diff options
-rw-r--r-- | indra/llprimitive/CMakeLists.txt | 2 | ||||
-rw-r--r-- | indra/llprimitive/llmaterial.cpp | 147 | ||||
-rw-r--r-- | indra/llprimitive/llmaterial.h | 94 | ||||
-rw-r--r-- | indra/newview/llfloaterdebugmaterials.cpp | 382 | ||||
-rw-r--r-- | indra/newview/llfloaterdebugmaterials.h | 20 |
5 files changed, 333 insertions, 312 deletions
diff --git a/indra/llprimitive/CMakeLists.txt b/indra/llprimitive/CMakeLists.txt index 82d0f892f2..4eef1673f4 100644 --- a/indra/llprimitive/CMakeLists.txt +++ b/indra/llprimitive/CMakeLists.txt @@ -21,6 +21,7 @@ include_directories( set(llprimitive_SOURCE_FILES llmaterialid.cpp + llmaterial.cpp llmaterialtable.cpp llmediaentry.cpp llmodel.cpp @@ -38,6 +39,7 @@ set(llprimitive_HEADER_FILES CMakeLists.txt legacy_object_types.h + llmaterial.h llmaterialid.h llmaterialtable.h llmediaentry.h diff --git a/indra/llprimitive/llmaterial.cpp b/indra/llprimitive/llmaterial.cpp new file mode 100644 index 0000000000..36d958ede5 --- /dev/null +++ b/indra/llprimitive/llmaterial.cpp @@ -0,0 +1,147 @@ +/** + * @file llmaterial.cpp + * @brief Material definition + * + * $LicenseInfo:firstyear=2006&license=viewerlgpl$ + * Second Life Viewer Source Code + * Copyright (C) 2010, Linden Research, Inc. + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; + * version 2.1 of the License only. + * + * This library is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA + * + * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA + * $/LicenseInfo$ + */ + +#include "linden_common.h" + +#include "llmaterial.h" + +/** + * Materials cap parameters + */ +#define MATERIALS_CAP_NORMAL_MAP_FIELD "NormMap" +#define MATERIALS_CAP_NORMAL_MAP_OFFSET_X_FIELD "NormOffsetX" +#define MATERIALS_CAP_NORMAL_MAP_OFFSET_Y_FIELD "NormOffsetY" +#define MATERIALS_CAP_NORMAL_MAP_REPEAT_X_FIELD "NormRepeatX" +#define MATERIALS_CAP_NORMAL_MAP_REPEAT_Y_FIELD "NormRepeatY" +#define MATERIALS_CAP_NORMAL_MAP_ROTATION_FIELD "NormRotation" + +#define MATERIALS_CAP_SPECULAR_MAP_FIELD "SpecMap" +#define MATERIALS_CAP_SPECULAR_MAP_OFFSET_X_FIELD "SpecOffsetX" +#define MATERIALS_CAP_SPECULAR_MAP_OFFSET_Y_FIELD "SpecOffsetY" +#define MATERIALS_CAP_SPECULAR_MAP_REPEAT_X_FIELD "SpecRepeatX" +#define MATERIALS_CAP_SPECULAR_MAP_REPEAT_Y_FIELD "SpecRepeatY" +#define MATERIALS_CAP_SPECULAR_MAP_ROTATION_FIELD "SpecRotation" + +#define MATERIALS_CAP_SPECULAR_COLOR_FIELD "SpecColor" +#define MATERIALS_CAP_SPECULAR_EXP_FIELD "SpecExp" +#define MATERIALS_CAP_ENV_INTENSITY_FIELD "EnvIntensity" +#define MATERIALS_CAP_ALPHA_MASK_CUTOFF_FIELD "AlphaMaskCutoff" +#define MATERIALS_CAP_DIFFUSE_ALPHA_MODE_FIELD "DiffuseAlphaMode" + +/** + * Materials constants + */ + +const LLColor4U MATERIALS_DEFAULT_SPECULAR_COLOR = LLColor4U(255, 255, 255, 255); +const U8 MATERIALS_DEFAULT_SPECULAR_EXP = 128; +const U8 MATERIALS_DEFAULT_ENV_INTENSITY = 128; +const U8 MATERIALS_DEFAULT_DIFFUSE_ALPHA_MODE = 0; +const U8 MATERIALS_DEFAULT_ALPHA_MASK_CUTOFF = 128; + +const F32 MATERIALS_MULT_OFFSETREPEAT = 10000.f; +const F32 MATERIALS_MULT_ROTATION = 1000.f; + +/** + * Helper functions + */ + +template<typename T> T getMaterialField(const LLSD& data, const std::string& field, const LLSD::Type field_type) +{ + if ( (data.has(field)) && (field_type == data[field].type()) ) + { + return (T)data[field]; + } + llerrs << "Missing or mistyped field '" << field << "' in material definition" << llendl; + return (T)LLSD(); +} + +/** + * LLMaterial class + */ + +LLMaterial::LLMaterial() + : mSpecularLightColor(MATERIALS_DEFAULT_SPECULAR_COLOR) + , mSpecularLightExponent(MATERIALS_DEFAULT_SPECULAR_EXP) + , mEnvironmentIntensity(MATERIALS_DEFAULT_ENV_INTENSITY) + , mDiffuseAlphaMode(MATERIALS_DEFAULT_DIFFUSE_ALPHA_MODE) + , mAlphaMaskCutoff(MATERIALS_DEFAULT_ALPHA_MASK_CUTOFF) +{ +} + +LLMaterial::LLMaterial(const LLSD& material_data) +{ + fromLLSD(material_data); +} + +LLSD LLMaterial::asLLSD() const +{ + LLSD material_data; + + material_data[MATERIALS_CAP_NORMAL_MAP_FIELD] = mNormalID; + material_data[MATERIALS_CAP_NORMAL_MAP_OFFSET_X_FIELD] = llround(mNormalOffsetX * MATERIALS_MULT_OFFSETREPEAT); + material_data[MATERIALS_CAP_NORMAL_MAP_OFFSET_Y_FIELD] = llround(mNormalOffsetY * MATERIALS_MULT_OFFSETREPEAT); + material_data[MATERIALS_CAP_NORMAL_MAP_REPEAT_X_FIELD] = llround(mNormalRepeatX * MATERIALS_MULT_OFFSETREPEAT); + material_data[MATERIALS_CAP_NORMAL_MAP_REPEAT_Y_FIELD] = llround(mNormalRepeatY * MATERIALS_MULT_OFFSETREPEAT); + material_data[MATERIALS_CAP_NORMAL_MAP_ROTATION_FIELD] = llround(mNormalRotation * MATERIALS_MULT_ROTATION); + + material_data[MATERIALS_CAP_SPECULAR_MAP_FIELD] = mSpecularID; + material_data[MATERIALS_CAP_SPECULAR_MAP_OFFSET_X_FIELD] = llround(mSpecularOffsetX * MATERIALS_MULT_OFFSETREPEAT); + material_data[MATERIALS_CAP_SPECULAR_MAP_OFFSET_Y_FIELD] = llround(mSpecularOffsetY * MATERIALS_MULT_OFFSETREPEAT); + material_data[MATERIALS_CAP_SPECULAR_MAP_REPEAT_X_FIELD] = llround(mSpecularRepeatX * MATERIALS_MULT_OFFSETREPEAT); + material_data[MATERIALS_CAP_SPECULAR_MAP_REPEAT_Y_FIELD] = llround(mSpecularRepeatY * MATERIALS_MULT_OFFSETREPEAT); + material_data[MATERIALS_CAP_SPECULAR_MAP_ROTATION_FIELD] = llround(mSpecularRotation * MATERIALS_MULT_ROTATION); + + material_data[MATERIALS_CAP_SPECULAR_COLOR_FIELD] = mSpecularLightColor.getValue(); + material_data[MATERIALS_CAP_SPECULAR_EXP_FIELD] = mSpecularLightExponent; + material_data[MATERIALS_CAP_ENV_INTENSITY_FIELD] = mEnvironmentIntensity; + material_data[MATERIALS_CAP_ALPHA_MASK_CUTOFF_FIELD] = mDiffuseAlphaMode; + material_data[MATERIALS_CAP_DIFFUSE_ALPHA_MODE_FIELD] = mAlphaMaskCutoff; + + return material_data; +} + +void LLMaterial::fromLLSD(const LLSD& material_data) +{ + mNormalID = getMaterialField<LLSD::UUID>(material_data, MATERIALS_CAP_NORMAL_MAP_FIELD, LLSD::TypeUUID); + mNormalOffsetX = (F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_NORMAL_MAP_OFFSET_X_FIELD, LLSD::TypeInteger) / MATERIALS_MULT_OFFSETREPEAT; + mNormalOffsetY = (F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_NORMAL_MAP_OFFSET_Y_FIELD, LLSD::TypeInteger) / MATERIALS_MULT_OFFSETREPEAT; + mNormalRepeatX = (F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_NORMAL_MAP_REPEAT_X_FIELD, LLSD::TypeInteger) / MATERIALS_MULT_OFFSETREPEAT; + mNormalRepeatY = (F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_NORMAL_MAP_REPEAT_Y_FIELD, LLSD::TypeInteger) / MATERIALS_MULT_OFFSETREPEAT; + mNormalRotation = (F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_NORMAL_MAP_ROTATION_FIELD, LLSD::TypeInteger) / MATERIALS_MULT_ROTATION; + + mSpecularID = getMaterialField<LLSD::UUID>(material_data, MATERIALS_CAP_SPECULAR_MAP_FIELD, LLSD::TypeUUID); + mSpecularOffsetX = (F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_SPECULAR_MAP_OFFSET_X_FIELD, LLSD::TypeInteger) / MATERIALS_MULT_OFFSETREPEAT; + mSpecularOffsetY = (F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_SPECULAR_MAP_OFFSET_Y_FIELD, LLSD::TypeInteger) / MATERIALS_MULT_OFFSETREPEAT; + mSpecularRepeatX = (F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_SPECULAR_MAP_REPEAT_X_FIELD, LLSD::TypeInteger) / MATERIALS_MULT_OFFSETREPEAT; + mSpecularRepeatY = (F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_SPECULAR_MAP_REPEAT_Y_FIELD, LLSD::TypeInteger) / MATERIALS_MULT_OFFSETREPEAT; + mSpecularRotation = (F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_SPECULAR_MAP_ROTATION_FIELD, LLSD::TypeInteger) / MATERIALS_MULT_ROTATION; + + mSpecularLightColor.setValue(getMaterialField<LLSD>(material_data, MATERIALS_CAP_SPECULAR_COLOR_FIELD, LLSD::TypeArray)); + mSpecularLightExponent = (U8)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_SPECULAR_EXP_FIELD, LLSD::TypeInteger); + mEnvironmentIntensity = (U8)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_ENV_INTENSITY_FIELD, LLSD::TypeInteger); + mDiffuseAlphaMode = (U8)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_ALPHA_MASK_CUTOFF_FIELD, LLSD::TypeInteger); + mAlphaMaskCutoff = (U8)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_DIFFUSE_ALPHA_MODE_FIELD, LLSD::TypeInteger); +} diff --git a/indra/llprimitive/llmaterial.h b/indra/llprimitive/llmaterial.h new file mode 100644 index 0000000000..d50ab30195 --- /dev/null +++ b/indra/llprimitive/llmaterial.h @@ -0,0 +1,94 @@ +/** + * @file llmaterial.h + * @brief Material definition + * + * $LicenseInfo:firstyear=2006&license=viewerlgpl$ + * 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 + * $/LicenseInfo$ + */ + +#ifndef LL_LLMATERIAL_H +#define LL_LLMATERIAL_H + +#include "llmaterialid.h" +#include "llsd.h" +#include "v4coloru.h" + +class LLMaterial +{ +public: + LLMaterial(); + LLMaterial(const LLSD& material_data); + + LLSD asLLSD() const; + void fromLLSD(const LLSD& material_data); + + const LLUUID& getNormalID() const { return mNormalID; } + void setNormalID(const LLUUID& normal_id) { mNormalID = normal_id; } + void getNormalOffset(F32& offset_x, F32& offset_y) const { offset_x = mNormalOffsetX; offset_y = mNormalOffsetY; } + void setNormalOffset(F32 offset_x, F32 offset_y) { mNormalOffsetX = offset_x; mNormalOffsetY = offset_y; } + void getNormalRepeat(F32& repeat_x, F32& repeat_y) const { repeat_x = mNormalRepeatX; repeat_y = mNormalRepeatY; } + void setNormalRepeat(F32 repeat_x, F32 repeat_y) { mNormalRepeatX = repeat_x; mNormalRepeatY = repeat_y; } + F32 getNormalRotation() const { return mNormalRotation; } + void setNormalRotation(F32 rot) { mNormalRotation = rot; } + + const LLUUID& getSpecularID() const { return mSpecularID; } + void setSpecularID(const LLUUID& specular_id) { mSpecularID = specular_id; } + void getSpecularOffset(F32& offset_x, F32& offset_y) const { offset_x = mSpecularOffsetX; offset_y = mSpecularOffsetY; } + void