/** * @file llpanelface.cpp * @brief Panel in the tools floater for editing face textures, colors, etc. * * $LicenseInfo:firstyear=2001&license=viewerlgpl$ * 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 "llviewerprecompiledheaders.h" // file include #include "llpanelface.h" // library includes #include "llcalc.h" #include "llerror.h" #include "llrect.h" #include "llstring.h" #include "llfontgl.h" // project includes #include "llagent.h" #include "llagentdata.h" #include "llbutton.h" #include "llcheckboxctrl.h" #include "llcolorswatch.h" #include "llcombobox.h" #include "lldrawpoolbump.h" #include "llface.h" #include "llgltfmateriallist.h" #include "llinventoryfunctions.h" #include "llinventorymodel.h" // gInventory #include "llinventorymodelbackgroundfetch.h" #include "llfloatermediasettings.h" #include "llfloaterreg.h" #include "lllineeditor.h" #include "llmaterialmgr.h" #include "llmaterialeditor.h" #include "llmediactrl.h" #include "llmediaentry.h" #include "llmenubutton.h" #include "llnotificationsutil.h" #include "llpanelcontents.h" #include "llradiogroup.h" #include "llresmgr.h" #include "llselectmgr.h" #include "llspinctrl.h" #include "lltextbox.h" #include "lltexturectrl.h" #include "lltextureentry.h" #include "lltooldraganddrop.h" #include "lltoolface.h" #include "lltoolmgr.h" #include "lltrans.h" #include "llui.h" #include "llviewercontrol.h" #include "llviewermedia.h" #include "llviewerobject.h" #include "llviewerregion.h" #include "llviewerstats.h" #include "llvovolume.h" #include "lluictrlfactory.h" #include "llpluginclassmedia.h" #include "llviewertexturelist.h"// Update sel manager as to which channel we're editing so it can reflect the correct overlay UI #include "llagent.h" #include "llfilesystem.h" #include "llviewerassetupload.h" #include "llviewermenufile.h" #include "llsd.h" #include "llsdutil.h" #include "llsdserialize.h" #include "llinventorymodel.h" using namespace std::literals; LLPanelFace::Selection LLPanelFace::sMaterialOverrideSelection; // // Constant definitions for comboboxes // Must match the commbobox definitions in panel_tools_texture.xml // const S32 MATMEDIA_MATERIAL = 0; // Material const S32 MATMEDIA_PBR = 1; // PBR const S32 MATMEDIA_MEDIA = 2; // Media const S32 MATTYPE_DIFFUSE = 0; // Diffuse material texture const S32 MATTYPE_NORMAL = 1; // Normal map const S32 MATTYPE_SPECULAR = 2; // Specular map const S32 ALPHAMODE_MASK = 2; // Alpha masking mode const S32 BUMPY_TEXTURE = 18; // use supplied normal map const S32 SHINY_TEXTURE = 4; // use supplied specular map const S32 PBRTYPE_RENDER_MATERIAL_ID = 0; // Render Material ID const S32 PBRTYPE_BASE_COLOR = 1; // PBR Base Color const S32 PBRTYPE_NORMAL = 2; // PBR Normal const S32 PBRTYPE_METALLIC_ROUGHNESS = 3; // PBR Metallic const S32 PBRTYPE_EMISSIVE = 4; // PBR Emissive LLGLTFMaterial::TextureInfo texture_info_from_pbrtype(S32 pbr_type) { switch (pbr_type) { case PBRTYPE_BASE_COLOR: return LLGLTFMaterial::GLTF_TEXTURE_INFO_BASE_COLOR; break; case PBRTYPE_NORMAL: return LLGLTFMaterial::GLTF_TEXTURE_INFO_NORMAL; break; case PBRTYPE_METALLIC_ROUGHNESS: return LLGLTFMaterial::GLTF_TEXTURE_INFO_METALLIC_ROUGHNESS; break; case PBRTYPE_EMISSIVE: return LLGLTFMaterial::GLTF_TEXTURE_INFO_EMISSIVE; break; default: return LLGLTFMaterial::GLTF_TEXTURE_INFO_COUNT; break; } } void LLPanelFace::updateSelectedGLTFMaterials(std::function func) { struct LLSelectedTEGLTFMaterialFunctor : public LLSelectedTEFunctor { LLSelectedTEGLTFMaterialFunctor(std::function func) : mFunc(func) {} virtual ~LLSelectedTEGLTFMaterialFunctor() {}; bool apply(LLViewerObject* object, S32 face) override { LLGLTFMaterial new_override; const LLTextureEntry* tep = object->getTE(face); if (tep->getGLTFMaterialOverride()) { new_override = *tep->getGLTFMaterialOverride(); } mFunc(&new_override); LLGLTFMaterialList::queueModify(object, face, &new_override); return true; } std::function mFunc; } select_func(func); LLSelectMgr::getInstance()->getSelection()->applyToTEs(&select_func); } template void readSelectedGLTFMaterial(std::function func, T& value, bool& identical, bool has_tolerance, T tolerance) { struct LLSelectedTEGetGLTFMaterialFunctor : public LLSelectedTEGetFunctor { LLSelectedTEGetGLTFMaterialFunctor(std::function func) : mFunc(func) {} virtual ~LLSelectedTEGetGLTFMaterialFunctor() {}; T get(LLViewerObject* object, S32 face) override { const LLTextureEntry* tep = object->getTE(face); const LLGLTFMaterial* render_material = tep->getGLTFRenderMaterial(); return mFunc(render_material); } std::function mFunc; } select_func(func); identical = LLSelectMgr::getInstance()->getSelection()->getSelectedTEValue(&select_func, value, has_tolerance, tolerance); } BOOST_STATIC_ASSERT(MATTYPE_DIFFUSE == LLRender::DIFFUSE_MAP && MATTYPE_NORMAL == LLRender::NORMAL_MAP && MATTYPE_SPECULAR == LLRender::SPECULAR_MAP); // // "Use texture" label for normal/specular type comboboxes // Filled in at initialization from translated strings // std::string USE_TEXTURE; LLRender::eTexIndex LLPanelFace::getTextureChannelToEdit() { LLRender::eTexIndex channel_to_edit = LLRender::DIFFUSE_MAP; if (mComboMatMedia) { U32 matmedia_selection = mComboMatMedia->getCurrentIndex(); if (matmedia_selection == MATMEDIA_MATERIAL) { LLRadioGroup* radio_mat_type = getChild("radio_material_type"); channel_to_edit = (LLRender::eTexIndex)radio_mat_type->getSelectedIndex(); } if (matmedia_selection == MATMEDIA_PBR) { LLRadioGroup* radio_mat_type = getChild("radio_pbr_type"); channel_to_edit = (LLRender::eTexIndex)radio_mat_type->getSelectedIndex(); } } channel_to_edit = (channel_to_edit == LLRender::NORMAL_MAP) ? (getCurrentNormalMap().isNull() ? LLRender::DIFFUSE_MAP : channel_to_edit) : channel_to_edit; channel_to_edit = (channel_to_edit == LLRender::SPECULAR_MAP) ? (getCurrentSpecularMap().isNull() ? LLRender::DIFFUSE_MAP : channel_to_edit) : channel_to_edit; return channel_to_edit; } LLRender::eTexIndex LLPanelFace::getTextureDropChannel() { if (mComboMatMedia && mComboMatMedia->getCurrentIndex() == MATMEDIA_MATERIAL) { LLRadioGroup* radio_mat_type = getChild("radio_material_type"); return LLRender::eTexIndex(radio_mat_type->getSelectedIndex()); } return LLRender::eTexIndex(MATTYPE_DIFFUSE); } // Things the UI provides... // LLUUID LLPanelFace::getCurrentNormalMap() { return getChild("bumpytexture control")->getImageAssetID(); } LLUUID LLPanelFace::getCurrentSpecularMap() { return getChild("shinytexture control")->getImageAssetID(); } U32 LLPanelFace::getCurrentShininess() { return getChild("combobox shininess")->getCurrentIndex(); } U32 LLPanelFace::getCurrentBumpiness() { return getChild("combobox bumpiness")->getCurrentIndex(); } U8 LLPanelFace::getCurrentDiffuseAlphaMode() { return (U8)getChild("combobox alphamode")->getCurrentIndex(); } U8 LLPanelFace::getCurrentAlphaMaskCutoff() { return (U8)getChild("maskcutoff")->getValue().asInteger(); } U8 LLPanelFace::getCurrentEnvIntensity() { return (U8)getChild("environment")->getValue().asInteger(); } U8 LLPanelFace::getCurrentGlossiness() { return (U8)getChild("glossiness")->getValue().asInteger(); } F32 LLPanelFace::getCurrentBumpyRot() { return getChild("bumpyRot")->getValue().asReal(); } F32 LLPanelFace::getCurrentBumpyScaleU() { return getChild("bumpyScaleU")->getValue().asReal(); } F32 LLPanelFace::getCurrentBumpyScaleV() { return getChild("bumpyScaleV")->getValue().asReal(); } F32 LLPanelFace::getCurrentBumpyOffsetU() { return getChild("bumpyOffsetU")->getValue().asReal(); } F32 LLPanelFace::getCurrentBumpyOffsetV() { return getChild("bumpyOffsetV")->getValue().asReal(); } F32 LLPanelFace::getCurrentShinyRot() { return getChild("shinyRot")->getValue().asReal(); } F32 LLPanelFace::getCurrentShinyScaleU() { return getChild("shinyScaleU")->getValue().asReal(); } F32 LLPanelFace::getCurrentShinyScaleV() { return getChild("shinyScaleV")->getValue().asReal(); } F32 LLPanelFace::getCurrentShinyOffsetU() { return getChild("shinyOffsetU")->getValue().asReal(); } F32 LLPanelFace::getCurrentShinyOffsetV() { return getChild("shinyOffsetV")->getValue().asReal(); } // // Methods // BOOL LLPanelFace::postBuild() { childSetCommitCallback("combobox shininess",&LLPanelFace::onCommitShiny,this); childSetCommitCallback("combobox bumpiness",&LLPanelFace::onCommitBump,this); childSetCommitCallback("combobox alphamode",&LLPanelFace::onCommitAlphaMode,this); childSetCommitCallback("TexScaleU",&LLPanelFace::onCommitTextureScaleX, this); childSetCommitCallback("TexScaleV",&LLPanelFace::onCommitTextureScaleY, this); childSetCommitCallback("TexRot",&LLPanelFace::onCommitTextureRot, this); childSetCommitCallback("rptctrl",&LLPanelFace::onCommitRepeatsPerMeter, this); childSetCommitCallback("checkbox planar align",&LLPanelFace::onCommitPlanarAlign, this); childSetCommitCallback("TexOffsetU",LLPanelFace::onCommitTextureOffsetX, this); childSetCommitCallback("TexOffsetV",LLPanelFace::onCommitTextureOffsetY, this); childSetCommitCallback("bumpyScaleU",&LLPanelFace::onCommitMaterialBumpyScaleX, this); childSetCommitCallback("bumpyScaleV",&LLPanelFace::onCommitMaterialBumpyScaleY, this); childSetCommitCallback("bumpyRot",&LLPanelFace::onCommitMaterialBumpyRot, this); childSetCommitCallback("bumpyOffsetU",&LLPanelFace::onCommitMaterialBumpyOffsetX, this); childSetCommitCallback("bumpyOffsetV",&LLPanelFace::onCommitMaterialBumpyOffsetY, this); childSetCommitCallback("shinyScaleU",&LLPanelFace::onCommitMaterialShinyScaleX, this); childSetCommitCallback("shinyScaleV",&LLPanelFace::onCommitMaterialShinyScaleY, this); childSetCommitCallback("shinyRot",&LLPanelFace::onCommitMaterialShinyRot, this); childSetCommitCallback("shinyOffsetU",&LLPanelFace::onCommitMaterialShinyOffsetX, this); childSetCommitCallback("shinyOffsetV",&LLPanelFace::onCommitMaterialShinyOffsetY, this); childSetCommitCallback("glossiness",&LLPanelFace::onCommitMaterialGloss, this); childSetCommitCallback("environment",&LLPanelFace::onCommitMaterialEnv, this); childSetCommitCallback("maskcutoff",&LLPanelFace::onCommitMaterialMaskCutoff, this); childSetCommitCallback("add_media", &LLPanelFace::onClickBtnAddMedia, this); childSetCommitCallback("delete_media", &LLPanelFace::onClickBtnDeleteMedia, this); getChild("gltfTextureScaleU")->setCommitCallback(boost::bind(&LLPanelFace::onCommitGLTFTextureScaleU, this, _1), nullptr); getChild("gltfTextureScaleV")->setCommitCallback(boost::bind(&LLPanelFace::onCommitGLTFTextureScaleV, this, _1), nullptr); getChild("gltfTextureRotation")->setCommitCallback(boost::bind(&LLPanelFace::onCommitGLTFRotation, this, _1), nullptr); getChild("gltfTextureOffsetU")->setCommitCallback(boost::bind(&LLPanelFace::onCommitGLTFTextureOffsetU, this, _1), nullptr); getChild("gltfTextureOffsetV")->setCommitCallback(boost::bind(&LLPanelFace::onCommitGLTFTextureOffsetV, this, _1), nullptr); LLGLTFMaterialList::addSelectionUpdateCallback(&LLPanelFace::onMaterialOverrideReceived); sMaterialOverrideSelection.connect(); childSetAction("button align",&LLPanelFace::onClickAutoFix,this); childSetAction("button align textures", &LLPanelFace::onAlignTexture, this); childSetAction("pbr_from_inventory", &LLPanelFace::onClickBtnLoadInvPBR, this); childSetAction("edit_selected_pbr", &LLPanelFace::onClickBtnEditPBR, this); childSetAction("save_selected_pbr", &LLPanelFace::onClickBtnSavePBR, this); LLTextureCtrl* mTextureCtrl; LLTextureCtrl* mShinyTextureCtrl; LLTextureCtrl* mBumpyTextureCtrl; LLColorSwatchCtrl* mColorSwatch; LLColorSwatchCtrl* mShinyColorSwatch; LLComboBox* mComboTexGen; LLCheckBoxCtrl *mCheckFullbright; LLTextBox* mLabelColorTransp; LLSpinCtrl* mCtrlColorTransp; // transparency = 1 - alpha LLSpinCtrl* mCtrlGlow; setMouseOpaque(FALSE); LLTextureCtrl* pbr_ctrl = findChild("pbr_control"); if (pbr_ctrl) { pbr_ctrl->setDefaultImageAssetID(LLUUID::null); pbr_ctrl->setBlankImageAssetID(LLGLTFMaterialList::BLANK_MATERIAL_ASSET_ID); pbr_ctrl->setCommitCallback(boost::bind(&LLPanelFace::onCommitPbr, this, _2)); pbr_ctrl->setOnCancelCallback(boost::bind(&LLPanelFace::onCancelPbr, this, _2)); pbr_ctrl->setOnSelectCallback(boost::bind(&LLPanelFace::onSelectPbr, this, _2)); pbr_ctrl->setDragCallback(boost::bind(&LLPanelFace::onDragPbr, this, _2)); pbr_ctrl->setOnTextureSelectedCallback(boost::bind(&LLPanelFace::onPbrSelectionChanged, this, _1)); pbr_ctrl->setOnCloseCallback(boost::bind(&LLPanelFace::onCloseTexturePicker, this, _2)); pbr_ctrl->setFollowsTop(); pbr_ctrl->setFollowsLeft(); pbr_ctrl->setImmediateFilterPermMask(PERM_NONE); pbr_ctrl->setDnDFilterPermMask(PERM_COPY | PERM_TRANSFER); pbr_ctrl->setBakeTextureEnabled(false); pbr_ctrl->setInventoryPickType(LLTextureCtrl::PICK_MATERIAL); } mTextureCtrl = getChild("texture control"); if(mTextureCtrl) { mTextureCtrl->setDefaultImageAssetID(LLUUID( gSavedSettings.getString( "DefaultObjectTexture" ))); mTextureCtrl->setCommitCallback( boost::bind(&LLPanelFace::onCommitTexture, this, _2) ); mTextureCtrl->setOnCancelCallback( boost::bind(&LLPanelFace::onCancelTexture, this, _2) ); mTextureCtrl->setOnSelectCallback( boost::bind(&LLPanelFace::onSelectTexture, this, _2) ); mTextureCtrl->setDragCallback(boost::bind(&LLPanelFace::onDragTexture, this, _2)); mTextureCtrl->setOnTextureSelectedCallback(boost::bind(&LLPanelFace::onTextureSelectionChanged, this, _1)); mTextureCtrl->setOnCloseCallback( boost::bind(&LLPanelFace::onCloseTexturePicker, this, _2) ); mTextureCtrl->setFollowsTop(); mTextureCtrl->setFollowsLeft(); mTextureCtrl->setImmediateFilterPermMask(PERM_NONE); mTextureCtrl->setDnDFilterPermMask(PERM_COPY | PERM_TRANSFER); } mShinyTextureCtrl = getChild("shinytexture control"); if(mShinyTextureCtrl) { mShinyTextureCtrl->setDefaultImageAssetID(LLUUID( gSavedSettings.getString( "DefaultObjectSpecularTexture" ))); mShinyTextureCtrl->setCommitCallback( boost::bind(&LLPanelFace::onCommitSpecularTexture, this, _2) ); mShinyTextureCtrl->setOnCancelCallback( boost::bind(&LLPanelFace::onCancelSpecularTexture, this, _2) ); mShinyTextureCtrl->setOnSelectCallback( boost::bind(&LLPanelFace::onSelectSpecularTexture, this, _2) ); mShinyTextureCtrl->setOnCloseCallback( boost::bind(&LLPanelFace::onCloseTexturePicker, this, _2) ); mShinyTextureCtrl->setDragCallback(boost::bind(&LLPanelFace::onDragTexture, this, _2)); mShinyTextureCtrl->setOnTextureSelectedCallback(boost::bind(&LLPanelFace::onTextureSelectionChanged, this, _1)); mShinyTextureCtrl->setFollowsTop(); mShinyTextureCtrl->setFollowsLeft(); mShinyTextureCtrl->setImmediateFilterPermMask(PERM_NONE); mShinyTextureCtrl->setDnDFilterPermMask(PERM_COPY | PERM_TRANSFER); } mBumpyTextureCtrl = getChild("bumpytexture control"); if(mBumpyTextureCtrl) { mBumpyTextureCtrl->setDefaultImageAssetID(LLUUID( gSavedSettings.getString( "DefaultObjectNormalTexture" ))); mBumpyTextureCtrl->setBlankImageAssetID(LLUUID( gSavedSettings.getString( "DefaultBlankNormalTexture" ))); mBumpyTextureCtrl->setCommitCallback( boost::bind(&LLPanelFace::onCommitNormalTexture, this, _2) ); mBumpyTextureCtrl->setOnCancelCallback( boost::bind(&LLPanelFace::onCancelNormalTexture, this, _2) ); mBumpyTextureCtrl->setOnSelectCallback( boost::bind(&LLPanelFace::onSelectNormalTexture, this, _2) ); mBumpyTextureCtrl->setOnCloseCallback( boost::bind(&LLPanelFace::onCloseTexturePicker, this, _2) ); mBumpyTextureCtrl->setDragCallback(boost::bind(&LLPanelFace::onDragTexture, this, _2)); mBumpyTextureCtrl->setOnTextureSelectedCallback(boost::bind(&LLPanelFace::onTextureSelectionChanged, this, _1)); mBumpyTextureCtrl->setFollowsTop(); mBumpyTextureCtrl->setFollowsLeft(); mBumpyTextureCtrl->setImmediateFilterPermMask(PERM_NONE); mBumpyTextureCtrl->setDnDFilterPermMask(PERM_COPY | PERM_TRANSFER); } mColorSwatch = getChild("colorswatch"); if(mColorSwatch) { mColorSwatch->setCommitCallback(boost::bind(&LLPanelFace::onCommitColor, this, _2)); mColorSwatch->setOnCancelCallback(boost::bind(&LLPanelFace::onCancelColor, this, _2)); mColorSwatch->setOnSelectCallback(boost::bind(&LLPanelFace::onSelectColor, this, _2)); mColorSwatch->setFollowsTop(); mColorSwatch->setFollowsLeft(); mColorSwatch->setCanApplyImmediately(TRUE); } mShinyColorSwatch = getChild("shinycolorswatch"); if(mShinyColorSwatch) { mShinyColorSwatch->setCommitCallback(boost::bind(&LLPanelFace::onCommitShinyColor, this, _2)); mShinyColorSwatch->setOnCancelCallback(boost::bind(&LLPanelFace::onCancelShinyColor, this, _2)); mShinyColorSwatch->setOnSelectCallback(boost::bind(&LLPanelFace::onSelectShinyColor, this, _2)); mShinyColorSwatch->setFollowsTop(); mShinyColorSwatch->setFollowsLeft(); mShinyColorSwatch->setCanApplyImmediately(TRUE); } mLabelColorTransp = getChild("color trans"); if(mLabelColorTransp) { mLabelColorTransp->setFollowsTop(); mLabelColorTransp->setFollowsLeft(); } mCtrlColorTransp = getChild("ColorTrans"); if(mCtrlColorTransp) { mCtrlColorTransp->setCommitCallback(boost::bind(&LLPanelFace::onCommitAlpha, this, _2)); mCtrlColorTransp->setPrecision(0); mCtrlColorTransp->setFollowsTop(); mCtrlColorTransp->setFollowsLeft(); } mCheckFullbright = getChild("checkbox fullbright"); if (mCheckFullbright) { mCheckFullbright->setCommitCallback(LLPanelFace::onCommitFullbright, this); } mComboTexGen = getChild("combobox texgen"); if(mComboTexGen) { mComboTexGen->setCommitCallback(LLPanelFace::onCommitTexGen, this); mComboTexGen->setFollows(FOLLOWS_LEFT | FOLLOWS_TOP); } mComboMatMedia = getChild("combobox matmedia"); if(mComboMatMedia) { mComboMatMedia->setCommitCallback(LLPanelFace::onCommitMaterialsMedia,this); mComboMatMedia->selectNthItem(MATMEDIA_MATERIAL); } LLRadioGroup* radio_mat_type = findChild("radio_material_type"); if(radio_mat_type) { radio_mat_type->setCommitCallback(LLPanelFace::onCommitMaterialType, this); radio_mat_type->selectNthItem(MATTYPE_DIFFUSE); } LLRadioGroup* radio_pbr_type = findChild("radio_pbr_type"); if (radio_pbr_type) { radio_pbr_type->setCommitCallback(LLPanelFace::onCommitPbrType, this); radio_pbr_type->selectNthItem(PBRTYPE_RENDER_MATERIAL_ID); } mCtrlGlow = getChild("glow"); if(mCtrlGlow) { mCtrlGlow->setCommitCallback(LLPanelFace::onCommitGlow, this); } mMenuClipboardColor = getChild("clipboard_color_params_btn"); mMenuClipboardTexture = getChild("clipboard_texture_params_btn"); mTitleMedia = getChild("title_media"); mTitleMediaText = getChild("media_info"); clearCtrls(); return TRUE; } LLPanelFace::LLPanelFace() : LLPanel(), mIsAlpha(false), mComboMatMedia(NULL), mTitleMedia(NULL), mTitleMediaText(NULL), mNeedMediaTitle(true) { USE_TEXTURE = LLTrans::getString("use_texture"); mCommitCallbackRegistrar.add("PanelFace.menuDoToSelected", boost::bind(&LLPanelFace::menuDoToSelected, this, _2)); mEnableCallbackRegistrar.add("PanelFace.menuEnable", boost::bind(&LLPanelFace::menuEnableItem, this, _2)); } LLPanelFace::~LLPanelFace() { unloadMedia(); } void LLPanelFace::draw() { updateCopyTexButton(); // grab media name/title and update the UI widget // Todo: move it, it's preferable not to update // labels inside draw updateMediaTitle(); LLPanel::draw(); if (sMaterialOverrideSelection.update()) { setMaterialOverridesFromSelection(); } } void LLPanelFace::sendTexture() { LLTextureCtrl* mTextureCtrl = getChild("texture control"); if(!mTextureCtrl) return; if( !mTextureCtrl->getTentative() ) { // we grab the item id first, because we want to do a // permissions check in the selection manager. ARGH! LLUUID id = mTextureCtrl->getImageItemID(); if(id.isNull()) { id = mTextureCtrl->getImageAssetID(); } LLSelectMgr::getInstance()->selectionSetImage(id); } } void LLPanelFace::sendBump(U32 bumpiness) { LLTextureCtrl* bumpytexture_ctrl = getChild("bumpytexture control"); if (bumpiness < BUMPY_TEXTURE) { LL_DEBUGS("Materials") << "clearing bumptexture control" << LL_ENDL; bumpytexture_ctrl->clear(); bumpytexture_ctrl->setImageAssetID(LLUUID()); } updateBumpyControls(bumpiness == BUMPY_TEXTURE, true); LLUUID current_normal_map = bumpytexture_ctrl->getImageAssetID(); U8 bump = (U8) bumpiness & TEM_BUMP_MASK; // Clear legacy bump to None when using an actual normal map // if (!current_normal_map.isNull()) bump = 0; // Set the normal map or reset it to null as appropriate // LLSelectedTEMaterial::setNormalID(this, current_normal_map); LLSelectMgr::getInstance()->selectionSetBumpmap( bump, bumpytexture_ctrl->getImageItemID() ); } void LLPanelFace::sendTexGen() { LLComboBox* mComboTexGen = getChild("combobox texgen"); if(!mComboTexGen)return; U8 tex_gen = (U8) mComboTexGen->getCurrentIndex() << TEM_TEX_GEN_SHIFT; LLSelectMgr::getInstance()->selectionSetTexGen( tex_gen ); } void LLPanelFace::sendShiny(U32 shininess) { LLTextureCtrl* texture_ctrl = getChild("shinytexture control"); if (shininess < SHINY_TEXTURE) { texture_ctrl->clear(); texture_ctrl->setImageAssetID(LLUUID()); } LLUUID specmap = getCurrentSpecularMap(); U8 shiny = (U8) shininess & TEM_SHINY_MASK; if (!specmap.isNull()) shiny = 0; LLSelectedTEMaterial::setSpecularID(this, specmap); LLSelectMgr::getInstance()->selectionSetShiny( shiny, texture_ctrl->getImageItemID() ); updateShinyControls(!specmap.isNull(), true); } void LLPanelFace::sendFullbright() { LLCheckBoxCtrl* mCheckFullbright = getChild("checkbox fullbright"); if(!mCheckFullbright)return; U8 fullbright = mCheckFullbright->get() ? TEM_FULLBRIGHT_MASK : 0; LLSelectMgr::getInstance()->selectionSetFullbright( fullbright ); } void LLPanelFace::sendColor() { LLColorSwatchCtrl* mColorSwatch = getChild("colorswatch"); if(!mColorSwatch)return; LLColor4 color = mColorSwatch->get(); LLSelectMgr::getInstance()->selectionSetColorOnly( color ); } void LLPanelFace::sendAlpha() { LLSpinCtrl* mCtrlColorTransp = getChild("ColorTrans"); if(!mCtrlColorTransp)return; F32 alpha = (100.f - mCtrlColorTransp->get()) / 100.f; LLSelectMgr::getInstance()->selectionSetAlphaOnly( alpha ); } void LLPanelFace::sendGlow() { LLSpinCtrl* mCtrlGlow = getChild("glow"); llassert(mCtrlGlow); if (mCtrlGlow) { F32 glow = mCtrlGlow->get(); LLSelectMgr::getInstance()->selectionSetGlow( glow ); } } struct LLPanelFaceSetTEFunctor : public LLSelectedTEFunctor { LLPanelFaceSetTEFunctor(LLPanelFace* panel) : mPanel(panel) {} virtual bool apply(LLViewerObject* object, S32 te) { BOOL valid; F32 value; std::string prefix; // Effectively the same as MATMEDIA_PBR sans using different radio, // separate for the sake of clarity LLRadioGroup * radio_mat_type = mPanel->getChild("radio_material_type"); switch (radio_mat_type->getSelectedIndex()) { case MATTYPE_DIFFUSE: prefix = "Tex"; break; case MATTYPE_NORMAL: prefix = "bumpy"; break; case MATTYPE_SPECULAR: prefix = "shiny"; break; } LLSpinCtrl * ctrlTexScaleS = mPanel->getChild(prefix + "ScaleU"); LLSpinCtrl * ctrlTexScaleT = mPanel->getChild(prefix + "ScaleV"); LLSpinCtrl * ctrlTexOffsetS = mPanel->getChild(prefix + "OffsetU"); LLSpinCtrl * ctrlTexOffsetT = mPanel->getChild(prefix + "OffsetV"); LLSpinCtrl * ctrlTexRotation = mPanel->getChild(prefix + "Rot"); LLComboBox* comboTexGen = mPanel->getChild("combobox texgen"); LLCheckBoxCtrl* cb_planar_align = mPanel->getChild("checkbox planar align"); bool align_planar = (cb_planar_align && cb_planar_align->get()); llassert(comboTexGen); llassert(object); if (ctrlTexScaleS) { valid = !ctrlTexScaleS->getTentative(); // || !checkFlipScaleS->getTentative(); if (valid || align_planar) { value = ctrlTexScaleS->get(); if (comboTexGen && comboTexGen->getCurrentIndex() == 1) { value *= 0.5f; } object->setTEScaleS( te, value ); if (align_planar) { LLPanelFace::LLSelectedTEMaterial::setNormalRepeatX(mPanel, value, te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setSpecularRepeatX(mPanel, value, te, object->getID()); } } } if (ctrlTexScaleT) { valid = !ctrlTexScaleT->getTentative(); // || !checkFlipScaleT->getTentative(); if (valid || align_planar) { value = ctrlTexScaleT->get(); //if( checkFlipScaleT->get() ) //{ // value = -value; //} if (comboTexGen && comboTexGen->getCurrentIndex() == 1) { value *= 0.5f; } object->setTEScaleT( te, value ); if (align_planar) { LLPanelFace::LLSelectedTEMaterial::setNormalRepeatY(mPanel, value, te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setSpecularRepeatY(mPanel, value, te, object->getID()); } } } if (ctrlTexOffsetS) { valid = !ctrlTexOffsetS->getTentative(); if (valid || align_planar) { value = ctrlTexOffsetS->get(); object->setTEOffsetS( te, value ); if (align_planar) { LLPanelFace::LLSelectedTEMaterial::setNormalOffsetX(mPanel, value, te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setSpecularOffsetX(mPanel, value, te, object->getID()); } } } if (ctrlTexOffsetT) { valid = !ctrlTexOffsetT->getTentative(); if (valid || align_planar) { value = ctrlTexOffsetT->get(); object->setTEOffsetT( te, value ); if (align_planar) { LLPanelFace::LLSelectedTEMaterial::setNormalOffsetY(mPanel, value, te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setSpecularOffsetY(mPanel, value, te, object->getID()); } } } if (ctrlTexRotation) { valid = !ctrlTexRotation->getTentative(); if (valid || align_planar) { value = ctrlTexRotation->get() * DEG_TO_RAD; object->setTERotation( te, value ); if (align_planar) { LLPanelFace::LLSelectedTEMaterial::setNormalRotation(mPanel, value, te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setSpecularRotation(mPanel, value, te, object->getID()); } } } return true; } private: LLPanelFace* mPanel; }; // Functor that aligns a face to mCenterFace struct LLPanelFaceSetAlignedTEFunctor : public LLSelectedTEFunctor { LLPanelFaceSetAlignedTEFunctor(LLPanelFace* panel, LLFace* center_face) : mPanel(panel), mCenterFace(center_face) {} virtual bool apply(LLViewerObject* object, S32 te) { LLFace* facep = object->mDrawable->getFace(te); if (!facep) { return true; } if (facep->getViewerObject()->getVolume()->getNumVolumeFaces() <= te) { return true; } bool set_aligned = true; if (facep == mCenterFace) { set_aligned = false; } if (set_aligned) { LLVector2 uv_offset, uv_scale; F32 uv_rot; set_aligned = facep->calcAlignedPlanarTE(mCenterFace, &uv_offset, &uv_scale, &uv_rot); if (set_aligned) { object->setTEOffset(te, uv_offset.mV[VX], uv_offset.mV[VY]); object->setTEScale(te, uv_scale.mV[VX], uv_scale.mV[VY]); object->setTERotation(te, uv_rot); LLPanelFace::LLSelectedTEMaterial::setNormalRotation(mPanel, uv_rot, te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setSpecularRotation(mPanel, uv_rot, te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setNormalOffsetX(mPanel, uv_offset.mV[VX], te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setNormalOffsetY(mPanel, uv_offset.mV[VY], te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setNormalRepeatX(mPanel, uv_scale.mV[VX], te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setNormalRepeatY(mPanel, uv_scale.mV[VY], te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setSpecularOffsetX(mPanel, uv_offset.mV[VX], te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setSpecularOffsetY(mPanel, uv_offset.mV[VY], te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setSpecularRepeatX(mPanel, uv_scale.mV[VX], te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setSpecularRepeatY(mPanel, uv_scale.mV[VY], te, object->getID()); } } if (!set_aligned) { LLPanelFaceSetTEFunctor setfunc(mPanel); setfunc.apply(object, te); } return true; } private: LLPanelFace* mPanel; LLFace* mCenterFace; }; struct LLPanelFaceSetAlignedConcreteTEFunctor : public LLSelectedTEFunctor { LLPanelFaceSetAlignedConcreteTEFunctor(LLPanelFace* panel, LLFace* center_face, LLRender::eTexIndex map) : mPanel(panel), mChefFace(center_face), mMap(map) {} virtual bool apply(LLViewerObject* object, S32 te) { LLFace* facep = object->mDrawable->getFace(te); if (!facep) { return true; } if (facep->getViewerObject()->getVolume()->getNumVolumeFaces() <= te) { return true; } if (mChefFace != facep) { LLVector2 uv_offset, uv_scale; F32 uv_rot; if (facep->calcAlignedPlanarTE(mChefFace, &uv_offset, &uv_scale, &uv_rot, mMap)) { switch (mMap) { case LLRender::DIFFUSE_MAP: object->setTEOffset(te, uv_offset.mV[VX], uv_offset.mV[VY]); object->setTEScale(te, uv_scale.mV[VX], uv_scale.mV[VY]); object->setTERotation(te, uv_rot); break; case LLRender::NORMAL_MAP: LLPanelFace::LLSelectedTEMaterial::setNormalRotation(mPanel, uv_rot, te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setNormalOffsetX(mPanel, uv_offset.mV[VX], te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setNormalOffsetY(mPanel, uv_offset.mV[VY], te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setNormalRepeatX(mPanel, uv_scale.mV[VX], te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setNormalRepeatY(mPanel, uv_scale.mV[VY], te, object->getID()); break; case LLRender::SPECULAR_MAP: LLPanelFace::LLSelectedTEMaterial::setSpecularRotation(mPanel, uv_rot, te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setSpecularOffsetX(mPanel, uv_offset.mV[VX], te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setSpecularOffsetY(mPanel, uv_offset.mV[VY], te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setSpecularRepeatX(mPanel, uv_scale.mV[VX], te, object->getID()); LLPanelFace::LLSelectedTEMaterial::setSpecularRepeatY(mPanel, uv_scale.mV[VY], te, object->getID()); break; default: /*make compiler happy*/ break; } } } return true; } private: LLPanelFace* mPanel; LLFace* mChefFace; LLRender::eTexIndex mMap; }; // Functor that tests if a face is aligned to mCenterFace struct LLPanelFaceGetIsAlignedTEFunctor : public LLSelectedTEFunctor { LLPanelFaceGetIsAlignedTEFunctor(LLFace* center_face) : mCenterFace(center_face) {} virtual bool apply(LLViewerObject* object, S32 te) { LLFace* facep = object->mDrawable->getFace(te); if (!facep) { return false; } if (facep->getViewerObject()->getVolume()->getNumVolumeFaces() <= te) { //volume face does not exist, can't be aligned return false; } if (facep == mCenterFace) { return true; } LLVector2 aligned_st_offset, aligned_st_scale; F32 aligned_st_rot; if ( facep->calcAlignedPlanarTE(mCenterFace, &aligned_st_offset, &aligned_st_scale, &aligned_st_rot) ) { const LLTextureEntry* tep = facep->getTextureEntry(); LLVector2 st_offset, st_scale; tep->getOffset(&st_offset.mV[VX], &st_offset.mV[VY]); tep->getScale(&st_scale.mV[VX], &st_scale.mV[VY]); F32 st_rot = tep->getRotation(); bool eq_offset_x = is_approx_equal_fraction(st_offset.mV[VX], aligned_st_offset.mV[VX], 12); bool eq_offset_y = is_approx_equal_fraction(st_offset.mV[VY], aligned_st_offset.mV[VY], 12); bool eq_scale_x = is_approx_equal_fraction(st_scale.mV[VX], aligned_st_scale.mV[VX], 12); bool eq_scale_y = is_approx_equal_fraction(st_scale.mV[VY], aligned_st_scale.mV[VY], 12); bool eq_rot = is_approx_equal_fraction(st_rot, aligned_st_rot, 6); // needs a fuzzy comparison, because of fp errors if (eq_offset_x && eq_offset_y && eq_scale_x && eq_scale_y && eq_rot) { return true; } } return false; } private: LLFace* mCenterFace; }; struct LLPanelFaceSendFunctor : public LLSelectedObjectFunctor { virtual bool apply(LLViewerObject* object) { object->sendTEUpdate(); return true; } }; void LLPanelFace::sendTextureInfo() { if ((bool)childGetValue("checkbox planar align").asBoolean()) { LLFace* last_face = NULL; bool identical_face =false; LLSelectedTE::getFace(last_face, identical_face); LLPanelFaceSetAlignedTEFunctor setfunc(this, last_face); LLSelectMgr::getInstance()->getSelection()->applyToTEs(&setfunc); } else { LLPanelFaceSetTEFunctor setfunc(this); LLSelectMgr::getInstance()->getSelection()->applyToTEs(&setfunc); } LLPanelFaceSendFunctor sendfunc; LLSelectMgr::getInstance()->getSelection()->applyToObjects(&sendfunc); } void LLPanelFace::alignTestureLayer() { LLFace* last_face = NULL; bool identical_face = false; LLSelectedTE::getFace(last_face, identical_face); LLRadioGroup * radio_mat_type = getChild("radio_material_type"); LLPanelFaceSetAlignedConcreteTEFunctor setfunc(this, last_face, static_cast(radio_mat_type->getSelectedIndex())); LLSelectMgr::getInstance()->getSelection()->applyToTEs(&setfunc); } void LLPanelFace::getState() { updateUI(); } void LLPanelFace::updateUI(bool force_set_values /*false*/) { //set state of UI to match state of texture entry(ies) (calls setEnabled, setValue, etc, but NOT setVisible) LLViewerObject* objectp = LLSelectMgr::getInstance()->getSelection()->getFirstObject(); if( objectp && objectp->getPCode() == LL_PCODE_VOLUME && objectp->permModify()) { BOOL editable = objectp->permModify() && !objectp->isPermanentEnforced(); bool has_pbr_material; updateUIGLTF(objectp, has_pbr_material, force_set_values); const bool has_material = !has_pbr_material; // only turn on auto-adjust button if there is a media renderer and the media is loaded childSetEnabled("button align", editable); if (mComboMatMedia->getCurrentIndex() < MATMEDIA_MATERIAL) { // When selecting an object with a pbr and UI combo is not set, // set to pbr option, otherwise to a texture (material) if (has_pbr_material) { mComboMatMedia->selectNthItem(MATMEDIA_PBR); } else { mComboMatMedia->selectNthItem(MATMEDIA_MATERIAL); } } mComboMatMedia->setEnabled(editable); LLRadioGroup* radio_mat_type = getChild("radio_material_type"); if (radio_mat_type->getSelectedIndex() < MATTYPE_DIFFUSE) { radio_mat_type->selectNthItem(MATTYPE_DIFFUSE); } radio_mat_type->setEnabled(editable); LLRadioGroup* radio_pbr_type = getChild("radio_pbr_type"); if (radio_pbr_type->getSelectedIndex() < PBRTYPE_RENDER_MATERIAL_ID) { radio_pbr_type->selectNthItem(PBRTYPE_RENDER_MATERIAL_ID); } radio_pbr_type->setEnabled(editable); const bool pbr_selected = mComboMatMedia->getCurrentIndex() == MATMEDIA_PBR; const bool texture_info_selected = pbr_selected && radio_pbr_type->getSelectedIndex() != PBRTYPE_RENDER_MATERIAL_ID; getChildView("checkbox_sync_settings")->setEnabled(editable); childSetValue("checkbox_sync_settings", gSavedSettings.getBOOL("SyncMaterialSettings")); updateVisibility(); // *NOTE: The "identical" variable is currently only used to decide if // the texgen control should be tentative - this is not used by GLTF // materials. -Cosmic;2022-11-09 bool identical = true; // true because it is anded below bool identical_diffuse = false; bool identical_norm = false; bool identical_spec = false; LLTextureCtrl* texture_ctrl = getChild("texture control"); LLTextureCtrl* shinytexture_ctrl = getChild("shinytexture control"); LLTextureCtrl* bumpytexture_ctrl = getChild("bumpytexture control"); LLUUID id; LLUUID normmap_id; LLUUID specmap_id; // Color swatch { getChildView("color label")->setEnabled(editable); } LLColorSwatchCtrl* color_swatch = findChild("colorswatch"); LLColor4 color = LLColor4::white; bool identical_color = false; if(color_swatch) { LLSelectedTE::getColor(color, identical_color); LLColor4 prev_color = color_swatch->get(); color_swatch->setOriginal(color); color_swatch->set(color, force_set_values || (prev_color != color) || !editable); color_swatch->setValid(editable && !has_pbr_material); color_swatch->setEnabled( editable && !has_pbr_material); color_swatch->setCanApplyImmediately( editable && !has_pbr_material); } // Color transparency getChildView("color trans")->setEnabled(editable); F32 transparency = (1.f - color.mV[VALPHA]) * 100.f; getChild("ColorTrans")->setValue(editable ? transparency : 0); getChildView("ColorTrans")->setEnabled(editable && has_material); // Specular map LLSelectedTEMaterial::getSpecularID(specmap_id, identical_spec); U8 shiny = 0; bool identical_shiny = false; // Shiny LLSelectedTE::getShiny(shiny, identical_shiny); identical = identical && identical_shiny; shiny = specmap_id.isNull() ? shiny : SHINY_TEXTURE; LLCtrlSelectionInterface* combobox_shininess = childGetSelectionInterface("combobox shininess"); if (combobox_shininess) { combobox_shininess->selectNthItem((S32)shiny); } getChildView("label shininess")->setEnabled(editable); getChildView("combobox shininess")->setEnabled(editable); getChildView("label glossiness")->setEnabled(editable); getChildView("glossiness")->setEnabled(editable); getChildView("label environment")->setEnabled(editable); getChildView("environment")->setEnabled(editable); getChildView("label shinycolor")->setEnabled(editable); getChild("combobox shininess")->setTentative(!identical_spec); getChild("glossiness")->setTentative(!identical_spec); getChild("environment")->setTentative(!identical_spec); getChild("shinycolorswatch")->setTentative(!identical_spec); LLColorSwatchCtrl* mShinyColorSwatch = getChild("shinycolorswatch"); if(mShinyColorSwatch) { mShinyColorSwatch->setValid(editable); mShinyColorSwatch->setEnabled( editable ); mShinyColorSwatch->setCanApplyImmediately( editable ); } U8 bumpy = 0; // Bumpy { bool identical_bumpy = false; LLSelectedTE::getBumpmap(bumpy,identical_bumpy); LLUUID norm_map_id = getCurrentNormalMap(); LLCtrlSelectionInterface* combobox_bumpiness = childGetSelectionInterface("combobox bumpiness"); bumpy = norm_map_id.isNull() ? bumpy : BUMPY_TEXTURE; if (combobox_bumpiness) { combobox_bumpiness->selectNthItem((S32)bumpy); } else { LL_WARNS() << "failed childGetSelectionInterface for 'combobox bumpiness'" << LL_ENDL; } getChildView("combobox bumpiness")->setEnabled(editable); getChild("combobox bumpiness")->setTentative(!identical_bumpy); getChildView("label bumpiness")->setEnabled(editable); } // Texture { LLSelectedTE::getTexId(id,identical_diffuse); // Normal map LLSelectedTEMaterial::getNormalID(normmap_id, identical_norm); mIsAlpha = FALSE; LLGLenum image_format = GL_RGB; bool identical_image_format = false; LLSelectedTE::getImageFormat(image_format, identical_image_format); mIsAlpha = FALSE; switch (image_format) { case GL_RGBA: case GL_ALPHA: { mIsAlpha = TRUE; } break; case GL_RGB: break; default: { LL_WARNS() << "Unexpected tex format in LLPanelFace...resorting to no alpha" << LL_ENDL; } break; } if(LLViewerMedia::getInstance()->textureHasMedia(id)) { getChildView("button align")->setEnabled(editable); } // Diffuse Alpha Mode // Init to the default that is appropriate for the alpha content of the asset // U8 alpha_mode = mIsAlpha ? LLMaterial::DIFFUSE_ALPHA_MODE_BLEND : LLMaterial::DIFFUSE_ALPHA_MODE_NONE; bool identical_alpha_mode = false; // See if that's been overridden by a material setting for same... // LLSelectedTEMaterial::getCurrentDiffuseAlphaMode(alpha_mode, identical_alpha_mode, mIsAlpha); LLCtrlSelectionInterface* combobox_alphamode = childGetSelectionInterface("combobox alphamode"); if (combobox_alphamode) { //it is invalid to have any alpha mode other than blend if transparency is greater than zero ... // Want masking? Want emissive? Tough! You get BLEND! alpha_mode = (transparency > 0.f) ? LLMaterial::DIFFUSE_ALPHA_MODE_BLEND : alpha_mode; // ... unless there is no alpha channel in the texture, in which case alpha mode MUST be none alpha_mode = mIsAlpha ? alpha_mode : LLMaterial::DIFFUSE_ALPHA_MODE_NONE; combobox_alphamode->selectNthItem(alpha_mode); } else { LL_WARNS() << "failed childGetSelectionInterface for 'combobox alphamode'" << LL_ENDL; } updateAlphaControls(); if (texture_ctrl) { if (identical_diffuse) { texture_ctrl->setTentative(FALSE); texture_ctrl->setEnabled(editable && !has_pbr_material); texture_ctrl->setImageAssetID(id); getChildView("combobox alphamode")->setEnabled(editable && mIsAlpha && transparency <= 0.f && !has_pbr_material); getChildView("label alphamode")->setEnabled(editable && mIsAlpha && !has_pbr_material); getChildView("maskcutoff")->setEnabled(editable && mIsAlpha && !has_pbr_material); getChildView("label maskcutoff")->setEnabled(editable && mIsAlpha && !has_pbr_material); texture_ctrl->setBakeTextureEnabled(TRUE); } else if (id.isNull()) { // None selected texture_ctrl->setTentative(FALSE); texture_ctrl->setEnabled(FALSE); texture_ctrl->setImageAssetID(LLUUID::null); getChildView("combobox alphamode")->setEnabled(FALSE); getChildView("label alphamode")->setEnabled(FALSE); getChildView("maskcutoff")->setEnabled(FALSE); getChildView("label maskcutoff")->setEnabled(FALSE); texture_ctrl->setBakeTextureEnabled(false); } else { // Tentative: multiple selected with different textures texture_ctrl->setTentative(TRUE); texture_ctrl->setEnabled(editable && !has_pbr_material); texture_ctrl->setImageAssetID(id); getChildView("combobox alphamode")->setEnabled(editable && mIsAlpha && transparency <= 0.f && !has_pbr_material); getChildView("label alphamode")->setEnabled(editable && mIsAlpha && !has_pbr_material); getChildView("maskcutoff")->setEnabled(editable && mIsAlpha && !has_pbr_material); getChildView("label maskcutoff")->setEnabled(editable && mIsAlpha && !has_pbr_material); texture_ctrl->setBakeTextureEnabled(TRUE); } } if (shinytexture_ctrl) { shinytexture_ctrl->setTentative( !identical_spec ); shinytexture_ctrl->setEnabled( editable && !has_pbr_material); shinytexture_ctrl->setImageAssetID( specmap_id ); } if (bumpytexture_ctrl) { bumpytexture_ctrl->setTentative( !identical_norm ); bumpytexture_ctrl->setEnabled( editable && !has_pbr_material); bumpytexture_ctrl->setImageAssetID( normmap_id ); } } // planar align bool align_planar = false; bool identical_planar_aligned = false; { LLCheckBoxCtrl* cb_planar_align = getChild("checkbox planar align"); align_planar = (cb_planar_align && cb_planar_align->get()); bool enabled = (editable && isIdenticalPlanarTexgen() && (!pbr_selected || texture_info_selected)); childSetValue("checkbox planar align", align_planar && enabled); childSetVisible("checkbox planar align", enabled); childSetEnabled("checkbox planar align", enabled); childSetEnabled("button align textures", enabled && LLSelectMgr::getInstance()->getSelection()->getObjectCount() > 1); if (align_planar && enabled) { LLFace* last_face = NULL; bool identical_face = false; LLSelectedTE::getFace(last_face, identical_face); LLPanelFaceGetIsAlignedTEFunctor get_is_aligend_func(last_face); // this will determine if the texture param controls are tentative: identical_planar_aligned = LLSelectMgr::getInstance()->getSelection()->applyToTEs(&get_is_aligend_func); } } // Needs to be public and before tex scale settings below to properly reflect // behavior when in planar vs default texgen modes in the // NORSPEC-84 et al // LLTextureEntry::e_texgen selected_texgen = LLTextureEntry::TEX_GEN_DEFAULT; bool identical_texgen = true; bool identical_planar_texgen = false; { LLSelectedTE::getTexGen(selected_texgen, identical_texgen); identical_planar_texgen = (identical_texgen && (selected_texgen == LLTextureEntry::TEX_GEN_PLANAR)); } // Texture scale { bool identical_diff_scale_s = false; bool identical_spec_scale_s = false; bool identical_norm_scale_s = false; identical = align_planar ? identical_planar_aligned : identical; F32 diff_scale_s = 1.f; F32 spec_scale_s = 1.f; F32 norm_scale_s = 1.f; LLSelectedTE::getScaleS(diff_scale_s, identical_diff_scale_s); LLSelectedTEMaterial::getSpecularRepeatX(spec_scale_s, identical_spec_scale_s); LLSelectedTEMaterial::getNormalRepeatX(norm_scale_s, identical_norm_scale_s); diff_scale_s = editable ? diff_scale_s : 1.0f; diff_scale_s *= identical_planar_texgen ? 2.0f : 1.0f; norm_scale_s = editable ? norm_scale_s : 1.0f; norm_scale_s *= identical_planar_texgen ? 2.0f : 1.0f; spec_scale_s = editable ? spec_scale_s : 1.0f; spec_scale_s *= identical_planar_texgen ? 2.0f : 1.0f; getChild("TexScaleU")->setValue(diff_scale_s); getChild("shinyScaleU")->setValue(spec_scale_s); getChild("bumpyScaleU")->setValue(norm_scale_s); getChildView("TexScaleU")->setEnabled(editable && has_material); getChildView("shinyScaleU")->setEnabled(editable && has_material && specmap_id.notNull()); getChildView("bumpyScaleU")->setEnabled(editable && has_material && normmap_id.notNull()); BOOL diff_scale_tentative = !(identical && identical_diff_scale_s); BOOL norm_scale_tentative = !(identical && identical_norm_scale_s); BOOL spec_scale_tentative = !(identical && identical_spec_scale_s); getChild("TexScaleU")->setTentative( LLSD(diff_scale_tentative)); getChild("shinyScaleU")->setTentative(LLSD(spec_scale_tentative)); getChild("bumpyScaleU")->setTentative(LLSD(norm_scale_tentative)); } { bool identical_diff_scale_t = false; bool identical_spec_scale_t = false; bool identical_norm_scale_t = false; F32 diff_scale_t = 1.f; F32 spec_scale_t = 1.f; F32 norm_scale_t = 1.f; LLSelectedTE::getScaleT(diff_scale_t, identical_diff_scale_t); LLSelectedTEMaterial::getSpecularRepeatY(spec_scale_t, identical_spec_scale_t); LLSelectedTEMaterial::getNormalRepeatY(norm_scale_t, identical_norm_scale_t); diff_scale_t = editable ? diff_scale_t : 1.0f; diff_scale_t *= identical_planar_texgen ? 2.0f : 1.0f; norm_scale_t = editable ? norm_scale_t : 1.0f; norm_scale_t *= identical_planar_texgen ? 2.0f : 1.0f; spec_scale_t = editable ? spec_scale_t : 1.0f; spec_scale_t *= identical_planar_texgen ? 2.0f : 1.0f; BOOL diff_scale_tentative = !identical_diff_scale_t; BOOL norm_scale_tentative = !identical_norm_scale_t; BOOL spec_scale_tentative = !identical_spec_scale_t; getChildView("TexScaleV")->setEnabled(editable && has_material); getChildView("shinyScaleV")->setEnabled(editable && has_material && specmap_id.notNull()); getChildView("bumpyScaleV")->setEnabled(editable && has_material && normmap_id.notNull()); if (force_set_values) { getChild("TexScaleV")->forceSetValue(diff_scale_t); } else { getChild("TexScaleV")->setValue(diff_scale_t); } getChild("shinyScaleV")->setValue(norm_scale_t); getChild("bumpyScaleV")->setValue(spec_scale_t); getChild("TexScaleV")->setTentative(LLSD(diff_scale_tentative)); getChild("shinyScaleV")->setTentative(LLSD(norm_scale_tentative)); getChild("bumpyScaleV")->setTentative(LLSD(spec_scale_tentative)); } // Texture offset { bool identical_diff_offset_s = false; bool identical_norm_offset_s = false; bool identical_spec_offset_s = false; F32 diff_offset_s = 0.0f; F32 norm_offset_s = 0.0f; F32 spec_offset_s = 0.0f; LLSelectedTE::getOffsetS(diff_offset_s, identical_diff_offset_s); LLSelectedTEMaterial::getNormalOffsetX(norm_offset_s, identical_norm_offset_s); LLSelectedTEMaterial::getSpecularOffsetX(spec_offset_s, identical_spec_offset_s); BOOL diff_offset_u_tentative = !(align_planar ? identical_planar_aligned : identical_diff_offset_s); BOOL norm_offset_u_tentative = !(align_planar ? identical_planar_aligned : identical_norm_offset_s); BOOL spec_offset_u_tentative = !(align_planar ? identical_planar_aligned : identical_spec_offset_s); getChild("TexOffsetU")->setValue( editable ? diff_offset_s : 0.0f); getChild("bumpyOffsetU")->setValue(editable ? norm_offset_s : 0.0f); getChild("shinyOffsetU")->setValue(editable ? spec_offset_s : 0.0f); getChild("TexOffsetU")->setTentative(LLSD(diff_offset_u_tentative)); getChild("shinyOffsetU")->setTentative(LLSD(norm_offset_u_tentative)); getChild("bumpyOffsetU")->setTentative(LLSD(spec_offset_u_tentative)); getChildView("TexOffsetU")->setEnabled(editable && has_material); getChildView("shinyOffsetU")->setEnabled(editable && has_material && specmap_id.notNull()); getChildView("bumpyOffsetU")->setEnabled(editable && has_material && normmap_id.notNull()); } { bool identical_diff_offset_t = false; bool identical_norm_offset_t = false; bool identical_spec_offset_t = false; F32 diff_offset_t = 0.0f; F32 norm_offset_t = 0.0f; F32 spec_offset_t = 0.0f; LLSelectedTE::getOffsetT(diff_offset_t, identical_diff_offset_t); LLSelectedTEMaterial::getNormalOffsetY(norm_offset_t, identical_norm_offset_t); LLSelectedTEMaterial::getSpecularOffsetY(spec_offset_t, identical_spec_offset_t); BOOL diff_offset_v_tentative = !(align_planar ? identical_planar_aligned : identical_diff_offset_t); BOOL norm_offset_v_tentative = !(align_planar ? identical_planar_aligned : identical_norm_offset_t); BOOL spec_offset_v_tentative = !(align_planar ? identical_planar_aligned : identical_spec_offset_t); getChild("TexOffsetV")->setValue( editable ? diff_offset_t : 0.0f); getChild("bumpyOffsetV")->setValue(editable ? norm_offset_t : 0.0f); getChild("shinyOffsetV")->setValue(editable ? spec_offset_t : 0.0f); getChild("TexOffsetV")->setTentative(LLSD(diff_offset_v_tentative)); getChild("shinyOffsetV")->setTentative(LLSD(norm_offset_v_tentative)); getChild("bumpyOffsetV")->setTentative(LLSD(spec_offset_v_tentative)); getChildView("TexOffsetV")->setEnabled(editable && has_material); getChildView("shinyOffsetV")->setEnabled(editable && has_material && specmap_id.notNull()); getChildView("bumpyOffsetV")->setEnabled(editable && has_material && normmap_id.notNull()); } // Texture rotation { bool identical_diff_rotation = false; bool identical_norm_rotation = false; bool identical_spec_rotation = false; F32 diff_rotation = 0.f; F32 norm_rotation = 0.f; F32 spec_rotation = 0.f; LLSelectedTE::getRotation(diff_rotation,identical_diff_rotation); LLSelectedTEMaterial::getSpecularRotation(spec_rotation,identical_spec_rotation); LLSelectedTEMaterial::getNormalRotation(norm_rotation,identical_norm_rotation); BOOL diff_rot_tentative = !(align_planar ? identical_planar_aligned : identical_diff_rotation); BOOL norm_rot_tentative = !(align_planar ? identical_planar_aligned : identical_norm_rotation); BOOL spec_rot_tentative = !(align_planar ? identical_planar_aligned : identical_spec_rotation); F32 diff_rot_deg = diff_rotation * RAD_TO_DEG; F32 norm_rot_deg = norm_rotation * RAD_TO_DEG; F32 spec_rot_deg = spec_rotation * RAD_TO_DEG; getChildView("TexRot")->setEnabled(editable && has_material); getChildView("shinyRot")->setEnabled(editable && has_material && specmap_id.notNull()); getChildView("bumpyRot")->setEnabled(editable && has_material && normmap_id.notNull()); getChild("TexRot")->setTentative(diff_rot_tentative); getChild("shinyRot")->setTentative(LLSD(norm_rot_tentative)); getChild("bumpyRot")->setTentative(LLSD(spec_rot_tentative)); getChild("TexRot")->setValue( editable ? diff_rot_deg : 0.0f); getChild("shinyRot")->setValue(editable ? spec_rot_deg : 0.0f); getChild("bumpyRot")->setValue(editable ? norm_rot_deg : 0.0f); } { F32 glow = 0.f; bool identical_glow = false; LLSelectedTE::getGlow(glow,identical_glow); getChild("glow")->setValue(glow); getChild("glow")->setTentative(!identical_glow); getChildView("glow")->setEnabled(editable); getChildView("glow label")->setEnabled(editable); } { LLCtrlSelectionInterface* combobox_texgen = childGetSelectionInterface("combobox texgen"); if (combobox_texgen) { // Maps from enum to combobox entry index combobox_texgen->selectNthItem(((S32)selected_texgen) >> 1); } else { LL_WARNS() << "failed childGetSelectionInterface for 'combobox texgen'" << LL_ENDL; } getChildView("combobox texgen")->setEnabled(editable); getChild("combobox texgen")->setTentative(!identical); getChildView("tex gen")->setEnabled(editable); } { U8 fullbright_flag = 0; bool identical_fullbright = false; LLSelectedTE::getFullbright(fullbright_flag,identical_fullbright); getChild("checkbox fullbright")->setValue((S32)(fullbright_flag != 0)); getChildView("checkbox fullbright")->setEnabled(editable && !has_pbr_material); getChild("checkbox fullbright")->setTentative(!identical_fullbright); } // Repeats per meter { F32 repeats_diff = 1.f; F32 repeats_norm = 1.f; F32 repeats_spec = 1.f; bool identical_diff_repeats = false; bool identical_norm_repeats = false; bool identical_spec_repeats = false; LLSelectedTE::getMaxDiffuseRepeats(repeats_diff, identical_diff_repeats); LLSelectedTEMaterial::getMaxNormalRepeats(repeats_norm, identical_norm_repeats); LLSelectedTEMaterial::getMaxSpecularRepeats(repeats_spec, identical_spec_repeats); LLComboBox* mComboTexGen = getChild("combobox texgen"); if (mComboTexGen) { S32 index = mComboTexGen ? mComboTexGen->getCurrentIndex() : 0; bool enabled = editable && (index != 1); bool identical_repeats = true; S32 material_selection = mComboMatMedia->getCurrentIndex(); F32 repeats = 1.0f; U32 material_type = MATTYPE_DIFFUSE; if (material_selection == MATMEDIA_MATERIAL) { material_type = radio_mat_type->getSelectedIndex(); } else if (material_selection == MATMEDIA_PBR) { enabled = editable && has_pbr_material; material_type = radio_pbr_type->getSelectedIndex(); } switch (material_type) { default: case MATTYPE_DIFFUSE: { if (material_selection != MATMEDIA_PBR) { enabled = editable && !id.isNull(); } identical_repeats = identical_diff_repeats; repeats = repeats_diff; } break; case MATTYPE_SPECULAR: { if (material_selection != MATMEDIA_PBR) { enabled = (editable && ((shiny == SHINY_TEXTURE) && !specmap_id.isNull())); } identical_repeats = identical_spec_repeats; repeats = repeats_spec; } break; case MATTYPE_NORMAL: { if (material_selection != MATMEDIA_PBR) { enabled = (editable && ((bumpy == BUMPY_TEXTURE) && !normmap_id.isNull())); } identical_repeats = identical_norm_repeats; repeats = repeats_norm; } break; } BOOL repeats_tentative = !identical_repeats; LLSpinCtrl* rpt_ctrl = getChild("rptctrl"); if (force_set_values) { //onCommit, previosly edited element updates related ones rpt_ctrl->forceSetValue(editable ? repeats : 1.0f); } else { rpt_ctrl->setValue(editable ? repeats : 1.0f); } rpt_ctrl->setTentative(LLSD(repeats_tentative)); rpt_ctrl->setEnabled(has_material && !identical_planar_texgen && enabled); } } // Materials { LLMaterialPtr material; LLSelectedTEMaterial::getCurrent(material, identical); if (material && editable) { LL_DEBUGS("Materials") << material->asLLSD() << LL_ENDL; // Alpha LLCtrlSelectionInterface* combobox_alphamode = childGetSelectionInterface("combobox alphamode"); if (combobox_alphamode) { U32 alpha_mode = material->getDiffuseAlphaMode(); if (transparency > 0.f) { //it is invalid to have any alpha mode other than blend if transparency is greater than zero ... alpha_mode = LLMaterial::DIFFUSE_ALPHA_MODE_BLEND; } if (!mIsAlpha) { // ... unless there is no alpha channel in the texture, in which case alpha mode MUST ebe none alpha_mode = LLMaterial::DIFFUSE_ALPHA_MODE_NONE; } combobox_alphamode->selectNthItem(alpha_mode); } else { LL_WARNS() << "failed childGetSelectionInterface for 'combobox alphamode'" << LL_ENDL; } getChild("maskcutoff")->setValue(material->getAlphaMaskCutoff()); updateAlphaControls(); identical_planar_texgen = isIdenticalPlanarTexgen(); // Shiny (specular) F32 offset_x, offset_y, repeat_x, repeat_y, rot; LLTextureCtrl* texture_ctrl = getChild("shinytexture control"); texture_ctrl->setImageAssetID(material->getSpecularID()); if (!material->getSpecularID().isNull() && (shiny == SHINY_TEXTURE)) { material->getSpecularOffset(offset_x,offset_y); material->getSpecularRepeat(repeat_x,repeat_y); if (identical_planar_texgen) { repeat_x *= 2.0f; repeat_y *= 2.0f; } rot = material->getSpecularRotation(); getChild("shinyScaleU")->setValue(repeat_x); getChild("shinyScaleV")->setValue(repeat_y); getChild("shinyRot")->setValue(rot*RAD_TO_DEG); getChild("shinyOffsetU")->setValue(offset_x); getChild("shinyOffsetV")->setValue(offset_y); getChild("glossiness")->setValue(material->getSpecularLightExponent()); getChild("environment")->setValue(material->getEnvironmentIntensity()); updateShinyControls(!material->getSpecularID().isNull(), true); } // Assert desired colorswatch color to match material AFTER updateShinyControls // to avoid getting overwritten with the default on some UI state changes. // if (!material->getSpecularID().isNull()) { LLColorSwatchCtrl* shiny_swatch = getChild("shinycolorswatch"); LLColor4 new_color = material->getSpecularLightColor(); LLColor4 old_color = shiny_swatch->get(); shiny_swatch->setOriginal(new_color); shiny_swatch->set(new_color, force_set_values || old_color != new_color || !editable); } // Bumpy (normal) texture_ctrl = getChild("bumpytexture control"); texture_ctrl->setImageAssetID(material->getNormalID()); if (!material->getNormalID().isNull()) { material->getNormalOffset(offset_x,offset_y); material->getNormalRepeat(repeat_x,repeat_y); if (identical_planar_texgen) { repeat_x *= 2.0f; repeat_y *= 2.0f; } rot = material->getNormalRotation(); getChild("bumpyScaleU")->setValue(repeat_x); getChild("bumpyScaleV")->setValue(repeat_y); getChild("bumpyRot")->setValue(rot*RAD_TO_DEG); getChild("bumpyOffsetU")->setValue(offset_x); getChild("bumpyOffsetV")->setValue(offset_y); updateBumpyControls(!material->getNormalID().isNull(), true); } } } S32 selected_count = LLSelectMgr::getInstance()->getSelection()->getObjectCount(); BOOL single_volume = (selected_count == 1); mMenuClipboardColor->setEnabled(editable && single_volume); // Set variable values for numeric expressions LLCalc* calcp = LLCalc::getInstance(); calcp->setVar(LLCalc::TEX_U_SCALE, childGetValue("TexScaleU").asReal()); calcp->setVar(LLCalc::TEX_V_SCALE, childGetValue("TexScaleV").asReal()); calcp->setVar(LLCalc::TEX_U_OFFSET, childGetValue("TexOffsetU").asReal()); calcp->setVar(LLCalc::TEX_V_OFFSET, childGetValue("TexOffsetV").asReal()); calcp->setVar(LLCalc::TEX_ROTATION, childGetValue("TexRot").asReal()); calcp->setVar(LLCalc::TEX_TRANSPARENCY, childGetValue("ColorTrans").asReal()); calcp->setVar(LLCalc::TEX_GLOW, childGetValue("glow").asReal()); } else { // Disable all UICtrls clearCtrls(); // Disable non-UICtrls LLTextureCtrl* pbr_ctrl = findChild("pbr_control"); if (pbr_ctrl) { pbr_ctrl->setImageAssetID(LLUUID::null); pbr_ctrl->setEnabled(FALSE); } LLTextureCtrl* texture_ctrl = getChild("texture control"); if(texture_ctrl) { texture_ctrl->setImageAssetID( LLUUID::null ); texture_ctrl->setEnabled( FALSE ); // this is a LLUICtrl, but we don't want it to have keyboard focus so we add it as a child, not a ctrl. // texture_ctrl->setValid(FALSE); } LLColorSwatchCtrl* mColorSwatch = getChild("colorswatch"); if(mColorSwatch) { mColorSwatch->setEnabled( FALSE ); mColorSwatch->setFallbackImage(LLUI::getUIImage("locked_image.j2c") ); mColorSwatch->setValid(FALSE); } LLRadioGroup* radio_mat_type = getChild("radio_material_type"); if (radio_mat_type) { radio_mat_type->setSelectedIndex(0); } getChildView("color trans")->setEnabled(FALSE); getChildView("rptctrl")->setEnabled(FALSE); getChildView("tex gen")->setEnabled(FALSE); getChildView("label shininess")->setEnabled(FALSE); getChildView("label bumpiness")->setEnabled(FALSE); getChildView("button align")->setEnabled(FALSE); getChildView("pbr_from_inventory")->setEnabled(FALSE); getChildView("edit_selected_pbr")->setEnabled(FALSE); getChildView("save_selected_pbr")->setEnabled(FALSE); updateVisibility(); // Set variable values for numeric expressions LLCalc* calcp = LLCalc::getInstance(); calcp->clearVar(LLCalc::TEX_U_SCALE); calcp->clearVar(LLCalc::TEX_V_SCALE); calcp->clearVar(LLCalc::TEX_U_OFFSET); calcp->clearVar(LLCalc::TEX_V_OFFSET); calcp->clearVar(LLCalc::TEX_ROTATION); calcp->clearVar(LLCalc::TEX_TRANSPARENCY); calcp->clearVar(LLCalc::TEX_GLOW); } } void LLPanelFace::updateUIGLTF(LLViewerObject* objectp, bool& has_pbr_material, bool force_set_values) { has_pbr_material = false; const bool editable = objectp->permModify() && !objectp->isPermanentEnforced(); bool