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|
/**
* @file lltexlayer.cpp
* @brief A texture layer. Used for avatars.
*
* $LicenseInfo:firstyear=2002&license=viewerlgpl$
* 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 "lltexlayer.h"
#include "llavatarappearance.h"
#include "llcrc.h"
#include "imageids.h"
#include "llimagej2c.h"
#include "llimagetga.h"
#include "lldir.h"
#include "llvfile.h"
#include "llvfs.h"
#include "lltexlayerparams.h"
#include "lltexturemanagerbridge.h"
//#include "llrender2dutils.h"
#include "..\llui\llui.h"
#include "llwearable.h"
#include "llwearabledata.h"
#include "llvertexbuffer.h"
#include "llviewervisualparam.h"
//#include "../tools/imdebug/imdebug.h"
using namespace LLAvatarAppearanceDefines;
// runway consolidate
extern std::string self_av_string();
class LLTexLayerInfo
{
friend class LLTexLayer;
friend class LLTexLayerTemplate;
friend class LLTexLayerInterface;
public:
LLTexLayerInfo();
~LLTexLayerInfo();
BOOL parseXml(LLXmlTreeNode* node);
BOOL createVisualParams(LLAvatarAppearance *appearance);
BOOL isUserSettable() { return mLocalTexture != -1; }
S32 getLocalTexture() const { return mLocalTexture; }
BOOL getOnlyAlpha() const { return mUseLocalTextureAlphaOnly; }
std::string getName() const { return mName; }
private:
std::string mName;
BOOL mWriteAllChannels; // Don't use masking. Just write RGBA into buffer,
LLTexLayerInterface::ERenderPass mRenderPass;
std::string mGlobalColor;
LLColor4 mFixedColor;
S32 mLocalTexture;
std::string mStaticImageFileName;
BOOL mStaticImageIsMask;
BOOL mUseLocalTextureAlphaOnly; // Ignore RGB channels from the input texture. Use alpha as a mask
BOOL mIsVisibilityMask;
typedef std::vector< std::pair< std::string,BOOL > > morph_name_list_t;
morph_name_list_t mMorphNameList;
param_color_info_list_t mParamColorInfoList;
param_alpha_info_list_t mParamAlphaInfoList;
};
//-----------------------------------------------------------------------------
// LLTexLayerSetBuffer
// The composite image that a LLViewerTexLayerSet writes to. Each LLViewerTexLayerSet has one.
//-----------------------------------------------------------------------------
LLTexLayerSetBuffer::LLTexLayerSetBuffer(LLTexLayerSet* const owner) :
mTexLayerSet(owner)
{
}
LLTexLayerSetBuffer::~LLTexLayerSetBuffer()
{
}
void LLTexLayerSetBuffer::pushProjection() const
{
gGL.matrixMode(LLRender::MM_PROJECTION);
gGL.pushMatrix();
gGL.loadIdentity();
gGL.ortho(0.0f, getCompositeWidth(), 0.0f, getCompositeHeight(), -1.0f, 1.0f);
gGL.matrixMode(LLRender::MM_MODELVIEW);
gGL.pushMatrix();
gGL.loadIdentity();
}
void LLTexLayerSetBuffer::popProjection() const
{
gGL.matrixMode(LLRender::MM_PROJECTION);
gGL.popMatrix();
gGL.matrixMode(LLRender::MM_MODELVIEW);
gGL.popMatrix();
}
// virtual
void LLTexLayerSetBuffer::preRenderTexLayerSet()
{
// Set up an ortho projection
pushProjection();
}
// virtual
void LLTexLayerSetBuffer::postRenderTexLayerSet(BOOL success)
{
popProjection();
}
BOOL LLTexLayerSetBuffer::renderTexLayerSet()
{
// Default color mask for tex layer render
gGL.setColorMask(true, true);
BOOL success = TRUE;
bool use_shaders = LLGLSLShader::sNoFixedFunction;
if (use_shaders)
{
gAlphaMaskProgram.bind();
gAlphaMaskProgram.setMinimumAlpha(0.004f);
}
else
{
gGL.setAlphaRejectSettings(LLRender::CF_GREATER, 0.00f);
}
LLVertexBuffer::unbind();
// Composite the color data
LLGLSUIDefault gls_ui;
success &= mTexLayerSet->render( getCompositeOriginX(), getCompositeOriginY(),
getCompositeWidth(), getCompositeHeight() );
gGL.flush();
midRenderTexLayerSet(success);
if (use_shaders)
{
gAlphaMaskProgram.unbind();
}
LLVertexBuffer::unbind();
// reset GL state
gGL.setColorMask(true, true);
gGL.setSceneBlendType(LLRender::BT_ALPHA);
return success;
}
//-----------------------------------------------------------------------------
// LLTexLayerSetInfo
// An ordered set of texture layers that get composited into a single texture.
//-----------------------------------------------------------------------------
LLTexLayerSetInfo::LLTexLayerSetInfo() :
mBodyRegion( "" ),
mWidth( 512 ),
mHeight( 512 ),
mClearAlpha( TRUE )
{
}
LLTexLayerSetInfo::~LLTexLayerSetInfo( )
{
std::for_each(mLayerInfoList.begin(), mLayerInfoList.end(), DeletePointer());
}
BOOL LLTexLayerSetInfo::parseXml(LLXmlTreeNode* node)
{
llassert( node->hasName( "layer_set" ) );
if( !node->hasName( "layer_set" ) )
{
return FALSE;
}
// body_region
static LLStdStringHandle body_region_string = LLXmlTree::addAttributeString("body_region");
if( !node->getFastAttributeString( body_region_string, mBodyRegion ) )
{
llwarns << "<layer_set> is missing body_region attribute" << llendl;
return FALSE;
}
// width, height
static LLStdStringHandle width_string = LLXmlTree::addAttributeString("width");
if( !node->getFastAttributeS32( width_string, mWidth ) )
{
return FALSE;
}
static LLStdStringHandle height_string = LLXmlTree::addAttributeString("height");
if( !node->getFastAttributeS32( height_string, mHeight ) )
{
return FALSE;
}
// Optional alpha component to apply after all compositing is complete.
static LLStdStringHandle alpha_tga_file_string = LLXmlTree::addAttributeString("alpha_tga_file");
node->getFastAttributeString( alpha_tga_file_string, mStaticAlphaFileName );
static LLStdStringHandle clear_alpha_string = LLXmlTree::addAttributeString("clear_alpha");
node->getFastAttributeBOOL( clear_alpha_string, mClearAlpha );
// <layer>
for (LLXmlTreeNode* child = node->getChildByName( "layer" );
child;
child = node->getNextNamedChild())
{
LLTexLayerInfo* info = new LLTexLayerInfo();
if( !info->parseXml( child ))
{
delete info;
return FALSE;
}
mLayerInfoList.push_back( info );
}
return TRUE;
}
// creates visual params without generating layersets or layers
void LLTexLayerSetInfo::createVisualParams(LLAvatarAppearance *appearance)
{
//layer_info_list_t mLayerInfoList;
for (layer_info_list_t::iterator layer_iter = mLayerInfoList.begin();
layer_iter != mLayerInfoList.end();
layer_iter++)
{
LLTexLayerInfo *layer_info = *layer_iter;
layer_info->createVisualParams(appearance);
}
}
//-----------------------------------------------------------------------------
// LLTexLayerSet
// An ordered set of texture layers that get composited into a single texture.