setSpecularOffset(F32 offset_x, F32 offset_y) { mSpecularOffsetX = offset_x; mSpecularOffsetY = offset_y; } + void getSpecularRepeat(F32& repeat_x, F32& repeat_y) const { repeat_x = mSpecularRepeatX; repeat_y = mSpecularRepeatY; } + void setSpecularRepeat(F32 repeat_x, F32 repeat_y) { mSpecularRepeatX = repeat_x; mSpecularRepeatY = repeat_y; } + F32 getSpecularRotation() const { return mSpecularRotation; } + void setSpecularRotation(F32 rot) { mSpecularRotation = rot; } + + const LLColor4U& getSpecularLightColor() const { return mSpecularLightColor; } + void setSpecularLightColor(const LLColor4U& color) { mSpecularLightColor = color; } + U8 getSpecularLightExponent() const { return mSpecularLightExponent; } + void setSpecularLightExponent(U8 exponent) { mSpecularLightExponent = exponent; } + U8 getEnvironmentIntensity() const { return mEnvironmentIntensity; } + void setEnvironmentIntensity(U8 intensity) { mEnvironmentIntensity = intensity; } + U8 getDiffuseAlphaMode() const { return mDiffuseAlphaMode; } + void setDiffuseAlphaMode(U8 alpha_mode) { mDiffuseAlphaMode = alpha_mode; } + U8 getAlphaMaskCutoff() const { return mAlphaMaskCutoff; } + void setAlphaMaskCutoff(U8 cutoff) { mAlphaMaskCutoff = cutoff; } + +protected: + LLUUID mNormalID; + F32 mNormalOffsetX; + F32 mNormalOffsetY; + F32 mNormalRepeatX; + F32 mNormalRepeatY; + F32 mNormalRotation; + + LLUUID mSpecularID; + F32 mSpecularOffsetX; + F32 mSpecularOffsetY; + F32 mSpecularRepeatX; + F32 mSpecularRepeatY; + F32 mSpecularRotation; + + LLColor4U mSpecularLightColor; + U8 mSpecularLightExponent; + U8 mEnvironmentIntensity; + U8 mDiffuseAlphaMode; + U8 mAlphaMaskCutoff; +}; + +#endif // LL_LLMATERIAL_H diff --git a/indra/newview/llfloaterdebugmaterials.cpp b/indra/newview/llfloaterdebugmaterials.cpp index 3420665883..c23a5a6426 100644 --- a/indra/newview/llfloaterdebugmaterials.cpp +++ b/indra/newview/llfloaterdebugmaterials.cpp @@ -46,6 +46,7 @@ #include "llfontgl.h" #include "llhttpclient.h" #include "lllineeditor.h" +#include "llmaterial.h" #include "llmaterialid.h" #include "llresmgr.h" #include "llscrolllistcell.h" @@ -81,26 +82,6 @@ #define MATERIALS_CAP_OBJECT_ID_FIELD "ID" #define MATERIALS_CAP_MATERIAL_ID_FIELD "MaterialID" -#define MATERIALS_CAP_NORMAL_MAP_FIELD "NormMap" -#define MATERIALS_CAP_NORMAL_MAP_OFFSET_X_FIELD "NormOffsetX" -#define MATERIALS_CAP_NORMAL_MAP_OFFSET_Y_FIELD "NormOffsetY" -#define MATERIALS_CAP_NORMAL_MAP_REPEAT_X_FIELD "NormRepeatX" -#define MATERIALS_CAP_NORMAL_MAP_REPEAT_Y_FIELD "NormRepeatY" -#define MATERIALS_CAP_NORMAL_MAP_ROTATION_FIELD "NormRotation" - -#define MATERIALS_CAP_SPECULAR_MAP_FIELD "SpecMap" -#define MATERIALS_CAP_SPECULAR_MAP_OFFSET_X_FIELD "SpecOffsetX" -#define MATERIALS_CAP_SPECULAR_MAP_OFFSET_Y_FIELD "SpecOffsetY" -#define MATERIALS_CAP_SPECULAR_MAP_REPEAT_X_FIELD "SpecRepeatX" -#define MATERIALS_CAP_SPECULAR_MAP_REPEAT_Y_FIELD "SpecRepeatY" -#define MATERIALS_CAP_SPECULAR_MAP_ROTATION_FIELD "SpecRotation" - -#define MATERIALS_CAP_SPECULAR_COLOR_FIELD "SpecColor" -#define MATERIALS_CAP_SPECULAR_EXP_FIELD "SpecExp" -#define MATERIALS_CAP_ENV_INTENSITY_FIELD "EnvIntensity" -#define MATERIALS_CAP_ALPHA_MASK_CUTOFF_FIELD "AlphaMaskCutoff" -#define MATERIALS_CAP_DIFFUSE_ALPHA_MODE_FIELD "DiffuseAlphaMode" - #define MULTI_MATERIALS_STATUS_FIELD "status" #define MULTI_MATERIALS_DATA_FIELD "data" @@ -763,26 +744,8 @@ void LLFloaterDebugMaterials::requestPutMaterials(bool pIsDoSet) LLSD materialData = LLSD::emptyMap(); if (pIsDoSet) { - materialData[MATERIALS_CAP_NORMAL_MAP_FIELD] = mNormalMap->getImageAssetID(); - materialData[MATERIALS_CAP_NORMAL_MAP_OFFSET_X_FIELD] = static_cast<LLSD::Integer>(getNormalMapOffsetX()); - materialData[MATERIALS_CAP_NORMAL_MAP_OFFSET_Y_FIELD] = static_cast<LLSD::Integer>(getNormalMapOffsetY()); - materialData[MATERIALS_CAP_NORMAL_MAP_REPEAT_X_FIELD] = static_cast<LLSD::Integer>(getNormalMapRepeatX()); - materialData[MATERIALS_CAP_NORMAL_MAP_REPEAT_Y_FIELD] = static_cast<LLSD::Integer>(getNormalMapRepeatY()); - materialData[MATERIALS_CAP_NORMAL_MAP_ROTATION_FIELD] = static_cast<LLSD::Integer>(getNormalMapRotation()); - - materialData[MATERIALS_CAP_SPECULAR_MAP_FIELD] = mSpecularMap->getImageAssetID(); - materialData[MATERIALS_CAP_SPECULAR_MAP_OFFSET_X_FIELD] = static_cast<LLSD::Integer>(getSpecularMapOffsetX()); - materialData[MATERIALS_CAP_SPECULAR_MAP_OFFSET_Y_FIELD] = static_cast<LLSD::Integer>(getSpecularMapOffsetY()); - materialData[MATERIALS_CAP_SPECULAR_MAP_REPEAT_X_FIELD] = static_cast<LLSD::Integer>(getSpecularMapRepeatX()); - materialData[MATERIALS_CAP_SPECULAR_MAP_REPEAT_Y_FIELD] = static_cast<LLSD::Integer>(getSpecularMapRepeatY()); - materialData[MATERIALS_CAP_SPECULAR_MAP_ROTATION_FIELD] = static_cast<LLSD::Integer>(getSpecularMapRotation()); - - LLColor4U specularColor = getSpecularColor(); - materialData[MATERIALS_CAP_SPECULAR_COLOR_FIELD] = specularColor.getValue(); - materialData[MATERIALS_CAP_SPECULAR_EXP_FIELD] = static_cast<LLSD::Integer>(getSpecularExponent()); - materialData[MATERIALS_CAP_ENV_INTENSITY_FIELD] = static_cast<LLSD::Integer>(getEnvironmentExponent()); - materialData[MATERIALS_CAP_ALPHA_MASK_CUTOFF_FIELD] = static_cast<LLSD::Integer>(getAlphMaskCutoff()); - materialData[MATERIALS_CAP_DIFFUSE_ALPHA_MODE_FIELD] = static_cast<LLSD::Integer>(getDiffuseAlphaMode()); + LLMaterial material = getMaterial(); + materialData = material.asLLSD(); } LLObjectSelectionHandle selectionHandle = LLSelectMgr::getInstance()->getEditSelection(); @@ -1086,85 +1049,20 @@ void LLFloaterDebugMaterials::parseGetResponse() (currentParseCount < 10) && (materialIter != mUnparsedGetData.endArray()); ++currentParseCount, ++materialIndex, ++materialIter) { - const LLSD &material = *materialIter; - llassert(material.isMap()); - llassert(material.has(MATERIALS_CAP_OBJECT_ID_FIELD)); - llassert(material.get(MATERIALS_CAP_OBJECT_ID_FIELD).isBinary()); - const LLSD &materialID = material.get(MATERIALS_CAP_OBJECT_ID_FIELD); + const LLSD &material_entry = *materialIter; + llassert(material_entry.isMap()); + llassert(material_entry.has(MATERIALS_CAP_OBJECT_ID_FIELD)); + llassert(material_entry.get(MATERIALS_CAP_OBJECT_ID_FIELD).isBinary()); + const LLSD &materialID = material_entry.get(MATERIALS_CAP_OBJECT_ID_FIELD); std::string materialIDString = convertToPrintableMaterialID(materialID); - llassert(material.has(MATERIALS_CAP_MATERIAL_FIELD)); - const LLSD &materialData = material.get(MATERIALS_CAP_MATERIAL_FIELD); + llassert(material_entry.has(MATERIALS_CAP_MATERIAL_FIELD)); + const LLSD &materialData = material_entry.get(MATERIALS_CAP_MATERIAL_FIELD); llassert(materialData.isMap()); - llassert(materialData.has(MATERIALS_CAP_NORMAL_MAP_FIELD)); - llassert(materialData.get(MATERIALS_CAP_NORMAL_MAP_FIELD).isUUID()); - const LLUUID &normalMapID = materialData.get(MATERIALS_CAP_NORMAL_MAP_FIELD).asUUID(); - - llassert(materialData.has(MATERIALS_CAP_NORMAL_MAP_OFFSET_X_FIELD)); - llassert(materialData.get(MATERIALS_CAP_NORMAL_MAP_OFFSET_X_FIELD).isInteger()); - S32 normalMapOffsetX = materialData.get(MATERIALS_CAP_NORMAL_MAP_OFFSET_X_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_NORMAL_MAP_OFFSET_Y_FIELD)); - llassert(materialData.get(MATERIALS_CAP_NORMAL_MAP_OFFSET_Y_FIELD).isInteger()); - S32 normalMapOffsetY = materialData.get(MATERIALS_CAP_NORMAL_MAP_OFFSET_Y_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_NORMAL_MAP_REPEAT_X_FIELD)); - llassert(materialData.get(MATERIALS_CAP_NORMAL_MAP_REPEAT_X_FIELD).isInteger()); - S32 normalMapRepeatX = materialData.get(MATERIALS_CAP_NORMAL_MAP_REPEAT_X_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_NORMAL_MAP_REPEAT_Y_FIELD)); - llassert(materialData.get(MATERIALS_CAP_NORMAL_MAP_REPEAT_Y_FIELD).isInteger()); - S32 normalMapRepeatY = materialData.get(MATERIALS_CAP_NORMAL_MAP_REPEAT_Y_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_NORMAL_MAP_ROTATION_FIELD)); - llassert(materialData.get(MATERIALS_CAP_NORMAL_MAP_ROTATION_FIELD).isInteger()); - S32 normalMapRotation = materialData.get(MATERIALS_CAP_NORMAL_MAP_ROTATION_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_SPECULAR_MAP_FIELD)); - llassert(materialData.get(MATERIALS_CAP_SPECULAR_MAP_FIELD).isUUID()); - const LLUUID &specularMapID = materialData.get(MATERIALS_CAP_SPECULAR_MAP_FIELD).asUUID(); - - llassert(materialData.has(MATERIALS_CAP_SPECULAR_MAP_OFFSET_X_FIELD)); - llassert(materialData.get(MATERIALS_CAP_SPECULAR_MAP_OFFSET_X_FIELD).isInteger()); - S32 specularMapOffsetX = materialData.get(MATERIALS_CAP_SPECULAR_MAP_OFFSET_X_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_SPECULAR_MAP_OFFSET_Y_FIELD)); - llassert(materialData.get(MATERIALS_CAP_SPECULAR_MAP_OFFSET_Y_FIELD).isInteger()); - S32 specularMapOffsetY = materialData.get(MATERIALS_CAP_SPECULAR_MAP_OFFSET_Y_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_SPECULAR_MAP_REPEAT_X_FIELD)); - llassert(materialData.get(MATERIALS_CAP_SPECULAR_MAP_REPEAT_X_FIELD).isInteger()); - S32 specularMapRepeatX = materialData.get(MATERIALS_CAP_SPECULAR_MAP_REPEAT_X_FIELD).asInteger(); + LLMaterial material(materialData); - llassert(materialData.has(MATERIALS_CAP_SPECULAR_MAP_REPEAT_Y_FIELD)); - llassert(materialData.get(MATERIALS_CAP_SPECULAR_MAP_REPEAT_Y_FIELD).isInteger()); - S32 specularMapRepeatY = materialData.get(MATERIALS_CAP_SPECULAR_MAP_REPEAT_Y_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_SPECULAR_MAP_ROTATION_FIELD)); - llassert(materialData.get(MATERIALS_CAP_SPECULAR_MAP_ROTATION_FIELD).isInteger()); - S32 specularMapRotation = materialData.get(MATERIALS_CAP_SPECULAR_MAP_ROTATION_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_SPECULAR_COLOR_FIELD)); - llassert(materialData.get(MATERIALS_CAP_SPECULAR_COLOR_FIELD).isArray()); - LLColor4U