has_pbr_capabilities = LLMaterialEditor::capabilitiesAvailable(); // pbr material LLTextureCtrl* pbr_ctrl = findChild("pbr_control"); if (pbr_ctrl) { LLUUID pbr_id; bool identical_pbr; LLSelectedTE::getPbrMaterialId(pbr_id, identical_pbr); has_pbr_material = pbr_id.notNull(); pbr_ctrl->setTentative(identical_pbr ? FALSE : TRUE); pbr_ctrl->setEnabled(editable && has_pbr_capabilities); pbr_ctrl->setImageAssetID(pbr_id); } getChildView("pbr_from_inventory")->setEnabled(editable && has_pbr_capabilities); getChildView("edit_selected_pbr")->setEnabled(editable && has_pbr_material && has_pbr_capabilities); getChildView("save_selected_pbr")->setEnabled(objectp->permCopy() && has_pbr_material && has_pbr_capabilities); const bool show_pbr = mComboMatMedia->getCurrentIndex() == MATMEDIA_PBR && mComboMatMedia->getEnabled(); if (show_pbr) { const U32 pbr_type = findChild("radio_pbr_type")->getSelectedIndex(); const LLGLTFMaterial::TextureInfo texture_info = texture_info_from_pbrtype(pbr_type); const bool show_texture_info = texture_info != LLGLTFMaterial::GLTF_TEXTURE_INFO_COUNT; const bool new_state = show_texture_info && has_pbr_capabilities && has_pbr_material; LLUICtrl* gltfCtrlTextureScaleU = getChild("gltfTextureScaleU"); LLUICtrl* gltfCtrlTextureScaleV = getChild("gltfTextureScaleV"); LLUICtrl* gltfCtrlTextureRotation = getChild("gltfTextureRotation"); LLUICtrl* gltfCtrlTextureOffsetU = getChild("gltfTextureOffsetU"); LLUICtrl* gltfCtrlTextureOffsetV = getChild("gltfTextureOffsetV"); gltfCtrlTextureScaleU->setEnabled(new_state); gltfCtrlTextureScaleV->setEnabled(new_state); gltfCtrlTextureRotation->setEnabled(new_state); gltfCtrlTextureOffsetU->setEnabled(new_state); gltfCtrlTextureOffsetV->setEnabled(new_state); // Control values will be set once per frame in // setMaterialOverridesFromSelection sMaterialOverrideSelection.setDirty(); } } void LLPanelFace::updateVisibilityGLTF() { const bool show_pbr = mComboMatMedia->getCurrentIndex() == MATMEDIA_PBR && mComboMatMedia->getEnabled(); LLRadioGroup* radio_pbr_type = findChild("radio_pbr_type"); radio_pbr_type->setVisible(show_pbr); const U32 pbr_type = radio_pbr_type->getSelectedIndex(); const bool show_pbr_render_material_id = show_pbr && (pbr_type == PBRTYPE_RENDER_MATERIAL_ID); const bool show_pbr_base_color = show_pbr && (pbr_type == PBRTYPE_BASE_COLOR); const bool show_pbr_normal = show_pbr && (pbr_type == PBRTYPE_NORMAL); const bool show_pbr_metallic_roughness = show_pbr && (pbr_type == PBRTYPE_METALLIC_ROUGHNESS); const bool show_pbr_emissive = show_pbr && (pbr_type == PBRTYPE_EMISSIVE); const bool show_pbr_transform = show_pbr_base_color || show_pbr_normal || show_pbr_metallic_roughness || show_pbr_emissive; getChildView("pbr_control")->setVisible(show_pbr_render_material_id); getChildView("pbr_from_inventory")->setVisible(show_pbr_render_material_id); getChildView("edit_selected_pbr")->setVisible(show_pbr_render_material_id); getChildView("save_selected_pbr")->setVisible(show_pbr_render_material_id); getChildView("gltfTextureScaleU")->setVisible(show_pbr_transform); getChildView("gltfTextureScaleV")->setVisible(show_pbr_transform); getChildView("gltfTextureRotation")->setVisible(show_pbr_transform); getChildView("gltfTextureOffsetU")->setVisible(show_pbr_transform); getChildView("gltfTextureOffsetV")->setVisible(show_pbr_transform); } void LLPanelFace::updateCopyTexButton() { LLViewerObject* objectp = LLSelectMgr::getInstance()->getSelection()->getFirstObject(); mMenuClipboardTexture->setEnabled(objectp && objectp->getPCode() == LL_PCODE_VOLUME && objectp->permModify() && !objectp->isPermanentEnforced() && !objectp->isInventoryPending() && (LLSelectMgr::getInstance()->getSelection()->getObjectCount() == 1)); std::string tooltip = (objectp && objectp->isInventoryPending()) ? LLTrans::getString("LoadingContents") : getString("paste_options"); mMenuClipboardTexture->setToolTip(tooltip); } void LLPanelFace::refresh() { LL_DEBUGS("Materials") << LL_ENDL; getState(); } void LLPanelFace::refreshMedia() { LLObjectSelectionHandle selected_objects = LLSelectMgr::getInstance()->getSelection(); LLViewerObject* first_object = selected_objects->getFirstObject(); if (!(first_object && first_object->getPCode() == LL_PCODE_VOLUME && first_object->permModify() )) { getChildView("add_media")->setEnabled(FALSE); mTitleMediaText->clear(); clearMediaSettings(); return; } std::string url = first_object->getRegion()->getCapability("ObjectMedia"); bool has_media_capability = (!url.empty()); if (!has_media_capability) { getChildView("add_media")->setEnabled(FALSE); LL_WARNS("LLFloaterToolsMedia") << "Media not enabled (no capability) in this region!" << LL_ENDL; clearMediaSettings(); return; } BOOL is_nonpermanent_enforced = (LLSelectMgr::getInstance()->getSelection()->getFirstRootNode() && LLSelectMgr::getInstance()->selectGetRootsNonPermanentEnforced()) || LLSelectMgr::getInstance()->selectGetNonPermanentEnforced(); bool editable = is_nonpermanent_enforced && (first_object->permModify() || selectedMediaEditable()); // Check modify permissions and whether any selected objects are in // the process of being fetched. If they are, then we're not editable if (editable) { LLObjectSelection::iterator iter = selected_objects->begin(); LLObjectSelection::iterator end = selected_objects->end(); for (; iter != end; ++iter) { LLSelectNode* node = *iter; LLVOVolume* object = dynamic_cast(node->getObject()); if (NULL != object) { if (!object->permModify()) { LL_INFOS("LLFloaterToolsMedia") << "Selection not editable due to lack of modify permissions on object id " << object->getID() << LL_ENDL; editable = false; break; } } } } // Media settings bool bool_has_media = false; struct media_functor : public LLSelectedTEGetFunctor { bool get(LLViewerObject* object, S32 face) { LLTextureEntry *te = object->getTE(face); if (te) { return te->hasMedia(); } return false; } } func; // check if all faces have media(or, all dont have media) LLFloaterMediaSettings::getInstance()->mIdenticalHasMediaInfo = selected_objects->getSelectedTEValue(&func, bool_has_media); const LLMediaEntry default_media_data; struct functor_getter_media_data : public LLSelectedTEGetFunctor< LLMediaEntry> { functor_getter_media_data(const LLMediaEntry& entry) : mMediaEntry(entry) {} LLMediaEntry get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return *(object->getTE(face)->getMediaData()); return mMediaEntry; }; const LLMediaEntry& mMediaEntry; } func_media_data(default_media_data); LLMediaEntry media_data_get; LLFloaterMediaSettings::getInstance()->mMultipleMedia = !(selected_objects->getSelectedTEValue(&func_media_data, media_data_get)); std::string multi_media_info_str = LLTrans::getString("Multiple Media"); std::string media_title = ""; // update UI depending on whether "object" (prim or face) has media // and whether or not you are allowed to edit it. getChildView("add_media")->setEnabled(editable); // IF all the faces have media (or all dont have media) if (LLFloaterMediaSettings::getInstance()->mIdenticalHasMediaInfo) { // TODO: get media title and set it. mTitleMediaText->clear(); // if identical is set, all faces are same (whether all empty or has the same media) if (!(LLFloaterMediaSettings::getInstance()->mMultipleMedia)) { // Media data is valid if (media_data_get != default_media_data) { // initial media title is the media URL (until we get the name) media_title = media_data_get.getHomeURL(); } // else all faces might be empty. } else // there' re Different Medias' been set on on the faces. { media_title = multi_media_info_str; } getChildView("delete_media")->setEnabled(bool_has_media && editable); // TODO: display a list of all media on the face - use 'identical' flag } else // not all face has media but at least one does. { // seleted faces have not identical value LLFloaterMediaSettings::getInstance()->mMultipleValidMedia = selected_objects->isMultipleTEValue(&func_media_data, default_media_data); if (LLFloaterMediaSettings::getInstance()->mMultipleValidMedia) { media_title = multi_media_info_str; } else { // Media data is valid if (media_data_get != default_media_data) { // initial media title is the media URL (until we get the name) media_title = media_data_get.getHomeURL(); } } getChildView("delete_media")->setEnabled(TRUE); } U32 materials_media = mComboMatMedia->getCurrentIndex(); if (materials_media == MATMEDIA_MEDIA) { // currently displaying media info, navigateTo and update title navigateToTitleMedia(media_title); } else { // Media can be heavy, don't keep it around // MAC specific: MAC doesn't support setVolume(0) so if not // unloaded, it might keep playing audio until user closes editor unloadMedia(); mNeedMediaTitle = false; } mTitleMediaText->setText(media_title); // load values for media settings updateMediaSettings(); LLFloaterMediaSettings::initValues(mMediaSettings, editable); } void LLPanelFace::unloadMedia() { // destroy media source used to grab media title if (mTitleMedia) mTitleMedia->unloadMediaSource(); } // static void LLPanelFace::onMaterialOverrideReceived(const LLUUID& object_id, S32 side) { sMaterialOverrideSelection.onSelectedObjectUpdated(object_id, side); } ////////////////////////////////////////////////////////////////////////////// // void LLPanelFace::navigateToTitleMedia( const std::string url ) { std::string multi_media_info_str = LLTrans::getString("Multiple Media"); if (url.empty() || multi_media_info_str == url) { // nothing to show mNeedMediaTitle = false; } else if (mTitleMedia) { LLPluginClassMedia* media_plugin = mTitleMedia->getMediaPlugin(); // check if url changed or if we need a new media source if (mTitleMedia->getCurrentNavUrl() != url || media_plugin == NULL) { mTitleMedia->navigateTo( url ); LLViewerMediaImpl* impl = LLViewerMedia::getInstance()->getMediaImplFromTextureID(mTitleMedia->getTextureID()); if (impl) { // if it's a page with a movie, we don't want to hear it impl->setVolume(0); }; } // flag that we need to update the title (even if no request were made) mNeedMediaTitle = true; } } bool LLPanelFace::selectedMediaEditable() { U32 owner_mask_on; U32 owner_mask_off; U32 valid_owner_perms = LLSelectMgr::getInstance()->selectGetPerm(PERM_OWNER, &owner_mask_on, &owner_mask_off); U32 group_mask_on; U32 group_mask_off; U32 valid_group_perms = LLSelectMgr::getInstance()->selectGetPerm(PERM_GROUP, &group_mask_on, &group_mask_off); U32 everyone_mask_on; U32 everyone_mask_off; S32 valid_everyone_perms = LLSelectMgr::getInstance()->selectGetPerm(PERM_EVERYONE, &everyone_mask_on, &everyone_mask_off); bool selected_Media_editable = false; // if perms we got back are valid if (valid_owner_perms && valid_group_perms && valid_everyone_perms) { if ((owner_mask_on & PERM_MODIFY) || (group_mask_on & PERM_MODIFY) || (everyone_mask_on & PERM_MODIFY)) { selected_Media_editable = true; } else // user is NOT allowed to press the RESET button { selected_Media_editable = false; }; }; return selected_Media_editable; } void LLPanelFace::clearMediaSettings() { LLFloaterMediaSettings::clearValues(false); } void LLPanelFace::updateMediaSettings() { bool identical(false); std::string base_key(""); std::string value_str(""); int value_int = 0; bool value_bool = false; LLObjectSelectionHandle selected_objects = LLSelectMgr::getInstance()->getSelection(); // TODO: (CP) refactor this using something clever or boost or both !! const LLMediaEntry default_media_data; // controls U8 value_u8 = default_media_data.getControls(); struct functor_getter_controls : public LLSelectedTEGetFunctor< U8 > { functor_getter_controls(const LLMediaEntry &entry) : mMediaEntry(entry) {} U8 get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return object->getTE(face)->getMediaData()->getControls(); return mMediaEntry.getControls(); }; const LLMediaEntry &mMediaEntry; } func_controls(default_media_data); identical = selected_objects->getSelectedTEValue(&func_controls, value_u8); base_key = std::string(LLMediaEntry::CONTROLS_KEY); mMediaSettings[base_key] = value_u8; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; // First click (formerly left click) value_bool = default_media_data.getFirstClickInteract(); struct functor_getter_first_click : public LLSelectedTEGetFunctor< bool > { functor_getter_first_click(const LLMediaEntry& entry) : mMediaEntry(entry) {} bool get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return object->getTE(face)->getMediaData()->getFirstClickInteract(); return mMediaEntry.getFirstClickInteract(); }; const LLMediaEntry &mMediaEntry; } func_first_click(default_media_data); identical = selected_objects->getSelectedTEValue(&func_first_click, value_bool); base_key = std::string(LLMediaEntry::FIRST_CLICK_INTERACT_KEY); mMediaSettings[base_key] = value_bool; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; // Home URL value_str = default_media_data.getHomeURL(); struct functor_getter_home_url : public LLSelectedTEGetFunctor< std::string > { functor_getter_home_url(const LLMediaEntry& entry) : mMediaEntry(entry) {} std::string get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return object->getTE(face)->getMediaData()->getHomeURL(); return mMediaEntry.getHomeURL(); }; const LLMediaEntry &mMediaEntry; } func_home_url(default_media_data); identical = selected_objects->getSelectedTEValue(&func_home_url, value_str); base_key = std::string(LLMediaEntry::HOME_URL_KEY); mMediaSettings[base_key] = value_str; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; // Current URL value_str = default_media_data.getCurrentURL(); struct functor_getter_current_url : public LLSelectedTEGetFunctor< std::string > { functor_getter_current_url(const LLMediaEntry& entry) : mMediaEntry(entry) {} std::string get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return object->getTE(face)->getMediaData()->getCurrentURL(); return mMediaEntry.getCurrentURL(); }; const LLMediaEntry &mMediaEntry; } func_current_url(default_media_data); identical = selected_objects->getSelectedTEValue(&func_current_url, value_str); base_key = std::string(LLMediaEntry::CURRENT_URL_KEY); mMediaSettings[base_key] = value_str; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; // Auto zoom value_bool = default_media_data.getAutoZoom(); struct functor_getter_auto_zoom : public LLSelectedTEGetFunctor< bool > { functor_getter_auto_zoom(const LLMediaEntry& entry) : mMediaEntry(entry) {} bool get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return object->getTE(face)->getMediaData()->getAutoZoom(); return mMediaEntry.getAutoZoom(); }; const LLMediaEntry &mMediaEntry; } func_auto_zoom(default_media_data); identical = selected_objects->getSelectedTEValue(&func_auto_zoom, value_bool); base_key = std::string(LLMediaEntry::AUTO_ZOOM_KEY); mMediaSettings[base_key] = value_bool; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; // Auto play //value_bool = default_media_data.getAutoPlay(); // set default to auto play TRUE -- angela EXT-5172 value_bool = true; struct functor_getter_auto_play : public LLSelectedTEGetFunctor< bool > { functor_getter_auto_play(const LLMediaEntry& entry) : mMediaEntry(entry) {} bool get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return object->getTE(face)->getMediaData()->getAutoPlay(); //return mMediaEntry.getAutoPlay(); set default to auto play TRUE -- angela EXT-5172 return true; }; const LLMediaEntry &mMediaEntry; } func_auto_play(default_media_data); identical = selected_objects->getSelectedTEValue(&func_auto_play, value_bool); base_key = std::string(LLMediaEntry::AUTO_PLAY_KEY); mMediaSettings[base_key] = value_bool; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; // Auto scale // set default to auto scale TRUE -- angela EXT-5172 //value_bool = default_media_data.getAutoScale(); value_bool = true; struct functor_getter_auto_scale : public LLSelectedTEGetFunctor< bool > { functor_getter_auto_scale(const LLMediaEntry& entry) : mMediaEntry(entry) {} bool get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return object->getTE(face)->getMediaData()->getAutoScale(); // return mMediaEntry.getAutoScale(); set default to auto scale TRUE -- angela EXT-5172 return true; }; const LLMediaEntry &mMediaEntry; } func_auto_scale(default_media_data); identical = selected_objects->getSelectedTEValue(&func_auto_scale, value_bool); base_key = std::string(LLMediaEntry::AUTO_SCALE_KEY); mMediaSettings[base_key] = value_bool; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; // Auto loop value_bool = default_media_data.getAutoLoop(); struct functor_getter_auto_loop : public LLSelectedTEGetFunctor< bool > { functor_getter_auto_loop(const LLMediaEntry& entry) : mMediaEntry(entry) {} bool get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return object->getTE(face)->getMediaData()->getAutoLoop(); return mMediaEntry.getAutoLoop(); }; const LLMediaEntry &mMediaEntry; } func_auto_loop(default_media_data); identical = selected_objects->getSelectedTEValue(&func_auto_loop, value_bool); base_key = std::string(LLMediaEntry::AUTO_LOOP_KEY); mMediaSettings[base_key] = value_bool; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; // width pixels (if not auto scaled) value_int = default_media_data.getWidthPixels(); struct functor_getter_width_pixels : public LLSelectedTEGetFunctor< int > { functor_getter_width_pixels(const LLMediaEntry& entry) : mMediaEntry(entry) {} int get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return object->getTE(face)->getMediaData()->getWidthPixels(); return mMediaEntry.getWidthPixels(); }; const LLMediaEntry &mMediaEntry; } func_width_pixels(default_media_data); identical = selected_objects->getSelectedTEValue(&func_width_pixels, value_int); base_key = std::string(LLMediaEntry::WIDTH_PIXELS_KEY); mMediaSettings[base_key] = value_int; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; // height pixels (if not auto scaled) value_int = default_media_data.getHeightPixels(); struct functor_getter_height_pixels : public LLSelectedTEGetFunctor< int > { functor_getter_height_pixels(const LLMediaEntry& entry) : mMediaEntry(entry) {} int get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return object->getTE(face)->getMediaData()->getHeightPixels(); return mMediaEntry.getHeightPixels(); }; const LLMediaEntry &mMediaEntry; } func_height_pixels(default_media_data); identical = selected_objects->getSelectedTEValue(&func_height_pixels, value_int); base_key = std::string(LLMediaEntry::HEIGHT_PIXELS_KEY); mMediaSettings[base_key] = value_int; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; // Enable Alt image value_bool = default_media_data.getAltImageEnable(); struct functor_getter_enable_alt_image : public LLSelectedTEGetFunctor< bool > { functor_getter_enable_alt_image(const LLMediaEntry& entry) : mMediaEntry(entry) {} bool get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return object->getTE(face)->getMediaData()->getAltImageEnable(); return mMediaEntry.getAltImageEnable(); }; const LLMediaEntry &mMediaEntry; } func_enable_alt_image(default_media_data); identical = selected_objects->getSelectedTEValue(&func_enable_alt_image, value_bool); base_key = std::string(LLMediaEntry::ALT_IMAGE_ENABLE_KEY); mMediaSettings[base_key] = value_bool; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; // Perms - owner interact value_bool = 0 != (default_media_data.getPermsInteract() & LLMediaEntry::PERM_OWNER); struct functor_getter_perms_owner_interact : public LLSelectedTEGetFunctor< bool > { functor_getter_perms_owner_interact(const LLMediaEntry& entry) : mMediaEntry(entry) {} bool