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-rw-r--r--indra/llprimitive/llmaterial.cpp457
1 files changed, 349 insertions, 108 deletions
diff --git a/indra/llprimitive/llmaterial.cpp b/indra/llprimitive/llmaterial.cpp
index 57ceb3e11b..c0fefaae73 100644
--- a/indra/llprimitive/llmaterial.cpp
+++ b/indra/llprimitive/llmaterial.cpp
@@ -65,23 +65,23 @@ const F32 MATERIALS_MULTIPLIER = 10000.f;
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];
- }
- LL_ERRS() << "Missing or mistyped field '" << field << "' in material definition" << LL_ENDL;
- return (T)LLSD();
+ if ( (data.has(field)) && (field_type == data[field].type()) )
+ {
+ return (T)data[field];
+ }
+ LL_ERRS() << "Missing or mistyped field '" << field << "' in material definition" << LL_ENDL;
+ return (T)LLSD();
}
// GCC didn't like the generic form above for some reason
template<> LLUUID getMaterialField(const LLSD& data, const std::string& field, const LLSD::Type field_type)
{
- if ( (data.has(field)) && (field_type == data[field].type()) )
- {
- return data[field].asUUID();
- }
- LL_ERRS() << "Missing or mistyped field '" << field << "' in material definition" << LL_ENDL;
- return LLUUID::null;
+ if ( (data.has(field)) && (field_type == data[field].type()) )
+ {
+ return data[field].asUUID();
+ }
+ LL_ERRS() << "Missing or mistyped field '" << field << "' in material definition" << LL_ENDL;
+ return LLUUID::null;
}
/**
@@ -91,137 +91,378 @@ template<> LLUUID getMaterialField(const LLSD& data, const std::string& field, c
const LLMaterial LLMaterial::null;
LLMaterial::LLMaterial()
- : mNormalOffsetX(0.0f)
- , mNormalOffsetY(0.0f)
- , mNormalRepeatX(1.0f)
- , mNormalRepeatY(1.0f)
- , mNormalRotation(0.0f)
- , mSpecularOffsetX(0.0f)
- , mSpecularOffsetY(0.0f)
- , mSpecularRepeatX(1.0f)
- , mSpecularRepeatY(1.0f)
- , mSpecularRotation(0.0f)
- , mSpecularLightColor(LLMaterial::DEFAULT_SPECULAR_LIGHT_COLOR)
- , mSpecularLightExponent(LLMaterial::DEFAULT_SPECULAR_LIGHT_EXPONENT)
- , mEnvironmentIntensity(LLMaterial::DEFAULT_ENV_INTENSITY)
- , mDiffuseAlphaMode(LLMaterial::DIFFUSE_ALPHA_MODE_BLEND)
- , mAlphaMaskCutoff(0)
+ : mNormalOffsetX(0.0f)
+ , mNormalOffsetY(0.0f)
+ , mNormalRepeatX(1.0f)
+ , mNormalRepeatY(1.0f)
+ , mNormalRotation(0.0f)
+ , mSpecularOffsetX(0.0f)
+ , mSpecularOffsetY(0.0f)
+ , mSpecularRepeatX(1.0f)
+ , mSpecularRepeatY(1.0f)
+ , mSpecularRotation(0.0f)
+ , mSpecularLightColor(LLMaterial::DEFAULT_SPECULAR_LIGHT_COLOR)
+ , mSpecularLightExponent(LLMaterial::DEFAULT_SPECULAR_LIGHT_EXPONENT)
+ , mEnvironmentIntensity(LLMaterial::DEFAULT_ENV_INTENSITY)
+ , mDiffuseAlphaMode(LLMaterial::DIFFUSE_ALPHA_MODE_BLEND)
+ , mAlphaMaskCutoff(0)
{
}
LLMaterial::LLMaterial(const LLSD& material_data)
{
- fromLLSD(material_data);
+ fromLLSD(material_data);
}
-LLSD LLMaterial::asLLSD() const
+const LLUUID& LLMaterial::getNormalID() const
+{
+ return mNormalID;
+}
+
