/* Copyright 2015 MongoDB Inc. * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU Affero General Public License, version 3, * as published by the Free Software Foundation. * * This program 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 Affero General Public License for more details. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . * * As a special exception, the copyright holders give permission to link the * code of portions of this program with the OpenSSL library under certain * conditions as described in each individual source file and distribute * linked combinations including the program with the OpenSSL library. You * must comply with the GNU Affero General Public License in all respects * for all of the code used other than as permitted herein. If you modify * file(s) with this exception, you may extend this exception to your * version of the file(s), but you are not obligated to do so. If you do not * wish to do so, delete this exception statement from your version. If you * delete this exception statement from all source files in the program, * then also delete it in the license file. */ #include "mongo/platform/basic.h" #include "mongo/platform/decimal128.h" #include "mongo/util/assert_util.h" namespace mongo { Decimal128::Decimal128(int32_t int32Value) { invariant(false); } Decimal128::Decimal128(int64_t int64Value) { invariant(false); } Decimal128::Decimal128(double doubleValue, RoundingPrecision roundPrecision, RoundingMode roundMode) { invariant(false); } Decimal128::Decimal128(std::string stringValue, RoundingMode roundMode) { invariant(false); } Decimal128::Value Decimal128::getValue() const { invariant(false); } Decimal128 Decimal128::toAbs() const { invariant(false); } int32_t Decimal128::toInt(RoundingMode roundMode) const { invariant(false); } int32_t Decimal128::toInt(uint32_t* signalingFlags, RoundingMode roundMode) const { invariant(false); } int64_t Decimal128::toLong(RoundingMode roundMode) const { invariant(false); } int64_t Decimal128::toLong(uint32_t* signalingFlags, RoundingMode roundMode) const { invariant(false); } int32_t Decimal128::toIntExact(RoundingMode roundMode) const { invariant(false); } int32_t Decimal128::toIntExact(uint32_t* signalingFlags, RoundingMode roundMode) const { invariant(false); } int64_t Decimal128::toLongExact(RoundingMode roundMode) const { invariant(false); } int64_t Decimal128::toLongExact(uint32_t* signalingFlags, RoundingMode roundMode) const { invariant(false); } double Decimal128::toDouble(RoundingMode roundMode) const { invariant(false); } double Decimal128::toDouble(uint32_t* signalingFlags, RoundingMode roundMode) const { invariant(false); } std::string Decimal128::toString() const { invariant(false); } bool Decimal128::isZero() const { invariant(false); } bool Decimal128::isNaN() const { invariant(false); } bool Decimal128::isInfinite() const { invariant(false); } bool Decimal128::isNegative() const { invariant(false); } Decimal128 Decimal128::add(const Decimal128& other, RoundingMode roundMode) const { invariant(false); } Decimal128 Decimal128::add(const Decimal128& other, uint32_t* signalingFlags, RoundingMode roundMode) const { invariant(false); } Decimal128 Decimal128::subtract(const Decimal128& other, RoundingMode roundMode) const { invariant(false); } Decimal128 Decimal128::subtract(const Decimal128& other, uint32_t* signalingFlags, RoundingMode roundMode) const { invariant(false); } Decimal128 Decimal128::multiply(const Decimal128& other, RoundingMode roundMode) const { invariant(false); } Decimal128 Decimal128::multiply(const Decimal128& other, uint32_t* signalingFlags, RoundingMode roundMode) const { invariant(false); } Decimal128 Decimal128::divide(const Decimal128& other, RoundingMode roundMode) const { invariant(false); } Decimal128 Decimal128::divide(const Decimal128& other, uint32_t* signalingFlags, RoundingMode roundMode) const { invariant(false); } Decimal128 Decimal128::quantize(const Decimal128& other, RoundingMode roundMode) const { invariant(false); } Decimal128 Decimal128::quantize(const Decimal128& reference, uint32_t* signalingFlags, RoundingMode roundMode) const { invariant(false); } Decimal128 Decimal128::normalize() const { invariant(false); } bool Decimal128::isEqual(const Decimal128& other) const { invariant(false); } bool Decimal128::isNotEqual(const Decimal128& other) const { invariant(false); } bool Decimal128::isGreater(const Decimal128& other) const { invariant(false); } bool Decimal128::isGreaterEqual(const Decimal128& other) const { invariant(false); } bool Decimal128::isLess(const Decimal128& other) const { invariant(false); } bool Decimal128::isLessEqual(const Decimal128& other) const { invariant(false); } const Decimal128 Decimal128::kLargestPositive = Decimal128(); const Decimal128 Decimal128::kSmallestPositive = Decimal128(); const Decimal128 Decimal128::kLargestNegative = Decimal128(); const Decimal128 Decimal128::kSmallestNegative = Decimal128(); const Decimal128 Decimal128::kLargestNegativeExponentZero = Decimal128(); const Decimal128 Decimal128::kPositiveInfinity = Decimal128(); const Decimal128 Decimal128::kNegativeInfinity = Decimal128(); const Decimal128 Decimal128::kPositiveNaN = Decimal128(); const Decimal128 Decimal128::kNegativeNaN = Decimal128(); const Decimal128 Decimal128::kNormalizedZero = {}; } // namespace mongo