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/**
* @file llcubemap.cpp
* @brief LLCubeMap class implementation
*
* $LicenseInfo:firstyear=2002&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2010, Linden Research, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#include "linden_common.h"
#include "llworkerthread.h"
#include "llcubemap.h"
#include "v4coloru.h"
#include "v3math.h"
#include "v3dmath.h"
#include "m3math.h"
#include "m4math.h"
#include "llrender.h"
#include "llglslshader.h"
#include "llglheaders.h"
const F32 epsilon = 1e-7f;
const U16 RESOLUTION = 64;
#if LL_DARWIN
// mipmap generation on cubemap textures seems to be broken on the Mac for at least some cards.
// Since the cubemap is small (64x64 per face) and doesn't have any fine detail, turning off mipmaps is a usable workaround.
const BOOL use_cube_mipmaps = FALSE;
#else
const BOOL use_cube_mipmaps = FALSE; //current build works best without cube mipmaps
#endif
bool LLCubeMap::sUseCubeMaps = true;
LLCubeMap::LLCubeMap()
: mTextureStage(0),
mTextureCoordStage(0),
mMatrixStage(0)
{
mTargets[0] = GL_TEXTURE_CUBE_MAP_NEGATIVE_X_ARB;
mTargets[1] = GL_TEXTURE_CUBE_MAP_POSITIVE_X_ARB;
mTargets[2] = GL_TEXTURE_CUBE_MAP_NEGATIVE_Y_ARB;
mTargets[3] = GL_TEXTURE_CUBE_MAP_POSITIVE_Y_ARB;
mTargets[4] = GL_TEXTURE_CUBE_MAP_NEGATIVE_Z_ARB;
mTargets[5] = GL_TEXTURE_CUBE_MAP_POSITIVE_Z_ARB;
}
LLCubeMap::~LLCubeMap()
{
}
void LLCubeMap::initGL()
{
llassert(gGLManager.mInited);
if (gGLManager.mHasCubeMap && LLCubeMap::sUseCubeMaps)
{
// Not initialized, do stuff.
if (mImages[0].isNull())
{
U32 texname = 0;
LLImageGL::generateTextures(1, &texname);
for (int i = 0; i < 6; i++)
{
mImages[i] = new LLImageGL(64, 64, 4, (use_cube_mipmaps? TRUE : FALSE));
mImages[i]->setTarget(mTargets[i], LLTexUnit::TT_CUBE_MAP);
mRawImages[i] = new LLImageRaw(64, 64, 4);
mImages[i]->createGLTexture(0, mRawImages[i], texname);
gGL.getTexUnit(0)->bindManual(LLTexUnit::TT_CUBE_MAP, texname);
mImages[i]->setAddressMode(LLTexUnit::TAM_CLAMP);
stop_glerror();
}
gGL.getTexUnit(0)->disable();
}
disable();
}
else
{
LL_WARNS() << "Using cube map without extension!" << LL_ENDL;
}
}
void LLCubeMap::initRawData(const std::vector<LLPointer<LLImageRaw> >& rawimages)
{
bool flip_x[6] = { false, true, false, false, true, false };
bool flip_y[6] = { true, true, true, false, true, true };
bool transpose[6] = { false, false, false, false, true, true };
// Yes, I know that this is inefficient! - djs 08/08/02
for (int i = 0; i < 6; i++)
{
const U8 *sd = rawimages[i]->getData();
U8 *td = mRawImages[i]->getData();
S32 offset = 0;
S32 sx, sy, so;
for (int y = 0; y < 64; y++)
{
for (int x = 0; x < 64; x++)
{
sx = x;
sy = y;
if (flip_y[i])
{
sy = 63 - y;
}
if (flip_x[i])
{
sx = 63 - x;
}
if (transpose[i])
{
S32 temp = sx;
sx = sy;
sy = temp;
}
so = 64*sy + sx;
so *= 4;
*(td + offset++) = *(sd + so++);
*(td + offset++) = *(sd + so++);
*(td + offset++) = *(sd + so++);
*(td + offset++) = *(sd + so++);
}
}
}
}
void LLCubeMap::initGLData()
{
for (int i = 0; i < 6; i++)
{
mImages[i]->setSubImage(mRawImages[i], 0, 0, 64, 64);
}
}
void LLCubeMap::init(const std::vector<LLPointer<LLImageRaw> >& rawimages)
{
if (!gGLManager.mIsDisabled)
{
initGL();
initRawData(rawimages);
initGLData();
}
}
GLuint LLCubeMap::getGLName()
{
return mImages[0]->getTexName();
}
void LLCubeMap::bind()
{
gGL.getTexUnit(mTextureStage)->bind(this);
}
void LLCubeMap::enable(S32 stage)
{