+void LLMaterial::setNormalID(const LLUUID& normal_id)
+{
+ mNormalID = normal_id;
+}
+
+void LLMaterial::getNormalOffset(F32& offset_x, F32& offset_y) const
+{
+ offset_x = mNormalOffsetX;
+ offset_y = mNormalOffsetY;
+}
+
+F32 LLMaterial::getNormalOffsetX() const
+{
+ return mNormalOffsetX;
+}
+
+F32 LLMaterial::getNormalOffsetY() const
+{
+ return mNormalOffsetY;
+}
+
+void LLMaterial::setNormalOffset(F32 offset_x, F32 offset_y)
+{
+ mNormalOffsetX = offset_x;
+ mNormalOffsetY = offset_y;
+}
+
+void LLMaterial::setNormalOffsetX(F32 offset_x)
+{
+ mNormalOffsetX = offset_x;
+}
+
+void LLMaterial::setNormalOffsetY(F32 offset_y)
+{
+ mNormalOffsetY = offset_y;
+}
+
+void LLMaterial::getNormalRepeat(F32& repeat_x, F32& repeat_y) const
+{
+ repeat_x = mNormalRepeatX;
+ repeat_y = mNormalRepeatY;
+}
+
+F32 LLMaterial::getNormalRepeatX() const
+{
+ return mNormalRepeatX;
+}
+
+F32 LLMaterial::getNormalRepeatY() const
+{
+ return mNormalRepeatY;
+}
+
+void LLMaterial::setNormalRepeat(F32 repeat_x, F32 repeat_y)
+{
+ mNormalRepeatX = repeat_x;
+ mNormalRepeatY = repeat_y;
+}
+
+void LLMaterial::setNormalRepeatX(F32 repeat_x)
+{
+ mNormalRepeatX = repeat_x;
+}
+
+void LLMaterial::setNormalRepeatY(F32 repeat_y)
+{
+ mNormalRepeatY = repeat_y;
+}
+
+F32 LLMaterial::getNormalRotation() const
+{
+ return mNormalRotation;
+}
+
+void LLMaterial::setNormalRotation(F32 rot)
+{
+ mNormalRotation = rot;
+}
+
+const LLUUID& LLMaterial::getSpecularID() const
+{
+ return mSpecularID;
+}
+
+void LLMaterial::setSpecularID(const LLUUID& specular_id)
+{
+ mSpecularID = specular_id;
+}
+
+void LLMaterial::getSpecularOffset(F32& offset_x, F32& offset_y) const
+{
+ offset_x = mSpecularOffsetX;
+ offset_y = mSpecularOffsetY;
+}
+
+F32 LLMaterial::getSpecularOffsetX() const
+{
+ return mSpecularOffsetX;
+}
+
+F32 LLMaterial::getSpecularOffsetY() const
+{
+ return mSpecularOffsetY;
+}
+
+void LLMaterial::setSpecularOffset(F32 offset_x, F32 offset_y)
+{
+ mSpecularOffsetX = offset_x;
+ mSpecularOffsetY = offset_y;
+}
+
+void LLMaterial::setSpecularOffsetX(F32 offset_x)
{
- LLSD material_data;
+ mSpecularOffsetX = offset_x;
+}
- material_data[MATERIALS_CAP_NORMAL_MAP_FIELD] = mNormalID;
- material_data[MATERIALS_CAP_NORMAL_MAP_OFFSET_X_FIELD] = ll_round(mNormalOffsetX * MATERIALS_MULTIPLIER);
- material_data[MATERIALS_CAP_NORMAL_MAP_OFFSET_Y_FIELD] = ll_round(mNormalOffsetY * MATERIALS_MULTIPLIER);
- material_data[MATERIALS_CAP_NORMAL_MAP_REPEAT_X_FIELD] = ll_round(mNormalRepeatX * MATERIALS_MULTIPLIER);
- material_data[MATERIALS_CAP_NORMAL_MAP_REPEAT_Y_FIELD] = ll_round(mNormalRepeatY * MATERIALS_MULTIPLIER);
- material_data[MATERIALS_CAP_NORMAL_MAP_ROTATION_FIELD] = ll_round(mNormalRotation * MATERIALS_MULTIPLIER);
+void LLMaterial::setSpecularOffsetY(F32 offset_y)
+{
+ mSpecularOffsetY = offset_y;
+}
- material_data[MATERIALS_CAP_SPECULAR_MAP_FIELD] = mSpecularID;