//-----------------------------------------------------------------------------
BOOL LLTexLayerSet::sHasCaches = FALSE;
LLTexLayerSet::LLTexLayerSet(LLAvatarAppearance* const appearance) :
mAvatarAppearance( appearance ),
mIsVisible( TRUE ),
mBakedTexIndex(LLAvatarAppearanceDefines::BAKED_HEAD),
mInfo( NULL )
{
}
// virtual
LLTexLayerSet::~LLTexLayerSet()
{
deleteCaches();
std::for_each(mLayerList.begin(), mLayerList.end(), DeletePointer());
std::for_each(mMaskLayerList.begin(), mMaskLayerList.end(), DeletePointer());
}
//-----------------------------------------------------------------------------
// setInfo
//-----------------------------------------------------------------------------
BOOL LLTexLayerSet::setInfo(const LLTexLayerSetInfo *info)
{
llassert(mInfo == NULL);
mInfo = info;
//mID = info->mID; // No ID
mLayerList.reserve(info->mLayerInfoList.size());
for (LLTexLayerSetInfo::layer_info_list_t::const_iterator iter = info->mLayerInfoList.begin();
iter != info->mLayerInfoList.end();
iter++)
{
LLTexLayerInterface *layer = NULL;
if ( (*iter)->isUserSettable() )
{
layer = new LLTexLayerTemplate( this, getAvatarAppearance() );
}
else
{
layer = new LLTexLayer(this);
}
// this is the first time this layer (of either type) is being created - make sure you add the parameters to the avatar appearance
if (!layer->setInfo(*iter, NULL))
{
mInfo = NULL;
return FALSE;
}
if (!layer->isVisibilityMask())
{
mLayerList.push_back( layer );
}
else
{
mMaskLayerList.push_back(layer);
}
}
requestUpdate();
stop_glerror();
return TRUE;
}
#if 0 // obsolete
//-----------------------------------------------------------------------------
// parseData
//-----------------------------------------------------------------------------
BOOL LLTexLayerSet::parseData(LLXmlTreeNode* node)
{
LLTexLayerSetInfo *info = new LLTexLayerSetInfo;
if (!info->parseXml(node))
{
delete info;
return FALSE;
}
if (!setInfo(info))
{
delete info;
return FALSE;
}
return TRUE;
}
#endif
void LLTexLayerSet::deleteCaches()
{
for( layer_list_t::iterator iter = mLayerList.begin(); iter != mLayerList.end(); iter++ )
{
LLTexLayerInterface* layer = *iter;
layer->deleteCaches();
}
for (layer_list_t::iterator iter = mMaskLayerList.begin(); iter != mMaskLayerList.end(); iter++)
{
LLTexLayerInterface* layer = *iter;
layer->deleteCaches();
}
}
BOOL LLTexLayerSet::render( S32 x, S32 y, S32 width, S32 height )
{
BOOL success = TRUE;
mIsVisible = TRUE;
if (mMaskLayerList.size() > 0)
{
for (layer_list_t::iterator iter = mMaskLayerList.begin(); iter != mMaskLayerList.end(); iter++)
{
LLTexLayerInterface* layer = *iter;
if (layer->isInvisibleAlphaMask())
{
mIsVisible = FALSE;
}
}
}
bool use_shaders = LLGLSLShader::sNoFixedFunction;
LLGLSUIDefault gls_ui;
LLGLDepthTest gls_depth(GL_FALSE, GL_FALSE);
gGL.setColorMask(true, true);
// clear buffer area to ensure we don't pick up UI elements
{
gGL.flush();
LLGLDisable no_alpha(GL_ALPHA_TEST);
if (use_shaders)
{
gAlphaMaskProgram.setMinimumAlpha(0.0f);
}
gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE);
gGL.color4f( 0.f, 0.f, 0.f, 1.f );
gl_rect_2d_simple( width, height );
gGL.flush();
if (use_shaders)
{
gAlphaMaskProgram.setMinimumAlpha(0.004f);
}
}
if (mIsVisible)
{
// composite color layers
for( layer_list_t::iterator iter = mLayerList.begin(); iter != mLayerList.end(); iter++ )
{
LLTexLayerInterface* layer = *iter;
if (layer->getRenderPass() == LLTexLayer::RP_COLOR)
{
gGL.flush();
success &= layer->render(x, y, width, height);
gGL.flush();
}
}
renderAlphaMaskTextures(x, y, width, height, false);
stop_glerror();
}
else
{
gGL.flush();
gGL.setSceneBlendType(LLRender::BT_REPLACE);
LLGLDisable no_alpha(GL_ALPHA_TEST);
if (use_shaders)
{
gAlphaMaskProgram.setMinimumAlpha(0.f);
}
gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE);
gGL.color4f( 0.f, 0.f, 0.f, 0.f );
gl_rect_2d_simple( width, height );
gGL.setSceneBlendType(LLRender::BT_ALPHA);
gGL.flush();
if (use_shaders)
{
gAlphaMaskProgram.setMinimumAlpha(0.004f);
}
}
return success;
}
BOOL LLTexLayerSet::isBodyRegion(const std::string& region) const
{
return mInfo->mBodyRegion == region;
}
const std::string LLTexLayerSet::getBodyRegionName() const
{
return mInfo->mBodyRegion;
}
// virtual
void LLTexLayerSet::asLLSD(LLSD& sd) const
{
sd["visible"] = LLSD::Boolean(isVisible());
LLSD layer_list_sd;
layer_list_t::const_iterator layer_iter = mLayerList.begin();
layer_list_t::const_iterator layer_end = mLayerList.end();
for(; layer_iter != layer_end; ++layer_iter);
{
LLSD layer_sd;
//LLTexLayerInterface* layer = (*layer_iter);
//if (layer)
//{
// layer->asLLSD(layer_sd);
//}
layer_list_sd.append(layer_sd);
}
LLSD mask_list_sd;
LLSD info_sd;
sd["layers"] = layer_list_sd;
sd["masks"] = mask_list_sd;
sd["info"] = info_sd;
}
void LLTexLayerSet::destroyComposite()
{
if( mComposite )
{
mComposite = NULL;
}
}
LLTexLayerSetBuffer* LLTexLayerSet::getComposite()
{
if (!mComposite)
{
createComposite();
}
return mComposite;
}
const LLTexLayerSetBuffer* LLTexLayerSet::getComposite() const
{
return mComposite;
}
static LLFastTimer::DeclareTimer FTM_GATHER_MORPH_MASK_ALPHA("gatherMorphMaskAlpha");
void LLTexLayerSet::gatherMorphMaskAlpha(U8 *data, S32 origin_x, S32 origin_y, S32 width, S32 height)
{
LLFastTimer t(FTM_GATHER_MORPH_MASK_ALPHA);
memset(data, 255, width * height);
for( layer_list_t::iterator iter = mLayerList.begin(); iter != mLayerList.end(); iter++ )
{
LLTexLayerInterface* layer = *iter;
layer->gatherAlphaMasks(data, origin_x, origin_y, width, height);
}
// Set alpha back to that of our alpha masks.
renderAlphaMaskTextures(origin_x, origin_y, width, height, true);
}
static LLFastTimer::DeclareTimer FTM_RENDER_ALPHA_MASK_TEXTURES("renderAlphaMaskTextures");
void LLTexLayerSet::renderAlphaMaskTextures(S32 x, S32 y, S32 width, S32 height, bool forceClear)
{
LLFastTimer t(FTM_RENDER_ALPHA_MASK_TEXTURES);
const LLTexLayerSetInfo *info = getInfo();
bool use_shaders = LLGLSLShader::sNoFixedFunction;
gGL.setColorMask(false, true);
gGL.setSceneBlendType(LLRender::BT_REPLACE);
// (Optionally) replace alpha with a single component image from a tga file.