get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return (0 != (object->getTE(face)->getMediaData()->getPermsInteract() & LLMediaEntry::PERM_OWNER)); return 0 != (mMediaEntry.getPermsInteract() & LLMediaEntry::PERM_OWNER); }; const LLMediaEntry &mMediaEntry; } func_perms_owner_interact(default_media_data); identical = selected_objects->getSelectedTEValue(&func_perms_owner_interact, value_bool); base_key = std::string(LLPanelContents::PERMS_OWNER_INTERACT_KEY); mMediaSettings[base_key] = value_bool; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; // Perms - owner control value_bool = 0 != (default_media_data.getPermsControl() & LLMediaEntry::PERM_OWNER); struct functor_getter_perms_owner_control : public LLSelectedTEGetFunctor< bool > { functor_getter_perms_owner_control(const LLMediaEntry& entry) : mMediaEntry(entry) {} bool get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return (0 != (object->getTE(face)->getMediaData()->getPermsControl() & LLMediaEntry::PERM_OWNER)); return 0 != (mMediaEntry.getPermsControl() & LLMediaEntry::PERM_OWNER); }; const LLMediaEntry &mMediaEntry; } func_perms_owner_control(default_media_data); identical = selected_objects->getSelectedTEValue(&func_perms_owner_control, value_bool); base_key = std::string(LLPanelContents::PERMS_OWNER_CONTROL_KEY); mMediaSettings[base_key] = value_bool; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; // Perms - group interact value_bool = 0 != (default_media_data.getPermsInteract() & LLMediaEntry::PERM_GROUP); struct functor_getter_perms_group_interact : public LLSelectedTEGetFunctor< bool > { functor_getter_perms_group_interact(const LLMediaEntry& entry) : mMediaEntry(entry) {} bool get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return (0 != (object->getTE(face)->getMediaData()->getPermsInteract() & LLMediaEntry::PERM_GROUP)); return 0 != (mMediaEntry.getPermsInteract() & LLMediaEntry::PERM_GROUP); }; const LLMediaEntry &mMediaEntry; } func_perms_group_interact(default_media_data); identical = selected_objects->getSelectedTEValue(&func_perms_group_interact, value_bool); base_key = std::string(LLPanelContents::PERMS_GROUP_INTERACT_KEY); mMediaSettings[base_key] = value_bool; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; // Perms - group control value_bool = 0 != (default_media_data.getPermsControl() & LLMediaEntry::PERM_GROUP); struct functor_getter_perms_group_control : public LLSelectedTEGetFunctor< bool > { functor_getter_perms_group_control(const LLMediaEntry& entry) : mMediaEntry(entry) {} bool get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return (0 != (object->getTE(face)->getMediaData()->getPermsControl() & LLMediaEntry::PERM_GROUP)); return 0 != (mMediaEntry.getPermsControl() & LLMediaEntry::PERM_GROUP); }; const LLMediaEntry &mMediaEntry; } func_perms_group_control(default_media_data); identical = selected_objects->getSelectedTEValue(&func_perms_group_control, value_bool); base_key = std::string(LLPanelContents::PERMS_GROUP_CONTROL_KEY); mMediaSettings[base_key] = value_bool; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; // Perms - anyone interact value_bool = 0 != (default_media_data.getPermsInteract() & LLMediaEntry::PERM_ANYONE); struct functor_getter_perms_anyone_interact : public LLSelectedTEGetFunctor< bool > { functor_getter_perms_anyone_interact(const LLMediaEntry& entry) : mMediaEntry(entry) {} bool get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return (0 != (object->getTE(face)->getMediaData()->getPermsInteract() & LLMediaEntry::PERM_ANYONE)); return 0 != (mMediaEntry.getPermsInteract() & LLMediaEntry::PERM_ANYONE); }; const LLMediaEntry &mMediaEntry; } func_perms_anyone_interact(default_media_data); identical = LLSelectMgr::getInstance()->getSelection()->getSelectedTEValue(&func_perms_anyone_interact, value_bool); base_key = std::string(LLPanelContents::PERMS_ANYONE_INTERACT_KEY); mMediaSettings[base_key] = value_bool; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; // Perms - anyone control value_bool = 0 != (default_media_data.getPermsControl() & LLMediaEntry::PERM_ANYONE); struct functor_getter_perms_anyone_control : public LLSelectedTEGetFunctor< bool > { functor_getter_perms_anyone_control(const LLMediaEntry& entry) : mMediaEntry(entry) {} bool get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return (0 != (object->getTE(face)->getMediaData()->getPermsControl() & LLMediaEntry::PERM_ANYONE)); return 0 != (mMediaEntry.getPermsControl() & LLMediaEntry::PERM_ANYONE); }; const LLMediaEntry &mMediaEntry; } func_perms_anyone_control(default_media_data); identical = selected_objects->getSelectedTEValue(&func_perms_anyone_control, value_bool); base_key = std::string(LLPanelContents::PERMS_ANYONE_CONTROL_KEY); mMediaSettings[base_key] = value_bool; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; // security - whitelist enable value_bool = default_media_data.getWhiteListEnable(); struct functor_getter_whitelist_enable : public LLSelectedTEGetFunctor< bool > { functor_getter_whitelist_enable(const LLMediaEntry& entry) : mMediaEntry(entry) {} bool get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return object->getTE(face)->getMediaData()->getWhiteListEnable(); return mMediaEntry.getWhiteListEnable(); }; const LLMediaEntry &mMediaEntry; } func_whitelist_enable(default_media_data); identical = selected_objects->getSelectedTEValue(&func_whitelist_enable, value_bool); base_key = std::string(LLMediaEntry::WHITELIST_ENABLE_KEY); mMediaSettings[base_key] = value_bool; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; // security - whitelist URLs std::vector value_vector_str = default_media_data.getWhiteList(); struct functor_getter_whitelist_urls : public LLSelectedTEGetFunctor< std::vector > { functor_getter_whitelist_urls(const LLMediaEntry& entry) : mMediaEntry(entry) {} std::vector get(LLViewerObject* object, S32 face) { if (object) if (object->getTE(face)) if (object->getTE(face)->getMediaData()) return object->getTE(face)->getMediaData()->getWhiteList(); return mMediaEntry.getWhiteList(); }; const LLMediaEntry &mMediaEntry; } func_whitelist_urls(default_media_data); identical = selected_objects->getSelectedTEValue(&func_whitelist_urls, value_vector_str); base_key = std::string(LLMediaEntry::WHITELIST_KEY); mMediaSettings[base_key].clear(); std::vector< std::string >::iterator iter = value_vector_str.begin(); while (iter != value_vector_str.end()) { std::string white_list_url = *iter; mMediaSettings[base_key].append(white_list_url); ++iter; }; mMediaSettings[base_key + std::string(LLPanelContents::TENTATIVE_SUFFIX)] = !identical; } void LLPanelFace::updateMediaTitle() { // only get the media name if we need it if (!mNeedMediaTitle) return; // get plugin impl LLPluginClassMedia* media_plugin = mTitleMedia->getMediaPlugin(); if (media_plugin && mTitleMedia->getCurrentNavUrl() == media_plugin->getNavigateURI()) { // get the media name (asynchronous - must call repeatedly) std::string media_title = media_plugin->getMediaName(); // only replace the title if what we get contains something if (!media_title.empty()) { // update the UI widget if (mTitleMediaText) { mTitleMediaText->setText(media_title); // stop looking for a title when we get one mNeedMediaTitle = false; }; }; }; } // // Static functions // // static F32 LLPanelFace::valueGlow(LLViewerObject* object, S32 face) { return (F32)(object->getTE(face)->getGlow()); } void LLPanelFace::onCommitColor(const LLSD& data) { sendColor(); } void LLPanelFace::onCommitShinyColor(const LLSD& data) { LLSelectedTEMaterial::setSpecularLightColor(this, getChild("shinycolorswatch")->get()); } void LLPanelFace::onCommitAlpha(const LLSD& data) { sendAlpha(); } void LLPanelFace::onCancelColor(const LLSD& data) { LLSelectMgr::getInstance()->selectionRevertColors(); } void LLPanelFace::onCancelShinyColor(const LLSD& data) { LLSelectMgr::getInstance()->selectionRevertShinyColors(); } void LLPanelFace::onSelectColor(const LLSD& data) { LLSelectMgr::getInstance()->saveSelectedObjectColors(); sendColor(); } void LLPanelFace::onSelectShinyColor(const LLSD& data) { LLSelectedTEMaterial::setSpecularLightColor(this, getChild("shinycolorswatch")->get()); LLSelectMgr::getInstance()->saveSelectedShinyColors(); } // static void LLPanelFace::onCommitMaterialsMedia(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; // Force to default states to side-step problems with menu contents // and generally reflecting old state when switching tabs or objects // self->updateShinyControls(false,true); self->updateBumpyControls(false,true); self->updateUI(); self->refreshMedia(); } void LLPanelFace::updateVisibility() { LLRadioGroup* radio_mat_type = findChild("radio_material_type"); LLRadioGroup* radio_pbr_type = findChild("radio_pbr_type"); LLComboBox* combo_shininess = findChild("combobox shininess"); LLComboBox* combo_bumpiness = findChild("combobox bumpiness"); if (!radio_mat_type || !radio_pbr_type || !mComboMatMedia || !combo_shininess || !combo_bumpiness) { LL_WARNS("Materials") << "Combo box not found...exiting." << LL_ENDL; return; } U32 materials_media = mComboMatMedia->getCurrentIndex(); U32 material_type = radio_mat_type->getSelectedIndex(); bool show_media = (materials_media == MATMEDIA_MEDIA) && mComboMatMedia->getEnabled(); bool show_material = materials_media == MATMEDIA_MATERIAL; bool show_texture = (show_media || (show_material && (material_type == MATTYPE_DIFFUSE) && mComboMatMedia->getEnabled())); bool show_bumpiness = show_material && (material_type == MATTYPE_NORMAL) && mComboMatMedia->getEnabled(); bool show_shininess = show_material && (material_type == MATTYPE_SPECULAR) && mComboMatMedia->getEnabled(); const bool show_pbr = mComboMatMedia->getCurrentIndex() == MATMEDIA_PBR && mComboMatMedia->getEnabled(); const U32 pbr_type = findChild("radio_pbr_type")->getSelectedIndex(); const LLGLTFMaterial::TextureInfo texture_info = texture_info_from_pbrtype(pbr_type); const bool show_texture_info = show_pbr && texture_info != LLGLTFMaterial::GLTF_TEXTURE_INFO_COUNT; radio_mat_type->setVisible(show_material); // Shared material controls getChildView("checkbox_sync_settings")->setVisible(show_material || show_media || show_texture_info); getChildView("tex gen")->setVisible(show_material || show_media || show_texture_info); getChildView("combobox texgen")->setVisible(show_material || show_media || show_texture_info); getChildView("button align textures")->setVisible(show_material || show_media); // Media controls mTitleMediaText->setVisible(show_media); getChildView("add_media")->setVisible(show_media); getChildView("delete_media")->setVisible(show_media); getChildView("button align")->setVisible(show_media); // Diffuse texture controls getChildView("texture control")->setVisible(show_texture && show_material); getChildView("label alphamode")->setVisible(show_texture && show_material); getChildView("combobox alphamode")->setVisible(show_texture && show_material); getChildView("label maskcutoff")->setVisible(false); getChildView("maskcutoff")->setVisible(false); if (show_texture && show_material) { updateAlphaControls(); } // texture scale and position controls getChildView("TexScaleU")->setVisible(show_texture); getChildView("TexScaleV")->setVisible(show_texture); getChildView("TexRot")->setVisible(show_texture); getChildView("TexOffsetU")->setVisible(show_texture); getChildView("TexOffsetV")->setVisible(show_texture); // Specular map controls getChildView("shinytexture control")->setVisible(show_shininess); getChildView("combobox shininess")->setVisible(show_shininess); getChildView("label shininess")->setVisible(show_shininess); getChildView("label glossiness")->setVisible(false); getChildView("glossiness")->setVisible(false); getChildView("label environment")->setVisible(false); getChildView("environment")->setVisible(false); getChildView("label shinycolor")->setVisible(false); getChildView("shinycolorswatch")->setVisible(false); if (show_shininess) { updateShinyControls(); } getChildView("shinyScaleU")->setVisible(show_shininess); getChildView("shinyScaleV")->setVisible(show_shininess); getChildView("shinyRot")->setVisible(show_shininess); getChildView("shinyOffsetU")->setVisible(show_shininess); getChildView("shinyOffsetV")->setVisible(show_shininess); // Normal map controls if (show_bumpiness) { updateBumpyControls(); } getChildView("bumpytexture control")->setVisible(show_bumpiness); getChildView("combobox bumpiness")->setVisible(show_bumpiness); getChildView("label bumpiness")->setVisible(show_bumpiness); getChildView("bumpyScaleU")->setVisible(show_bumpiness); getChildView("bumpyScaleV")->setVisible(show_bumpiness); getChildView("bumpyRot")->setVisible(show_bumpiness); getChildView("bumpyOffsetU")->setVisible(show_bumpiness); getChildView("bumpyOffsetV")->setVisible(show_bumpiness); getChild("rptctrl")->setVisible(show_material || show_media); // PBR controls updateVisibilityGLTF(); } // static void LLPanelFace::onCommitMaterialType(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; // Force to default states to side-step problems with menu contents // and generally reflecting old state when switching tabs or objects // self->updateShinyControls(false,true); self->updateBumpyControls(false,true); self->updateUI(); } // static void LLPanelFace::onCommitPbrType(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*)userdata; // Force to default states to side-step problems with menu contents // and generally reflecting old state when switching tabs or objects // self->updateUI(); } // static void LLPanelFace::onCommitBump(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; LLComboBox* mComboBumpiness = self->getChild("combobox bumpiness"); if(!mComboBumpiness) return; U32 bumpiness = mComboBumpiness->getCurrentIndex(); self->sendBump(bumpiness); } // static void LLPanelFace::onCommitTexGen(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; self->sendTexGen(); } // static void LLPanelFace::updateShinyControls(bool is_setting_texture, bool mess_with_shiny_combobox) { LLTextureCtrl* texture_ctrl = getChild("shinytexture control"); LLUUID shiny_texture_ID = texture_ctrl->getImageAssetID(); LL_DEBUGS("Materials") << "Shiny texture selected: " << shiny_texture_ID << LL_ENDL; LLComboBox* comboShiny = getChild("combobox shininess"); if(mess_with_shiny_combobox) { if (!comboShiny) { return; } if (!shiny_texture_ID.isNull() && is_setting_texture) { if (!comboShiny->itemExists(USE_TEXTURE)) { comboShiny->add(USE_TEXTURE); } comboShiny->setSimple(USE_TEXTURE); } else { if (comboShiny->itemExists(USE_TEXTURE)) { comboShiny->remove(SHINY_TEXTURE); comboShiny->selectFirstItem(); } } } else { if (shiny_texture_ID.isNull() && comboShiny && comboShiny->itemExists(USE_TEXTURE)) { comboShiny->remove(SHINY_TEXTURE); comboShiny->selectFirstItem(); } } LLRadioGroup* radio_mat_type = getChild("radio_material_type"); U32 materials_media = mComboMatMedia->getCurrentIndex(); U32 material_type = radio_mat_type->getSelectedIndex(); bool show_material = (materials_media == MATMEDIA_MATERIAL); bool show_shininess = show_material && (material_type == MATTYPE_SPECULAR) && mComboMatMedia->getEnabled(); U32 shiny_value = comboShiny->getCurrentIndex(); bool show_shinyctrls = (shiny_value == SHINY_TEXTURE) && show_shininess; // Use texture getChildView("label glossiness")->setVisible(show_shinyctrls); getChildView("glossiness")->setVisible(show_shinyctrls); getChildView("label environment")->setVisible(show_shinyctrls); getChildView("environment")->setVisible(show_shinyctrls); getChildView("label shinycolor")->setVisible(show_shinyctrls); getChildView("shinycolorswatch")->setVisible(show_shinyctrls); } // static void LLPanelFace::updateBumpyControls(bool is_setting_texture, bool mess_with_combobox) { LLTextureCtrl* texture_ctrl = getChild("bumpytexture control"); LLUUID bumpy_texture_ID = texture_ctrl->getImageAssetID(); LL_DEBUGS("Materials") << "texture: " << bumpy_texture_ID << (mess_with_combobox ? "" : " do not") << " update combobox" << LL_ENDL; LLComboBox* comboBumpy = getChild("combobox bumpiness"); if (!comboBumpy) { return; } if (mess_with_combobox) { LLTextureCtrl* texture_ctrl = getChild("bumpytexture control"); LLUUID bumpy_texture_ID = texture_ctrl->getImageAssetID(); LL_DEBUGS("Materials") << "texture: " << bumpy_texture_ID << (mess_with_combobox ? "" : " do not") << " update combobox" << LL_ENDL; if (!bumpy_texture_ID.isNull() && is_setting_texture) { if (!comboBumpy->itemExists(USE_TEXTURE)) { comboBumpy->add(USE_TEXTURE); } comboBumpy->setSimple(USE_TEXTURE); } else { if (comboBumpy->itemExists(USE_TEXTURE)) { comboBumpy->remove(BUMPY_TEXTURE); comboBumpy->selectFirstItem(); } } } } // static void LLPanelFace::onCommitShiny(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; LLComboBox* mComboShininess = self->getChild("combobox shininess"); if(!mComboShininess) return; U32 shininess = mComboShininess->getCurrentIndex(); self->sendShiny(shininess); } // static void LLPanelFace::updateAlphaControls() { LLComboBox* comboAlphaMode = getChild("combobox alphamode"); if (!comboAlphaMode) { return; } U32 alpha_value = comboAlphaMode->getCurrentIndex(); bool show_alphactrls = (alpha_value == ALPHAMODE_MASK); // Alpha masking U32 mat_media = MATMEDIA_MATERIAL; if (mComboMatMedia) { mat_media = mComboMatMedia->getCurrentIndex(); } U32 mat_type = MATTYPE_DIFFUSE; LLRadioGroup* radio_mat_type = getChild("radio_material_type"); if(radio_mat_type) { mat_type = radio_mat_type->getSelectedIndex(); } show_alphactrls = show_alphactrls && (mat_media == MATMEDIA_MATERIAL); show_alphactrls = show_alphactrls && (mat_type == MATTYPE_DIFFUSE); getChildView("label maskcutoff")->setVisible(show_alphactrls); getChildView("maskcutoff")->setVisible(show_alphactrls); } // static void LLPanelFace::onCommitAlphaMode(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; self->updateAlphaControls(); LLSelectedTEMaterial::setDiffuseAlphaMode(self,self->getCurrentDiffuseAlphaMode()); } // static void LLPanelFace::onCommitFullbright(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; self->sendFullbright(); } // static void LLPanelFace::onCommitGlow(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; self->sendGlow(); } // static BOOL LLPanelFace::onDragPbr(LLUICtrl*, LLInventoryItem* item) { BOOL accept = TRUE; for (LLObjectSelection::root_iterator iter = LLSelectMgr::getInstance()->getSelection()->root_begin(); iter != LLSelectMgr::getInstance()->getSelection()->root_end(); iter++) { LLSelectNode* node = *iter; LLViewerObject* obj = node->getObject(); if (!LLToolDragAndDrop::isInventoryDropAcceptable(obj, item)) { accept = FALSE; break; } } return accept; } void LLPanelFace::onCommitPbr(const LLSD& data) { LLTextureCtrl* pbr_ctrl = findChild("pbr_control"); if (!pbr_ctrl) return; if (!pbr_ctrl->getTentative()) { // we grab the item id first, because we want to do a // permissions check in the selection manager. ARGH! LLUUID id = pbr_ctrl->getImageItemID(); if (id.isNull()) { id = pbr_ctrl->getImageAssetID(); } LLSelectMgr::getInstance()->selectionSetGLTFMaterial(id); } } void LLPanelFace::onCancelPbr(const LLSD& data) { LLSelectMgr::getInstance()->selectionRevertGLTFMaterials(); } void LLPanelFace::onSelectPbr(const LLSD& data) { LLSelectMgr::getInstance()->saveSelectedObjectTextures(); LLTextureCtrl* pbr_ctrl = findChild("pbr_control"); if (!pbr_ctrl) return; if (!pbr_ctrl->getTentative()) { // we grab the item id first, because we want to do a // permissions check in the selection manager. ARGH! LLUUID id = pbr_ctrl->getImageItemID(); if (id.isNull()) { id = pbr_ctrl->getImageAssetID(); } LLSelectMgr::getInstance()->selectionSetGLTFMaterial(id); LLSelectedTEMaterial::setMaterialID(this, id); } } // static BOOL LLPanelFace::onDragTexture(LLUICtrl*, LLInventoryItem* item) { BOOL accept = TRUE; for (LLObjectSelection::root_iterator iter = LLSelectMgr::getInstance()->getSelection()->root_begin(); iter != LLSelectMgr::getInstance()->getSelection()->root_end(); iter++) { LLSelectNode* node = *iter; LLViewerObject* obj = node->getObject(); if (!LLToolDragAndDrop::isInventoryDropAcceptable(obj, item)) { accept = FALSE; break; } } return accept; } void LLPanelFace::onCommitTexture( const LLSD& data ) { add(LLStatViewer::EDIT_TEXTURE, 1); sendTexture(); } void LLPanelFace::onCancelTexture(const LLSD& data) { LLSelectMgr::getInstance()->selectionRevertTextures(); } void LLPanelFace::onSelectTexture(const LLSD& data) { LLSelectMgr::getInstance()->saveSelectedObjectTextures(); sendTexture(); LLGLenum image_format; bool identical_image_format = false; LLSelectedTE::getImageFormat(image_format, identical_image_format); LLCtrlSelectionInterface* combobox_alphamode = childGetSelectionInterface("combobox alphamode"); U32 alpha_mode = LLMaterial::DIFFUSE_ALPHA_MODE_NONE; if (combobox_alphamode) { switch (image_format) { case GL_RGBA: case GL_ALPHA: { alpha_mode = LLMaterial::DIFFUSE_ALPHA_MODE_BLEND; } break; case GL_RGB: break; default: { LL_WARNS() << "Unexpected tex format in LLPanelFace...resorting to no alpha" << LL_ENDL; } break; } combobox_alphamode->selectNthItem(alpha_mode); } LLSelectedTEMaterial::setDiffuseAlphaMode(this, getCurrentDiffuseAlphaMode()); } void LLPanelFace::onCloseTexturePicker(const LLSD& data) { LL_DEBUGS("Materials") << data << LL_ENDL; updateUI(); } void LLPanelFace::onCommitSpecularTexture( const LLSD& data ) { LL_DEBUGS("Materials") << data << LL_ENDL; sendShiny(SHINY_TEXTURE); } void LLPanelFace::onCommitNormalTexture( const LLSD& data ) { LL_DEBUGS("Materials") << data << LL_ENDL; LLUUID nmap_id = getCurrentNormalMap(); sendBump(nmap_id.isNull() ? 