- material_data[MATERIALS_CAP_SPECULAR_MAP_OFFSET_X_FIELD] = ll_round(mSpecularOffsetX * MATERIALS_MULTIPLIER);
- material_data[MATERIALS_CAP_SPECULAR_MAP_OFFSET_Y_FIELD] = ll_round(mSpecularOffsetY * MATERIALS_MULTIPLIER);
- material_data[MATERIALS_CAP_SPECULAR_MAP_REPEAT_X_FIELD] = ll_round(mSpecularRepeatX * MATERIALS_MULTIPLIER);
- material_data[MATERIALS_CAP_SPECULAR_MAP_REPEAT_Y_FIELD] = ll_round(mSpecularRepeatY * MATERIALS_MULTIPLIER);
- material_data[MATERIALS_CAP_SPECULAR_MAP_ROTATION_FIELD] = ll_round(mSpecularRotation * MATERIALS_MULTIPLIER);
+void LLMaterial::getSpecularRepeat(F32& repeat_x, F32& repeat_y) const
+{
+ repeat_x = mSpecularRepeatX;
+ repeat_y = mSpecularRepeatY;
+}
- 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_DIFFUSE_ALPHA_MODE_FIELD] = mDiffuseAlphaMode;
- material_data[MATERIALS_CAP_ALPHA_MASK_CUTOFF_FIELD] = mAlphaMaskCutoff;
+F32 LLMaterial::getSpecularRepeatX() const
+{
+ return mSpecularRepeatX;
+}
- return material_data;
+F32 LLMaterial::getSpecularRepeatY() const
+{
+ return mSpecularRepeatY;
+}
+
+void LLMaterial::setSpecularRepeat(F32 repeat_x, F32 repeat_y)
+{
+ mSpecularRepeatX = repeat_x; mSpecularRepeatY = repeat_y;
+}
+
+void LLMaterial::setSpecularRepeatX(F32 repeat_x)
+{
+ mSpecularRepeatX = repeat_x;
+}
+
+void LLMaterial::setSpecularRepeatY(F32 repeat_y)
+{
+ mSpecularRepeatY = repeat_y;
+}
+
+F32 LLMaterial::getSpecularRotation() const
+{
+ return mSpecularRotation;
+}
+
+void LLMaterial::setSpecularRotation(F32 rot)
+{
+ mSpecularRotation = rot;
+}
+
+const LLColor4U LLMaterial::getSpecularLightColor() const
+{
+ return mSpecularLightColor;
+}
+
+void LLMaterial::setSpecularLightColor(const LLColor4U& color)
+{
+ mSpecularLightColor = color;
+}
+
+U8 LLMaterial::getSpecularLightExponent() const
+{
+ return mSpecularLightExponent;
+}
+
+void LLMaterial::setSpecularLightExponent(U8 exponent)
+{
+ mSpecularLightExponent = exponent;
+}
+
+U8 LLMaterial::getEnvironmentIntensity() const
+{
+ return mEnvironmentIntensity;
+}
+
+void LLMaterial::setEnvironmentIntensity(U8 intensity)
+{
+ mEnvironmentIntensity = intensity;
+}
+
+U8 LLMaterial::getDiffuseAlphaMode() const
+{
+ return mDiffuseAlphaMode;
+}
+
+void LLMaterial::setDiffuseAlphaMode(U8 alpha_mode)
+{
+ mDiffuseAlphaMode = alpha_mode;
+}
+
+U8 LLMaterial::getAlphaMaskCutoff() const
+{
+ return mAlphaMaskCutoff;
+}
+
+void LLMaterial::setAlphaMaskCutoff(U8 cutoff)
+{
+ mAlphaMaskCutoff = cutoff;
+}
+
+LLSD LLMaterial::asLLSD() const
+{
+ LLSD material_data;
+
+ S32 normalOffsetXInt = ll_round(mNormalOffsetX * MATERIALS_MULTIPLIER);
+ S32 normalOffsetYInt = ll_round(mNormalOffsetY * MATERIALS_MULTIPLIER);
+ S32 normalRotInt = ll_round(mNormalRotation * MATERIALS_MULTIPLIER);
+
+ material_data[MATERIALS_CAP_NORMAL_MAP_FIELD] = mNormalID;
+ material_data[MATERIALS_CAP_NORMAL_MAP_OFFSET_X_FIELD] = normalOffsetXInt;
+ material_data[MATERIALS_CAP_NORMAL_MAP_OFFSET_Y_FIELD] = normalOffsetYInt;