enableTexture(stage);
enableTextureCoords(stage);
}
void LLCubeMap::enableTexture(S32 stage)
{
mTextureStage = stage;
if (gGLManager.mHasCubeMap && stage >= 0 && LLCubeMap::sUseCubeMaps)
{
gGL.getTexUnit(stage)->enable(LLTexUnit::TT_CUBE_MAP);
}
}
void LLCubeMap::enableTextureCoords(S32 stage)
{
mTextureCoordStage = stage;
if (!LLGLSLShader::sNoFixedFunction && gGLManager.mHasCubeMap && stage >= 0 && LLCubeMap::sUseCubeMaps)
{
if (stage > 0)
{
gGL.getTexUnit(stage)->activate();
}
glEnable(GL_TEXTURE_GEN_R);
glEnable(GL_TEXTURE_GEN_S);
glEnable(GL_TEXTURE_GEN_T);
glTexGeni(GL_S, GL_TEXTURE_GEN_MODE, GL_REFLECTION_MAP);
glTexGeni(GL_T, GL_TEXTURE_GEN_MODE, GL_REFLECTION_MAP);
glTexGeni(GL_R, GL_TEXTURE_GEN_MODE, GL_REFLECTION_MAP);
if (stage > 0)
{
gGL.getTexUnit(0)->activate();
}
}
}
void LLCubeMap::disable(void)
{
disableTexture();
disableTextureCoords();
}
void LLCubeMap::disableTexture(void)
{
if (gGLManager.mHasCubeMap && mTextureStage >= 0 && LLCubeMap::sUseCubeMaps)
{
gGL.getTexUnit(mTextureStage)->disable();
if (mTextureStage == 0)
{
gGL.getTexUnit(0)->enable(LLTexUnit::TT_TEXTURE);
}
}
}
void LLCubeMap::disableTextureCoords(void)
{
if (!LLGLSLShader::sNoFixedFunction && gGLManager.mHasCubeMap && mTextureCoordStage >= 0 && LLCubeMap::sUseCubeMaps)
{
if (mTextureCoordStage > 0)
{
gGL.getTexUnit(mTextureCoordStage)->activate();
}
glDisable(GL_TEXTURE_GEN_S);
glDisable(GL_TEXTURE_GEN_T);
glDisable(GL_TEXTURE_GEN_R);
if (mTextureCoordStage > 0)
{
gGL.getTexUnit(0)->activate();
}
}
}
void LLCubeMap::setMatrix(S32 stage)
{
mMatrixStage = stage;
if (mMatrixStage < 0) return;
//if (stage > 0)
{
gGL.getTexUnit(stage)->activate();
}
LLVector3 x(gGLModelView+0);
LLVector3 y(gGLModelView+4);
LLVector3 z(gGLModelView+8);
LLMatrix3 mat3;
mat3.setRows(x,y,z);
LLMatrix4 trans(mat3);
trans.transpose();
gGL.matrixMode(LLRender::MM_TEXTURE);
gGL.pushMatrix();
gGL.loadMatrix((F32 *)trans.mMatrix);
gGL.matrixMode(LLRender::MM_MODELVIEW);
/*if (stage > 0)
{
gGL.getTexUnit(0)->activate();
}*/
}
void LLCubeMap::restoreMatrix()
{
if (mMatrixStage < 0) return;
//if (mMatrixStage > 0)
{
gGL.getTexUnit(mMatrixStage)->activate();
}
gGL.matrixMode(LLRender::MM_TEXTURE);
gGL.popMatrix();
gGL.matrixMode(LLRender::MM_MODELVIEW);
/*if (mMatrixStage > 0)
{
gGL.getTexUnit(0)->activate();
}*/
}
void LLCubeMap::setReflection (void)
{
gGL.getTexUnit(mTextureStage)->bindManual(LLTexUnit::TT_CUBE_MAP, getGLName());
mImages[0]->setFilteringOption(LLTexUnit::TFO_ANISOTROPIC);
mImages[0]->setAddressMode(LLTexUnit::TAM_CLAMP);
}
LLVector3 LLCubeMap::map(U8 side, U16 v_val, U16 h_val) const
{
LLVector3 dir;
const U8 curr_coef = side >> 1; // 0/1 = X axis, 2/3 = Y, 4/5 = Z
const S8 side_dir = (((side & 1) << 1) - 1); // even = -1, odd = 1
const U8 i_coef = (curr_coef + 1) % 3;
const U8 j_coef = (i_coef + 1) % 3;
dir.mV[curr_coef] = side_dir;
switch (side)
{
case 0: // negative X
dir.mV[i_coef] = -F32((v_val<<1) + 1) / RESOLUTION + 1;
dir.mV[j_coef] = F32((h_val<<1) + 1) / RESOLUTION - 1;
break;
case 1: // positive X
dir.mV[i_coef] = -F32((v_val<<1) + 1) / RESOLUTION + 1;
dir.mV[j_coef] = -F32((h_val<<1) + 1) / RESOLUTION + 1;
break;
case 2: // negative Y
dir.mV[i_coef] = -F32((v_val<<1) + 1) / RESOLUTION + 1;
dir.mV[j_coef] = F32((h_val<<1) + 1) / RESOLUTION - 1;
break;
case 3: // positive Y
dir.mV[i_coef] = F32((v_val<<1) + 1) / RESOLUTION - 1;
dir.mV[j_coef] = F32((h_val<<1) + 1) / RESOLUTION - 1;
break;