if (!info->mStaticAlphaFileName.empty())
{
gGL.flush();
{
LLGLTexture* tex = LLTexLayerStaticImageList::getInstance()->getTexture(info->mStaticAlphaFileName, TRUE);
if( tex )
{
LLGLSUIDefault gls_ui;
gGL.getTexUnit(0)->bind(tex);
gGL.getTexUnit(0)->setTextureBlendType( LLTexUnit::TB_REPLACE );
gl_rect_2d_simple_tex( width, height );
}
}
gGL.flush();
}
else if (forceClear || info->mClearAlpha || (mMaskLayerList.size() > 0))
{
// Set the alpha channel to one (clean up after previous blending)
gGL.flush();
LLGLDisable no_alpha(GL_ALPHA_TEST);
if (use_shaders)
{
gAlphaMaskProgram.setMinimumAlpha(0.f);
}
gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE);
gGL.color4f( 0.f, 0.f, 0.f, 1.f );
gl_rect_2d_simple( width, height );
gGL.flush();
if (use_shaders)
{
gAlphaMaskProgram.setMinimumAlpha(0.004f);
}
}
// (Optional) Mask out part of the baked texture with alpha masks
// will still have an effect even if mClearAlpha is set or the alpha component was replaced
if (mMaskLayerList.size() > 0)
{
gGL.setSceneBlendType(LLRender::BT_MULT_ALPHA);
gGL.getTexUnit(0)->setTextureBlendType( LLTexUnit::TB_REPLACE );
for (layer_list_t::iterator iter = mMaskLayerList.begin(); iter != mMaskLayerList.end(); iter++)
{
LLTexLayerInterface* layer = *iter;
gGL.flush();
layer->blendAlphaTexture(x,y,width, height);
gGL.flush();
}
}
gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE);
gGL.getTexUnit(0)->setTextureBlendType(LLTexUnit::TB_MULT);
gGL.setColorMask(true, true);
gGL.setSceneBlendType(LLRender::BT_ALPHA);
}
void LLTexLayerSet::applyMorphMask(U8* tex_data, S32 width, S32 height, S32 num_components)
{
mAvatarAppearance->applyMorphMask(tex_data, width, height, num_components, mBakedTexIndex);
}
BOOL LLTexLayerSet::isMorphValid() const
{
for(layer_list_t::const_iterator iter = mLayerList.begin(); iter != mLayerList.end(); iter++ )
{
const LLTexLayerInterface* layer = *iter;
if (layer && !layer->isMorphValid())
{
return FALSE;
}
}
return TRUE;
}
void LLTexLayerSet::invalidateMorphMasks()
{
for( layer_list_t::iterator iter = mLayerList.begin(); iter != mLayerList.end(); iter++ )
{
LLTexLayerInterface* layer = *iter;
if (layer)
{
layer->invalidateMorphMasks();
}
}
}
//-----------------------------------------------------------------------------
// LLTexLayerInfo
//-----------------------------------------------------------------------------
LLTexLayerInfo::LLTexLayerInfo() :
mWriteAllChannels( FALSE ),
mRenderPass(LLTexLayer::RP_COLOR),
mFixedColor( 0.f, 0.f, 0.f, 0.f ),
mLocalTexture( -1 ),
mStaticImageIsMask( FALSE ),
mUseLocalTextureAlphaOnly(FALSE),
mIsVisibilityMask(FALSE)
{
}
LLTexLayerInfo::~LLTexLayerInfo( )
{
std::for_each(mParamColorInfoList.begin(), mParamColorInfoList.end(), DeletePointer());
std::for_each(mParamAlphaInfoList.begin(), mParamAlphaInfoList.end(), DeletePointer());
}
BOOL LLTexLayerInfo::parseXml(LLXmlTreeNode* node)
{
llassert( node->hasName( "layer" ) );
// name attribute
static LLStdStringHandle name_string = LLXmlTree::addAttributeString("name");
if( !node->getFastAttributeString( name_string, mName ) )
{
return FALSE;
}
static LLStdStringHandle write_all_channels_string = LLXmlTree::addAttributeString("write_all_channels");
node->getFastAttributeBOOL( write_all_channels_string, mWriteAllChannels );
std::string render_pass_name;
static LLStdStringHandle render_pass_string = LLXmlTree::addAttributeString("render_pass");
if( node->getFastAttributeString( render_pass_string, render_pass_name ) )
{
if( render_pass_name == "bump" )
{
mRenderPass = LLTexLayer::RP_BUMP;
}
}
// Note: layers can have either a "global_color" attrib, a "fixed_color" attrib, or a <param_color> child.
// global color attribute (optional)
static LLStdStringHandle global_color_string = LLXmlTree::addAttributeString("global_color");
node->getFastAttributeString( global_color_string, mGlobalColor );
// Visibility mask (optional)
BOOL is_visibility;
static LLStdStringHandle visibility_mask_string = LLXmlTree::addAttributeString("visibility_mask");
if (node->getFastAttributeBOOL(visibility_mask_string, is_visibility))
{
mIsVisibilityMask = is_visibility;
}
// color attribute (optional)
LLColor4U color4u;
static LLStdStringHandle fixed_color_string = LLXmlTree::addAttributeString("fixed_color");
if( node->getFastAttributeColor4U( fixed_color_string, color4u ) )
{
mFixedColor.setVec( color4u );
}
// <texture> optional sub-element
for (LLXmlTreeNode* texture_node = node->getChildByName( "texture" );
texture_node;
texture_node = node->getNextNamedChild())
{
std::string local_texture_name;
static LLStdStringHandle tga_file_string = LLXmlTree::addAttributeString("tga_file");
static LLStdStringHandle local_texture_string = LLXmlTree::addAttributeString("local_texture");
static LLStdStringHandle file_is_mask_string = LLXmlTree::addAttributeString("file_is_mask");
static LLStdStringHandle local_texture_alpha_only_string = LLXmlTree::addAttributeString("local_texture_alpha_only");
if( texture_node->getFastAttributeString( tga_file_string, mStaticImageFileName ) )
{
texture_node->getFastAttributeBOOL( file_is_mask_string, mStaticImageIsMask );
}
else if (texture_node->getFastAttributeString(local_texture_string, local_texture_name))
{
texture_node->getFastAttributeBOOL( local_texture_alpha_only_string, mUseLocalTextureAlphaOnly );
/* if ("upper_shirt" == local_texture_name)
mLocalTexture = TEX_UPPER_SHIRT; */
mLocalTexture = TEX_NUM_INDICES;
for (LLAvatarAppearanceDictionary::Textures::const_iterator iter = LLAvatarAppearanceDictionary::getInstance()->getTextures().begin();
iter != LLAvatarAppearanceDictionary::getInstance()->getTextures().end();
iter++)
{
const LLAvatarAppearanceDictionary::TextureEntry *texture_dict = iter->second;
if (local_texture_name == texture_dict->mName)
{
mLocalTexture = iter->first;
break;
}
}
if (mLocalTexture == TEX_NUM_INDICES)
{
llwarns << "<texture> element has invalid local_texture attribute: " << mName << " " << local_texture_name << llendl;
return FALSE;
}
}
else
{
llwarns << "<texture> element is missing a required attribute. " << mName << llendl;
return FALSE;
}
}
for (LLXmlTreeNode* maskNode = node->getChildByName( "morph_mask" );
maskNode;
maskNode = node->getNextNamedChild())
{
std::string morph_name;