+ material_data[MATERIALS_CAP_NORMAL_MAP_REPEAT_X_FIELD] = ll_round(mNormalRepeatX * MATERIALS_MULTIPLIER);
+ material_data[MATERIALS_CAP_NORMAL_MAP_REPEAT_Y_FIELD] = ll_round(mNormalRepeatY * MATERIALS_MULTIPLIER);
+ material_data[MATERIALS_CAP_NORMAL_MAP_ROTATION_FIELD] = normalRotInt;
+
+ material_data[MATERIALS_CAP_SPECULAR_MAP_FIELD] = mSpecularID;
+
+ S32 specularOffsetXInt = ll_round(mSpecularOffsetX * MATERIALS_MULTIPLIER);
+ S32 specularOffsetYInt = ll_round(mSpecularOffsetY * MATERIALS_MULTIPLIER);
+ S32 specularRotInt = ll_round(mSpecularRotation * MATERIALS_MULTIPLIER);
+
+ material_data[MATERIALS_CAP_SPECULAR_MAP_OFFSET_X_FIELD] = specularOffsetXInt;
+ material_data[MATERIALS_CAP_SPECULAR_MAP_OFFSET_Y_FIELD] = specularOffsetYInt;
+ material_data[MATERIALS_CAP_SPECULAR_MAP_REPEAT_X_FIELD] = ll_round(mSpecularRepeatX * MATERIALS_MULTIPLIER);
+ material_data[MATERIALS_CAP_SPECULAR_MAP_REPEAT_Y_FIELD] = ll_round(mSpecularRepeatY * MATERIALS_MULTIPLIER);
+ material_data[MATERIALS_CAP_SPECULAR_MAP_ROTATION_FIELD] = specularRotInt;
+
+ 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_DIFFUSE_ALPHA_MODE_FIELD] = mDiffuseAlphaMode;
+ material_data[MATERIALS_CAP_ALPHA_MASK_CUTOFF_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_MULTIPLIER;
- mNormalOffsetY = (F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_NORMAL_MAP_OFFSET_Y_FIELD, LLSD::TypeInteger) / MATERIALS_MULTIPLIER;
- mNormalRepeatX = (F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_NORMAL_MAP_REPEAT_X_FIELD, LLSD::TypeInteger) / MATERIALS_MULTIPLIER;
- mNormalRepeatY = (F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_NORMAL_MAP_REPEAT_Y_FIELD, LLSD::TypeInteger) / MATERIALS_MULTIPLIER;
- mNormalRotation = (F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_NORMAL_MAP_ROTATION_FIELD, LLSD::TypeInteger) / MATERIALS_MULTIPLIER;
+ mNormalID = getMaterialField<LLSD::UUID>(material_data, MATERIALS_CAP_NORMAL_MAP_FIELD, LLSD::TypeUUID);
+
+ S32 normalOffsetXInt = getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_NORMAL_MAP_OFFSET_X_FIELD, LLSD::TypeInteger);
+ S32 normalOffsetYInt = getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_NORMAL_MAP_OFFSET_Y_FIELD, LLSD::TypeInteger);
+ S32 normalRotInt = getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_NORMAL_MAP_ROTATION_FIELD, LLSD::TypeInteger);
+
+ mNormalOffsetX = F32(normalOffsetXInt) / MATERIALS_MULTIPLIER;
+ mNormalOffsetY = F32(normalOffsetYInt) / MATERIALS_MULTIPLIER;
+ mNormalRotation = F32(normalRotInt) / MATERIALS_MULTIPLIER;
+
+ mNormalOffsetY = ((F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_NORMAL_MAP_OFFSET_Y_FIELD, LLSD::TypeInteger)) / MATERIALS_MULTIPLIER;
+ mNormalRepeatX = ((F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_NORMAL_MAP_REPEAT_X_FIELD, LLSD::TypeInteger)) / MATERIALS_MULTIPLIER;