0 : BUMPY_TEXTURE); } void LLPanelFace::onCancelSpecularTexture(const LLSD& data) { U8 shiny = 0; bool identical_shiny = false; LLSelectedTE::getShiny(shiny, identical_shiny); LLUUID spec_map_id = getChild("shinytexture control")->getImageAssetID(); shiny = spec_map_id.isNull() ? shiny : SHINY_TEXTURE; sendShiny(shiny); } void LLPanelFace::onCancelNormalTexture(const LLSD& data) { U8 bumpy = 0; bool identical_bumpy = false; LLSelectedTE::getBumpmap(bumpy, identical_bumpy); LLUUID spec_map_id = getChild("bumpytexture control")->getImageAssetID(); bumpy = spec_map_id.isNull() ? bumpy : BUMPY_TEXTURE; sendBump(bumpy); } void LLPanelFace::onSelectSpecularTexture(const LLSD& data) { LL_DEBUGS("Materials") << data << LL_ENDL; sendShiny(SHINY_TEXTURE); } void LLPanelFace::onSelectNormalTexture(const LLSD& data) { LL_DEBUGS("Materials") << data << LL_ENDL; LLUUID nmap_id = getCurrentNormalMap(); sendBump(nmap_id.isNull() ? 0 : BUMPY_TEXTURE); } ////////////////////////////////////////////////////////////////////////////// // called when a user wants to edit existing media settings on a prim or prim face // TODO: test if there is media on the item and only allow editing if present void LLPanelFace::onClickBtnEditMedia(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*)userdata; self->refreshMedia(); LLFloaterReg::showInstance("media_settings"); } ////////////////////////////////////////////////////////////////////////////// // called when a user wants to delete media from a prim or prim face void LLPanelFace::onClickBtnDeleteMedia(LLUICtrl* ctrl, void* userdata) { LLNotificationsUtil::add("DeleteMedia", LLSD(), LLSD(), deleteMediaConfirm); } ////////////////////////////////////////////////////////////////////////////// // called when a user wants to add media to a prim or prim face void LLPanelFace::onClickBtnAddMedia(LLUICtrl* ctrl, void* userdata) { // check if multiple faces are selected if (LLSelectMgr::getInstance()->getSelection()->isMultipleTESelected()) { LLPanelFace* self = (LLPanelFace*)userdata; self->refreshMedia(); LLNotificationsUtil::add("MultipleFacesSelected", LLSD(), LLSD(), multipleFacesSelectedConfirm); } else { onClickBtnEditMedia(ctrl, userdata); } } // static bool LLPanelFace::deleteMediaConfirm(const LLSD& notification, const LLSD& response) { S32 option = LLNotificationsUtil::getSelectedOption(notification, response); switch (option) { case 0: // "Yes" LLSelectMgr::getInstance()->selectionSetMedia(0, LLSD()); if (LLFloaterReg::instanceVisible("media_settings")) { LLFloaterReg::hideInstance("media_settings"); } break; case 1: // "No" default: break; } return false; } // static bool LLPanelFace::multipleFacesSelectedConfirm(const LLSD& notification, const LLSD& response) { S32 option = LLNotificationsUtil::getSelectedOption(notification, response); switch (option) { case 0: // "Yes" LLFloaterReg::showInstance("media_settings"); break; case 1: // "No" default: break; } return false; } //static void LLPanelFace::syncOffsetX(LLPanelFace* self, F32 offsetU) { LLSelectedTEMaterial::setNormalOffsetX(self,offsetU); LLSelectedTEMaterial::setSpecularOffsetX(self,offsetU); self->getChild("TexOffsetU")->forceSetValue(offsetU); self->sendTextureInfo(); } //static void LLPanelFace::syncOffsetY(LLPanelFace* self, F32 offsetV) { LLSelectedTEMaterial::setNormalOffsetY(self,offsetV); LLSelectedTEMaterial::setSpecularOffsetY(self,offsetV); self->getChild("TexOffsetV")->forceSetValue(offsetV); self->sendTextureInfo(); } //static void LLPanelFace::onCommitMaterialBumpyOffsetX(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; llassert_always(self); if (gSavedSettings.getBOOL("SyncMaterialSettings")) { syncOffsetX(self,self->getCurrentBumpyOffsetU()); } else { LLSelectedTEMaterial::setNormalOffsetX(self,self->getCurrentBumpyOffsetU()); } } //static void LLPanelFace::onCommitMaterialBumpyOffsetY(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; llassert_always(self); if (gSavedSettings.getBOOL("SyncMaterialSettings")) { syncOffsetY(self,self->getCurrentBumpyOffsetV()); } else { LLSelectedTEMaterial::setNormalOffsetY(self,self->getCurrentBumpyOffsetV()); } } //static void LLPanelFace::onCommitMaterialShinyOffsetX(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; llassert_always(self); if (gSavedSettings.getBOOL("SyncMaterialSettings")) { syncOffsetX(self, self->getCurrentShinyOffsetU()); } else { LLSelectedTEMaterial::setSpecularOffsetX(self,self->getCurrentShinyOffsetU()); } } //static void LLPanelFace::onCommitMaterialShinyOffsetY(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; llassert_always(self); if (gSavedSettings.getBOOL("SyncMaterialSettings")) { syncOffsetY(self,self->getCurrentShinyOffsetV()); } else { LLSelectedTEMaterial::setSpecularOffsetY(self,self->getCurrentShinyOffsetV()); } } //static void LLPanelFace::syncRepeatX(LLPanelFace* self, F32 scaleU) { LLSelectedTEMaterial::setNormalRepeatX(self,scaleU); LLSelectedTEMaterial::setSpecularRepeatX(self,scaleU); self->sendTextureInfo(); } //static void LLPanelFace::syncRepeatY(LLPanelFace* self, F32 scaleV) { LLSelectedTEMaterial::setNormalRepeatY(self,scaleV); LLSelectedTEMaterial::setSpecularRepeatY(self,scaleV); self->sendTextureInfo(); } //static void LLPanelFace::onCommitMaterialBumpyScaleX(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; llassert_always(self); F32 bumpy_scale_u = self->getCurrentBumpyScaleU(); if (self->isIdenticalPlanarTexgen()) { bumpy_scale_u *= 0.5f; } if (gSavedSettings.getBOOL("SyncMaterialSettings")) { self->getChild("TexScaleU")->forceSetValue(self->getCurrentBumpyScaleU()); syncRepeatX(self, bumpy_scale_u); } else { LLSelectedTEMaterial::setNormalRepeatX(self,bumpy_scale_u); } } //static void LLPanelFace::onCommitMaterialBumpyScaleY(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; llassert_always(self); F32 bumpy_scale_v = self->getCurrentBumpyScaleV(); if (self->isIdenticalPlanarTexgen()) { bumpy_scale_v *= 0.5f; } if (gSavedSettings.getBOOL("SyncMaterialSettings")) { self->getChild("TexScaleV")->forceSetValue(self->getCurrentBumpyScaleV()); syncRepeatY(self, bumpy_scale_v); } else { LLSelectedTEMaterial::setNormalRepeatY(self,bumpy_scale_v); } } //static void LLPanelFace::onCommitMaterialShinyScaleX(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; llassert_always(self); F32 shiny_scale_u = self->getCurrentShinyScaleU(); if (self->isIdenticalPlanarTexgen()) { shiny_scale_u *= 0.5f; } if (gSavedSettings.getBOOL("SyncMaterialSettings")) { self->getChild("TexScaleU")->forceSetValue(self->getCurrentShinyScaleU()); syncRepeatX(self, shiny_scale_u); } else { LLSelectedTEMaterial::setSpecularRepeatX(self,shiny_scale_u); } } //static void LLPanelFace::onCommitMaterialShinyScaleY(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; llassert_always(self); F32 shiny_scale_v = self->getCurrentShinyScaleV(); if (self->isIdenticalPlanarTexgen()) { shiny_scale_v *= 0.5f; } if (gSavedSettings.getBOOL("SyncMaterialSettings")) { self->getChild("TexScaleV")->forceSetValue(self->getCurrentShinyScaleV()); syncRepeatY(self, shiny_scale_v); } else { LLSelectedTEMaterial::setSpecularRepeatY(self,shiny_scale_v); } } //static void LLPanelFace::syncMaterialRot(LLPanelFace* self, F32 rot, int te) { LLSelectedTEMaterial::setNormalRotation(self,rot * DEG_TO_RAD, te); LLSelectedTEMaterial::setSpecularRotation(self,rot * DEG_TO_RAD, te); self->sendTextureInfo(); } //static void LLPanelFace::onCommitMaterialBumpyRot(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; llassert_always(self); if (gSavedSettings.getBOOL("SyncMaterialSettings")) { self->getChild("TexRot")->forceSetValue(self->getCurrentBumpyRot()); syncMaterialRot(self, self->getCurrentBumpyRot()); } else { if ((bool)self->childGetValue("checkbox planar align").asBoolean()) { LLFace* last_face = NULL; bool identical_face = false; LLSelectedTE::getFace(last_face, identical_face); LLPanelFaceSetAlignedTEFunctor setfunc(self, last_face); LLSelectMgr::getInstance()->getSelection()->applyToTEs(&setfunc); } else { LLSelectedTEMaterial::setNormalRotation(self, self->getCurrentBumpyRot() * DEG_TO_RAD); } } } //static void LLPanelFace::onCommitMaterialShinyRot(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; llassert_always(self); if (gSavedSettings.getBOOL("SyncMaterialSettings")) { self->getChild("TexRot")->forceSetValue(self->getCurrentShinyRot()); syncMaterialRot(self, self->getCurrentShinyRot()); } else { if ((bool)self->childGetValue("checkbox planar align").asBoolean()) { LLFace* last_face = NULL; bool identical_face = false; LLSelectedTE::getFace(last_face, identical_face); LLPanelFaceSetAlignedTEFunctor setfunc(self, last_face); LLSelectMgr::getInstance()->getSelection()->applyToTEs(&setfunc); } else { LLSelectedTEMaterial::setSpecularRotation(self, self->getCurrentShinyRot() * DEG_TO_RAD); } } } //static void LLPanelFace::onCommitMaterialGloss(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; llassert_always(self); LLSelectedTEMaterial::setSpecularLightExponent(self,self->getCurrentGlossiness()); } //static void LLPanelFace::onCommitMaterialEnv(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; llassert_always(self); LLSelectedTEMaterial::setEnvironmentIntensity(self,self->getCurrentEnvIntensity()); } //static void LLPanelFace::onCommitMaterialMaskCutoff(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; LLSelectedTEMaterial::setAlphaMaskCutoff(self,self->getCurrentAlphaMaskCutoff()); } // static void LLPanelFace::onCommitTextureInfo( LLUICtrl* ctrl, void* userdata ) { LLPanelFace* self = (LLPanelFace*) userdata; self->sendTextureInfo(); // vertical scale and repeats per meter depends on each other, so force set on changes self->updateUI(true); } // static void LLPanelFace::onCommitTextureScaleX( LLUICtrl* ctrl, void* userdata ) { LLPanelFace* self = (LLPanelFace*) userdata; if (gSavedSettings.getBOOL("SyncMaterialSettings")) { F32 bumpy_scale_u = self->getChild("TexScaleU")->getValue().asReal(); if (self->isIdenticalPlanarTexgen()) { bumpy_scale_u *= 0.5f; } syncRepeatX(self, bumpy_scale_u); } else { self->sendTextureInfo(); } self->updateUI(true); } // static void LLPanelFace::onCommitTextureScaleY( LLUICtrl* ctrl, void* userdata ) { LLPanelFace* self = (LLPanelFace*) userdata; if (gSavedSettings.getBOOL("SyncMaterialSettings")) { F32 bumpy_scale_v = self->getChild("TexScaleV")->getValue().asReal(); if (self->isIdenticalPlanarTexgen()) { bumpy_scale_v *= 0.5f; } syncRepeatY(self, bumpy_scale_v); } else { self->sendTextureInfo(); } self->updateUI(true); } // static void LLPanelFace::onCommitTextureRot( LLUICtrl* ctrl, void* userdata ) { LLPanelFace* self = (LLPanelFace*) userdata; if (gSavedSettings.getBOOL("SyncMaterialSettings")) { syncMaterialRot(self, self->getChild("TexRot")->getValue().asReal()); } else { self->sendTextureInfo(); } self->updateUI(true); } // static void LLPanelFace::onCommitTextureOffsetX( LLUICtrl* ctrl, void* userdata ) { LLPanelFace* self = (LLPanelFace*) userdata; if (gSavedSettings.getBOOL("SyncMaterialSettings")) { syncOffsetX(self, self->getChild("TexOffsetU")->getValue().asReal()); } else { self->sendTextureInfo(); } self->updateUI(true); } // static void LLPanelFace::onCommitTextureOffsetY( LLUICtrl* ctrl, void* userdata ) { LLPanelFace* self = (LLPanelFace*) userdata; if (gSavedSettings.getBOOL("SyncMaterialSettings")) { syncOffsetY(self, self->getChild("TexOffsetV")->getValue().asReal()); } else { self->sendTextureInfo(); } self->updateUI(true); } // Commit the number of repeats per meter // static void LLPanelFace::onCommitRepeatsPerMeter(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; LLUICtrl* repeats_ctrl = self->getChild("rptctrl"); U32 materials_media = self->mComboMatMedia->getCurrentIndex(); U32 material_type = 0; if (materials_media == MATMEDIA_PBR) { LLRadioGroup* radio_mat_type = self->getChild("radio_pbr_type"); material_type = radio_mat_type->getSelectedIndex(); } if (materials_media == MATMEDIA_MATERIAL) { LLRadioGroup* radio_mat_type = self->getChild("radio_material_type"); material_type = radio_mat_type->getSelectedIndex(); } F32 repeats_per_meter = repeats_ctrl->getValue().asReal(); F32 obj_scale_s = 1.0f; F32 obj_scale_t = 1.0f; bool identical_scale_s = false; bool identical_scale_t = false; LLSelectedTE::getObjectScaleS(obj_scale_s, identical_scale_s); LLSelectedTE::getObjectScaleS(obj_scale_t, identical_scale_t); LLUICtrl* bumpy_scale_u = self->getChild("bumpyScaleU"); LLUICtrl* bumpy_scale_v = self->getChild("bumpyScaleV"); LLUICtrl* shiny_scale_u = self->getChild("shinyScaleU"); LLUICtrl* shiny_scale_v = self->getChild("shinyScaleV"); if (gSavedSettings.getBOOL("SyncMaterialSettings")) { LLSelectMgr::getInstance()->selectionTexScaleAutofit( repeats_per_meter ); bumpy_scale_u->setValue(obj_scale_s * repeats_per_meter); bumpy_scale_v->setValue(obj_scale_t * repeats_per_meter); LLSelectedTEMaterial::setNormalRepeatX(self,obj_scale_s * repeats_per_meter); LLSelectedTEMaterial::setNormalRepeatY(self,obj_scale_t * repeats_per_meter); shiny_scale_u->setValue(obj_scale_s * repeats_per_meter); shiny_scale_v->setValue(obj_scale_t * repeats_per_meter); LLSelectedTEMaterial::setSpecularRepeatX(self,obj_scale_s * repeats_per_meter); LLSelectedTEMaterial::setSpecularRepeatY(self,obj_scale_t * repeats_per_meter); } else { switch (material_type) { case MATTYPE_DIFFUSE: { LLSelectMgr::getInstance()->selectionTexScaleAutofit( repeats_per_meter ); } break; case MATTYPE_NORMAL: { bumpy_scale_u->setValue(obj_scale_s * repeats_per_meter); bumpy_scale_v->setValue(obj_scale_t * repeats_per_meter); LLSelectedTEMaterial::setNormalRepeatX(self,obj_scale_s * repeats_per_meter); LLSelectedTEMaterial::setNormalRepeatY(self,obj_scale_t * repeats_per_meter); } break; case MATTYPE_SPECULAR: { shiny_scale_u->setValue(obj_scale_s * repeats_per_meter); shiny_scale_v->setValue(obj_scale_t * repeats_per_meter); LLSelectedTEMaterial::setSpecularRepeatX(self,obj_scale_s * repeats_per_meter); LLSelectedTEMaterial::setSpecularRepeatY(self,obj_scale_t * repeats_per_meter); } break; default: llassert(false); break; } } // vertical scale and repeats per meter depends on each other, so force set on changes self->updateUI(true); } struct LLPanelFaceSetMediaFunctor : public LLSelectedTEFunctor { virtual bool apply(LLViewerObject* object, S32 te) { viewer_media_t pMediaImpl; const LLTextureEntry* tep = object->getTE(te); const LLMediaEntry* mep = tep->hasMedia() ? tep->getMediaData() : NULL; if ( mep ) { pMediaImpl = LLViewerMedia::getInstance()->getMediaImplFromTextureID(mep->getMediaID()); } if ( pMediaImpl.isNull()) { // If we didn't find face media for this face, check whether this face is showing parcel media. pMediaImpl = LLViewerMedia::getInstance()->getMediaImplFromTextureID(tep->getID()); } if ( pMediaImpl.notNull()) { LLPluginClassMedia *media = pMediaImpl->getMediaPlugin(); if(media) { S32 media_width = media->getWidth(); S32 media_height = media->getHeight(); S32 texture_width = media->getTextureWidth(); S32 texture_height = media->getTextureHeight(); F32 scale_s = (F32)media_width / (F32)texture_width; F32 scale_t = (F32)media_height / (F32)texture_height; // set scale and adjust offset object->setTEScaleS( te, scale_s ); object->setTEScaleT( te, scale_t ); // don't need to flip Y anymore since QT does this for us now. object->setTEOffsetS( te, -( 1.0f - scale_s ) / 2.0f ); object->setTEOffsetT( te, -( 1.0f - scale_t ) / 2.0f ); } } return true; }; }; void LLPanelFace::onClickAutoFix(void* userdata) { LLPanelFaceSetMediaFunctor setfunc; LLSelectMgr::getInstance()->getSelection()->applyToTEs(&setfunc); LLPanelFaceSendFunctor sendfunc; LLSelectMgr::getInstance()->getSelection()->applyToObjects(&sendfunc); } void LLPanelFace::onAlignTexture(void* userdata) { LLPanelFace* self = (LLPanelFace*)userdata; self->alignTestureLayer(); } void LLPanelFace::onClickBtnLoadInvPBR(void* userdata) { // Shouldn't this be "save to inventory?" LLPanelFace* self = (LLPanelFace*)userdata; LLTextureCtrl* pbr_ctrl = self->findChild("pbr_control"); pbr_ctrl->showPicker(true); } void LLPanelFace::onClickBtnEditPBR(void* userdata) { LLMaterialEditor::loadLive(); } void LLPanelFace::onClickBtnSavePBR(void* userdata) { LLMaterialEditor::saveObjectsMaterialAs(); } enum EPasteMode { PASTE_COLOR, PASTE_TEXTURE }; struct LLPanelFacePasteTexFunctor : public LLSelectedTEFunctor { LLPanelFacePasteTexFunctor(LLPanelFace* panel, EPasteMode mode) : mPanelFace(panel), mMode(mode) {} virtual bool apply(LLViewerObject* objectp, S32 te) { switch (mMode) { case PASTE_COLOR: mPanelFace->onPasteColor(objectp, te); break; case PASTE_TEXTURE: mPanelFace->onPasteTexture(objectp, te); break; } return true; } private: LLPanelFace *mPanelFace; EPasteMode mMode; }; struct LLPanelFaceUpdateFunctor : public LLSelectedObjectFunctor { LLPanelFaceUpdateFunctor(bool update_media, bool update_pbr) : mUpdateMedia(update_media) , mUpdatePbr(update_pbr) {} virtual bool apply(LLViewerObject* object) { if (mUpdatePbr) { // setRenderMaterialId is supposed to create it LLRenderMaterialParams* param_block = (LLRenderMaterialParams*)object->getParameterEntry(LLNetworkData::PARAMS_RENDER_MATERIAL); if (param_block) { if (param_block->isEmpty()) { object->setHasRenderMaterialParams(false); } else if (object->hasRenderMaterialParams()) { object->parameterChanged(LLNetworkData::PARAMS_RENDER_MATERIAL, true); } else { object->setHasRenderMaterialParams(true); } } } object->sendTEUpdate(); if (mUpdateMedia) { LLVOVolume *vo = dynamic_cast(object); if (vo && vo->hasMedia()) { vo->sendMediaDataUpdate(); } } return true; } private: bool mUpdateMedia; bool mUpdatePbr; }; struct LLPanelFaceNavigateHomeFunctor : public LLSelectedTEFunctor { virtual bool apply(LLViewerObject* objectp, S32 te) { if (objectp && objectp->getTE(te)) { LLTextureEntry* tep = objectp->getTE(te); const LLMediaEntry *media_data = tep->getMediaData(); if (media_data) { if (media_data->getCurrentURL().empty() && media_data->getAutoPlay()) { viewer_media_t media_impl = LLViewerMedia::getInstance()->getMediaImplFromTextureID(tep->getMediaData()->getMediaID()); if (media_impl) { media_impl->navigateHome(); } } } } return true; } }; void LLPanelFace::onCopyColor() { LLViewerObject* objectp = LLSelectMgr::getInstance()->getSelection()->getFirstObject(); LLSelectNode* node = LLSelectMgr::getInstance()->getSelection()->getFirstNode(); S32 selected_count = LLSelectMgr::getInstance()->getSelection()->getObjectCount(); if (!objectp || !node || objectp->getPCode() != LL_PCODE_VOLUME || !objectp->permModify() || objectp->isPermanentEnforced() || selected_count > 1) { return; } if (mClipboardParams.has("color")) { mClipboardParams["color"].clear(); } else { mClipboardParams["color"] = LLSD::emptyArray(); } std::map asset_item_map; // a way to resolve situations where source and target have different amount of faces S32 num_tes = llmin((S32)objectp->getNumTEs(), (S32)objectp->getNumFaces()); mClipboardParams["color_all_tes"] = (num_tes != 1) || (LLToolFace::getInstance() == LLToolMgr::getInstance()->getCurrentTool()); for (S32 te = 0; te < num_tes; ++te) { if (node->isTESelected(te)) { LLTextureEntry* tep = objectp->getTE(te); if (tep) { LLSD te_data; // asLLSD() includes media te_data["te"] = tep->asLLSD(); // Note: includes a lot more than just color/alpha/glow mClipboardParams["color"].append(te_data); } } } } void LLPanelFace::onPasteColor() { if (!mClipboardParams.has("color")) { return; } LLViewerObject* objectp = LLSelectMgr::getInstance()->getSelection()->getFirstObject(); LLSelectNode* node = LLSelectMgr::getInstance()->getSelection()->getFirstNode(); S32 selected_count = LLSelectMgr::getInstance()->getSelection()->getObjectCount(); if (!objectp || !node || objectp->getPCode() != LL_PCODE_VOLUME || !objectp->permModify() || objectp->isPermanentEnforced() || selected_count > 1) { // not supposed to happen LL_WARNS() << "Failed to paste color due to missing or wrong selection" << LL_ENDL; return; } bool face_selection_mode = LLToolFace::getInstance() == LLToolMgr::getInstance()->getCurrentTool(); LLSD &clipboard = mClipboardParams["color"]; // array S32 num_tes = llmin((S32)objectp->getNumTEs(), (S32)objectp->getNumFaces()); S32 compare_tes = num_tes; if (face_selection_mode) { compare_tes = 0; for (S32 te = 0; te < num_tes; ++te) { if (node->isTESelected(te)) { compare_tes++; } } } // we can copy if single face was copied in edit face mode or if face count matches if (!((clipboard.size() == 1) && mClipboardParams["color_all_tes"].asBoolean()) && compare_tes != clipboard.size()) { LLSD notif_args; if (face_selection_mode) { static std::string reason = getString("paste_error_face_selection_mismatch"); notif_args["REASON"] = reason; } else { static std::string reason = getString("paste_error_object_face_count_mismatch"); notif_args["REASON"] = reason; } LLNotificationsUtil::add("FacePasteFailed", notif_args); return; } LLObjectSelectionHandle selected_objects = LLSelectMgr::getInstance()->getSelection(); LLPanelFacePasteTexFunctor paste_func(this, PASTE_COLOR); selected_objects->applyToTEs(&paste_func); LLPanelFaceUpdateFunctor sendfunc(false, false); selected_objects->applyToObjects(&sendfunc); } void LLPanelFace::onPasteColor(LLViewerObject* objectp, S32 te) { LLSD te_data; LLSD &clipboard = mClipboardParams["color"]; // array if ((clipboard.size() == 1) && mClipboardParams["color_all_tes"].asBoolean()) { te_data = *(clipboard.beginArray()); } else if (clipboard[te]) { te_data = clipboard[te]; } else { return; } LLTextureEntry* tep = objectp->getTE(te); if (tep) { if (te_data.has("te")) { // Color / Alpha if (te_data["te"].has("colors")) { LLColor4 color = tep->getColor(); LLColor4 clip_color; clip_color.setValue(te_data["te"]["colors"]); // Color color.mV[VRED] = clip_color.mV[VRED]; color.mV[VGREEN] = clip_color.mV[VGREEN]; color.mV[VBLUE] = clip_color.mV[VBLUE]; // Alpha color.mV[VALPHA] = clip_color.mV[VALPHA]; objectp->setTEColor(te, color); } // Color/fullbright if (te_data["te"].has("fullbright")) { objectp->setTEFullbright(te, te_data["te"]["fullbright"].asInteger()); } // Glow if (te_data["te"].has("glow")) { objectp->setTEGlow(te, (F32)te_data["te"]["glow"].asReal()); } } } } void LLPanelFace::onCopyTexture() { LLViewerObject* objectp = LLSelectMgr::getInstance()->getSelection()->getFirstObject(); LLSelectNode* node = LLSelectMgr::getInstance()->getSelection()->getFirstNode(); S32 selected_count = LLSelectMgr::getInstance()->getSelection()->getObjectCount(); if (!objectp || !node || objectp->getPCode() != LL_PCODE_VOLUME || !objectp->permModify() || objectp->isPermanentEnforced() || selected_count > 1) { return; } if (mClipboardParams.has("texture")) { mClipboardParams["texture"].clear(); } else { mClipboardParams["texture"] = LLSD::emptyArray(); } std::map asset_item_map; // a way to resolve situations where source and target have different amount of faces S32 num_tes = llmin((S32)objectp->getNumTEs(), (S32)objectp->getNumFaces()); mClipboardParams["texture_all_tes"] = (num_tes != 1) || (LLToolFace::getInstance() == LLToolMgr::getInstance()->getCurrentTool()); for (S32 te = 0; te < num_tes; ++te) { if (node->isTESelected(te)) { LLTextureEntry* tep = objectp->getTE(te); if (tep) { LLSD te_data; // asLLSD() includes media te_data["te"] = tep->asLLSD(); te_data["te"]["shiny"] = tep->getShiny(); te_data["te"]["bumpmap"] = tep->getBumpmap(); te_data["te"]["bumpshiny"] = tep->getBumpShiny(); te_data["te"]["bumpfullbright"] = tep->getBumpShinyFullbright(); te_data["te"]["pbr"] = objectp->getRenderMaterialID(te); if (tep->getGLTFMaterialOverride() != nullptr) { te_data["te"]["pbr_override"] = tep->getGLTFMaterialOverride()->asJSON(); } if (te_data["te"].has("imageid")) { LLUUID item_id; LLUUID id = te_data["te"]["imageid"].asUUID(); bool from_library = get_is_predefined_texture(id); bool full_perm = from_library; if (!full_perm && objectp->permCopy() && objectp->permTransfer() && objectp->permModify()) { // If agent created this object and nothing is limiting permissions, mark as full perm // If agent was granted permission to edit objects owned and created by somebody else, mark full perm // This check is not perfect since we can't figure out whom textures belong to so this ended up restrictive std::string creator_app_link; LLUUID creator_id; LLSelectMgr::getInstance()->selectGetCreator(creator_id, creator_app_link); full_perm = objectp->mOwnerID == creator_id; } if (id.notNull() && !full_perm) { std::map::iterator iter = asset_item_map.find(id); if (iter != asset_item_map.end()) { item_id = iter->second; } else { // What this does is simply searches inventory for item with same asset id, // as result it is Hightly unreliable, leaves little control to user, borderline hack // but there are little options to preserve permissions - multiple inventory // items might reference same asset and inventory search is expensive. bool no_transfer = false; if (objectp->getInventoryItemByAsset(id)) { no_transfer = !objectp->getInventoryItemByAsset(id)->getIsFullPerm(); } item_id = get_copy_free_item_by_asset_id(id, no_transfer); // record value to avoid repeating inventory search when possible asset_item_map[id] = item_id; } } if (item_id.notNull() && gInventory.isObjectDescendentOf(item_id, gInventory.getLibraryRootFolderID())) { full_perm = true; from_library = true; } { te_data["te"]["itemfullperm"] = full_perm; te_data["te"]["fromlibrary"] = from_library; // If full permission object, texture is free to copy, // but otherwise we need to check inventory and extract permissions // // Normally we care only about restrictions for current user and objects // don't inherit any 'next owner' permissions from texture, so there is // no need to record item id if full_perm==true if (!full_perm && !from_library && item_id.notNull()) { LLViewerInventoryItem* itemp = gInventory.getItem(item_id); if (itemp) { LLPermissions item_permissions = itemp->getPermissions(); if (item_permissions.allowOperationBy(PERM_COPY, gAgent.getID(), gAgent.getGroupID())) { te_data["te"]["imageitemid"] = item_id; te_data["te"]["itemfullperm"] = itemp->getIsFullPerm(); if (!itemp->isFinished()) { // needed for dropTextureAllFaces LLInventoryModelBackgroundFetch::instance().start(item_id, false); } } } } } } LLMaterialPtr material_ptr = tep->getMaterialParams(); if (!material_ptr.isNull()) { LLSD mat_data; mat_data["NormMap"] = material_ptr->getNormalID(); mat_data["SpecMap"] = material_ptr->getSpecularID(); mat_data["NormRepX"] = material_ptr->getNormalRepeatX(); mat_data["NormRepY"] = material_ptr->getNormalRepeatY(); mat_data["NormOffX"] = material_ptr->getNormalOffsetX(); mat_data["NormOffY"] = material_ptr->getNormalOffsetY(); mat_data["NormRot"] = material_ptr->getNormalRotation(); mat_data["SpecRepX"] = material_ptr->getSpecularRepeatX(); mat_data["SpecRepY"] = material_ptr->getSpecularRepeatY(); mat_data["SpecOffX"] = material_ptr->getSpecularOffsetX(); mat_data["SpecOffY"] = material_ptr->getSpecularOffsetY(); mat_data["SpecRot"] = material_ptr->getSpecularRotation(); mat_data["SpecColor"] = material_ptr->getSpecularLightColor().getValue(); mat_data["SpecExp"] = material_ptr->getSpecularLightExponent(); mat_data["EnvIntensity"] = material_ptr->getEnvironmentIntensity(); mat_data["AlphaMaskCutoff"] = material_ptr->getAlphaMaskCutoff(); mat_data["DiffuseAlphaMode"] = material_ptr->getDiffuseAlphaMode(); // Replace no-copy textures, destination texture will get used instead if available if (mat_data.has("NormMap")) { LLUUID id = mat_data["NormMap"].asUUID(); if (id.notNull() && !get_can_copy_texture(id)) { mat_data["NormMap"] = LLUUID(gSavedSettings.getString("DefaultObjectTexture")); mat_data["NormMapNoCopy"] = true; } } if (mat_data.has("SpecMap")) { LLUUID id = mat_data["SpecMap"].asUUID(); if (id.notNull() && !get_can_copy_texture(id)) { mat_data["SpecMap"] = LLUUID(gSavedSettings.getString("DefaultObjectTexture")); mat_data["SpecMapNoCopy"] = true; } } te_data["material"] = mat_data; } mClipboardParams["texture"].append(te_data); } } } } void LLPanelFace::onPasteTexture() { if (!mClipboardParams.has("texture")) { return; } LLViewerObject* objectp = LLSelectMgr::getInstance()->getSelection()->getFirstObject(); LLSelectNode* node = LLSelectMgr::getInstance()->getSelection()->getFirstNode(); S32 selected_count = LLSelectMgr::getInstance()->getSelection()->getObjectCount(); if (!objectp || !node || objectp->getPCode() != LL_PCODE_VOLUME || !objectp->permModify() || objectp->isPermanentEnforced() || selected_count > 1) { // not supposed to happen LL_WARNS() << "Failed to paste texture due to missing or wrong selection" << LL_ENDL; return; } bool face_selection_mode = LLToolFace::getInstance() == LLToolMgr::getInstance()->getCurrentTool(); LLSD &clipboard = mClipboardParams["texture"]; // array S32 num_tes = llmin((S32)objectp->getNumTEs(), (S32)objectp->getNumFaces()); S32 compare_tes = num_tes; if (face_selection_mode) { compare_tes = 0; for (S32 te = 0; te < num_tes; ++te) { if (node->isTESelected(te)) { compare_tes++; } } } // we can copy if single face was copied in edit face mode or if face count matches if (!((clipboard.size() == 1) && mClipboardParams["texture_all_tes"].asBoolean()) && compare_tes != clipboard.size()) { LLSD notif_args; if (face_selection_mode) { static std::string reason = getString("paste_error_face_selection_mismatch"); notif_args["REASON"] = reason; } else { static std::string reason = getString("paste_error_object_face_count_mismatch"); notif_args["REASON"] = reason; } LLNotificationsUtil::add("FacePasteFailed", notif_args); return; } bool full_perm_object = true; LLSD::array_const_iterator iter = clipboard.beginArray(); LLSD::array_const_iterator end = clipboard.endArray(); for (; iter != end; ++iter) { const LLSD& te_data = *iter; if (te_data.has("te") && te_data["te"].has("imageid")) { bool full_perm = te_data["te"].has("itemfullperm") && te_data["te"]["itemfullperm"].asBoolean(); full_perm_object &= full_perm; if (!full_perm) { if (te_data["te"].has("imageitemid")) { LLUUID item_id = te_data["te"]["imageitemid"].asUUID(); if (item_id.notNull()) { LLViewerInventoryItem* itemp = gInventory.getItem(item_id); if (!itemp) { // image might be in object's inventory, but it can be not up to date LLSD notif_args; static std::string reason = getString("paste_error_inventory_not_found"); notif_args["REASON"] = reason; LLNotificationsUtil::add("FacePasteFailed", notif_args); return; } } } else { // Item was not found on 'copy' stage // Since this happened at copy, might be better to either show this // at copy stage or to drop clipboard here LLSD notif_args; static std::string reason = getString("paste_error_inventory_not_found"); notif_args["REASON"] = reason; LLNotificationsUtil::add("FacePasteFailed", notif_args); return; } } } } if (!full_perm_object) { LLNotificationsUtil::add("FacePasteTexturePermissions"); } LLObjectSelectionHandle selected_objects = LLSelectMgr::getInstance()->getSelection(); LLPanelFacePasteTexFunctor paste_func(this, PASTE_TEXTURE); selected_objects->applyToTEs(&paste_func); LLPanelFaceUpdateFunctor sendfunc(true, true); selected_objects->applyToObjects(&sendfunc); LLGLTFMaterialList::flushUpdates(); LLPanelFaceNavigateHomeFunctor navigate_home_func; selected_objects->applyToTEs(&navigate_home_func); } void LLPanelFace::onPasteTexture(LLViewerObject* objectp, S32 te) { LLSD te_data; LLSD &clipboard = mClipboardParams["texture"]; // array if ((clipboard.size() == 1) && mClipboardParams["texture_all_tes"].asBoolean()) { te_data = *(clipboard.beginArray()); } else if (clipboard[te]) { te_data = clipboard[te]; } else { return; } LLTextureEntry* tep = objectp->getTE(te); if (tep) { if (te_data.has("te")) { // Texture bool full_perm = te_data["te"].has("itemfullperm") && te_data["te"]["itemfullperm"].asBoolean(); bool from_library = te_data["te"].has("fromlibrary") && te_data["te"]["fromlibrary"].asBoolean(); if (te_data["te"].has("imageid")) { const LLUUID& imageid = te_data["te"]["imageid"].asUUID(); //texture or asset id LLViewerInventoryItem* itemp_res = NULL; if (te_data["te"].has("imageitemid")) { LLUUID item_id = te_data["te"]["imageitemid"].asUUID(); if (item_id.notNull()) { LLViewerInventoryItem* itemp = gInventory.getItem(item_id); if (itemp && itemp->isFinished()) { // dropTextureAllFaces will fail if incomplete itemp_res = itemp; } else { // Theoretically shouldn't happend, but if it does happen, we // might need to add a notification to user that paste will fail // since inventory isn't fully loaded LL_WARNS() << "Item " << item_id << " is incomplete, paste might fail silently." << LL_ENDL; } } } // for case when item got removed from inventory after we pressed 'copy' // or texture got pasted into previous object if (!itemp_res && !full_perm) { // Due to checks for imageitemid in LLPanelFace::onPasteTexture() this should no longer be reachable. LL_INFOS() << "Item " << te_data["te"]["imageitemid"].asUUID() << " no longer in inventory." << LL_ENDL; // Todo: fix this, we are often searching same texture multiple times (equal to number of faces) // Perhaps just mPanelFace->onPasteTexture(objectp, te, &asset_to_item_id_map); ? Not pretty, but will work LLViewerInventoryCategory::cat_array_t cats; LLViewerInventoryItem::item_array_t items; LLAssetIDMatches asset_id_matches(imageid); gInventory.collectDescendentsIf(LLUUID::null, cats, items, LLInventoryModel::INCLUDE_TRASH, asset_id_matches); // Extremely unreliable and perfomance unfriendly. // But we need this to check permissions and it is how texture control finds items for (S32 i = 0; i < items.size(); i++) { LLViewerInventoryItem* itemp = items[i]; if (itemp && itemp->isFinished()) { // dropTextureAllFaces will fail if incomplete LLPermissions item_permissions = itemp->getPermissions(); if (item_permissions.allowOperationBy(PERM_COPY, gAgent.getID(), gAgent.getGroupID())) { itemp_res = itemp; break; // first match } } } } if (itemp_res) { if (te == -1) // all faces { LLToolDragAndDrop::dropTextureAllFaces(objectp, itemp_res, from_library ? LLToolDragAndDrop::SOURCE_LIBRARY : LLToolDragAndDrop::SOURCE_AGENT, LLUUID::null); } else // one face { LLToolDragAndDrop::dropTextureOneFace(objectp, te, itemp_res, from_library ? LLToolDragAndDrop::SOURCE_LIBRARY : LLToolDragAndDrop::SOURCE_AGENT, LLUUID::null, 0); } } // not an inventory item or no complete items else if (full_perm) { // Either library, local or existed as fullperm when user made a copy LLViewerTexture* image = LLViewerTextureManager::getFetchedTexture(imageid, FTT_DEFAULT, TRUE, LLGLTexture::BOOST_NONE, LLViewerTexture::LOD_TEXTURE); objectp->setTEImage(U8(te), image); } } if (te_data["te"].has("bumpmap")) { objectp->setTEBumpmap(te, (U8)te_data["te"]["bumpmap"].asInteger()); } if (te_data["te"].has("bumpshiny")) { objectp->setTEBumpShiny(te, (U8)te_data["te"]["bumpshiny"].asInteger()); } if (te_data["te"].has("bumpfullbright")) { objectp->setTEBumpShinyFullbright(te, (U8)te_data["te"]["bumpfullbright"].asInteger()); } // PBR/GLTF if (te_data["te"].has("pbr")) { objectp->setRenderMaterialID(te, te_data["te"]["pbr"].asUUID(), false /*managing our own update*/); tep->setGLTFRenderMaterial(nullptr); tep->setGLTFMaterialOverride(nullptr); LLSD override_data; override_data["object_id"] = objectp->getID(); override_data["side"] = te; if (te_data["te"].has("pbr_override")) { override_data["gltf_json"] = te_data["te"]["pbr_override"]; } else { override_data["gltf_json"] = ""; } override_data["asset_id"] = te_data["te"]["pbr"].asUUID(); LLGLTFMaterialList::queueUpdate(override_data); } else { objectp->setRenderMaterialID(te, LLUUID::null, false /*send in bulk later*/ ); tep->setGLTFRenderMaterial(nullptr); tep->setGLTFMaterialOverride(nullptr); // blank out most override data on the server LLGLTFMaterialList::queueApply(objectp, te, LLUUID::null); } // Texture map if (te_data["te"].has("scales") && te_data["te"].has("scalet")) { objectp->setTEScale(te, (F32)te_data["te"]["scales"].asReal(), (F32)te_data["te"]["scalet"].asReal()); } if (te_data["te"].has("offsets") && te_data["te"].has("offsett")) { objectp->setTEOffset(te, (F32)te_data["te"]["offsets"].asReal(), (F32)te_data["te"]["offsett"].asReal()); } if (te_data["te"].has("imagerot")) { objectp->setTERotation(te, (F32)te_data["te"]["imagerot"].asReal()); } // Media if (te_data["te"].has("media_flags")) { U8 media_flags = te_data["te"]["media_flags"].asInteger(); objectp->setTEMediaFlags(te, media_flags); LLVOVolume *vo = dynamic_cast(objectp); if (vo && te_data["te"].has(LLTextureEntry::TEXTURE_MEDIA_DATA_KEY)) { vo->syncMediaData(te, te_data["te"][LLTextureEntry::TEXTURE_MEDIA_DATA_KEY], true/*merge*/, true/*ignore_agent*/); } } else { // Keep media flags on destination unchanged } } if (te_data.has("material")) { LLUUID object_id = objectp->getID(); LLSelectedTEMaterial::setAlphaMaskCutoff(this, (U8)te_data["material"]["SpecRot"].asInteger(), te, object_id); // Normal // Replace placeholders with target's if (te_data["material"].has("NormMapNoCopy")) { LLMaterialPtr material = tep->getMaterialParams(); if (material.notNull()) { LLUUID id = material->getNormalID(); if (id.notNull()) { te_data["material"]["NormMap"] = id; } } } LLSelectedTEMaterial::setNormalID(this, te_data["material"]["NormMap"].asUUID(), te, object_id); LLSelectedTEMaterial::setNormalRepeatX(this, (F32)te_data["material"]["NormRepX"].asReal(), te, object_id); LLSelectedTEMaterial::setNormalRepeatY(this, (F32)te_data["material"]["NormRepY"].asReal(), te, object_id); LLSelectedTEMaterial::setNormalOffsetX(this, (F32)te_data["material"]["NormOffX"].asReal(), te, object_id); LLSelectedTEMaterial::setNormalOffsetY(this, (F32)te_data["material"]["NormOffY"].asReal(), te, object_id); LLSelectedTEMaterial::setNormalRotation(this, (F32)te_data["material"]["NormRot"].asReal(), te, object_id); // Specular // Replace placeholders with target's if (te_data["material"].has("SpecMapNoCopy")) { LLMaterialPtr material = tep->getMaterialParams(); if (material.notNull()) { LLUUID id = material->getSpecularID(); if (id.notNull()) { te_data["material"]["SpecMap"] = id; } } } LLSelectedTEMaterial::setSpecularID(this, te_data["material"]["SpecMap"].asUUID(), te, object_id); LLSelectedTEMaterial::setSpecularRepeatX(this, (F32)te_data["material"]["SpecRepX"].asReal(), te, object_id); LLSelectedTEMaterial::setSpecularRepeatY(this, (F32)te_data["material"]["SpecRepY"].asReal(), te, object_id); LLSelectedTEMaterial::setSpecularOffsetX(this, (F32)te_data["material"]["SpecOffX"].asReal(), te, object_id); LLSelectedTEMaterial::setSpecularOffsetY(this, (F32)te_data["material"]["SpecOffY"].asReal(), te, object_id); LLSelectedTEMaterial::setSpecularRotation(this, (F32)te_data["material"]["SpecRot"].asReal(), te, object_id); LLColor4 spec_color(te_data["material"]["SpecColor"]); LLSelectedTEMaterial::setSpecularLightColor(this, spec_color, te); LLSelectedTEMaterial::setSpecularLightExponent(this, (U8)te_data["material"]["SpecExp"].asInteger(), te, object_id); LLSelectedTEMaterial::setEnvironmentIntensity(this, (U8)te_data["material"]["EnvIntensity"].asInteger(), te, object_id); LLSelectedTEMaterial::setDiffuseAlphaMode(this, (U8)te_data["material"]["SpecRot"].asInteger(), te, object_id); if (te_data.has("te") && te_data["te"].has("shiny")) { objectp->setTEShiny(te, (U8)te_data["te"]["shiny"].asInteger()); } } } } void LLPanelFace::menuDoToSelected(const LLSD& userdata) { std::string command = userdata.asString(); // paste if (command == "color_paste") { onPasteColor(); } else if (command == "texture_paste") { onPasteTexture(); } // copy else if (command == "color_copy") { onCopyColor(); } else if (command == "texture_copy") { onCopyTexture(); } } bool LLPanelFace::menuEnableItem(const LLSD& userdata) { std::string command = userdata.asString(); // paste options if (command == "color_paste") { return mClipboardParams.has("color"); } else if (command == "texture_paste") { return mClipboardParams.has("texture"); } return false; } // static void LLPanelFace::onCommitPlanarAlign(LLUICtrl* ctrl, void* userdata) { LLPanelFace* self = (LLPanelFace*) userdata; self->getState(); self->sendTextureInfo(); } void LLPanelFace::updateGLTFTextureTransform(float value, U32 pbr_type, std::function edit) { U32 texture_info_start; U32 texture_info_end; if (gSavedSettings.getBOOL("SyncMaterialSettings")) { texture_info_start = 0; texture_info_end = LLGLTFMaterial::GLTF_TEXTURE_INFO_COUNT; } else { texture_info_start = texture_info_from_pbrtype(pbr_type); texture_info_end = texture_info_start + 1; } updateSelectedGLTFMaterials([&](LLGLTFMaterial* new_override) { for (U32 ti = texture_info_start; ti < texture_info_end; ++ti) { LLGLTFMaterial::TextureTransform& new_transform = new_override->mTextureTransform[(LLGLTFMaterial::TextureInfo)ti]; edit(&new_transform); } }); LLSelectNode* node = LLSelectMgr::getInstance()->getSelection()->getFirstNode(); if (node) { LLViewerObject* object = node->getObject(); sMaterialOverrideSelection.setObjectUpdatePending(object->getID(), node->getLastSelectedTE()); } } void LLPanelFace::setMaterialOverridesFromSelection() { const U32 pbr_type = findChild("radio_pbr_type")->getSelectedIndex(); const LLGLTFMaterial::TextureInfo texture_info = texture_info_from_pbrtype(pbr_type); if (texture_info == LLGLTFMaterial::TextureInfo::GLTF_TEXTURE_INFO_COUNT) { return; } LLGLTFMaterial::TextureTransform transform; bool scale_u_same = true; bool scale_v_same = true; bool rotation_same = true; bool offset_u_same = true; bool offset_v_same = true; readSelectedGLTFMaterial([&](const LLGLTFMaterial* mat) { return mat ? mat->mTextureTransform[texture_info].mScale[VX] : 0.f; }, transform.mScale[VX], scale_u_same, true, 1e-3f); readSelectedGLTFMaterial([&](const LLGLTFMaterial* mat) { return mat ? mat->mTextureTransform[texture_info].mScale[VY] : 0.f; }, transform.mScale[VY], scale_v_same, true, 1e-3f); readSelectedGLTFMaterial([&](const LLGLTFMaterial* mat) { return mat ? mat->mTextureTransform[texture_info].mRotation : 0.f; }, transform.mRotation, rotation_same, true, 1e-3f); readSelectedGLTFMaterial([&](const LLGLTFMaterial* mat) { return mat ? mat->mTextureTransform[texture_info].mOffset[VX] : 0.f; }, transform.mOffset[VX], offset_u_same, true, 1e-3f); readSelectedGLTFMaterial([&](const LLGLTFMaterial* mat) { return mat ? mat->mTextureTransform[texture_info].mOffset[VY] : 0.f; }, transform.mOffset[VY], offset_v_same, true, 1e-3f); LLUICtrl* gltfCtrlTextureScaleU = getChild("gltfTextureScaleU"); LLUICtrl* gltfCtrlTextureScaleV = getChild("gltfTextureScaleV"); LLUICtrl* gltfCtrlTextureRotation = getChild("gltfTextureRotation"); LLUICtrl* gltfCtrlTextureOffsetU = getChild("gltfTextureOffsetU"); LLUICtrl* gltfCtrlTextureOffsetV = getChild("gltfTextureOffsetV"); gltfCtrlTextureScaleU->setValue(transform.mScale[VX]); gltfCtrlTextureScaleV->setValue(transform.mScale[VY]); gltfCtrlTextureRotation->setValue(transform.mRotation * RAD_TO_DEG); gltfCtrlTextureOffsetU->setValue(transform.mOffset[VX]); gltfCtrlTextureOffsetV->setValue(transform.mOffset[VY]); gltfCtrlTextureScaleU->setTentative(!scale_u_same); gltfCtrlTextureScaleV->setTentative(!scale_v_same); gltfCtrlTextureRotation->setTentative(!rotation_same); gltfCtrlTextureOffsetU->setTentative(!offset_u_same); gltfCtrlTextureOffsetV->setTentative(!offset_v_same); } void LLPanelFace::Selection::connect() { if (!mSelectConnection.connected()) { mSelectConnection = LLSelectMgr::instance().mUpdateSignal.connect(boost::bind(&LLPanelFace::Selection::onSelectionChanged, this)); } } bool LLPanelFace::Selection::update() { const bool changed = mChanged || compareSelection(); mChanged = false; return changed; } void LLPanelFace::Selection::setObjectUpdatePending(const LLUUID &object_id, S32 side) { mPendingObjectID = object_id; mPendingSide = side; } void LLPanelFace::Selection::onSelectedObjectUpdated(const LLUUID& object_id, S32 side) { if (object_id == mSelectedObjectID && side == mSelectedSide) { mChanged = true; } } bool LLPanelFace::Selection::compareSelection() { if (!mNeedsSelectionCheck) { return false; } mNeedsSelectionCheck = false; const S32 old_object_count = mSelectedObjectCount; const LLUUID old_object_id = mSelectedObjectID; const S32 old_side = mSelectedSide; LLObjectSelectionHandle selection = LLSelectMgr::getInstance()->getSelection(); LLSelectNode* node = selection->getFirstNode(); if (node) { LLViewerObject* object = node->getObject(); mSelectedObjectCount = selection->getObjectCount(); mSelectedObjectID = object->getID(); mSelectedSide = node->getLastSelectedTE(); } else { mSelectedObjectCount = 0; mSelectedObjectID = LLUUID::null; mSelectedSide = -1; } const bool selection_changed = old_object_count != mSelectedObjectCount || old_object_id != mSelectedObjectID || old_side != mSelectedSide; mChanged = mChanged || selection_changed; return selection_changed; } void LLPanelFace::onCommitGLTFTextureScaleU(LLUICtrl* ctrl) { const float value = ctrl->getValue().asReal(); const U32 pbr_type = findChild("radio_pbr_type")->getSelectedIndex(); updateGLTFTextureTransform(value, pbr_type, [&](LLGLTFMaterial::TextureTransform* new_transform) { new_transform->mScale.mV[VX] = value; }); } void LLPanelFace::onCommitGLTFTextureScaleV(LLUICtrl* ctrl) { const float value = ctrl->getValue().asReal(); const U32 pbr_type = findChild("radio_pbr_type")->getSelectedIndex(); updateGLTFTextureTransform(value, pbr_type, [&](LLGLTFMaterial::TextureTransform* new_transform) { new_transform->mScale.mV[VY] = value; }); } void LLPanelFace::onCommitGLTFRotation(LLUICtrl* ctrl) { const float value = ctrl->getValue().asReal() * DEG_TO_RAD; const U32 pbr_type = findChild("radio_pbr_type")->getSelectedIndex(); updateGLTFTextureTransform(value, pbr_type, [&](LLGLTFMaterial::TextureTransform* new_transform) { new_transform->mRotation = value; }); } void LLPanelFace::onCommitGLTFTextureOffsetU(LLUICtrl* ctrl) { const float value = ctrl->getValue().asReal(); const U32 pbr_type = findChild("radio_pbr_type")->getSelectedIndex(); updateGLTFTextureTransform(value, pbr_type, [&](LLGLTFMaterial::TextureTransform* new_transform) { new_transform->mOffset.mV[VX] = value; }); } void LLPanelFace::onCommitGLTFTextureOffsetV(LLUICtrl* ctrl) { const float value = ctrl->getValue().asReal(); const U32 pbr_type = findChild("radio_pbr_type")->getSelectedIndex(); updateGLTFTextureTransform(value, pbr_type, [&](LLGLTFMaterial::TextureTransform* new_transform) { new_transform->mOffset.mV[VY] = value; }); } void LLPanelFace::onTextureSelectionChanged(LLInventoryItem* itemp) { LL_DEBUGS("Materials") << "item asset " << itemp->getAssetUUID() << LL_ENDL; LLRadioGroup* radio_mat_type = findChild("radio_material_type"); if(!radio_mat_type) { return; } U32 mattype = radio_mat_type->getSelectedIndex(); std::string which_control="texture control"; switch (mattype) { case MATTYPE_SPECULAR: which_control = "shinytexture control"; break; case MATTYPE_NORMAL: which_control = "bumpytexture control"; break; // no default needed } LL_DEBUGS("Materials") << "control " << which_control << LL_ENDL; LLTextureCtrl* texture_ctrl = getChild(which_control); if (texture_ctrl) { LLUUID obj_owner_id; std::string obj_owner_name; LLSelectMgr::instance().selectGetOwner(obj_owner_id, obj_owner_name); LLSaleInfo sale_info; LLSelectMgr::instance().selectGetSaleInfo(sale_info); bool can_copy = itemp->getPermissions().allowCopyBy(gAgentID); // do we have perm to copy this texture? bool can_transfer = itemp->getPermissions().allowOperationBy(PERM_TRANSFER, gAgentID); // do we have perm to transfer this texture? bool is_object_owner = gAgentID == obj_owner_id; // does object for which we are going to apply texture belong to the agent? bool not_for_sale = !sale_info.isForSale(); // is object for which we are going to apply texture not for sale? if (can_copy && can_transfer) { texture_ctrl->setCanApply(true, true); return; } // if texture has (no-transfer) attribute it can be applied only for object which we own and is not for sale texture_ctrl->setCanApply(false, can_transfer ? true : is_object_owner && not_for_sale); if (gSavedSettings.getBOOL("TextureLivePreview")) { LLNotificationsUtil::add("LivePreviewUnavailable"); } } } void LLPanelFace::onPbrSelectionChanged(LLInventoryItem* itemp) { LLTextureCtrl* pbr_ctrl = findChild("pbr_control"); if (pbr_ctrl) { LLUUID obj_owner_id; std::string obj_owner_name; LLSelectMgr::instance().selectGetOwner(obj_owner_id, obj_owner_name); LLSaleInfo sale_info; LLSelectMgr::instance().selectGetSaleInfo(sale_info); bool can_copy = itemp->getPermissions().allowCopyBy(gAgentID); // do we have perm to copy this texture? bool can_transfer = itemp->getPermissions().allowOperationBy(PERM_TRANSFER, gAgentID); // do we have perm to transfer this texture? bool is_object_owner = gAgentID == obj_owner_id; // does object for which we are going to apply texture belong to the agent? bool not_for_sale = !sale_info.isForSale(); // is object for which we are going to apply texture not for sale? if (can_copy && can_transfer) { pbr_ctrl->setCanApply(true, true); return; } // if texture has (no-transfer) attribute it can be applied only for object which we own and is not for sale pbr_ctrl->setCanApply(false, can_transfer ? true : is_object_owner && not_for_sale); if (gSavedSettings.getBOOL("TextureLivePreview")) { LLNotificationsUtil::add("LivePreviewUnavailable"); } } } bool LLPanelFace::isIdenticalPlanarTexgen() { LLTextureEntry::e_texgen selected_texgen = LLTextureEntry::TEX_GEN_DEFAULT; bool identical_texgen = false; LLSelectedTE::getTexGen(selected_texgen, identical_texgen); return (identical_texgen && (selected_texgen == LLTextureEntry::TEX_GEN_PLANAR)); } void LLPanelFace::LLSelectedTE::getFace(LLFace*& face_to_return, bool& identical_face) { struct LLSelectedTEGetFace : public LLSelectedTEGetFunctor { LLFace* get(LLViewerObject* object, S32 te) { return (object->mDrawable) ? object->mDrawable->getFace(te): NULL; } } get_te_face_func; identical_face = LLSelectMgr::getInstance()->getSelection()->getSelectedTEValue(&get_te_face_func, face_to_return, false, (LLFace*)nullptr); } void LLPanelFace::LLSelectedTE::getImageFormat(LLGLenum& image_format_to_return, bool& identical_face) { LLGLenum image_format; struct LLSelectedTEGetImageFormat : public LLSelectedTEGetFunctor { LLGLenum get(LLViewerObject* object, S32 te_index) { LLViewerTexture* image = object->getTEImage(te_index); return image ? image->getPrimaryFormat() : GL_RGB; } } get_glenum; identical_face = LLSelectMgr::getInstance()->getSelection()->getSelectedTEValue(&get_glenum, image_format); image_format_to_return = image_format; } void LLPanelFace::LLSelectedTE::getTexId(LLUUID& id, bool& identical) { struct LLSelectedTEGetTexId : public LLSelectedTEGetFunctor { LLUUID get(LLViewerObject* object, S32 te_index) { LLTextureEntry *te = object->getTE(te_index); if (te) { if ((te->getID() == IMG_USE_BAKED_EYES) || (te->getID() == IMG_USE_BAKED_HAIR) || (te->getID() == IMG_USE_BAKED_HEAD) || (te->getID() == IMG_USE_BAKED_LOWER) || (te->getID() == IMG_USE_BAKED_SKIRT) || (te->getID() == IMG_USE_BAKED_UPPER) || (te->getID() == IMG_USE_BAKED_LEFTARM) || (te->getID() == IMG_USE_BAKED_LEFTLEG) || (te->getID() == IMG_USE_BAKED_AUX1) || (te->getID() == IMG_USE_BAKED_AUX2) || (te->getID() == IMG_USE_BAKED_AUX3)) { return te->getID(); } } LLUUID id; LLViewerTexture* image = object->getTEImage(te_index); if (image) { id = image->getID(); } if (!id.isNull() && LLViewerMedia::getInstance()->textureHasMedia(id)) { if (te) { LLViewerTexture* tex = te->getID().notNull() ? gTextureList.findImage(te->getID(), TEX_LIST_STANDARD) : NULL; if(!tex) { tex = LLViewerFetchedTexture::sDefaultImagep; } if (tex) { id = tex->getID(); } } } return id; } } func; identical = LLSelectMgr::getInstance()->getSelection()->getSelectedTEValue( &func, id ); } void LLPanelFace::LLSelectedTE::getPbrMaterialId(LLUUID& id, bool& identical) { struct LLSelectedTEGetmatId : public LLSelectedTEGetFunctor { LLUUID get(LLViewerObject* object, S32 te_index) { return object->getRenderMaterialID(te_index); } } func; identical = LLSelectMgr::getInstance()->getSelection()->getSelectedTEValue(&func, id); } void LLPanelFace::LLSelectedTEMaterial::getCurrent(LLMaterialPtr& material_ptr, bool& identical_material) { struct MaterialFunctor : public LLSelectedTEGetFunctor { LLMaterialPtr get(LLViewerObject* object, S32 te_index) { return object->getTE(te_index)->getMaterialParams(); } } func; identical_material = LLSelectMgr::getInstance()->getSelection()->getSelectedTEValue( &func, material_ptr); } void LLPanelFace::LLSelectedTEMaterial::getMaxSpecularRepeats(F32& repeats, bool& identical) { struct LLSelectedTEGetMaxSpecRepeats : public LLSelectedTEGetFunctor { F32 get(LLViewerObject* object, S32 face) { LLMaterial* mat = object->getTE(face)->getMaterialParams().get(); U32 s_axis = VX; U32 t_axis = VY; F32 repeats_s = 1.0f; F32 repeats_t = 1.0f; if (mat) { mat->getSpecularRepeat(repeats_s, repeats_t); repeats_s /= object->getScale().mV[s_axis]; repeats_t /= object->getScale().mV[t_axis]; } return llmax(repeats_s, repeats_t); } } max_spec_repeats_func; identical = LLSelectMgr::getInstance()->getSelection()->getSelectedTEValue( &max_spec_repeats_func, repeats); } void LLPanelFace::LLSelectedTEMaterial::getMaxNormalRepeats(F32& repeats, bool& identical) { struct LLSelectedTEGetMaxNormRepeats : public LLSelectedTEGetFunctor { F32 get(LLViewerObject* object, S32 face) { LLMaterial* mat = object->getTE(face)->getMaterialParams().get(); U32 s_axis = VX; U32 t_axis = VY; F32 repeats_s = 1.0f; F32 repeats_t = 1.0f; if (mat) { mat->getNormalRepeat(repeats_s, repeats_t); repeats_s /= object->getScale().mV[s_axis]; repeats_t /= object->getScale().mV[t_axis]; } return llmax(repeats_s, repeats_t); } } max_norm_repeats_func; identical = LLSelectMgr::getInstance()->getSelection()->getSelectedTEValue( &max_norm_repeats_func, repeats); } void LLPanelFace::LLSelectedTEMaterial::getCurrentDiffuseAlphaMode(U8& diffuse_alpha_mode, bool& identical, bool diffuse_texture_has_alpha) { struct LLSelectedTEGetDiffuseAlphaMode : public LLSelectedTEGetFunctor { LLSelectedTEGetDiffuseAlphaMode() : _isAlpha(false) {} LLSelectedTEGetDiffuseAlphaMode(bool diffuse_texture_has_alpha) : _isAlpha(diffuse_texture_has_alpha) {} virtual ~LLSelectedTEGetDiffuseAlphaMode() {} U8 get(LLViewerObject* object, S32 face) { U8 diffuse_mode = _isAlpha ? LLMaterial::DIFFUSE_ALPHA_MODE_BLEND : LLMaterial::DIFFUSE_ALPHA_MODE_NONE; LLTextureEntry* tep = object->getTE(face); if (tep) { LLMaterial* mat = tep->getMaterialParams().get(); if (mat) { diffuse_mode = mat->getDiffuseAlphaMode(); } } return diffuse_mode; } bool _isAlpha; // whether or not the diffuse texture selected contains alpha information } get_diff_mode(diffuse_texture_has_alpha); identical = LLSelectMgr::getInstance()->getSelection()->getSelectedTEValue( &get_diff_mode, diffuse_alpha_mode); } void LLPanelFace::LLSelectedTE::getObjectScaleS(F32& scale_s, bool& identical) { struct LLSelectedTEGetObjectScaleS : public LLSelectedTEGetFunctor { F32 get(LLViewerObject* object, S32 face) { U32 s_axis = VX; U32 t_axis = VY; LLPrimitive::getTESTAxes(face, &s_axis, &t_axis); return object->getScale().mV[s_axis]; } } scale_s_func; identical = LLSelectMgr::getInstance()->getSelection()->getSelectedTEValue( &scale_s_func, scale_s ); } void LLPanelFace::LLSelectedTE::getObjectScaleT(F32& scale_t, bool& identical) { struct LLSelectedTEGetObjectScaleS : public LLSelectedTEGetFunctor { F32 get(LLViewerObject* object, S32 face) { U32 s_axis = VX; U32 t_axis = VY; LLPrimitive::getTESTAxes(face, &s_axis, &t_axis); return object->getScale().mV[t_axis]; } } scale_t_func; identical = LLSelectMgr::getInstance()->getSelection()->getSelectedTEValue( &scale_t_func, scale_t ); } void LLPanelFace::LLSelectedTE::getMaxDiffuseRepeats(F32& repeats, bool& identical) { struct LLSelectedTEGetMaxDiffuseRepeats : public LLSelectedTEGetFunctor { F32 get(LLViewerObject* object, S32 face) { U32 s_axis = VX; U32 t_axis = VY; LLPrimitive::getTESTAxes(face, &s_axis, &t_axis); F32 repeats_s = object->getTE(face)->mScaleS / object->getScale().mV[s_axis]; F32 repeats_t = object->getTE(face)->mScaleT / object->getScale().mV[t_axis]; return llmax(repeats_s, repeats_t); } } max_diff_repeats_func; identical = LLSelectMgr::getInstance()->getSelection()->getSelectedTEValue( &max_diff_repeats_func, repeats ); }