secplane_t &top, const secplane_t &bottom)
{
mGlowTopPlane.Set(FIXED2FLOAT(top.a), FIXED2FLOAT(top.b), FIXED2FLOAT(top.ic), FIXED2FLOAT(top.d));
mGlowBottomPlane.Set(FIXED2FLOAT(bottom.a), FIXED2FLOAT(bottom.b), FIXED2FLOAT(bottom.ic), FIXED2FLOAT(bottom.d));
}
void SetDynLight(float r, float g, float b)
{
mDynColor.Set(r, g, b, 0);
}
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void SetObjectColor(PalEntry pe)
{
mObjectColor = pe;
}
void SetFog(PalEntry c, float d)
{
const float LOG2E = 1.442692f; // = 1/log(2)
mFogColor = c;
if (d >= 0.0f) mLightParms[2] = d * (-LOG2E / 64000.f);
}
void SetLightParms(float f, float d)
{
mLightParms[1] = f;
mLightParms[0] = d;
}
void SetLights(int *numlights, float *lightdata)
{
mNumLights[0] = 0;
mNumLights[1] = numlights[0];
mNumLights[2] = numlights[1];
mNumLights[3] = numlights[2];
mLightData = lightdata; // caution: the data must be preserved by the caller until the 'apply' call!
}
void SetFixedColormap(int cm)
{
mColormapState = cm;
}
PalEntry GetFogColor() const
{
return mFogColor;
}
void BlendFunc(int src, int dst)
{
if (!gl_direct_state_change)
{
mSrcBlend = src;
mDstBlend = dst;
}
else
{
glBlendFunc(src, dst);
}
}
void AlphaFunc(int func, float thresh)
{
if (func == GL_GREATER) mAlphaThreshold = thresh;
else mAlphaThreshold = thresh - 0.001f;
}
void BlendEquation(int eq)
{
if (!gl_direct_state_change)
{
mBlendEquation = eq;
}
else
{
::glBlendEquation(eq);
}
}
void Set2DMode(bool on)
{
m2D = on;
}
void SetInterpolationFactor(float fac)
{
mInterpolationFactor = fac;
}
};
extern FRenderState gl_RenderState;
#endif