static LLStdStringHandle morph_name_string = LLXmlTree::addAttributeString("morph_name");
if (maskNode->getFastAttributeString(morph_name_string, morph_name))
{
BOOL invert = FALSE;
static LLStdStringHandle invert_string = LLXmlTree::addAttributeString("invert");
maskNode->getFastAttributeBOOL(invert_string, invert);
mMorphNameList.push_back(std::pair<std::string,BOOL>(morph_name,invert));
}
}
// <param> optional sub-element (color or alpha params)
for (LLXmlTreeNode* child = node->getChildByName( "param" );
child;
child = node->getNextNamedChild())
{
if( child->getChildByName( "param_color" ) )
{
// <param><param_color/></param>
LLTexLayerParamColorInfo* info = new LLTexLayerParamColorInfo();
if (!info->parseXml(child))
{
delete info;
return FALSE;
}
mParamColorInfoList.push_back(info);
}
else if( child->getChildByName( "param_alpha" ) )
{
// <param><param_alpha/></param>
LLTexLayerParamAlphaInfo* info = new LLTexLayerParamAlphaInfo( );
if (!info->parseXml(child))
{
delete info;
return FALSE;
}
mParamAlphaInfoList.push_back(info);
}
}
return TRUE;
}
BOOL LLTexLayerInfo::createVisualParams(LLAvatarAppearance *appearance)
{
BOOL success = TRUE;
for (param_color_info_list_t::iterator color_info_iter = mParamColorInfoList.begin();
color_info_iter != mParamColorInfoList.end();
color_info_iter++)
{
LLTexLayerParamColorInfo * color_info = *color_info_iter;
LLTexLayerParamColor* param_color = new LLTexLayerParamColor(appearance);
if (!param_color->setInfo(color_info, TRUE))
{
llwarns << "NULL TexLayer Color Param could not be added to visual param list. Deleting." << llendl;
delete param_color;
success = FALSE;
}
}
for (param_alpha_info_list_t::iterator alpha_info_iter = mParamAlphaInfoList.begin();
alpha_info_iter != mParamAlphaInfoList.end();
alpha_info_iter++)
{
LLTexLayerParamAlphaInfo * alpha_info = *alpha_info_iter;
LLTexLayerParamAlpha* param_alpha = new LLTexLayerParamAlpha(appearance);
if (!param_alpha->setInfo(alpha_info, TRUE))
{
llwarns << "NULL TexLayer Alpha Param could not be added to visual param list. Deleting." << llendl;
delete param_alpha;
success = FALSE;
}
}
return success;
}
LLTexLayerInterface::LLTexLayerInterface(LLTexLayerSet* const layer_set):
mTexLayerSet( layer_set ),
mMorphMasksValid( FALSE ),
mInfo(NULL),
mHasMorph(FALSE)
{
}
LLTexLayerInterface::LLTexLayerInterface(const LLTexLayerInterface &layer, LLWearable *wearable):
mTexLayerSet( layer.mTexLayerSet ),
mInfo(NULL)
{
// don't add visual params for cloned layers
setInfo(layer.getInfo(), wearable);
mHasMorph = layer.mHasMorph;
}
BOOL LLTexLayerInterface::setInfo(const LLTexLayerInfo *info, LLWearable* wearable ) // This sets mInfo and calls initialization functions
{
// setInfo should only be called once. Code is not robust enough to handle redefinition of a texlayer.
// Not a critical warning, but could be useful for debugging later issues. -Nyx
if (mInfo != NULL)
{
llwarns << "mInfo != NULL" << llendl;
}
mInfo = info;
//mID = info->mID; // No ID
mParamColorList.reserve(mInfo->mParamColorInfoList.size());
for (param_color_info_list_t::const_iterator iter = mInfo->mParamColorInfoList.begin();
iter != mInfo->mParamColorInfoList.end();
iter++)
{
LLTexLayerParamColor* param_color;
if (!wearable)
{
param_color = new LLTexLayerParamColor(this);
if (!param_color->setInfo(*iter, TRUE))
{
mInfo = NULL;
return FALSE;
}
}
else
{
param_color = (LLTexLayerParamColor*)wearable->getVisualParam((*iter)->getID());
if (!param_color)
{
mInfo = NULL;
return FALSE;
}
}
mParamColorList.push_back( param_color );
}
mParamAlphaList.reserve(mInfo->mParamAlphaInfoList.size());
for (param_alpha_info_list_t::const_iterator iter = mInfo->mParamAlphaInfoList.begin();
iter != mInfo->mParamAlphaInfoList.end();
iter++)
{
LLTexLayerParamAlpha* param_alpha;
if (!wearable)
{
param_alpha = new LLTexLayerParamAlpha( this );
if (!param_alpha->setInfo(*iter, TRUE))
{
mInfo = NULL;
return FALSE;
}
}
else
{
param_alpha = (LLTexLayerParamAlpha*) wearable->getVisualParam((*iter)->getID());
if (!param_alpha)
{
mInfo = NULL;
return FALSE;
}
}
mParamAlphaList.push_back( param_alpha );
}
return TRUE;
}
/*virtual*/ void LLTexLayerInterface::requestUpdate()
{
mTexLayerSet->requestUpdate();
}
const std::string& LLTexLayerInterface::getName() const
{
return mInfo->mName;
}
ETextureIndex LLTexLayerInterface::getLocalTextureIndex() const
{
return (ETextureIndex) mInfo->mLocalTexture;
}
LLWearableType::EType LLTexLayerInterface::getWearableType() const
{
ETextureIndex te = getLocalTextureIndex();
if (TEX_INVALID == te)
{
LLWearableType::EType type = LLWearableType::WT_INVALID;
param_color_list_t::const_iterator color_iter = mParamColorList.begin();
param_alpha_list_t::const_iterator alpha_iter = mParamAlphaList.begin();
for (; color_iter != mParamColorList.end(); color_iter++)
{
LLTexLayerParamColor* param = *color_iter;
if (param)
{
LLWearableType::EType new_type = (LLWearableType::EType)param->getWearableType();
if (new_type != LLWearableType::WT_INVALID && new_type != type)
{
if (type != LLWearableType::WT_INVALID)
{
return LLWearableType::WT_INVALID;
}
type = new_type;
}
}
}
for (; alpha_iter != mParamAlphaList.end(); alpha_iter++)
{
LLTexLayerParamAlpha* param = *alpha_iter;
if (param)
{
LLWearableType::EType new_type = (LLWearableType::EType)param->getWearableType();
if (new_type != LLWearableType::WT_INVALID && new_type != type)
{
if (type != LLWearableType::WT_INVALID)
{
return LLWearableType::WT_INVALID;
}
type = new_type;
}
}
}
return type;
}
return LLAvatarAppearanceDictionary::getTEWearableType(te);
}
LLTexLayerInterface::ERenderPass LLTexLayerInterface::getRenderPass() const
{
return mInfo->mRenderPass;
}
const std::string& LLTexLayerInterface::getGlobalColor() const
{
return mInfo->mGlobalColor;
}
BOOL LLTexLayerInterface::isVisibilityMask() const
{
return mInfo->mIsVisibilityMask;
}
void LLTexLayerInterface::invalidateMorphMasks()
{
mMorphMasksValid = FALSE;
}
LLViewerVisualParam* LLTexLayerInterface::getVisualParamPtr(S32 index) const
{
LLViewerVisualParam *result = NULL;
for (param_color_list_t::const_iterator color_iter = mParamColorList.begin(); color_iter != mParamColorList.end() && !result; ++color_iter)
{
if ((*color_iter)->getID() == index)
{
result = *color_iter;
}
}