specularColor; - specularColor.setValue(materialData.get(MATERIALS_CAP_SPECULAR_COLOR_FIELD)); - - llassert(materialData.has(MATERIALS_CAP_SPECULAR_EXP_FIELD)); - llassert(materialData.get(MATERIALS_CAP_SPECULAR_EXP_FIELD).isInteger()); - S32 specularExp = materialData.get(MATERIALS_CAP_SPECULAR_EXP_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_ENV_INTENSITY_FIELD)); - llassert(materialData.get(MATERIALS_CAP_ENV_INTENSITY_FIELD).isInteger()); - S32 envIntensity = materialData.get(MATERIALS_CAP_ENV_INTENSITY_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_ALPHA_MASK_CUTOFF_FIELD)); - llassert(materialData.get(MATERIALS_CAP_ALPHA_MASK_CUTOFF_FIELD).isInteger()); - S32 alphaMaskCutoff = materialData.get(MATERIALS_CAP_ALPHA_MASK_CUTOFF_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_DIFFUSE_ALPHA_MODE_FIELD)); - llassert(materialData.get(MATERIALS_CAP_DIFFUSE_ALPHA_MODE_FIELD).isInteger()); - S32 diffuseAlphaMode = materialData.get(MATERIALS_CAP_DIFFUSE_ALPHA_MODE_FIELD).asInteger(); + F32 x, y; cellParams.font = LLFontGL::getFontMonospace(); @@ -1175,78 +1073,80 @@ void LLFloaterDebugMaterials::parseGetResponse() otherDataRowParams.columns.add(cellParams); cellParams.column = "normal_map_list_map"; - cellParams.value = normalMapID.asString(); + cellParams.value = material.getNormalID().asString(); normalMapRowParams.columns.add(cellParams); cellParams.font = LLFontGL::getFontSansSerif(); + material.getNormalOffset(x, y); cellParams.column = "normal_map_list_offset_x"; - cellParams.value = llformat("%d", normalMapOffsetX); + cellParams.value = llformat("%f", x); normalMapRowParams.columns.add(cellParams); - cellParams.column = "normal_map_list_offset_y"; - cellParams.value = llformat("%d", normalMapOffsetY); + cellParams.value = llformat("%f", y); normalMapRowParams.columns.add(cellParams); + material.getNormalRepeat(x, y); cellParams.column = "normal_map_list_repeat_x"; - cellParams.value = llformat("%d", normalMapRepeatX); + cellParams.value = llformat("%f", x); normalMapRowParams.columns.add(cellParams); - cellParams.column = "normal_map_list_repeat_y"; - cellParams.value = llformat("%d", normalMapRepeatY); + cellParams.value = llformat("%f", y); normalMapRowParams.columns.add(cellParams); cellParams.column = "normal_map_list_rotation"; - cellParams.value = llformat("%d", normalMapRotation); + cellParams.value = llformat("%f", material.getNormalRotation()); normalMapRowParams.columns.add(cellParams); cellParams.font = LLFontGL::getFontMonospace(); cellParams.column = "specular_map_list_map"; - cellParams.value = specularMapID.asString(); + cellParams.value = material.getSpecularID().asString(); specularMapRowParams.columns.add(cellParams); cellParams.font = LLFontGL::getFontSansSerif(); + material.getSpecularOffset(x, y); cellParams.column = "specular_map_list_offset_x"; - cellParams.value = llformat("%d", specularMapOffsetX); + cellParams.value = llformat("%f", x); specularMapRowParams.columns.add(cellParams); - cellParams.column = "specular_map_list_offset_y"; - cellParams.value = llformat("%d", specularMapOffsetY); + cellParams.value = llformat("%f", y); specularMapRowParams.columns.add(cellParams); + material.getSpecularRepeat(x, y); cellParams.column = "specular_map_list_repeat_x"; - cellParams.value = llformat("%d", specularMapRepeatX); + cellParams.value = llformat("%f", x); specularMapRowParams.columns.add(cellParams); cellParams.column = "specular_map_list_repeat_y"; - cellParams.value = llformat("%d", specularMapRepeatY); + cellParams.value = llformat("%f", y); specularMapRowParams.columns.add(cellParams); cellParams.column = "specular_map_list_rotation"; - cellParams.value = llformat("%d", specularMapRotation); + cellParams.value = llformat("%d", material.getSpecularRotation()); specularMapRowParams.columns.add(cellParams); + const LLColor4U& specularColor = material.getSpecularLightColor(); cellParams.column = "specular_color"; cellParams.value = llformat("(%d, %d, %d, %d)", specularColor.mV[0], specularColor.mV[1], specularColor.mV[2], specularColor.mV[3]); otherDataRowParams.columns.add(cellParams); cellParams.column = "specular_exponent"; - cellParams.value = llformat("%d", specularExp); + cellParams.value = llformat("%d", material.getSpecularLightExponent()); otherDataRowParams.columns.add(cellParams); cellParams.column = "env_intensity"; - cellParams.value = llformat("%d", envIntensity); + cellParams.value = llformat("%d", material.getEnvironmentIntensity()); otherDataRowParams.columns.add(cellParams); cellParams.column = "alpha_mask_cutoff"; - cellParams.value = llformat("%d", alphaMaskCutoff); + cellParams.value = llformat("%d", material.getAlphaMaskCutoff()); otherDataRowParams.columns.add(cellParams); cellParams.column = "diffuse_alpha_mode"; - cellParams.value = llformat("%d", diffuseAlphaMode); + cellParams.value = llformat("%d", material.getDiffuseAlphaMode()); otherDataRowParams.columns.add(cellParams); normalMapRowParams.value = materialIDString; @@ -1377,85 +1277,20 @@ void LLFloaterDebugMaterials::parsePostResponse(const LLSD& pMultiContent) for (LLSD::array_const_iterator materialIter = unzippedPostData.beginArray(); materialIter != unzippedPostData.endArray(); ++materialIter) { - const LLSD &material = *materialIter; - llassert(material.isMap()); - llassert(material.has(MATERIALS_CAP_OBJECT_ID_FIELD)); - llassert(material.get(MATERIALS_CAP_OBJECT_ID_FIELD).isBinary()); - const LLSD &materialID = material.get(MATERIALS_CAP_OBJECT_ID_FIELD); + const LLSD &material_entry = *materialIter; + llassert(material_entry.isMap()); + llassert(material_entry.has(MATERIALS_CAP_OBJECT_ID_FIELD)); + llassert(material_entry.get(MATERIALS_CAP_OBJECT_ID_FIELD).isBinary()); + const LLSD &materialID = material_entry.get(MATERIALS_CAP_OBJECT_ID_FIELD); std::string materialIDString = convertToPrintableMaterialID(materialID); - llassert(material.has(MATERIALS_CAP_MATERIAL_FIELD)); - const LLSD &materialData = material.get(MATERIALS_CAP_MATERIAL_FIELD); + llassert(material_entry.has(MATERIALS_CAP_MATERIAL_FIELD)); + const LLSD &materialData = material_entry.get(MATERIALS_CAP_MATERIAL_FIELD); llassert(materialData.isMap()); - llassert(materialData.has(MATERIALS_CAP_NORMAL_MAP_FIELD)); - llassert(materialData.get(MATERIALS_CAP_NORMAL_MAP_FIELD).isUUID()); - const LLUUID &normalMapID = materialData.get(MATERIALS_CAP_NORMAL_MAP_FIELD).asUUID(); + LLMaterial material(materialData); - llassert(materialData.has(MATERIALS_CAP_NORMAL_MAP_OFFSET_X_FIELD)); - llassert(materialData.get(MATERIALS_CAP_NORMAL_MAP_OFFSET_X_FIELD).isInteger()); - S32 normalMapOffsetX = materialData.get(MATERIALS_CAP_NORMAL_MAP_OFFSET_X_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_NORMAL_MAP_OFFSET_Y_FIELD)); - llassert(materialData.get(MATERIALS_CAP_NORMAL_MAP_OFFSET_Y_FIELD).isInteger()); - S32 normalMapOffsetY = materialData.get(MATERIALS_CAP_NORMAL_MAP_OFFSET_Y_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_NORMAL_MAP_REPEAT_X_FIELD)); - llassert(materialData.get(MATERIALS_CAP_NORMAL_MAP_REPEAT_X_FIELD).isInteger()); - S32 normalMapRepeatX = materialData.get(MATERIALS_CAP_NORMAL_MAP_REPEAT_X_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_NORMAL_MAP_REPEAT_Y_FIELD)); - llassert(materialData.get(MATERIALS_CAP_NORMAL_MAP_REPEAT_Y_FIELD).isInteger()); - S32 normalMapRepeatY = materialData.get(MATERIALS_CAP_NORMAL_MAP_REPEAT_Y_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_NORMAL_MAP_ROTATION_FIELD)); - llassert(materialData.get(MATERIALS_CAP_NORMAL_MAP_ROTATION_FIELD).isInteger()); - S32 normalMapRotation = materialData.get(MATERIALS_CAP_NORMAL_MAP_ROTATION_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_SPECULAR_MAP_FIELD)); - llassert(materialData.get(MATERIALS_CAP_SPECULAR_MAP_FIELD).isUUID()); - const LLUUID &specularMapID = materialData.get(MATERIALS_CAP_SPECULAR_MAP_FIELD).asUUID(); - - llassert(materialData.has(MATERIALS_CAP_SPECULAR_MAP_OFFSET_X_FIELD)); - llassert(materialData.get(MATERIALS_CAP_SPECULAR_MAP_OFFSET_X_FIELD).isInteger()); - S32 specularMapOffsetX = materialData.get(MATERIALS_CAP_SPECULAR_MAP_OFFSET_X_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_SPECULAR_MAP_OFFSET_Y_FIELD)); - llassert(materialData.get(MATERIALS_CAP_SPECULAR_MAP_OFFSET_Y_FIELD).isInteger()); - S32 specularMapOffsetY = materialData.get(MATERIALS_CAP_SPECULAR_MAP_OFFSET_Y_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_SPECULAR_MAP_REPEAT_X_FIELD)); - llassert(materialData.get(MATERIALS_CAP_SPECULAR_MAP_REPEAT_X_FIELD).isInteger()); - S32 specularMapRepeatX = materialData.get(MATERIALS_CAP_SPECULAR_MAP_REPEAT_X_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_SPECULAR_MAP_REPEAT_Y_FIELD)); - llassert(materialData.get(MATERIALS_CAP_SPECULAR_MAP_REPEAT_Y_FIELD).isInteger()); - S32 specularMapRepeatY = materialData.get(MATERIALS_CAP_SPECULAR_MAP_REPEAT_Y_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_SPECULAR_MAP_ROTATION_FIELD)); - llassert(materialData.get(MATERIALS_CAP_SPECULAR_MAP_ROTATION_FIELD).isInteger()); - S32 specularMapRotation = materialData.get(MATERIALS_CAP_SPECULAR_MAP_ROTATION_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_SPECULAR_COLOR_FIELD)); - llassert(materialData.get(MATERIALS_CAP_SPECULAR_COLOR_FIELD).isArray()); - LLColor4U specularColor; - specularColor.setValue(materialData.get(MATERIALS_CAP_SPECULAR_COLOR_FIELD)); - - llassert(materialData.has(MATERIALS_CAP_SPECULAR_EXP_FIELD)); - llassert(materialData.get(MATERIALS_CAP_SPECULAR_EXP_FIELD).isInteger()); - S32 specularExp = materialData.get(MATERIALS_CAP_SPECULAR_EXP_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_ENV_INTENSITY_FIELD)); - llassert(materialData.get(MATERIALS_CAP_ENV_INTENSITY_FIELD).isInteger()); - S32 envIntensity = materialData.get(MATERIALS_CAP_ENV_INTENSITY_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_ALPHA_MASK_CUTOFF_FIELD)); - llassert(materialData.get(MATERIALS_CAP_ALPHA_MASK_CUTOFF_FIELD).isInteger()); - S32 alphaMaskCutoff = materialData.get(MATERIALS_CAP_ALPHA_MASK_CUTOFF_FIELD).asInteger(); - - llassert(materialData.has(MATERIALS_CAP_DIFFUSE_ALPHA_MODE_FIELD)); - llassert(materialData.get(MATERIALS_CAP_DIFFUSE_ALPHA_MODE_FIELD).isInteger()); - S32 diffuseAlphaMode = materialData.get(MATERIALS_CAP_DIFFUSE_ALPHA_MODE_FIELD).asInteger(); + F32 x, y; cellParams.font = LLFontGL::getFontMonospace(); @@ -1466,78 +1301,79 @@ void LLFloaterDebugMaterials::parsePostResponse(const LLSD& pMultiContent) otherDataRowParams.columns.add(cellParams); cellParams.column = "normal_map_list_map"; - cellParams.value = normalMapID.asString(); + cellParams.value = material.getNormalID().asString(); normalMapRowParams.columns.add(cellParams); cellParams.font = LLFontGL::getFontSansSerif(); + material.getNormalOffset(x, y); cellParams.column = "normal_map_list_offset_x"; - cellParams.value = llformat("%d", normalMapOffsetX); + cellParams.value = llformat("%f", x); normalMapRowParams.columns.add(cellParams); - cellParams.column = "normal_map_list_offset_y"; - cellParams.value = llformat("%d", normalMapOffsetY); + cellParams.value = llformat("%f", y); normalMapRowParams.columns.add(cellParams); + material.getNormalRepeat(x, y); cellParams.column = "normal_map_list_repeat_x"; - cellParams.value = llformat("%d", normalMapRepeatX); + cellParams.value = llformat("%f", x); normalMapRowParams.columns.add(cellParams); - cellParams.column = "normal_map_list_repeat_y"; - cellParams.value = llformat("%d", normalMapRepeatY); + cellParams.value = llformat("%f", y); normalMapRowParams.columns.add(cellParams); cellParams.column = "normal_map_list_rotation"; - cellParams.value = llformat("%d", normalMapRotation); + cellParams.value = llformat("%f", material.getNormalRotation()); normalMapRowParams.columns.add(cellParams); cellParams.font = LLFontGL::getFontMonospace(); cellParams.column = "specular_map_list_map"; - cellParams.value = specularMapID.asString(); + cellParams.value = material.getSpecularID().asString(); specularMapRowParams.columns.add(cellParams); cellParams.font = LLFontGL::getFontSansSerif(); + material.getSpecularOffset(x, y); cellParams.column = "specular_map_list_offset_x"; - cellParams.value = llformat("%d", specularMapOffsetX); + cellParams.value = llformat("%f", x); specularMapRowParams.columns.add(cellParams); - cellParams.column = "specular_map_list_offset_y"; - cellParams.value = llformat("%d", specularMapOffsetY); + cellParams.value = llformat("%f", y); specularMapRowParams.columns.add(cellParams); + material.getSpecularRepeat(x, y); cellParams.column = "specular_map_list_repeat_x"; - cellParams.value = llformat("%d", specularMapRepeatX); + cellParams.value = llformat("%f", x); specularMapRowParams.columns.add(cellParams); - cellParams.column = "specular_map_list_repeat_y"; - cellParams.value = llformat("%d", specularMapRepeatY); + cellParams.value = llformat("%f", y); specularMapRowParams.columns.add(cellParams); cellParams.column = "specular_map_list_rotation"; - cellParams.value = llformat("%d", specularMapRotation); + cellParams.value = llformat("%d", material.getSpecularRotation()); specularMapRowParams.columns.add(cellParams); + const LLColor4U& specularColor = material.getSpecularLightColor(); cellParams.column = "specular_color"; cellParams.value = llformat("(%d, %d, %d, %d)", specularColor.mV[0], specularColor.mV[1], specularColor.mV[2], specularColor.mV[3]); otherDataRowParams.columns.add(cellParams); cellParams.column = "specular_exponent"; - cellParams.value = llformat("%d", specularExp); + cellParams.value = llformat("%d", material.getSpecularLightExponent()); otherDataRowParams.columns.add(cellParams); cellParams.column = "env_intensity"; - cellParams.value = llformat("%d", envIntensity); + cellParams.value = llformat("%d", material.getEnvironmentIntensity()); otherDataRowParams.columns.add(cellParams); cellParams.column = "alpha_mask_cutoff"; - cellParams.value = llformat("%d", alphaMaskCutoff); + cellParams.value = llformat("%d", material.getAlphaMaskCutoff()); otherDataRowParams.columns.add(cellParams); cellParams.column = "diffuse_alpha_mode"; - cellParams.value = llformat("%d", diffuseAlphaMode); + cellParams.value = llformat("%d", material.getDiffuseAlphaMode()); otherDataRowParams.columns.add(cellParams); normalMapRowParams.value = materialIDString; @@ -1824,93 +1660,51 @@ std::string LLFloaterDebugMaterials::convertToPrintableMaterialID(const LLMateri return materialIDString; } -S32 LLFloaterDebugMaterials::getNormalMapOffsetX() const -{ - return getLineEditorValue(mNormalMapOffsetX); -} +template<typename T> T getLineEditorValue(const LLLineEditor *pLineEditor); -S32 