+ mNormalRepeatY = ((F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_NORMAL_MAP_REPEAT_Y_FIELD, LLSD::TypeInteger)) / MATERIALS_MULTIPLIER;
+
+ mSpecularID = getMaterialField<LLSD::UUID>(material_data, MATERIALS_CAP_SPECULAR_MAP_FIELD, LLSD::TypeUUID);
+
+ S32 specularOffsetXInt = getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_SPECULAR_MAP_OFFSET_X_FIELD, LLSD::TypeInteger);
+ S32 specularOffsetYInt = getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_SPECULAR_MAP_OFFSET_Y_FIELD, LLSD::TypeInteger);
+ S32 specularRotInt = getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_SPECULAR_MAP_ROTATION_FIELD, LLSD::TypeInteger);
+
+ mSpecularOffsetX = F32(specularOffsetXInt) / MATERIALS_MULTIPLIER;
+ mSpecularOffsetY = F32(specularOffsetYInt) / MATERIALS_MULTIPLIER;
+ mSpecularRotation = F32(specularRotInt) / MATERIALS_MULTIPLIER;
- 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_MULTIPLIER;
- mSpecularOffsetY = (F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_SPECULAR_MAP_OFFSET_Y_FIELD, LLSD::TypeInteger) / MATERIALS_MULTIPLIER;
- mSpecularRepeatX = (F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_SPECULAR_MAP_REPEAT_X_FIELD, LLSD::TypeInteger) / MATERIALS_MULTIPLIER;
- mSpecularRepeatY = (F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_SPECULAR_MAP_REPEAT_Y_FIELD, LLSD::TypeInteger) / MATERIALS_MULTIPLIER;
- mSpecularRotation = (F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_SPECULAR_MAP_ROTATION_FIELD, LLSD::TypeInteger) / MATERIALS_MULTIPLIER;
+ mSpecularOffsetY = ((F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_SPECULAR_MAP_OFFSET_Y_FIELD, LLSD::TypeInteger)) / MATERIALS_MULTIPLIER;
+ mSpecularRepeatX = ((F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_SPECULAR_MAP_REPEAT_X_FIELD, LLSD::TypeInteger)) / MATERIALS_MULTIPLIER;
+ mSpecularRepeatY = ((F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_SPECULAR_MAP_REPEAT_Y_FIELD, LLSD::TypeInteger)) / MATERIALS_MULTIPLIER;
+ mSpecularRotation = ((F32)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_SPECULAR_MAP_ROTATION_FIELD, LLSD::TypeInteger)) / MATERIALS_MULTIPLIER;
- 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_DIFFUSE_ALPHA_MODE_FIELD, LLSD::TypeInteger);
- mAlphaMaskCutoff = (U8)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_ALPHA_MASK_CUTOFF_FIELD, LLSD::TypeInteger);
+ 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_DIFFUSE_ALPHA_MODE_FIELD, LLSD::TypeInteger);
+ mAlphaMaskCutoff = (U8)getMaterialField<LLSD::Integer>(material_data, MATERIALS_CAP_ALPHA_MASK_CUTOFF_FIELD, LLSD::TypeInteger);
}
bool LLMaterial::isNull() const
{
- return (*this == null);
+ return (*this == null);
}
bool LLMaterial::operator == (const LLMaterial& rhs) const
{
- return
- (mNormalID == rhs.mNormalID) && (mNormalOffsetX == rhs.mNormalOffsetX) && (mNormalOffsetY == rhs.mNormalOffsetY) &&