for (param_alpha_list_t::const_iterator alpha_iter = mParamAlphaList.begin(); alpha_iter != mParamAlphaList.end() && !result; ++alpha_iter)
{
if ((*alpha_iter)->getID() == index)
{
result = *alpha_iter;
}
}
return result;
}
//-----------------------------------------------------------------------------
// LLTexLayer
// A single texture layer, consisting of:
// * color, consisting of either
// * one or more color parameters (weighted colors)
// * a reference to a global color
// * a fixed color with non-zero alpha
// * opaque white (the default)
// * (optional) a texture defined by either
// * a GUID
// * a texture entry index (TE)
// * (optional) one or more alpha parameters (weighted alpha textures)
//-----------------------------------------------------------------------------
LLTexLayer::LLTexLayer(LLTexLayerSet* const layer_set) :
LLTexLayerInterface( layer_set ),
mLocalTextureObject(NULL)
{
}
LLTexLayer::LLTexLayer(const LLTexLayer &layer, LLWearable *wearable) :
LLTexLayerInterface( layer, wearable ),
mLocalTextureObject(NULL)
{
}
LLTexLayer::LLTexLayer(const LLTexLayerTemplate &layer_template, LLLocalTextureObject *lto, LLWearable *wearable) :
LLTexLayerInterface( layer_template, wearable ),
mLocalTextureObject(lto)
{
}
LLTexLayer::~LLTexLayer()
{
// mParamAlphaList and mParamColorList are LLViewerVisualParam's and get
// deleted with ~LLCharacter()
//std::for_each(mParamAlphaList.begin(), mParamAlphaList.end(), DeletePointer());
//std::for_each(mParamColorList.begin(), mParamColorList.end(), DeletePointer());
for( alpha_cache_t::iterator iter = mAlphaCache.begin();
iter != mAlphaCache.end(); iter++ )
{
U8* alpha_data = iter->second;
delete [] alpha_data;
}
}
void LLTexLayer::asLLSD(LLSD& sd) const
{
// *TODO: Finish
sd["id"] = getUUID();
}
//-----------------------------------------------------------------------------
// setInfo
//-----------------------------------------------------------------------------
BOOL LLTexLayer::setInfo(const LLTexLayerInfo* info, LLWearable* wearable )
{
return LLTexLayerInterface::setInfo(info, wearable);
}
//static
void LLTexLayer::calculateTexLayerColor(const param_color_list_t ¶m_list, LLColor4 &net_color)
{
for (param_color_list_t::const_iterator iter = param_list.begin();
iter != param_list.end(); iter++)
{
const LLTexLayerParamColor* param = *iter;
LLColor4 param_net = param->getNetColor();
const LLTexLayerParamColorInfo *info = (LLTexLayerParamColorInfo *)param->getInfo();
switch(info->getOperation())
{
case LLTexLayerParamColor::OP_ADD:
net_color += param_net;
break;
case LLTexLayerParamColor::OP_MULTIPLY:
net_color = net_color * param_net;
break;
case LLTexLayerParamColor::OP_BLEND:
net_color = lerp(net_color, param_net, param->getWeight());
break;
default:
llassert(0);
break;
}
}
net_color.clamp();
}
/*virtual*/ void LLTexLayer::deleteCaches()
{
// Only need to delete caches for alpha params. Color params don't hold extra memory
for (param_alpha_list_t::iterator iter = mParamAlphaList.begin();
iter != mParamAlphaList.end(); iter++ )
{
LLTexLayerParamAlpha* param = *iter;
param->deleteCaches();
}
}
BOOL LLTexLayer::render(S32 x, S32 y, S32 width, S32 height)
{
LLGLEnable color_mat(GL_COLOR_MATERIAL);
// *TODO: Is this correct?
//gPipeline.disableLights();
stop_glerror();
glDisable(GL_LIGHTING);
stop_glerror();
bool use_shaders = LLGLSLShader::sNoFixedFunction;
LLColor4 net_color;
BOOL color_specified = findNetColor(&net_color);
if (mTexLayerSet->getAvatarAppearance()->mIsDummy)
{
color_specified = true;
net_color = LLAvatarAppearance::getDummyColor();
}
BOOL success = TRUE;
// If you can't see the layer, don't render it.
if( is_approx_zero( net_color.mV[VW] ) )
{
return success;
}
BOOL alpha_mask_specified = FALSE;
param_alpha_list_t::const_iterator iter = mParamAlphaList.begin();
if( iter != mParamAlphaList.end() )
{
// If we have alpha masks, but we're skipping all of them, skip the whole layer.
// However, we can't do this optimization if we have morph masks that need updating.
/* if (!mHasMorph)
{
BOOL skip_layer = TRUE;
while( iter != mParamAlphaList.end() )
{
const LLTexLayerParamAlpha* param = *iter;
if( !param->getSkip() )
{
skip_layer = FALSE;
break;
}
iter++;
}
if( skip_layer )
{
return success;
}
}//*/
const bool force_render = true;
renderMorphMasks(x, y, width, height, net_color, force_render);
alpha_mask_specified = TRUE;
gGL.flush();
gGL.blendFunc(LLRender::BF_DEST_ALPHA, LLRender::BF_ONE_MINUS_DEST_ALPHA);
}
gGL.color4fv( net_color.mV);
if( getInfo()->mWriteAllChannels )
{
gGL.flush();
gGL.setSceneBlendType(LLRender::BT_REPLACE);
}
if( (getInfo()->mLocalTexture != -1) && !getInfo()->mUseLocalTextureAlphaOnly )
{
{
LLGLTexture* tex = NULL;
if (mLocalTextureObject && mLocalTextureObject->getImage())
{
tex = mLocalTextureObject->getImage();
if (mLocalTextureObject->getID() == IMG_DEFAULT_AVATAR)
{
tex = NULL;
}
}
else
{
llinfos << "lto not defined or image not defined: " << getInfo()->getLocalTexture() << " lto: " << mLocalTextureObject << llendl;
}
// if( mTexLayerSet->getAvatarAppearance()->getLocalTextureGL((ETextureIndex)getInfo()->mLocalTexture, &image_gl ) )
{
if( tex )
{
bool no_alpha_test = getInfo()->mWriteAllChannels;
LLGLDisable alpha_test(no_alpha_test ? GL_ALPHA_TEST : 0);
if (no_alpha_test)
{
if (use_shaders)
{
gAlphaMaskProgram.setMinimumAlpha(0.f);
}
}
LLTexUnit::eTextureAddressMode old_mode = tex->getAddressMode();
gGL.getTexUnit(0)->bind(tex, TRUE);
gGL.getTexUnit(0)->setTextureAddressMode(LLTexUnit::TAM_CLAMP);
gl_rect_2d_simple_tex( width, height );
gGL.getTexUnit(0)->setTextureAddressMode(old_mode);
gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE);
if (no_alpha_test)
{
if (use_shaders)
{
gAlphaMaskProgram.setMinimumAlpha(0.004f);
}
}
}
}
// else
// {
// success = FALSE;
// }
}
}
if( !getInfo()->mStaticImageFileName.empty() )
{
{
LLGLTexture* tex = LLTexLayerStaticImageList::getInstance()->getTexture(getInfo()->mStaticImageFileName, getInfo()->mStaticImageIsMask);
if( tex )
{
gGL.getTexUnit(0)->bind(tex, TRUE);
gl_rect_2d_simple_tex( width, height );
gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE);
}
else
{
success = FALSE;
}
}
}
if(((-1 == getInfo()->mLocalTexture) ||
getInfo()->mUseLocalTextureAlphaOnly) &&
getInfo()->mStaticImageFileName.empty() &&
color_specified )
{
LLGLDisable no_alpha(GL_ALPHA_TEST);
