/*------------------------------------------------------------------------- * drawElements Quality Program Random Shader Generator * ---------------------------------------------------- * * Copyright 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * *//*! * \file * \brief Variable Value class. *//*--------------------------------------------------------------------*/ #include "rsgVariableValue.hpp" namespace rsg { namespace { template bool compareValueRangesAllTrue (const ConstValueRangeAccess& a, const ConstValueRangeAccess& b) { DE_ASSERT(a.getType() == b.getType()); if (a.getType().isStruct()) { int numMembers = (int)a.getType().getMembers().size(); for (int ndx = 0; ndx < numMembers; ndx++) { if (!compareValueRangesAllTrue(a.member(ndx), b.member(ndx))) return false; } } else if (a.getType().isArray()) { int numElements = (int)a.getType().getNumElements(); for (int ndx = 0; ndx < numElements; ndx++) { if (!compareValueRangesAllTrue(a.arrayElement(ndx), b.arrayElement(ndx))) return false; } } else { int numElements = (int)a.getType().getNumElements(); switch (a.getType().getBaseType()) { case VariableType::TYPE_FLOAT: for (int ndx = 0; ndx < numElements; ndx++) { float aMin = a.component(ndx).getMin().asFloat(); float aMax = a.component(ndx).getMax().asFloat(); float bMin = b.component(ndx).getMin().asFloat(); float bMax = b.component(ndx).getMax().asFloat(); if (!CompareOp()(aMin, aMax, bMin, bMax)) return false; } break; case VariableType::TYPE_INT: case VariableType::TYPE_SAMPLER_2D: case VariableType::TYPE_SAMPLER_CUBE: for (int ndx = 0; ndx < numElements; ndx++) { int aMin = a.component(ndx).getMin().asInt(); int aMax = a.component(ndx).getMax().asInt(); int bMin = b.component(ndx).getMin().asInt(); int bMax = b.component(ndx).getMax().asInt(); if (!CompareOp()(aMin, aMax, bMin, bMax)) return false; } break; case VariableType::TYPE_BOOL: for (int ndx = 0; ndx < numElements; ndx++) { bool aMin = a.component(ndx).getMin().asBool(); bool aMax = a.component(ndx).getMax().asBool(); bool bMin = b.component(ndx).getMin().asBool(); bool bMax = b.component(ndx).getMax().asBool(); if (!CompareOp()(aMin, aMax, bMin, bMax)) return false; } break; default: DE_ASSERT(DE_FALSE); return false; } } return true; } inline int toInt (bool boolVal) { return boolVal ? 1 : 0; } struct CompareIntersection { inline bool operator() (float aMin, float aMax, float bMin, float bMax) const { return (aMin <= bMax && bMin <= aMax); } inline bool operator() (int aMin, int aMax, int bMin, int bMax) const { return (aMin <= bMax && bMin <= aMax); } inline bool operator() (bool aMin, bool aMax, bool bMin, bool bMax) const { return CompareIntersection()(toInt(aMin), toInt(aMax), toInt(bMin), toInt(bMax)); } }; struct CompareIsSubsetOf { inline bool operator() (float aMin, float aMax, float bMin, float bMax) const { return de::inRange(aMin, bMin, bMax) && de::inRange(aMax, bMin, bMax); } inline bool operator() (int aMin, int aMax, int bMin, int bMax) const { return de::inRange(aMin, bMin, bMax) && de::inRange(aMax, bMin, bMax); } inline bool operator() (bool aMin, bool aMax, bool bMin, bool bMax) const { return CompareIsSubsetOf()(toInt(aMin), toInt(aMax), toInt(bMin), toInt(bMax)); } }; } // anonymous bool ConstValueRangeAccess::intersects (const ConstValueRangeAccess& other) const { return compareValueRangesAllTrue(*this, other); } bool ConstValueRangeAccess::isSubsetOf (const ConstValueRangeAccess& other) const { return compareValueRangesAllTrue(*this, other); } bool ConstValueRangeAccess::isSupersetOf (const ConstValueRangeAccess& other) const { return other.isSubsetOf(*this); } ValueRange::ValueRange (const VariableType& type) : m_type (type) , m_min (type.getScalarSize()) , m_max (type.getScalarSize()) { } ValueRange::ValueRange (const VariableType& type, const ConstValueAccess& minVal, const ConstValueAccess& maxVal) : m_type (type) , m_min (type.getScalarSize()) , m_max (type.getScalarSize()) { getMin() = minVal.value(); getMax() = maxVal.value(); } ValueRange::ValueRange (const VariableType& type, const Scalar* minVal, const Scalar* maxVal) : m_type (type) , m_min (type.getScalarSize()) , m_max (type.getScalarSize()) { getMin() = ConstValueAccess(type, minVal).value(); getMax() = ConstValueAccess(type, maxVal).value(); } ValueRange::ValueRange (ConstValueRangeAccess other) : m_type (other.getType()) , m_min (other.getType().getScalarSize()) , m_max (other.getType().getScalarSize()) { getMin() = other.getMin().value(); getMax() = other.getMax().value(); } ValueRange::~ValueRange (void) { } void ValueRange::computeIntersection (ValueRange& dst, const ConstValueRangeAccess& a, const ConstValueRangeAccess& b) { computeIntersection(dst.asAccess(), a, b); } void ValueRange::computeIntersection (ValueRangeAccess dst, const ConstValueRangeAccess& a, const ConstValueRangeAccess& b) { DE_ASSERT(dst.getType() == a.getType() && dst.getType() == b.getType()); if (a.getType().isStruct()) { int numMembers = (int)a.getType().getMembers().size(); for (int ndx = 0; ndx < numMembers; ndx++) computeIntersection(dst.member(ndx), a.member(ndx), b.member(ndx)); } else if (a.getType().isArray()) { int numElements = (int)a.getType().getNumElements(); for (int ndx = 0; ndx < numElements; ndx++) computeIntersection(dst.arrayElement(ndx), a.arrayElement(ndx), b.arrayElement(ndx)); } else { int numElements = (int)a.getType().getNumElements(); switch (a.getType().getBaseType()) { case VariableType::TYPE_FLOAT: for (int ndx = 0; ndx < numElements; ndx++) { float aMin = a.component(ndx).getMin().asFloat(); float aMax = a.component(ndx).getMax().asFloat(); float bMin = b.component(ndx).getMin().asFloat(); float bMax = b.component(ndx).getMax().asFloat(); dst.component(ndx).getMin() = de::max(aMin, bMin); dst.component(ndx).getMax() = de::min(aMax, bMax); } break; case VariableType::TYPE_INT: case VariableType::TYPE_SAMPLER_2D: case VariableType::TYPE_SAMPLER_CUBE: for (int ndx = 0; ndx < numElements; ndx++) { int aMin = a.component(ndx).getMin().asInt(); int aMax = a.component(ndx).getMax().asInt(); int bMin = b.component(ndx).getMin().asInt(); int bMax = b.component(ndx).getMax().asInt(); dst.component(ndx).getMin() = de::max(aMin, bMin); dst.component(ndx).getMax() = de::min(aMax, bMax); } break; case VariableType::TYPE_BOOL: for (int ndx = 0; ndx < numElements; ndx++) { bool aMin = a.component(ndx).getMin().asBool(); bool aMax = a.component(ndx).getMax().asBool(); bool bMin = b.component(ndx).getMin().asBool(); bool bMax = b.component(ndx).getMax().asBool(); dst.component(ndx).getMin() = aMin || bMin; dst.component(ndx).getMax() = aMax && bMax; } break; default: DE_ASSERT(DE_FALSE); } } } VariableValue::VariableValue (const VariableValue& other) : m_variable(other.m_variable) , m_storage(other.m_variable->getType()) { m_storage.getValue(getType()) = other.getValue().value(); } VariableValue& VariableValue::operator= (const VariableValue& other) { m_variable = other.m_variable; m_storage.setStorage(getType()); m_storage.getValue(getType()) = other.getValue().value(); return *this; } } // rsg