- (mNormalRepeatX == rhs.mNormalRepeatX) && (mNormalRepeatY == rhs.mNormalRepeatY) && (mNormalRotation == rhs.mNormalRotation) &&
- (mSpecularID == rhs.mSpecularID) && (mSpecularOffsetX == rhs.mSpecularOffsetX) && (mSpecularOffsetY == rhs.mSpecularOffsetY) &&
- (mSpecularRepeatX == rhs.mSpecularRepeatX) && (mSpecularRepeatY == rhs.mSpecularRepeatY) && (mSpecularRotation == rhs.mSpecularRotation) &&
- (mSpecularLightColor == rhs.mSpecularLightColor) && (mSpecularLightExponent == rhs.mSpecularLightExponent) &&
- (mEnvironmentIntensity == rhs.mEnvironmentIntensity) && (mDiffuseAlphaMode == rhs.mDiffuseAlphaMode) && (mAlphaMaskCutoff == rhs.mAlphaMaskCutoff);
+ return
+ (mNormalID == rhs.mNormalID) && (mNormalOffsetX == rhs.mNormalOffsetX) && (mNormalOffsetY == rhs.mNormalOffsetY) &&
+ (mNormalRepeatX == rhs.mNormalRepeatX) && (mNormalRepeatY == rhs.mNormalRepeatY) && (mNormalRotation == rhs.mNormalRotation) &&
+ (mSpecularID == rhs.mSpecularID) && (mSpecularOffsetX == rhs.mSpecularOffsetX) && (mSpecularOffsetY == rhs.mSpecularOffsetY) &&
+ (mSpecularRepeatX == rhs.mSpecularRepeatX) && (mSpecularRepeatY == rhs.mSpecularRepeatY) && (mSpecularRotation == rhs.mSpecularRotation) &&
+ (mSpecularLightColor == rhs.mSpecularLightColor) && (mSpecularLightExponent == rhs.mSpecularLightExponent) &&
+ (mEnvironmentIntensity == rhs.mEnvironmentIntensity) && (mDiffuseAlphaMode == rhs.mDiffuseAlphaMode) && (mAlphaMaskCutoff == rhs.mAlphaMaskCutoff);
}
bool LLMaterial::operator != (const LLMaterial& rhs) const
{
- return !(*this == rhs);
+ return !(*this == rhs);
}
U32 LLMaterial::getShaderMask(U32 alpha_mode)
{ //NEVER incorporate this value into the message system -- this function will vary depending on viewer implementation
- U32 ret = 0;
-
- //two least significant bits are "diffuse alpha mode"
- if (alpha_mode != DIFFUSE_ALPHA_MODE_DEFAULT)
- {
- ret = alpha_mode;
- }
- else
- {
- ret = getDiffuseAlphaMode();
- }
-
- llassert(ret < SHADER_COUNT);
-
- //next bit is whether or not specular map is present
- const U32 SPEC_BIT = 0x4;
-
- if (getSpecularID().notNull())
- {
- ret |= SPEC_BIT;
- }
-
- llassert(ret < SHADER_COUNT);
-
- //next bit is whether or not normal map is present
- const U32 NORM_BIT = 0x8;
- if (getNormalID().notNull())
- {
- ret |= NORM_BIT;
- }
-
- llassert(ret < SHADER_COUNT);
-
- return ret;
+ U32 ret = 0;
+
+ //two least significant bits are "diffuse alpha mode"
+ if (alpha_mode != DIFFUSE_ALPHA_MODE_DEFAULT)
+ {
+ ret = alpha_mode;
+ }
+ else
+ {
+ ret = getDiffuseAlphaMode();
+ }
+
+ llassert(ret < SHADER_COUNT);
+
+ //next bit is whether or not specular map is present
+ const U32 SPEC_BIT = 0x4;
+
+ if (getSpecularID().notNull())
+ {
+ ret |= SPEC_BIT;
+ }
+
+ llassert(ret < SHADER_COUNT);
+
+ //next bit is whether or not normal map is present
+ const U32 NORM_BIT = 0x8;
+ if (getNormalID().notNull())
+ {
+ ret |= NORM_BIT;
+ }
+
+ llassert(ret < SHADER_COUNT);
+
+ return ret;
}