if (use_shaders)
{
gAlphaMaskProgram.setMinimumAlpha(0.000f);
}
gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE);
gGL.color4fv( net_color.mV );
gl_rect_2d_simple( width, height );
if (use_shaders)
{
gAlphaMaskProgram.setMinimumAlpha(0.004f);
}
}
if( alpha_mask_specified || getInfo()->mWriteAllChannels )
{
// Restore standard blend func value
gGL.flush();
gGL.setSceneBlendType(LLRender::BT_ALPHA);
stop_glerror();
}
if( !success )
{
llinfos << "LLTexLayer::render() partial: " << getInfo()->mName << llendl;
}
return success;
}
const U8* LLTexLayer::getAlphaData() const
{
LLCRC alpha_mask_crc;
const LLUUID& uuid = getUUID();
alpha_mask_crc.update((U8*)(&uuid.mData), UUID_BYTES);
for (param_alpha_list_t::const_iterator iter = mParamAlphaList.begin(); iter != mParamAlphaList.end(); iter++)
{
const LLTexLayerParamAlpha* param = *iter;
// MULTI-WEARABLE: verify visual parameters used here
F32 param_weight = param->getWeight();
alpha_mask_crc.update((U8*)¶m_weight, sizeof(F32));
}
U32 cache_index = alpha_mask_crc.getCRC();
alpha_cache_t::const_iterator iter2 = mAlphaCache.find(cache_index);
return (iter2 == mAlphaCache.end()) ? 0 : iter2->second;
}
BOOL LLTexLayer::findNetColor(LLColor4* net_color) const
{
// Color is either:
// * one or more color parameters (weighted colors) (which may make use of a global color or fixed color)
// * a reference to a global color
// * a fixed color with non-zero alpha
// * opaque white (the default)
if( !mParamColorList.empty() )
{
if( !getGlobalColor().empty() )
{
net_color->setVec( mTexLayerSet->getAvatarAppearance()->getGlobalColor( getInfo()->mGlobalColor ) );
}
else if (getInfo()->mFixedColor.mV[VW])
{
net_color->setVec( getInfo()->mFixedColor );
}
else
{
net_color->setVec( 0.f, 0.f, 0.f, 0.f );
}
calculateTexLayerColor(mParamColorList, *net_color);
return TRUE;
}
if( !getGlobalColor().empty() )
{
net_color->setVec( mTexLayerSet->getAvatarAppearance()->getGlobalColor( getGlobalColor() ) );
return TRUE;
}
if( getInfo()->mFixedColor.mV[VW] )
{
net_color->setVec( getInfo()->mFixedColor );
return TRUE;
}
net_color->setToWhite();
return FALSE; // No need to draw a separate colored polygon
}
BOOL LLTexLayer::blendAlphaTexture(S32 x, S32 y, S32 width, S32 height)
{
BOOL success = TRUE;
gGL.flush();
bool use_shaders = LLGLSLShader::sNoFixedFunction;
if( !getInfo()->mStaticImageFileName.empty() )
{
LLGLTexture* tex = LLTexLayerStaticImageList::getInstance()->getTexture( getInfo()->mStaticImageFileName, getInfo()->mStaticImageIsMask );
if( tex )
{
LLGLSNoAlphaTest gls_no_alpha_test;
if (use_shaders)
{
gAlphaMaskProgram.setMinimumAlpha(0.f);
}
gGL.getTexUnit(0)->bind(tex, TRUE);
gl_rect_2d_simple_tex( width, height );
gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE);
if (use_shaders)
{
gAlphaMaskProgram.setMinimumAlpha(0.004f);
}
}
else
{
success = FALSE;
}
}
else
{
if (getInfo()->mLocalTexture >=0 && getInfo()->mLocalTexture < TEX_NUM_INDICES)
{
LLGLTexture* tex = mLocalTextureObject->getImage();
if (tex)
{
LLGLSNoAlphaTest gls_no_alpha_test;
if (use_shaders)
{
gAlphaMaskProgram.setMinimumAlpha(0.f);
}
gGL.getTexUnit(0)->bind(tex);
gl_rect_2d_simple_tex( width, height );
gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE);
success = TRUE;
if (use_shaders)
{
gAlphaMaskProgram.setMinimumAlpha(0.004f);
}
}
}
}
return success;
}
/*virtual*/ void LLTexLayer::gatherAlphaMasks(U8 *data, S32 originX, S32 originY, S32 width, S32 height)
{
addAlphaMask(data, originX, originY, width, height);
}
static LLFastTimer::DeclareTimer FTM_RENDER_MORPH_MASKS("renderMorphMasks");
void LLTexLayer::renderMorphMasks(S32 x, S32 y, S32 width, S32 height, const LLColor4 &layer_color, bool force_render)
{
if (!force_render && !hasMorph())
{
lldebugs << "skipping renderMorphMasks for " << getUUID() << llendl;
return;
}
LLFastTimer t(FTM_RENDER_MORPH_MASKS);
BOOL success = TRUE;
llassert( !mParamAlphaList.empty() );
bool use_shaders = LLGLSLShader::sNoFixedFunction;
if (use_shaders)
{
gAlphaMaskProgram.setMinimumAlpha(0.f);
}
gGL.setColorMask(false, true);
LLTexLayerParamAlpha* first_param = *mParamAlphaList.begin();
// Note: if the first param is a mulitply, multiply against the current buffer's alpha
if( !first_param || !first_param->getMultiplyBlend() )
{
LLGLDisable no_alpha(GL_ALPHA_TEST);
gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE);
// Clear the alpha
gGL.flush();
gGL.setSceneBlendType(LLRender::BT_REPLACE);
gGL.color4f( 0.f, 0.f, 0.f, 0.f );
gl_rect_2d_simple( width, height );
}
// Accumulate alphas
LLGLSNoAlphaTest gls_no_alpha_test;
gGL.color4f( 1.f, 1.f, 1.f, 1.f );
for (param_alpha_list_t::iterator iter = mParamAlphaList.begin(); iter != mParamAlphaList.end(); iter++)
{
LLTexLayerParamAlpha* param = *iter;
success &= param->render( x, y, width, height );
if (!success && !force_render)
{
lldebugs << "Failed to render param " << param->getID() << " ; skipping morph mask." << llendl;
return;
}
}
// Approximates a min() function
gGL.flush();
gGL.setSceneBlendType(LLRender::BT_MULT_ALPHA);
// Accumulate the alpha component of the texture
if( getInfo()->mLocalTexture != -1 )
{
LLGLTexture* tex = mLocalTextureObject->getImage();
if( tex && (tex->getComponents() == 4) )
{
LLGLSNoAlphaTest gls_no_alpha_test;
LLTexUnit::eTextureAddressMode old_mode = tex->getAddressMode();
gGL.getTexUnit(0)->bind(tex, TRUE);
gGL.getTexUnit(0)->setTextureAddressMode(LLTexUnit::TAM_CLAMP);
gl_rect_2d_simple_tex( width, height );
gGL.getTexUnit(0)->setTextureAddressMode(old_mode);
gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE);
}
}
if( !getInfo()->mStaticImageFileName.empty() && getInfo()->mStaticImageIsMask )
{
LLGLTexture* tex = LLTexLayerStaticImageList::getInstance()->getTexture(getInfo()->mStaticImageFileName, getInfo()->mStaticImageIsMask);
if( tex )
{
if( (tex->getComponents() == 4) || (tex->getComponents() == 1) )
{
LLGLSNoAlphaTest gls_no_alpha_test;
gGL.getTexUnit(0)->bind(tex, TRUE);
gl_rect_2d_simple_tex( width, height );
gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE);
}
else
{
llwarns << "Skipping rendering of " << getInfo()->mStaticImageFileName
<< "; expected 1 or 4 components." << llendl;
}
}
}
// Draw a rectangle with the layer color to multiply the alpha by that color's alpha.