case 4: // negative Z
dir.mV[i_coef] = -F32((h_val<<1) + 1) / RESOLUTION + 1;
dir.mV[j_coef] = -F32((v_val<<1) + 1) / RESOLUTION + 1;
break;
case 5: // positive Z
dir.mV[i_coef] = -F32((h_val<<1) + 1) / RESOLUTION + 1;
dir.mV[j_coef] = F32((v_val<<1) + 1) / RESOLUTION - 1;
break;
default:
dir.mV[i_coef] = F32((v_val<<1) + 1) / RESOLUTION - 1;
dir.mV[j_coef] = F32((h_val<<1) + 1) / RESOLUTION - 1;
}
dir.normVec();
return dir;
}
BOOL LLCubeMap::project(F32& v_val, F32& h_val, BOOL& outside,
U8 side, const LLVector3& dir) const
{
const U8 curr_coef = side >> 1; // 0/1 = X axis, 2/3 = Y, 4/5 = Z
const S8 side_dir = (((side & 1) << 1) - 1); // even = -1, odd = 1
const U8 i_coef = (curr_coef + 1) % 3;
const U8 j_coef = (i_coef + 1) % 3;
outside = TRUE;
if (side_dir * dir.mV[curr_coef] < 0)
return FALSE;
LLVector3 ray;
F32 norm_val = fabs(dir.mV[curr_coef]);
if (norm_val < epsilon)
norm_val = 1e-5f;
ray.mV[curr_coef] = side_dir;
ray.mV[i_coef] = dir.mV[i_coef] / norm_val;
ray.mV[j_coef] = dir.mV[j_coef] / norm_val;
const F32 i_val = (ray.mV[i_coef] + 1) * 0.5f * RESOLUTION;
const F32 j_val = (ray.mV[j_coef] + 1) * 0.5f * RESOLUTION;
switch (side)
{
case 0: // negative X
v_val = RESOLUTION - i_val;
h_val = j_val;
break;
case 1: // positive X
v_val = RESOLUTION - i_val;
h_val = RESOLUTION - j_val;
break;
case 2: // negative Y
v_val = RESOLUTION - i_val;
h_val = j_val;
break;
case 3: // positive Y
v_val = i_val;
h_val = j_val;
break;
case 4: // negative Z
v_val = RESOLUTION - j_val;
h_val = RESOLUTION - i_val;
break;
case 5: // positive Z
v_val = RESOLUTION - j_val;
h_val = i_val;
break;
default:
v_val = i_val;
h_val = j_val;
}
outside = ((v_val < 0) || (v_val > RESOLUTION) ||
(h_val < 0) || (h_val > RESOLUTION));
return TRUE;
}
BOOL LLCubeMap::project(F32& v_min, F32& v_max, F32& h_min, F32& h_max,
U8 side, LLVector3 dir[4]) const
{
v_min = h_min = RESOLUTION;
v_max = h_max = 0;
BOOL fully_outside = TRUE;
for (U8 vtx = 0; vtx < 4; ++vtx)
{
F32 v_val, h_val;
BOOL outside;
BOOL consider = project(v_val, h_val, outside, side, dir[vtx]);
if (!outside)
fully_outside = FALSE;
if (consider)
{
if (v_val < v_min) v_min = v_val;
if (v_val > v_max) v_max = v_val;
if (h_val < h_min) h_min = h_val;
if (h_val > h_max) h_max = h_val;
}
}
v_min = llmax(0.0f, v_min);
v_max = llmin(RESOLUTION - epsilon, v_max);
h_min = llmax(0.0f, h_min);
h_max = llmin(RESOLUTION - epsilon, h_max);
return !fully_outside;
}
void LLCubeMap::paintIn(LLVector3 dir[4], const LLColor4U& col)
{
F32 v_min, v_max, h_min, h_max;
LLVector3 center = dir[0] + dir[1] + dir[2] + dir[3];
center.normVec();
for (U8 side = 0; side < 6; ++side)
{
if (!project(v_min, v_max, h_min, h_max, side, dir))
continue;
U8 *td = mRawImages[side]->getData();
U16 v_minu = (U16) v_min;
U16 v_maxu = (U16) (ceil(v_max) + 0.5);
U16 h_minu = (U16) h_min;
U16 h_maxu = (U16) (ceil(h_max) + 0.5);
for (U16 v = v_minu; v < v_maxu; ++v)
for (U16 h = h_minu; h < h_maxu; ++h)
//for (U16 v = 0; v < RESOLUTION; ++v)
// for (U16 h = 0; h < RESOLUTION; ++h)
{
const LLVector3 ray = map(side, v, h);
if (ray * center > 0.999)
{
const U32 offset = (RESOLUTION * v + h) * 4;
for (U8 cc = 0; cc < 3; ++cc)
td[offset + cc] = U8((td[offset + cc] + col.mV[cc]) * 0.5);
}
}
mImages[side]->setSubImage(mRawImages[side], 0, 0, 64, 64);
}
}
void LLCubeMap::destroyGL()
{
for (S32 i = 0; i < 6; i++)
{
mImages[i] = NULL;
}
}
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