LLFloaterDebugMaterials::getNormalMapOffsetY() const +template<> F32 getLineEditorValue(const LLLineEditor *pLineEditor) { - return getLineEditorValue(mNormalMapOffsetY); -} + F32 value = 0; -S32 LLFloaterDebugMaterials::getNormalMapRepeatX() const -{ - return getLineEditorValue(mNormalMapRepeatX); -} + LLStringUtil::convertToF32(pLineEditor->getText(), value); -S32 LLFloaterDebugMaterials::getNormalMapRepeatY() const -{ - return getLineEditorValue(mNormalMapRepeatY); + return value; } -S32 LLFloaterDebugMaterials::getNormalMapRotation() const +template<> U8 getLineEditorValue(const LLLineEditor *pLineEditor) { - return getLineEditorValue(mNormalMapRotation); -} + U8 value = 0; -S32 LLFloaterDebugMaterials::getSpecularMapOffsetX() const -{ - return getLineEditorValue(mSpecularMapOffsetX); -} + LLStringUtil::convertToU8(pLineEditor->getText(), value); -S32 LLFloaterDebugMaterials::getSpecularMapOffsetY() const -{ - return getLineEditorValue(mSpecularMapOffsetY); + return value; } -S32 LLFloaterDebugMaterials::getSpecularMapRepeatX() const +LLMaterial LLFloaterDebugMaterials::getMaterial() const { - return getLineEditorValue(mSpecularMapRepeatX); -} + LLMaterial material; -S32 LLFloaterDebugMaterials::getSpecularMapRepeatY() const -{ - return getLineEditorValue(mSpecularMapRepeatY); -} + material.setNormalID(mNormalMap->getImageAssetID()); + material.setNormalOffset(getLineEditorValue<F32>(mNormalMapOffsetX), getLineEditorValue<F32>(mNormalMapOffsetY)); + material.setNormalRepeat(getLineEditorValue<F32>(mNormalMapRepeatX), getLineEditorValue<F32>(mNormalMapRepeatY)); + material.setNormalRotation(getLineEditorValue<F32>(mNormalMapRotation)); -S32 LLFloaterDebugMaterials::getSpecularMapRotation() const -{ - return getLineEditorValue(mSpecularMapRotation); -} + material.setSpecularID(mSpecularMap->getImageAssetID()); + material.setSpecularOffset(getLineEditorValue<F32>(mSpecularMapOffsetX), getLineEditorValue<F32>(mSpecularMapOffsetY)); + material.setSpecularRepeat(getLineEditorValue<F32>(mSpecularMapRepeatX), getLineEditorValue<F32>(mSpecularMapRepeatY)); + material.setSpecularRotation(getLineEditorValue<F32>(mSpecularMapRotation)); -LLColor4U LLFloaterDebugMaterials::getSpecularColor() const -{ const LLColor4& specularColor = mSpecularColor->get(); LLColor4U specularColor4U = specularColor; - specularColor4U.setAlpha(static_cast<U8>(llclamp(llround(mSpecularColorAlpha->get()), 0, 255))); + material.setSpecularLightColor(specularColor4U); - return specularColor4U; -} - -S32 LLFloaterDebugMaterials::getSpecularExponent() const -{ - return getLineEditorValue(mSpecularExponent); -} - -S32 LLFloaterDebugMaterials::getEnvironmentExponent() const -{ - return getLineEditorValue(mEnvironmentExponent); -} - -S32 LLFloaterDebugMaterials::getAlphMaskCutoff() const -{ - return getLineEditorValue(mAlphaMaskCutoff); -} - -S32 LLFloaterDebugMaterials::getDiffuseAlphaMode() const -{ - return getLineEditorValue(mDiffuseAlphaMode); -} + material.setSpecularLightExponent(getLineEditorValue<U8>(mSpecularExponent)); + material.setEnvironmentIntensity(getLineEditorValue<U8>(mEnvironmentExponent)); + material.setDiffuseAlphaMode(getLineEditorValue<U8>(mDiffuseAlphaMode)); + material.setAlphaMaskCutoff(getLineEditorValue<U8>(mAlphaMaskCutoff)); -S32 LLFloaterDebugMaterials::getLineEditorValue(const LLLineEditor *pLineEditor) const -{ - S32 value = 0; - - LLStringUtil::convertToS32(pLineEditor->getText(), value); - - return value; + return material; } MaterialsResponder::MaterialsResponder(const std::string& pMethod, const std::string& pCapabilityURL, CallbackFunction pCallback) diff --git a/indra/newview/llfloaterdebugmaterials.h b/indra/newview/llfloaterdebugmaterials.h index 565e440187..7fc077dd34 100644 --- a/indra/newview/llfloaterdebugmaterials.h +++ b/indra/newview/llfloaterdebugmaterials.h @@ -40,6 +40,7 @@ class LLButton; class LLColorSwatchCtrl; class LLColor4U; class LLLineEditor; +class LLMaterial; class LLMaterialID; class LLScrollListCtrl; class LLSD; @@ -136,24 +137,7 @@ private: std::string convertToPrintableMaterialID(const LLSD& pBinaryHash) const; std::string convertToPrintableMaterialID(const LLMaterialID& pMaterialID) const; - S32 getNormalMapOffsetX() const; - S32 getNormalMapOffsetY() const; - S32 getNormalMapRepeatX() const; - S32 getNormalMapRepeatY() const; - S32 getNormalMapRotation() const; - - S32 getSpecularMapOffsetX() const; - S32 getSpecularMapOffsetY() const; - S32 getSpecularMapRepeatX() const; - S32 getSpecularMapRepeatY() const; - S32 getSpecularMapRotation() const; - - LLColor4U getSpecularColor() const; - S32 getSpecularExponent() const; - S32 getEnvironmentExponent() const; - S32 getAlphMaskCutoff() const; - S32 getDiffuseAlphaMode() const; - S32 getLineEditorValue(const LLLineEditor *pLineEditor) const; + LLMaterial getMaterial() const; LLTextBase* mStatusText; LLButton* mGetButton; |