// Note: we're still using gGL.blendFunc( GL_DST_ALPHA, GL_ZERO );
if ( !is_approx_equal(layer_color.mV[VW], 1.f) )
{
LLGLDisable no_alpha(GL_ALPHA_TEST);
gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE);
gGL.color4fv(layer_color.mV);
gl_rect_2d_simple( width, height );
}
if (use_shaders)
{
gAlphaMaskProgram.setMinimumAlpha(0.004f);
}
LLGLSUIDefault gls_ui;
gGL.setColorMask(true, true);
if (hasMorph() && success)
{
LLCRC alpha_mask_crc;
const LLUUID& uuid = getUUID();
alpha_mask_crc.update((U8*)(&uuid.mData), UUID_BYTES);
for (param_alpha_list_t::const_iterator iter = mParamAlphaList.begin(); iter != mParamAlphaList.end(); iter++)
{
const LLTexLayerParamAlpha* param = *iter;
F32 param_weight = param->getWeight();
alpha_mask_crc.update((U8*)¶m_weight, sizeof(F32));
}
U32 cache_index = alpha_mask_crc.getCRC();
U8* alpha_data = get_if_there(mAlphaCache,cache_index,(U8*)NULL);
if (!alpha_data)
{
// clear out a slot if we have filled our cache
S32 max_cache_entries = getTexLayerSet()->getAvatarAppearance()->isSelf() ? 4 : 1;
while ((S32)mAlphaCache.size() >= max_cache_entries)
{
alpha_cache_t::iterator iter2 = mAlphaCache.begin(); // arbitrarily grab the first entry
alpha_data = iter2->second;
delete [] alpha_data;
mAlphaCache.erase(iter2);
}
alpha_data = new U8[width * height];
mAlphaCache[cache_index] = alpha_data;
glReadPixels(x, y, width, height, GL_ALPHA, GL_UNSIGNED_BYTE, alpha_data);
}
getTexLayerSet()->getAvatarAppearance()->dirtyMesh();
mMorphMasksValid = TRUE;
getTexLayerSet()->applyMorphMask(alpha_data, width, height, 1);
}
}
static LLFastTimer::DeclareTimer FTM_ADD_ALPHA_MASK("addAlphaMask");
void LLTexLayer::addAlphaMask(U8 *data, S32 originX, S32 originY, S32 width, S32 height)
{
LLFastTimer t(FTM_ADD_ALPHA_MASK);
S32 size = width * height;
const U8* alphaData = getAlphaData();
if (!alphaData && hasAlphaParams())
{
LLColor4 net_color;
findNetColor( &net_color );
// TODO: eliminate need for layer morph mask valid flag
invalidateMorphMasks();
const bool force_render = false;
renderMorphMasks(originX, originY, width, height, net_color, force_render);
alphaData = getAlphaData();
}
if (alphaData)
{
for( S32 i = 0; i < size; i++ )
{
U8 curAlpha = data[i];
U16 resultAlpha = curAlpha;
resultAlpha *= ( ((U16)alphaData[i]) + 1);
resultAlpha = resultAlpha >> 8;
data[i] = (U8)resultAlpha;
}
}
}
/*virtual*/ BOOL LLTexLayer::isInvisibleAlphaMask() const
{
if (mLocalTextureObject)
{
if (mLocalTextureObject->getID() == IMG_INVISIBLE)
{
return TRUE;
}
}
return FALSE;
}
LLUUID LLTexLayer::getUUID() const
{
LLUUID uuid;
if( getInfo()->mLocalTexture != -1 )
{
LLGLTexture* tex = mLocalTextureObject->getImage();
if (tex)
{
uuid = mLocalTextureObject->getID();
}
}
if( !getInfo()->mStaticImageFileName.empty() )
{
LLGLTexture* tex = LLTexLayerStaticImageList::getInstance()->getTexture(getInfo()->mStaticImageFileName, getInfo()->mStaticImageIsMask);
if( tex )
{
uuid = tex->getID();
}
}
return uuid;
}
//-----------------------------------------------------------------------------
// LLTexLayerTemplate
// A single texture layer, consisting of:
// * color, consisting of either
// * one or more color parameters (weighted colors)
// * a reference to a global color
// * a fixed color with non-zero alpha
// * opaque white (the default)
// * (optional) a texture defined by either
// * a GUID
// * a texture entry index (TE)
// * (optional) one or more alpha parameters (weighted alpha textures)
//-----------------------------------------------------------------------------
LLTexLayerTemplate::LLTexLayerTemplate(LLTexLayerSet* layer_set, LLAvatarAppearance* const appearance) :
LLTexLayerInterface(layer_set),
mAvatarAppearance( appearance )
{
}
LLTexLayerTemplate::LLTexLayerTemplate(const LLTexLayerTemplate &layer) :
LLTexLayerInterface(layer),
mAvatarAppearance(layer.getAvatarAppearance())
{
}
LLTexLayerTemplate::~LLTexLayerTemplate()
{
}
//-----------------------------------------------------------------------------
// setInfo
//-----------------------------------------------------------------------------
/*virtual*/ BOOL LLTexLayerTemplate::setInfo(const LLTexLayerInfo* info, LLWearable* wearable )
{
return LLTexLayerInterface::setInfo(info, wearable);
}
U32 LLTexLayerTemplate::updateWearableCache() const
{
mWearableCache.clear();
LLWearableType::EType wearable_type = getWearableType();
if (LLWearableType::WT_INVALID == wearable_type)
{
//this isn't a cloneable layer
return 0;
}
U32 num_wearables = getAvatarAppearance()->getWearableData()->getWearableCount(wearable_type);
U32 added = 0;
for (U32 i = 0; i < num_wearables; i++)
{
LLWearable* wearable = getAvatarAppearance()->getWearableData()->getWearable(wearable_type, i);
if (!wearable)
{
continue;
}
mWearableCache.push_back(wearable);
added++;
}
return added;
}
LLTexLayer* LLTexLayerTemplate::getLayer(U32 i) const
{
if (mWearableCache.size() <= i)
{
return NULL;
}
LLWearable *wearable = mWearableCache[i];
LLLocalTextureObject *lto = NULL;
LLTexLayer *layer = NULL;
if (wearable)
{
lto = wearable->getLocalTextureObject(mInfo->mLocalTexture);
}
if (lto)
{
layer = lto->getTexLayer(getName());
}
return layer;
}
/*virtual*/ BOOL LLTexLayerTemplate::render(S32 x, S32 y, S32 width, S32 height)
{
if(!mInfo)
{
return FALSE ;
}
BOOL success = TRUE;
updateWearableCache();
for (wearable_cache_t::const_iterator iter = mWearableCache.begin(); iter!= mWearableCache.end(); iter++)
{
LLWearable* wearable = NULL;
LLLocalTextureObject *lto = NULL;
LLTexLayer *layer = NULL;
wearable = *iter;
if (wearable)
{
lto = wearable->getLocalTextureObject(mInfo->mLocalTexture);
}
if (lto)
{
layer = lto->getTexLayer(getName());
}
if (layer)
{
wearable->writeToAvatar(mAvatarAppearance);
layer->setLTO(lto);
success &= layer->render(x,y,width,height);
}
}
return success;
}
/*virtual*/ BOOL LLTexLayerTemplate::blendAlphaTexture( S32 x, S32 y, S32 width, S32 height) // Multiplies a single alpha texture against the frame buffer
{
BOOL success = TRUE;
U32 num_wearables = updateWearableCache();
for (U32 i = 0; i < num_wearables; i++)
{
LLTexLayer *layer = getLayer(i);
if (layer)
{
success &= layer->blendAlphaTexture(x,y,width,height);
}
}
return success;
}
/*virtual*/ void LLTexLayerTemplate::gatherAlphaMasks(U8 *data, S32 originX, S32 originY, S32 width, S32 height)
{
U32 num_wearables = updateWearableCache();
for (U32 i = 0; i < num_wearables; i++)
{
LLTexLayer *layer = getLayer(i);
if (layer)
{
layer->addAlphaMask(data, originX, originY, width, height);
}
}
}
/*virtual*/ void LLTexLayerTemplate::setHasMorph(BOOL newval)
{
mHasMorph = newval;
U32 num_wearables = updateWearableCache();
for (U32 i = 0; i < num_wearables; i++)
{
LLTexLayer *layer = getLayer(i);
if (layer)
{
layer->setHasMorph(newval);
}
}
}
/*virtual*/ void LLTexLayerTemplate::deleteCaches()
{
U32 num_wearables = updateWearableCache();
for (U32 i = 0; i < num_wearables; i++)
{
LLTexLayer *layer = getLayer(i);
if (layer)
{
layer->deleteCaches();
}
}
}
/*virtual*/ BOOL LLTexLayerTemplate::isInvisibleAlphaMask() const
{
U32 num_wearables = updateWearableCache();
for (U32 i = 0; i < num_wearables; i++)
{
LLTexLayer *layer = getLayer(i);
if (layer)
{
if (layer->isInvisibleAlphaMask())
{
return TRUE;
}
}
}
return FALSE;
}
//-----------------------------------------------------------------------------
// finds a specific layer based on a passed in name
//-----------------------------------------------------------------------------
LLTexLayerInterface* LLTexLayerSet::findLayerByName(const std::string& name)
{
for (layer_list_t::iterator iter = mLayerList.begin(); iter != mLayerList.end(); iter++ )
{
LLTexLayerInterface* layer = *iter;
if (layer->getName() == name)
{
return layer;
}
}
for (layer_list_t::iterator iter = mMaskLayerList.begin(); iter != mMaskLayerList.end(); iter++ )
{
LLTexLayerInterface* layer = *iter;
if (layer->getName() == name)
{
return layer;
}
}
return NULL;
}
void LLTexLayerSet::cloneTemplates(LLLocalTextureObject *lto, LLAvatarAppearanceDefines::ETextureIndex tex_index, LLWearable *wearable)
{
// initialize all texlayers with this texture type for this LTO
for( LLTexLayerSet::layer_list_t::iterator iter = mLayerList.begin(); iter != mLayerList.end(); iter++ )
{
LLTexLayerTemplate* layer = (LLTexLayerTemplate*)*iter;
if (layer->getInfo()->getLocalTexture() == (S32) tex_index)
{
lto->addTexLayer(layer, wearable);
}
}
for( LLTexLayerSet::layer_list_t::iterator iter = mMaskLayerList.begin(); iter != mMaskLayerList.end(); iter++ )
{
LLTexLayerTemplate* layer = (LLTexLayerTemplate*)*iter;
if (layer->getInfo()->getLocalTexture() == (S32) tex_index)
{
lto->addTexLayer(layer, wearable);
}
}
}
//-----------------------------------------------------------------------------
// LLTexLayerStaticImageList
//-----------------------------------------------------------------------------
LLTexLayerStaticImageList::LLTexLayerStaticImageList() :
mGLBytes(0),
mTGABytes(0),
mImageNames(16384)
{
}
LLTexLayerStaticImageList::~LLTexLayerStaticImageList()
{
deleteCachedImages();
}
void LLTexLayerStaticImageList::dumpByteCount() const
{
llinfos << "Avatar Static Textures " <<
"KB GL:" << (mGLBytes / 1024) <<
"KB TGA:" << (mTGABytes / 1024) << "KB" << llendl;
}
void LLTexLayerStaticImageList::deleteCachedImages()
{
if( mGLBytes || mTGABytes )
{
llinfos << "Clearing Static Textures " <<
"KB GL:" << (mGLBytes / 1024) <<
"KB TGA:" << (mTGABytes / 1024) << "KB" << llendl;
//mStaticImageLists uses LLPointers, clear() will cause deletion
mStaticImageListTGA.clear();
mStaticImageList.clear();
mGLBytes = 0;
mTGABytes = 0;
}
}
// Note: in general, for a given image image we'll call either getImageTga() or getTexture().
// We call getImageTga() if the image is used as an alpha gradient.
// Otherwise, we call getTexture()
// Returns an LLImageTGA that contains the encoded data from a tga file named file_name.
// Caches the result to speed identical subsequent requests.
static LLFastTimer::DeclareTimer FTM_LOAD_STATIC_TGA("getImageTGA");
LLImageTGA* LLTexLayerStaticImageList::getImageTGA(const std::string& file_name)
{
LLFastTimer t(FTM_LOAD_STATIC_TGA);
const char *namekey = mImageNames.addString(file_name);
image_tga_map_t::const_iterator iter = mStaticImageListTGA.find(namekey);
if( iter != mStaticImageListTGA.end() )
{
return iter->second;
}
else
{
std::string path;
path = gDirUtilp->getExpandedFilename(LL_PATH_CHARACTER,file_name);
LLPointer<LLImageTGA> image_tga = new LLImageTGA( path );
if( image_tga->getDataSize() > 0 )
{
mStaticImageListTGA[ namekey ] = image_tga;
mTGABytes += image_tga->getDataSize();
return image_tga;
}
else
{
return NULL;
}
}
}
// Returns a GL Image (without a backing ImageRaw) that contains the decoded data from a tga file named file_name.
// Caches the result to speed identical subsequent requests.
static LLFastTimer::DeclareTimer FTM_LOAD_STATIC_TEXTURE("getTexture");
LLGLTexture* LLTexLayerStaticImageList::getTexture(const std::string& file_name, BOOL is_mask)
{
LLFastTimer t(FTM_LOAD_STATIC_TEXTURE);
LLPointer<LLGLTexture> tex;
const char *namekey = mImageNames.addString(file_name);
texture_map_t::const_iterator iter = mStaticImageList.find(namekey);
if( iter != mStaticImageList.end() )
{
tex = iter->second;
}
else
{
llassert(gTextureManagerBridgep);
tex = gTextureManagerBridgep->getLocalTexture( FALSE );
LLPointer<LLImageRaw> image_raw = new LLImageRaw;
if( loadImageRaw( file_name, image_raw ) )
{
if( (image_raw->getComponents() == 1) && is_mask )
{
// Convert grayscale alpha masks from single channel into RGBA.
// Fill RGB with black to allow fixed function gl calls
// to match shader implementation.
LLPointer<LLImageRaw> alpha_image_raw = image_raw;
image_raw = new LLImageRaw(image_raw->getWidth(),
image_raw->getHeight(),
4);
image_raw->copyUnscaledAlphaMask(alpha_image_raw, LLColor4U::black);
}
tex->createGLTexture(0, image_raw, 0, TRUE, LLGLTexture::LOCAL);
gGL.getTexUnit(0)->bind(tex);
tex->setAddressMode(LLTexUnit::TAM_CLAMP);
mStaticImageList [ namekey ] = tex;
mGLBytes += (S32)tex->getWidth() * tex->getHeight() * tex->getComponents();
}
else
{
tex = NULL;
}
}
return tex;
}
// Reads a .tga file, decodes it, and puts the decoded data in image_raw.
// Returns TRUE if successful.
static LLFastTimer::DeclareTimer FTM_LOAD_IMAGE_RAW("loadImageRaw");
BOOL LLTexLayerStaticImageList::loadImageRaw(const std::string& file_name, LLImageRaw* image_raw)
{
LLFastTimer t(FTM_LOAD_IMAGE_RAW);
BOOL success = FALSE;
std::string path;
path = gDirUtilp->getExpandedFilename(LL_PATH_CHARACTER,file_name);
LLPointer<LLImageTGA> image_tga = new LLImageTGA( path );
if( image_tga->getDataSize() > 0 )
{
// Copy data from tga to raw.
success = image_tga->decode( image_raw );
}
return success;
}
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